| Line 6... |
Line 6... |
#### ORPSoCv2 Testbenches Makefile, containing rules for ####
|
#### ORPSoCv2 Testbenches Makefile, containing rules for ####
|
#### configuring and running different tests on the current ####
|
#### configuring and running different tests on the current ####
|
#### ORPSoC(v2) design. ####
|
#### ORPSoC(v2) design. ####
|
#### ####
|
#### ####
|
#### To do: ####
|
#### To do: ####
|
#### * Test if each software test file gets made properly ####
|
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#### before it's run in whatever model we're using ####
|
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#### * Expand software test-suite (uClibc, ecos tests, LTP?) ####
|
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#### ####
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#### ####
|
#### Author(s): ####
|
#### Author(s): ####
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#### - Julius Baxter, julius.baxter@orsoc.se ####
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#### - Julius Baxter, julius@opencores.org ####
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#### ####
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#### ####
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#### ####
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#### ####
|
######################################################################
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######################################################################
|
#### ####
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#### ####
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#### Copyright (C) 2009,2010 Authors and OPENCORES.ORG ####
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#### Copyright (C) 2009,2010 Authors and OPENCORES.ORG ####
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| Line 41... |
Line 38... |
#### Public License along with this source; if not, download it ####
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#### Public License along with this source; if not, download it ####
|
#### from http://www.opencores.org/lgpl.shtml ####
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#### from http://www.opencores.org/lgpl.shtml ####
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#### ####
|
#### ####
|
######################################################################
|
######################################################################
|
|
|
# Usage:
|
|
#
|
|
# make rtl-tests
|
|
#
|
|
# Run the software tests in the RTL model of the ORPSoC being
|
|
# simulated with an event-driven simulator like Icarus. It's also
|
|
# possible to use Modelsim's vsim and Cadence's Verilog simulators.
|
|
#
|
|
# make vlt-tests
|
|
#
|
|
# Run all the software tests in the RTL model which has been
|
|
# converted into a cycle-accurate SystemC model with Verilator.
|
|
#
|
|
# make sim-tests
|
|
#
|
|
# Run all the software tests in the architectural simulator
|
|
#
|
|
#
|
|
# Debugging modes:
|
|
#
|
|
# make rtl-debug
|
|
#
|
|
# Enable a GDB stub integrated into the simulation via VPI. This will
|
|
# start a simulation, then the GDB server, and allow the user to connect
|
|
# using the OpenRISC GDB port. It should provide the same functionality
|
|
# as GDB to a physical target, although a little slower.
|
|
# It is provided here as an example of how to compile and run an OpenRISC
|
|
# model at RTL level with support for debugging from GDB.
|
|
# UART output from printf() is enabled by default. The model loads with
|
|
# the dhrystone test running as default, but can be changed by defining
|
|
# VPI_TEST_SW at the command line. Logging of the processor's execution
|
|
# is also disabled by default to speed up simulation.
|
|
#
|
|
|
|
# Simulation results:
|
|
#
|
|
# The results and output of the event-driven simulations are in the
|
|
# results path, in parallel to the simulation run and bin paths.
|
|
|
|
# Specific tests:
|
|
#
|
|
# To run an individual test, specify it in the variable TESTS when
|
|
# calling make, eg:
|
|
#
|
|
# make rtl-tests TESTS="mmu-nocache mul-idcd-O2"
|
|
|
|
# UART printf:
|
|
#
|
|
# It is possible to enable printf to the console via the UART when
|
|
# running the event-driven simulators. To do this define UART_PRINTF=1
|
|
# when calling make. The SystemC cycle-acccurate model uses this by
|
|
# default.
|
|
# Also note when switching between runs with and without UART printf
|
|
# enabled, run a clean-sw so the library files are recompiled when
|
|
# the tests are run - this is not done automatically.
|
|
|
|
# VCDs:
|
|
#
|
|
# VCD (value change dumps, usable in a waveform viewer, such as gtkwave
|
|
# to inspect the internals of the system graphically) files can be
|
|
# generated by defining a variable VCD, eg.
|
|
#
|
|
# make rtl-tests VCD=1
|
|
#
|
|
# and a dump file will be created in the simulation results directory,
|
|
# and named according to the test run which generated it. This is
|
|
# possible for both event-driven and cycle-accurate simulations.
|
|
# However the cycle-accurate
|
|
|
|
# NO_SIM_LOGGING:
|
|
#
|
|
# It is possible to speed up the event-driven simulation slightly by
|
|
# disabling log output of the processor's state to files by defining
|
|
# NO_SIM_LOGGING, eg:
|
|
#
|
|
# make rtl-tests TESTS=except-icdc NO_SIM_LOGGING=1
|
|
#
|
|
|
|
# Cleaning:
|
|
# A simple "make clean" cleans everything - software and all temporary
|
|
# simulation files and directories. To clean just the software run:
|
|
#
|
|
# make clean-sw
|
|
#
|
|
# and to clean just the temporary simulation files (including VCDs,
|
|
# results logs - everything under, and including, sim/results/, run
|
|
#
|
|
# make clean-sim
|
|
#
|
|
|
|
# Note:
|
|
#
|
|
# The way each of the test loops is written is probably a bit overly complex
|
|
# but this is to save maintaining, and calling, multiple files.
|
|
#
|
|
|
|
# Model configuration:
|
|
#
|
|
# Currently, the ORPSoCv2, by default, contains an internal SRAM (configurable
|
|
# size - check the defparam in rtl/verilog/orpsoc_top.v), standard OR1200 (check
|
|
# the config in rtl/verilog/or1200_defines.v) and UART.
|
|
# Switches can be passed to enable certain parts of the design if testing with
|
|
# these is desired.
|
|
#
|
|
# SDRAM and controller
|
|
#
|
|
# To enable the use of SDRAM, define USE_SDRAM when calling the sim -this
|
|
# only has an effect in the event-driven simulators as the external SDRAM model
|
|
# is not availble in SystemC format. eg:
|
|
#
|
|
# make rtl-tests USE_SDRAM=1
|
|
#
|
|
# This not only enables SDRAM but also enables the booting from external SPI
|
|
# interfaced flash memory. This causes significant increase in the time taken
|
|
# for simulation as the program to test is first loaded out of SPI flash memory
|
|
# and into SDRAM before it is executed. Although this more closely mimics the
|
|
# behaviour of the hardware, for simulation purposes it is purely time-consuming
|
|
# however it may be useful to track down any problems with this boot-loading
|
|
# process. Therefore, becuase it enables SDRAM memory, it also enables the flash
|
|
# memory model and SPI controller inside ORPSoC.
|
|
#
|
|
# Ethernet
|
|
#
|
|
# Ethernet is disabled by default. This is due to the fact that it is not
|
|
# supported in the verilator/systemC model. Also, there is currently no software
|
|
# which tests it in any meaningful way.
|
|
#
|
|
|
|
#
|
|
# Event-driven simulation compilation
|
|
#
|
|
# The way the event-driven simulations are compiled is simply using the
|
|
# configuration script file in this directory, currently called icarus.scr -
|
|
# however it is first processesed to replace the variables, beginning with $'s,
|
|
# with the appropriate paths. Instead of naming each file to be compiled, the
|
|
# paths to be searched for each module are instead defined ( -y paths), and
|
|
# only the toplevel testbench and library source files are explicitly named.
|
|
# This simplifies the script, and also requires that the name of each verilog
|
|
# source file is the same as the module it contains (a good convention
|
|
# regardless.) In addition to the script/command file, defines are passed to
|
|
# the compiler via the command line in the EVENT_SIM_FLAGS variable.
|
|
# Additionally, a source file, test_define.v, is created with some defines
|
|
# that cannot be passed to the compiled reliably (there are differences between
|
|
# the way, for instance, icarus and ncverilog parse strings +define+'d on the
|
|
# command line). This file is then included at the appropriate places.
|
|
# It is probably not ideal that the entire design be re-compiled for each test,
|
|
# but currently the design is small enough so that this doesn't cause a
|
|
# significant overhead, unlike the cycle-accurate model compile time.
|
|
#
|
|
|
|
#
|
|
# SystemC cycle-accurate model compilation
|
|
#
|
|
# A new addition to ORPSoC v2 is the cycle-accurate model. The primary enabler
|
|
# behind this is verilator, which processes the RTL source and generates a c++
|
|
# description of the system. This c++ description is then compiled, with a
|
|
# SystemC wrapper. Finally a top-level SystemC testbench instantiates the
|
|
# model, and other useful modules - in this case a reset generation, UART
|
|
# decoder, and monitor module are included at the top level. These additional
|
|
# modules and models are written in SystemC. Finally, everything is linked with
|
|
# the cycle-accurate ORPSoC model to create the simulation executable. This
|
|
# executable is the cycle-representation of the system.
|
|
#
|
|
# Run the resulting executable with the -h switch for usage.
|
|
#
|
|
# The compilation is all done with the GNU c++ compiler, g++.
|
|
#
|
|
# The compilation process is a little more complicated than the event-driven
|
|
# simulator. It proceeds basically by generating the makefiles for compiling
|
|
# the design with verilator, running these makes which produces a library
|
|
# containing the cycle-accurate ORPSoC design, compiling the additional
|
|
# top-level, and testbench, systemC models into a library, and then linking it
|
|
# all together into the simulation executable.
|
|
#
|
|
# The major advantage of the cycle-accurate model is that it is quicker, in
|
|
# terms of simulated cycles/second, when compared with event-driven simulators.
|
|
# It is, of course, less accurate in that it cannot model propegation delays.
|
|
# However this is usually not an issue for simulating a design which is known
|
|
# to synthesize and run OK. It is very useful for running complex software,
|
|
# such as the linux kernel and real-time OS applications, which generally
|
|
# result in long simulation times.
|
|
#
|
|
# Currently the cycle-accurate model being used doesn't contain much more than
|
|
# the processor and a UART, however it's exepected in future this will be
|
|
# expanded on and more complex software test suites will be implemented to put
|
|
# the system through its paces.
|
|
#
|
|
#
|
|
#
|
|
|
|
# Name of the directory we're currently in
|
# Name of the directory we're currently in
|
CUR_DIR=$(shell pwd)
|
CUR_DIR=$(shell pwd)
|
|
|
# The root path of the whole project
|
# The root path of the whole project
|
PROJECT_ROOT ?=$(CUR_DIR)/../..
|
PROJECT_ROOT ?=$(CUR_DIR)/../..
|
|
|
# Tests is only defined if it wasn't already defined when make was called
|
# Need this for individual test variables to not break
|
# This is the default list of every test that is currently possible
|
TEST ?= or1200-simple
|
|
|
TESTS ?= or1200-simple or1200-cbasic or1200-dctest or1200-float or1200-mmu or1200asm-basic or1200asm-except or1200asm-mac or1200asm-linkregtest or1200asm-tick or1200asm-ticksyscall uart-simple
|
TESTS ?= or1200-simple or1200-cbasic or1200-dctest or1200-float or1200-mmu or1200asm-basic or1200asm-except or1200asm-mac or1200asm-linkregtest or1200asm-tick or1200asm-ticksyscall uart-simple
|
#basic-nocache cbasic-nocache-O2 dhry-nocache-O2 except-nocache mmu-nocache mul-nocache-O2 syscall-nocache tick-nocache uart-nocache basic-icdc cbasic-icdc-O2 dhry-icdc-O2 except-icdc mmu-icdc mul-icdc-O2 syscall-icdc tick-icdc uart-icdc
|
|
|
DESIGN_NAME=orpsoc
|
|
RTL_TESTBENCH_TOP=$(DESIGN_NAME)_testbench
|
|
|
|
# Gets turned into verilog `define
|
|
SIM_TYPE=RTL
|
|
|
# Paths to other important parts of this test suite
|
# Paths to other important parts of this test suite
|
|
RTL_DIR = $(PROJECT_ROOT)/rtl
|
|
RTL_VERILOG_DIR = $(RTL_DIR)/verilog
|
|
RTL_VERILOG_INCLUDE_DIR = $(RTL_VERILOG_DIR)/include
|
|
#RTL_VHDL_DIR = $(RTL_DIR)/vhdl
|
|
|
|
PROJECT_VERILOG_DEFINES=$(RTL_VERILOG_INCLUDE_DIR)/$(DESIGN_NAME)-defines.v
|
|
# Detect technology to use for the simulation
|
|
DESIGN_DEFINES=$(shell cat $(PROJECT_VERILOG_DEFINES) | sed s://.*::g | sed s:\`:\#:g | sed 's:^[ ]*::' | awk '{print};/^\#define/{printf "_%s=%s\n",$$2,$$2}' | grep -v PERIOD | cpp -P | sed s:^_::g | sed s:=$$::g )
|
|
|
|
# Rule to look at what defines are being extracted from main file
|
|
print-defines:
|
|
@echo echo; echo "\t### Design defines ###"; echo
|
|
@echo "\tParsing "$(PROJECT_VERILOG_DEFINES)" and exporting:"
|
|
@echo $(DESIGN_DEFINES)
|
|
|
|
|
|
# Simulation directories
|
SIM_DIR ?=$(PROJECT_ROOT)/sim
|
SIM_DIR ?=$(PROJECT_ROOT)/sim
|
SIM_RUN_DIR=$(SIM_DIR)/run
|
RTL_SIM_DIR=$(SIM_DIR)
|
SIM_BIN_DIR=$(SIM_DIR)/bin
|
RTL_SIM_RUN_DIR=$(RTL_SIM_DIR)/run
|
SIM_RESULTS_DIR=$(SIM_DIR)/results
|
RTL_SIM_BIN_DIR=$(RTL_SIM_DIR)/bin
|
SIM_VLT_DIR=$(SIM_DIR)/vlt
|
RTL_SIM_SRC_DIR=$(RTL_SIM_DIR)/src
|
|
RTL_SIM_RESULTS_DIR=$(RTL_SIM_DIR)/out
|
|
|
|
# Testbench paths
|
BENCH_DIR=$(PROJECT_ROOT)/bench
|
BENCH_DIR=$(PROJECT_ROOT)/bench
|
BACKEND_DIR ?=$(PROJECT_ROOT)/backend
|
|
BENCH_VERILOG_DIR=$(BENCH_DIR)/verilog
|
BENCH_VERILOG_DIR=$(BENCH_DIR)/verilog
|
BENCH_TOP_VERILOG_DIR ?= $(BENCH_DIR)/verilog
|
#BENCH_VHDL_DIR=$(BENCH_DIR)/vhdl
|
BENCH_SYSC_DIR=$(BENCH_DIR)/sysc
|
|
BENCH_SYSC_SRC_DIR=$(BENCH_SYSC_DIR)/src
|
|
BENCH_SYSC_INCLUDE_DIR=$(BENCH_SYSC_DIR)/include
|
|
RTL_VERILOG_DIR=$(PROJECT_ROOT)/rtl/verilog
|
|
SW_DIR=$(PROJECT_ROOT)/sw
|
|
|
|
ICARUS=iverilog
|
# System software dir
|
ICARUS_VVP=vvp
|
SW_DIR=$(PROJECT_ROOT)/sw
|
VSIM_COMP=vlog
|
# BootROM code, which generates a verilog array select values
|
VSIM=vsim
|
BOOTROM_FILE=bootrom.v
|
NCVERILOG=ncverilog
|
BOOTROM_SW_DIR=$(SW_DIR)/bootrom
|
SILOS=silos
|
BOOTROM_SRC=$(shell ls $(BOOTROM_SW_DIR)/* | grep -v $(BOOTROM_FILE))
|
ICARUS_COMMAND_FILE=icarus.scr
|
BOOTROM_VERILOG=$(BOOTROM_SW_DIR)/$(BOOTROM_FILE)
|
VLT_COMMAND_FILE=verilator.scr
|
$(BOOTROM_VERILOG): $(BOOTROM_SRC)
|
SIM_SUCCESS_MESSAGE=8000000d
|
$(Q)echo; echo "\t### Generating bootup ROM ###"; echo
|
MGC_COMMAND_FILE=modelsim.scr
|
$(Q)$(MAKE) -C $(BOOTROM_SW_DIR) $(BOOTROM_FILE)
|
|
|
ARCH_SIM_EXE=or32-elf-sim
|
# Suffix of file to check after each test for the string
|
ARCH_SIM_CFG_FILE=or1ksim-orpsocv2.cfg
|
TEST_OUT_FILE_SUFFIX=-general.log
|
|
TEST_OK_STRING=8000000d
|
|
|
|
# Dynamically generated verilog file defining configuration for various things
|
|
TEST_DEFINES_VLG=test-defines.v
|
# Set V=1 when calling make to enable verbose output
|
# Set V=1 when calling make to enable verbose output
|
# mainly for debugging purposes.
|
# mainly for debugging purposes.
|
ifeq ($(V), 1)
|
ifeq ($(V), 1)
|
Q=
|
Q=
|
|
QUIET=
|
else
|
else
|
Q=@
|
Q ?=@
|
|
QUIET=-quiet
|
endif
|
endif
|
|
|
# If USE_SDRAM is defined we'll add it to the simulator's defines on the
|
# Modelsim variables
|
# command line becuase it's used by many different modules and it's easier
|
MGC_VSIM=vsim
|
# to do it this way than make them all include a file.
|
MGC_VLOG_COMP=vlog
|
ifdef USE_SDRAM
|
MGC_VHDL_COMP=vcom
|
EVENT_SIM_FLAGS +=USE_SDRAM=$(USE_SDRAM)
|
MODELSIM=modelsim
|
endif
|
|
|
# Icarus variables
|
# Enable ethernet if defined on the command line
|
ICARUS_COMPILE=iverilog
|
ifdef USE_ETHERNET
|
ICARUS_RUN=vvp
|
EVENT_SIM_FLAGS +=USE_ETHERNET=$(USE_ETHERNET) USE_ETHERNET_IO=$(USE_ETHERNET)
|
ICARUS_SCRIPT=icarus.scr
|
# Extra tests we do if ethernet is enabled
|
ICARUS_SIM_EXE=vlogsim.elf
|
TESTS += eth-basic eth-int
|
ICARUS=icarus
|
endif
|
|
|
|
DASH_D_EVENT_SIM_FLAGS=$(shell for flag in $(EVENT_SIM_FLAGS); do echo "-D "$$flag; done)
|
|
PLUS_DEFINE_EVENT_SIM_FLAGS=$(shell for flag in $(EVENT_SIM_FLAGS); do echo "+define+"$$flag; done)
|
|
|
|
#Default simulator is Icarus Verilog
|
#Default simulator is Icarus Verilog
|
# Set SIMULATOR=vsim to use Modelsim
|
# Set SIMULATOR=modelsim to use Modelsim
|
# Set SIMULATOR=ncverilog to use Cadence's NC-Verilog
|
# Set SIMULATOR=ncverilog to use Cadence's NC-Verilog - TODO
|
SIMULATOR ?= $(ICARUS)
|
# Set SIMULATOR=icarus to use Icarus Verilog (Default)
|
|
|
# Set the command file to use, simulator dependent
|
|
ifeq ($(SIMULATOR), $(ICARUS))
|
|
# Icarus Verilog Simulator
|
|
SIM_COMMANDFILE=$(ICARUS_COMMAND_FILE)
|
|
endif
|
|
|
|
ifeq ($(SIMULATOR), $(VSIM))
|
SIMULATOR ?= $(ICARUS)
|
# Modelsim has own command file (it's a little more stupid than Icarus & NC)
|
|
SIM_COMMANDFILE=$(MGC_COMMAND_FILE)
|
|
endif
|
|
|
|
ifeq ($(SIMULATOR), $(NCVERILOG))
|
|
# NCVerilog uses same command file as Icarus
|
|
SIM_COMMANDFILE=$(ICARUS_COMMAND_FILE)
|
|
endif
|
|
|
|
ifeq ($(SIMULATOR), $(SILOS))
|
# VPI debugging interface variables
|
# SILOS uses same command file as Icarus (this should be default)
|
VPI_SRC_C_DIR=$(BENCH_VERILOG_DIR)/vpi/c
|
SIM_COMMANDFILE=$(ICARUS_COMMAND_FILE)
|
VPI_SRCS=$(shell ls $(VPI_SRC_C_DIR)/*.[ch])
|
endif
|
|
|
|
|
# Modelsim VPI compile variables
|
|
MODELTECH_VPILIB=msim_jp_vpi.sl
|
|
# Icarus VPI compile target
|
|
ICARUS_VPILIB=jp_vpi
|
|
|
GENERATED_COMMANDFILE=$(SIM_COMMANDFILE).generated
|
|
|
|
# When Modelsim is selected as simulator, we compile
|
|
# the ORPSoC system into one library called orpsoc and
|
|
# then simply re-compile the testbench and or1200_monitor
|
|
# whenever we run the simulation, so just that part is
|
|
# recompiled for every test, instead of the whole thing.
|
|
MGC_ORPSOC_LIB=orpsoc
|
|
MGC_ORPSOC_LIB_DIR=$(SIM_RUN_DIR)/$(MGC_ORPSOC_LIB)
|
|
|
|
|
#
|
|
# Modelsim-specific settings
|
|
#
|
|
VOPT_ARGS=$(QUIET) -suppress 2241
|
# If VCD dump is desired, tell Modelsim not to optimise
|
# If VCD dump is desired, tell Modelsim not to optimise
|
# away everything.
|
# away everything.
|
ifeq ($(VCD), 1)
|
ifeq ($(VCD), 1)
|
VOPT_ARGS=-voptargs="+acc=rnp"
|
#VOPT_ARGS=-voptargs="+acc=rnp"
|
|
VOPT_ARGS=+acc=rnpqv
|
endif
|
endif
|
|
# VSIM commands
|
|
# Suppressed warnings - 3009: Failed to open $readmemh() file
|
|
# Suppressed warnings - 3009: Module 'blah' does not have a `timescale directive in effect, but previous modules do.
|
|
# Suppressed warnings - 8598: Non-positive replication multiplier inside concat. Replication will be ignored
|
|
VSIM_ARGS= -suppress 7 -suppress 3009 -suppress 8598 -c $(QUIET) -do "set StdArithNoWarnings 1; run -all; exit"
|
|
# Modelsim VPI settings
|
|
ifeq ($(VPI), 1)
|
|
VPI_LIBS=$(VPI_SRC_C_DIR)/$(MODELTECH_VPILIB)
|
|
VSIM_ARGS += -pli $(VPI_SRC_C_DIR)/$(MODELTECH_VPILIB)
|
|
endif
|
|
# Rule to make the VPI library for modelsim
|
|
$(VPI_SRC_C_DIR)/$(MODELTECH_VPILIB): $(VPI_SRCS)
|
|
$(MAKE) -C $(VPI_SRC_C_DIR) $(MODELTECH_VPILIB)
|
|
|
# RTL testbench toplevel name
|
|
RTL_TESTBENCH_TOP ?= orpsoc_testbench
|
|
|
|
# Simulation compile and run commands, depending on your
|
|
# simulator.
|
|
|
|
# Icarus Verilog
|
#
|
ifeq ($(SIMULATOR), $(ICARUS))
|
# Icarus Verilog-specific settings
|
# Icarus Verilog Simulator compile and run commands
|
#
|
SIM_COMMANDCOMPILE=rm -f $(SIM_RUN_DIR)/rtlsim.elf; $(ICARUS) -s$(RTL_TESTBENCH_TOP) -c $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE) -o rtlsim.elf $(DASH_D_EVENT_SIM_FLAGS)
|
|
# Icarus Verilog run command
|
|
SIM_COMMANDRUN=$(ICARUS_VVP) -l $(SIM_RESULTS_DIR)/$$TEST-vvp-out.log rtlsim.elf
|
|
endif
|
|
|
|
# Modelsim
|
# Rule to make the VPI library for Icarus
|
ifeq ($(SIMULATOR), $(VSIM))
|
$(VPI_SRC_C_DIR)/$(ICARUS_VPILIB): $(VPI_SRCS)
|
# Line to compile the orpsoc design into a modelsim library.
|
$(MAKE) -C $(VPI_SRC_C_DIR) $(ICARUS_VPILIB)
|
SIM_COMMANDCOMPILE=if [ ! -e work ]; then vlib work; vlib $(MGC_ORPSOC_LIB); vlog -work $(MGC_ORPSOC_LIB) -f $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE) $(PLUS_DEFINE_EVENT_SIM_FLAGS); fi
|
|
# Final modelsim compile, done each time, pulling in or1200
|
|
# monitor and the new test_defines.v file:
|
|
VSIM_COMPILE_TB=vlog +incdir+. +incdir+$(BENCH_VERILOG_DIR) -y $(BENCH_VERILOG_DIR) +libext+.v +incdir+$(BENCH_TOP_VERILOG_DIR) +incdir+$(RTL_VERILOG_DIR) +define+TEST_DEFINE_FILE $(PLUS_DEFINE_EVENT_SIM_FLAGS) $(BENCH_TOP_VERILOG_DIR)/$(RTL_TESTBENCH_TOP).v
|
|
# Simulation run command:
|
|
SIM_COMMANDRUN=$(VSIM_COMPILE_TB); $(VSIM) -c -quiet +nowarnTFMPC -L $(MGC_ORPSOC_LIB) $(VOPT_ARGS) -do "run -all; exit" $(RTL_TESTBENCH_TOP)
|
|
endif
|
|
|
|
# NCVerilog
|
|
ifeq ($(SIMULATOR), $(NCVERILOG))
|
|
SIM_COMMANDCOMPILE=echo
|
|
SIM_COMMANDRUN=$(NCVERILOG) -f $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE) -Q -l $(SIM_RESULTS_DIR)/$$TEST-$(NCVERILOG)-out.log $(EVENT_SIM_FLAGS)
|
|
endif
|
|
|
|
# Silos
|
#
|
ifeq ($(SIMULATOR), $(SILOS))
|
# Verilog DUT source variables
|
SIM_COMMANDCOMPILE=echo
|
#
|
SIM_COMMANDRUN=$(SILOS) -b -w +width_mistmatches -f $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE) -l $(SIM_RESULTS_DIR)/$$TEST-$(SILOS)-out.log $(EVENT_SIM_FLAGS)
|
# A list of paths under rtl/verilog we wish to exclude for module searching
|
endif
|
VERILOG_MODULES_EXCLUDE= include components
|
|
VERILOG_MODULES_EXCLUDE_LIST_E=$(shell for exclude in $(VERILOG_MODULES_EXCLUDE); do echo "-e $$exclude"; done)
|
|
RTL_VERILOG_MODULES=$(shell ls $(RTL_VERILOG_DIR) | grep -v $(VERILOG_MODULES_EXCLUDE_LIST_E) )
|
|
# Specific files to exclude, currently none.
|
|
#VERILOG_EXCLUDE=
|
|
#VERILOG_EXCLUDE_LIST_E=$(shell for exclude in $(VERILOG_EXCLUDE); do echo "-e $$exclude"; done)
|
|
# List of verilog source files, minus excluded files
|
|
#RTL_VERILOG_SRC=$(shell for module in $(RTL_VERILOG_MODULES); do if [ -d $(RTL_VERILOG_DIR)/$$module ]; then ls $(RTL_VERILOG_DIR)/$$module/*.v | grep -v $(VERILOG_EXCLUDE_LIST_E); fi; done)
|
|
# List of verilog source files, ignoring excludes
|
|
RTL_VERILOG_SRC=$(shell for module in $(RTL_VERILOG_MODULES); do if [ -d $(RTL_VERILOG_DIR)/$$module ]; then ls $(RTL_VERILOG_DIR)/$$module/*.v; fi; done)
|
|
|
DIVIDE_LINE=
|
|
|
|
# Names of memory files used in simulation
|
|
SIM_FLASH_MEM_FILE="flash.in"
|
|
FLASH_MEM_FILE_SUFFIX="-twobyte-sizefirst.hex"
|
|
SIM_SRAM_MEM_FILE="sram.vmem"
|
|
|
|
TESTS_PASSED=0
|
|
TESTS_PERFORMED=0;
|
|
|
|
################################################################################
|
|
# Event-driven simulator build rules
|
|
################################################################################
|
|
|
|
$(RTL_VERILOG_DIR)/components/wb_sdram_ctrl/wb_sdram_ctrl_fsm.v:
|
|
@cd $(RTL_VERILOG_DIR)/components/wb_sdram_ctrl && perl fizzim.pl -encoding onehot -terse < wb_sdram_ctrl_fsm.fzm > wb_sdram_ctrl_fsm.v
|
|
|
|
.PHONY: prepare-rtl
|
|
prepare-rtl: $(RTL_VERILOG_DIR)/components/wb_sdram_ctrl/wb_sdram_ctrl_fsm.v
|
|
|
|
$(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE): $(SIM_BIN_DIR)/$(SIM_COMMANDFILE)
|
|
$(Q)sed < $(SIM_BIN_DIR)/$(SIM_COMMANDFILE) > $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE) \
|
|
-e s!\$$BENCH_DIR!$(BENCH_VERILOG_DIR)! \
|
|
-e s!\$$RTL_DIR!$(RTL_VERILOG_DIR)! \
|
|
-e s!\$$BACKEND_DIR!$(BACKEND_DIR)! \
|
|
-e \\!^//.*\$$!d -e \\!^\$$!d ; \
|
|
echo "+define+TEST_DEFINE_FILE=\"test_define.v\"" >> $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE); \
|
|
if [ ! -z $$VCD ]; \
|
|
then echo "+define+VCD" >> $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE); \
|
|
if [ $(SIMULATOR) = $(NCVERILOG) ]; \
|
|
then echo "+access+r" >> $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE); \
|
|
fi; \
|
|
fi; \
|
|
if [ ! -z $$UART_PRINTF ]; \
|
|
then echo "+define+UART_PRINTF" >> $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE); \
|
|
fi; \
|
|
if [ $(SIMULATOR) = $(NCVERILOG) ]; \
|
|
then echo "+nocopyright" >> $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE); \
|
|
echo "+nowarn+MACRDF" >> $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE); \
|
|
fi
|
|
|
|
ifdef UART_PRINTF
|
# List of verilog includes
|
TEST_SW_MAKE_OPTS="UART_PRINTF=1"
|
RTL_VERILOG_INCLUDES=$(shell ls $(RTL_VERILOG_INCLUDE_DIR)/*.*)
|
endif
|
|
|
|
.PHONY: prepare-sw
|
print-verilog-src:
|
prepare-sw:
|
@echo echo; echo "\t### Verilog source ###"; echo
|
$(Q)$(MAKE) -C $(SW_DIR)/support all $(TEST_SW_MAKE_OPTS)
|
@echo $(RTL_VERILOG_SRC)
|
$(Q)$(MAKE) -C $(SW_DIR)/utils all
|
|
|
|
# A rule with UART_PRINTF hard defined ... used by verilator make sw
|
|
prepare-sw-uart-printf:
|
|
$(Q)$(MAKE) -C $(SW_DIR)/support all UART_PRINTF=1 $(TEST_SW_MAKE_OPTS)
|
|
$(Q)$(MAKE) -C $(SW_DIR)/utils all
|
|
|
|
prepare-dirs:
|
|
$(Q)if [ ! -d $(SIM_RESULTS_DIR) ]; then mkdir -p $(SIM_RESULTS_DIR); fi
|
|
|
|
#
|
|
# Rough guide to how event driven simulation test loop works:
|
|
#
|
|
# 1. Compile software support programs.
|
|
# 2. Generate RTL compilation script file
|
|
# 3. For each test listed in $(TESTS), loop and
|
|
# a) Compile software
|
|
# b) Create appropriate image to be loaded into sim
|
|
# c) Create a verilog file to be included by top level
|
|
# d) Compile the RTL design
|
|
# e) Run the RTL design in the chosen simulator
|
|
# f) Check the output (files in ../results)
|
|
#
|
|
# Default setup is:
|
|
# * Event-driven simulation with Icarus Verilog
|
|
# * Internal SRAM memory, preloaded with application
|
|
# * Ethernet disabled
|
|
# * VCD generation disabled
|
|
# * printf() via UART disabled
|
|
# * Logging enabled
|
|
#
|
|
# Options:
|
|
# SIMULATOR=vsim
|
|
# Use Mentor Graphics Modelsim simulator
|
|
# SIMULATOR=ncverilog
|
|
# Use Cadence's NC-Verilog
|
|
# USE_SDRAM=1
|
|
# Enable use of SDRAM - changes boot sequence and takes
|
|
# a lot longer due to application being loaded out of
|
|
# external FLASH memory and into SDRAM before execution
|
|
# from the SDRAM.
|
|
# VCD=1
|
|
# Enable VCD generation. These files are output to
|
|
# ../results
|
|
# USE_ETHERNET=1
|
|
# Turns on ethernet core inclusion. There are currently
|
|
# some tests, but not included by default. Check the sw
|
|
# directory
|
|
# UART_PRINTF=1
|
|
# Make the software use the UART core to print out
|
|
# printf() calls.
|
|
# NO_SIM_LOGGING=1
|
|
# Turn off generation of logging files in the ../results
|
|
# directory.
|
|
#
|
|
rtl-tests: $(SIM_RUN_DIR)/$(GENERATED_COMMANDFILE) prepare-sw prepare-rtl prepare-dirs
|
|
@echo
|
|
@echo "Beginning loop that will complete the following tests: $(TESTS)"
|
|
@echo
|
|
$(Q)for TEST in $(TESTS); do \
|
|
echo "################################################################################"; \
|
|
echo; \
|
|
echo "\t#### Current test: $$TEST ####"; echo; \
|
|
echo "\t#### Compiling software ####"; echo; \
|
|
CURRENT_TEST_SW_DIR=$(SW_DIR)/`echo $$TEST | cut -d "-" -f 1`; \
|
|
$(MAKE) -C $$CURRENT_TEST_SW_DIR $$TEST.vmem $(TEST_SW_MAKE_OPTS); \
|
|
rm -f $(SIM_RUN_DIR)/$(SIM_FLASH_MEM_FILE); \
|
|
rm -f $(SIM_RUN_DIR)/$(SIM_SRAM_MEM_FILE); \
|
|
ln -s $$CURRENT_TEST_SW_DIR/$$TEST$(FLASH_MEM_FILE_SUFFIX) $(SIM_RUN_DIR)/$(SIM_FLASH_MEM_FILE); \
|
|
ln -s $$CURRENT_TEST_SW_DIR/$$TEST.vmem $(SIM_RUN_DIR)/$(SIM_SRAM_MEM_FILE); \
|
|
echo "\`define TEST_NAME_STRING \"$$TEST\"" > $(SIM_RUN_DIR)/test_define.v; \
|
|
echo "\`define TEST_RESULTS_DIR \"$(SIM_RESULTS_DIR)/\" " >> $(SIM_RUN_DIR)/test_define.v; \
|
|
if [ ! -z $$VCD ]; \
|
|
then echo "\`define VCD" >> $(SIM_RUN_DIR)/test_define.v; \
|
|
fi; \
|
|
if [ ! -z $$UART_PRINTF ]; \
|
|
then echo "\`define UART_PRINTF" >> $(SIM_RUN_DIR)/test_define.v; \
|
|
fi; \
|
|
if echo $$TEST | grep -q -i ^eth; then \
|
|
echo "\`define ENABLE_ETH_STIM" >> $(SIM_RUN_DIR)/test_define.v; \
|
|
echo "\`define ETH_PHY_VERBOSE" >> $(SIM_RUN_DIR)/test_define.v; \
|
|
fi; \
|
|
if [ -z $$NO_SIM_LOGGING ]; then \
|
|
echo "\`define OR1200_DISPLAY_ARCH_STATE" >> $(SIM_RUN_DIR)/test_define.v; \
|
|
fi; \
|
|
echo ; \
|
|
echo "\t#### Compiling RTL ####"; \
|
|
$(SIM_COMMANDCOMPILE); \
|
|
echo; \
|
|
echo "\t#### Beginning simulation ####"; \
|
|
time -p $(SIM_COMMANDRUN) ; \
|
|
if [ "$$SIMULATOR" != "$$SILOS" ]; then if [ $$? -gt 0 ]; then exit $$?; fi; fi; \
|
|
TEST_RESULT=`cat $(SIM_RESULTS_DIR)/$$TEST-general.log | grep $(SIM_SUCCESS_MESSAGE) -c`; \
|
|
echo; echo "\t####"; \
|
|
if [ $$TEST_RESULT -gt 0 ]; then \
|
|
echo "\t#### Test $$TEST PASSED ####";TESTS_PASSED=`expr $$TESTS_PASSED + 1`;\
|
|
else echo "\t#### Test $$TEST FAILED ####";\
|
|
fi; \
|
|
echo "\t####"; echo; \
|
|
TESTS_PERFORMED=`expr $$TESTS_PERFORMED + 1`;\
|
|
done; \
|
|
echo "Test results: "$$TESTS_PASSED" out of "$$TESTS_PERFORMED" tests passed"; echo
|
|
|
|
################################################################################
|
|
# RTL simulation in Icarus with GDB stub via VPI for debugging
|
|
################################################################################
|
|
# This compiles a version of the system which starts up the dhrystone nocache
|
|
# test, and launches the simulator with a VPI module that provides a GDB stub
|
|
# allowing the OpenRISC compatible GDB to connect and debug the system.
|
|
# The launched test can be changed by defining VPI_TEST_SW on the make line
|
|
VPI_DIR=$(BENCH_VERILOG_DIR)/vpi
|
|
VPI_C_DIR=$(VPI_DIR)/c
|
|
VPI_VERILOG_DIR=$(VPI_DIR)/verilog
|
|
VPI_LIB_NAME=jp_vpi
|
|
ICARUS_VPI_OPTS=-M$(VPI_C_DIR) -m$(VPI_LIB_NAME)
|
|
VPI_TEST_SW ?= dhry-nocache-O2
|
|
|
|
prepare-vpi:
|
|
## Build the VPI library
|
|
$(MAKE) -C $(VPI_C_DIR) $(VPI_LIB_NAME)
|
|
|
|
clean-vpi:
|
|
$(MAKE) -C $(VPI_C_DIR) clean
|
|
|
|
rtl-debug: prepare-sw-uart-printf prepare-rtl prepare-vpi prepare-dirs
|
|
## Prepare the software for the test
|
|
@echo "\t#### Compiling software ####"; echo; \
|
|
CURRENT_TEST_SW_DIR=$(SW_DIR)/`echo $(VPI_TEST_SW) | cut -d "-" -f 1`; \
|
|
$(MAKE) -C $$CURRENT_TEST_SW_DIR $(VPI_TEST_SW) $(TEST_SW_MAKE_OPTS); \
|
|
rm -f $(SIM_RUN_DIR)/$(SIM_FLASH_MEM_FILE); \
|
|
rm -f $(SIM_RUN_DIR)/$(SIM_SRAM_MEM_FILE); \
|
|
ln -s $$CURRENT_TEST_SW_DIR/$(VPI_TEST_SW)$(FLASH_MEM_FILE_SUFFIX) $(SIM_RUN_DIR)/$(SIM_FLASH_MEM_FILE); \
|
|
ln -s $$CURRENT_TEST_SW_DIR/$(VPI_TEST_SW).vmem $(SIM_RUN_DIR)/$(SIM_SRAM_MEM_FILE)
|
|
## Generate the icarus script we'll compile with
|
|
$(Q)sed < $(SIM_BIN_DIR)/$(ICARUS_COMMAND_FILE) > $(SIM_RUN_DIR)/$(ICARUS_COMMAND_FILE).generated \
|
|
-e s!\$$BENCH_DIR!$(BENCH_VERILOG_DIR)! \
|
|
-e s!\$$RTL_DIR!$(RTL_VERILOG_DIR)! \
|
|
-e s!\$$BACKEND_DIR!$(BACKEND_DIR)! \
|
|
-e \\!^//.*\$$!d -e \\!^\$$!d
|
|
## Add a couple of extra defines to the icarus compile script
|
|
$(Q)echo "+define+TEST_DEFINE_FILE=\"test_define.v\"" >> $(SIM_RUN_DIR)/$(ICARUS_COMMAND_FILE).generated
|
|
## The define that enables the VPI debug module
|
|
$(Q)echo "+define+VPI_DEBUG_ENABLE" >> $(SIM_RUN_DIR)/$(ICARUS_COMMAND_FILE).generated
|
|
$(Q)if [ ! -z $$VCD ];then echo "+define+VCD" >> $(SIM_RUN_DIR)/$(ICARUS_COMMAND_FILE).generated;fi
|
|
## Unless NO_UART_PRINTF=1 we use printf via the UART
|
|
$(Q)if [ -z $$NO_UART_PRINTF ];then echo "+define+UART_PRINTF" >> $(SIM_RUN_DIR)/$(ICARUS_COMMAND_FILE).generated; fi
|
|
$(Q)echo "\`define TEST_NAME_STRING \"$(VPI_TEST_SW)-vpi\"" > $(SIM_RUN_DIR)/test_define.v
|
|
$(Q)echo "\`define TEST_RESULTS_DIR \"$(SIM_RESULTS_DIR)/\" " >> $(SIM_RUN_DIR)/test_define.v
|
|
$(Q)if [ -z $$NO_SIM_LOGGING ]; then echo "\`define OR1200_DISPLAY_ARCH_STATE" >> $(SIM_RUN_DIR)/test_define.v; fi
|
|
@echo
|
|
@echo "\t#### Compiling RTL ####"
|
|
$(Q)rm -f $(SIM_RUN_DIR)/rtlsim.elf
|
|
$(Q)$(ICARUS) -s$(RTL_TESTBENCH_TOP) -c $(SIM_RUN_DIR)/$(ICARUS_COMMAND_FILE).generated -o rtlsim.elf $(EVENT_SIM_FLAGS)
|
|
@echo
|
|
@echo "\t#### Beginning simulation with VPI debug module enabled ####"; echo
|
|
$(Q)$(ICARUS_VVP) $(ICARUS_VPI_OPTS) -l $(SIM_RESULTS_DIR)/$(VPI_TEST_SW)-vvp-out.log rtlsim.elf
|
|
|
|
################################################################################
|
|
# Verilator model build rules
|
|
################################################################################
|
|
|
|
|
|
SYSC_LIB_ARCH_DIR=$(shell ls $$SYSTEMC | grep "lib-")
|
|
|
|
|
|
# List of System C models - use this list to link the sources into the Verilator
|
|
# build directory
|
|
SYSC_MODELS=OrpsocAccess MemoryLoad
|
|
|
|
ifdef VLT_DEBUG
|
|
VLT_DEBUG_COMPILE_FLAGS = -g
|
|
# Enabling the following generates a TON of debugging
|
|
# when running verilator. Not so helpful.
|
|
#VLT_DEBUG_OPTIONS = --debug --dump-tree
|
|
VLT_SYSC_DEBUG_DEFINE = VLT_DEBUG=1
|
|
endif
|
|
|
|
# If set on the command line we build the cycle accurate model which will generate verilator-specific profiling information. This is useful for checking the efficiency of the model - not really useful for checking code or the function of the model.
|
# Rules to make RTL we might need
|
ifdef VLT_ORPSOC_PROFILING
|
# Expects modules, if they need making, to have their top verilog file to
|
VLT_CPPFLAGS +=-pg
|
# correspond to their module name, and the directory should have a make file
|
VLT_DEBUG_OPTIONS +=-profile-cfuncs
|
# and rule which works for this command.
|
else
|
# Add name of module to this list, currently only does verilog ones.
|
VLT_CPPFLAGS +=-fprofile-use -Wcoverage-mismatch
|
# Rule 'rtl' is called just before generating DUT modelsim compilation script
|
#VLT_CPPFLAGS=-Wall
|
RTL_TO_CHECK=
|
endif
|
rtl:
|
|
$(Q)for module in $(RTL_TO_CHECK); do \
|
|
$(MAKE) -C $(RTL_VERILOG_DIR)/$$module $$module.v; \
|
|
done
|
|
|
# Set VLT_IN_GDB=1 when making if going to run the cycle accurate model executable in GDB to check suspect behavior. This also removes optimisation.
|
#
|
ifdef VLT_IN_GDB
|
# VHDL DUT source variables
|
VLT_CPPFLAGS +=-g -O0
|
#
|
else
|
# VHDL modules
|
# The default optimisation flag applied to all of the cycle accurate model files
|
#RTL_VHDL_MODULES=$(shell ls $(RTL_VHDL_DIR))
|
VLT_CPPFLAGS +=-O3
|
# VHDL sources
|
endif
|
#RTL_VHDL_SRC=$(shell for module in $(RTL_VHDL_MODULES); do if [ -d $(RTL_VHDL_DIR)/$$module ]; then ls $(RTL_VHDL_DIR)/$$module/*.vhd; fi; done)
|
|
#print-vhdl-src:
|
|
# @echo echo; echo "\t### VHDL modules and source ###"; echo
|
|
# @echo "modules: "; echo $(RTL_VHDL_MODULES); echo
|
|
# @echo "source: "$(RTL_VHDL_SRC)
|
|
|
|
|
|
# Testbench verilog source
|
|
BENCH_VERILOG_SRC=$(shell ls $(BENCH_VERILOG_DIR)/*.v | grep -v define)
|
|
|
|
# Testbench source subdirectory detection
|
|
BENCH_VERILOG_SRC_SUBDIRS=$(shell for file in `ls $(BENCH_VERILOG_DIR)`; do if [ -d $(BENCH_VERILOG_DIR)/$$file ]; then echo $(BENCH_VERILOG_DIR)/$$file; fi; done)
|
|
|
|
# Compile script generation rules:
|
|
|
|
modelsim_dut.scr: rtl $(RTL_VERILOG_SRC) $(RTL_VERILOG_INCLUDES) $(BOOTROM_VERILOG)
|
|
$(Q)echo "+incdir+"$(RTL_VERILOG_INCLUDE_DIR) > $@;
|
|
$(Q)echo "+incdir+"$(RTL_SIM_SRC_DIR) >> $@;
|
|
$(Q)echo "+incdir+"$(BOOTROM_SW_DIR) >> $@;
|
|
$(Q)echo "+incdir+"$(BENCH_VERILOG_DIR) >> $@;
|
|
$(Q)echo "+libext+.v" >> $@;
|
|
$(Q)for module in $(RTL_VERILOG_MODULES); do if [ -d $(RTL_VERILOG_DIR)/$$module ]; then echo "-y " $(RTL_VERILOG_DIR)/$$module >> $@; fi; done
|
|
$(Q)echo >> $@
|
|
|
|
modelsim_bench.scr: $(BENCH_VERILOG_SRC)
|
|
$(Q)echo "+incdir+"$(BENCH_VERILOG_DIR) > $@;
|
|
$(Q)for path in $(BENCH_VERILOG_SRC_SUBDIRS); do echo "+incdir+"$$path >> $@; done
|
|
$(Q)for path in $(BENCH_VERILOG_SRC_SUBDIRS); do echo "-y "$$path >> $@; done
|
|
$(Q)echo "+incdir+"$(RTL_VERILOG_INCLUDE_DIR) >> $@;
|
|
$(Q)echo "+incdir+"$(RTL_SIM_SRC_DIR) >> $@;
|
|
$(Q)echo "+libext+.v" >> $@;
|
|
$(Q)echo "-y" $(RTL_SIM_SRC_DIR) >> $@;
|
|
$(Q)for vsrc in $(BENCH_VERILOG_SRC); do echo $$vsrc >> $@; done
|
|
$(Q)echo >> $@
|
|
|
|
# Compile DUT into "work" library
|
|
DUT_TOP=$(RTL_VERILOG_DIR)/$(DESIGN_NAME)_top/$(DESIGN_NAME)_top.v
|
|
work: modelsim_dut.scr #$(RTL_VHDL_SRC)
|
|
$(Q)if [ ! -e $@ ]; then vlib $@; fi
|
|
# $(Q)echo; echo "\t### Compiling VHDL design library ###"; echo
|
|
# $(Q)vcom -93 $(QUIET) $(RTL_VHDL_SRC)
|
|
$(Q)echo; echo "\t### Compiling Verilog design library ###"; echo
|
|
$(Q)vlog $(QUIET) -f $< $(DUT_TOP)
|
|
|
|
# Single compile rule
|
|
.PHONY : $(MODELSIM)
|
|
$(MODELSIM): modelsim_bench.scr $(TEST_DEFINES_VLG) $(VPI_LIBS) work
|
|
$(Q)echo; echo "\t### Compiling testbench ###"; echo
|
|
$(Q)vlog $(QUIET) -nologo -incr $(BENCH_VERILOG_SRC) -f $<
|
|
$(Q)vopt $(QUIET) $(RTL_TESTBENCH_TOP) $(VOPT_ARGS) -o tb
|
|
$(Q)echo; echo "\t### Launching simulation ###"; echo
|
|
$(Q)vsim $(VSIM_ARGS) tb
|
|
|
|
|
|
#
|
|
# Icarus Verilog simulator build and run rules
|
|
#
|
|
.PHONY: $(ICARUS_SCRIPT)
|
|
$(ICARUS_SCRIPT): $(RTL_VERILOG_SRC) $(RTL_VERILOG_INCLUDES) $(BOOTROM_VERILOG) $(BENCH_VERILOG_SRC)
|
|
$(Q)echo "# Icarus Verilog simulation script" > $@
|
|
$(Q)echo "# Auto generated. Any alterations will be written over!" >> $@
|
|
$(Q)echo "+incdir+"$(RTL_VERILOG_INCLUDE_DIR) > $@;
|
|
$(Q)echo "+incdir+"$(RTL_SIM_SRC_DIR) >> $@;
|
|
$(Q)echo "+incdir+"$(BENCH_VERILOG_DIR) >> $@;
|
|
$(Q)echo "+incdir+"$(BOOTROM_SW_DIR) >> $@;
|
|
$(Q)for path in $(BENCH_VERILOG_SRC_SUBDIRS); do echo "+incdir+"$$path >> $@; done
|
|
$(Q)for path in $(BENCH_VERILOG_SRC_SUBDIRS); do echo "-y "$$path >> $@; done
|
|
$(Q)for module in $(RTL_VERILOG_MODULES); do echo "-y " $(RTL_VERILOG_DIR)/$$module >> $@; done
|
|
$(Q)echo "-y" $(RTL_SIM_SRC_DIR) >> $@;
|
|
$(Q)for vsrc in $(BENCH_VERILOG_SRC); do echo $$vsrc >> $@; done
|
|
$(Q) echo >> $@
|
|
|
|
# Icarus design compilation rule
|
|
$(ICARUS_SIM_EXE): $(ICARUS_SCRIPT) $(TEST_DEFINES_VLG)
|
|
$(Q)echo; echo "\t### Compiling ###"; echo
|
|
$(Q) $(ICARUS_COMPILE) -s$(RTL_TESTBENCH_TOP) -c $< -o $@
|
|
|
|
# Icarus simulation run rule
|
|
$(ICARUS): $(ICARUS_SIM_EXE) $(ICARUS_VPI_LIB)
|
|
$(Q)echo; echo "\t### Launching simulation ###"; echo
|
|
$(Q) $(ICARUS_RUN) $(ICARUS_VPI_ARGS) -l ../out/$(ICARUS_RUN).log $<
|
|
|
|
|
|
|
|
.PHONY: rtl-test
|
|
rtl-test: clean-sim-test-sw sw clean-test-defines $(TEST_DEFINES_VLG) \
|
|
$(SIMULATOR)
|
|
|
|
# Run an RTL test followed by checking of generated results
|
|
rtl-test-with-check: rtl-test
|
|
$(Q)$(MAKE) check-test-log; \
|
|
if [ $$? -ne 0 ]; then \
|
|
echo; echo "\t### "$(TEST)" test FAIL ###"; echo; \
|
|
else \
|
|
echo; echo "\t### "$(TEST)" test OK ###"; echo; \
|
|
fi
|
|
|
ifdef VLT_DO_PROFILING
|
# Do check, don't print anything out
|
VLT_CPPFLAGS +=-ftest-coverage -fprofile-arcs -fprofile-generate
|
rtl-test-with-check-no-print: rtl-test check-test-log
|
endif
|
|
|
|
# VCD Enabled by default when building, enable it at runtime
|
# Main RTL test loop
|
#ifdef VCD
|
.PHONY: rtl-tests
|
VLT_FLAGS +=-trace
|
rtl-tests:
|
TRACE_FLAGS=-DVM_TRACE=1 -I${SYSTEMPERL}/src
|
$(Q)for test in $(TESTS); do \
|
#endif
|
export TEST=$$test; \
|
|
$(MAKE) rtl-test-with-check-no-print; \
|
|
if [ $$? -ne 0 ]; then break; fi; \
|
|
echo; echo "\t### $$test test OK ###"; echo; \
|
|
done
|
|
|
# Only need the trace target if we are tracing
|
|
#ifneq (,$(findstring -trace, $(VLT_FLAGS)))
|
|
VLT_TRACEOBJ = verilated_vcd_c
|
|
#endif
|
|
|
|
# This is the list of extra models we'll issue make commands for
|
.PHONY: check-test-log
|
# Included is the SystemPerl trace model
|
check-test-log:
|
SYSC_MODELS_BUILD=$(SYSC_MODELS) $(VLT_TRACEOBJ)
|
$(Q)echo "#!/bin/bash" > $@
|
|
$(Q)echo "function check-test-log { if [ \`grep -c -i "$(TEST_OK_STRING)" "$(RTL_SIM_RESULTS_DIR)"/"$(TEST)$(TEST_OUT_FILE_SUFFIX)"\` -gt 0 ]; then return 0; else return 1; fi; }" >> $@
|
prepare-vlt: prepare-rtl vlt-model-links $(SIM_VLT_DIR)/Vorpsoc_top
|
$(Q)echo "check-test-log" >> $@
|
@echo;echo "\tCycle-accurate model compiled successfully"
|
$(Q)chmod +x $@
|
@echo;echo "\tRun the executable with the -h option for usage instructions:";echo
|
$(Q) echo; echo "\t### Checking simulation results for "$(TEST)" test ###"; echo;
|
$(SIM_VLT_DIR)/Vorpsoc_top -h
|
$(Q)./$@
|
@echo;echo
|
|
|
|
$(SIM_VLT_DIR)/Vorpsoc_top: $(SIM_VLT_DIR)/libVorpsoc_top.a $(SIM_VLT_DIR)/OrpsocMain.o
|
# Test defines.v file, called recursively, .PHONY to force its generation
|
# Final linking of the simulation executable. Order of libraries here is important!
|
.PHONY: $(TEST_DEFINES_VLG)
|
@echo; echo "\tGenerating simulation executable"; echo
|
$(TEST_DEFINES_VLG):
|
cd $(SIM_VLT_DIR) && g++ $(VLT_DEBUG_COMPILE_FLAGS) $(VLT_CPPFLAGS) -I$(BENCH_SYSC_INCLUDE_DIR) -I$(SIM_VLT_DIR) -I$(VERILATOR_ROOT)/include -I$(SYSTEMC)/include -o Vorpsoc_top -L. -L$(BENCH_SYSC_SRC_DIR) -L$(SYSTEMC)/$(SYSC_LIB_ARCH_DIR) OrpsocMain.o -lVorpsoc_top -lmodules -lsystemc
|
$(Q)echo "\`define "$(SIM_TYPE)"_SIM" > $@
|
|
$(Q)echo "\`define SIMULATOR_"`echo $(SIMULATOR) | tr "[:lower:]" "[:upper:]"` > $@
|
# Now compile the top level systemC "testbench" module from the systemC source path
|
$(Q)echo "\`define TEST_NAME_STRING \""$(TEST)"\"" >> $@
|
$(SIM_VLT_DIR)/OrpsocMain.o: $(BENCH_SYSC_SRC_DIR)/OrpsocMain.cpp
|
$(Q)if [ ! -z $$VCD ]; \
|
@echo; echo "\tCompiling top level SystemC testbench"; echo
|
then echo "\`define VCD" >> $@; \
|
cd $(SIM_VLT_DIR) && g++ $(VLT_DEBUG_COMPILE_FLAGS) $(VLT_CPPFLAGS) $(TRACE_FLAGS) -I$(BENCH_SYSC_INCLUDE_DIR) -I$(SIM_VLT_DIR) -I$(VERILATOR_ROOT)/include -I$(SYSTEMC)/include -c $(BENCH_SYSC_SRC_DIR)/OrpsocMain.cpp
|
fi
|
|
$(Q)if [ ! -z $$VCD_DELAY ]; \
|
$(SIM_VLT_DIR)/libVorpsoc_top.a: $(SIM_VLT_DIR)/Vorpsoc_top__ALL.a vlt-modules-compile $(SIM_VLT_DIR)/verilated.o
|
then echo "\`define VCD_DELAY "$$VCD_DELAY >> $@; \
|
# Now archive all of the libraries from verilator witht he other modules we might have
|
fi
|
@echo; echo "\tArchiving libraries into libVorpsoc_top.a"; echo
|
$(Q)if [ ! -z $$VCD_DEPTH ]; \
|
$(Q)cd $(SIM_VLT_DIR) && \
|
then echo "\`define VCD_DEPTH "$$VCD_DEPTH >> $@; \
|
cp Vorpsoc_top__ALL.a libVorpsoc_top.a && \
|
fi
|
ar rcs libVorpsoc_top.a verilated.o; \
|
$(Q)if [ ! -z $$VCD_DELAY_INSNS ]; \
|
for SYSCMODEL in $(SYSC_MODELS_BUILD); do \
|
then echo "\`define VCD_DELAY_INSNS "$$VCD_DELAY_INSNS >> $@; \
|
ar rcs libVorpsoc_top.a $$SYSCMODEL.o; \
|
fi
|
done
|
$(Q)if [ ! -z $$END_TIME ]; \
|
|
then echo "\`define END_TIME "$$END_TIME >> $@; \
|
|
fi
|
|
$(Q)if [ ! -z $$END_INSNS ]; \
|
|
then echo "\`define END_INSNS "$$END_INSNS >> $@; \
|
|
fi
|
|
$(Q)if [ ! -z $$PRELOAD_RAM ]; \
|
|
then echo "\`define PRELOAD_RAM "$$END_TIME >> $@; \
|
|
fi
|
|
$(Q)if [ -z $$NO_SIM_LOGGING ]; \
|
|
then echo "\`define OR1200_DISPLAY_ARCH_STATE" >> $@; \
|
|
fi
|
|
$(Q)if [ ! -z $$VPI ]; \
|
|
then echo "\`define VPI_DEBUG" >> $@; \
|
|
fi
|
|
$(Q)if [ ! -z $$SIM_QUIET ]; \
|
|
then echo "\`define SIM_QUIET" >> $@; \
|
|
fi
|
|
|
$(SIM_VLT_DIR)/verilated.o:
|
|
@echo; echo "\tCompiling verilated.o"; echo
|
|
$(Q)cd $(SIM_VLT_DIR) && \
|
|
export CXXFLAGS=$(VLT_DEBUG_COMPILE_FLAGS); \
|
|
export USER_CPPFLAGS="$(VLT_CPPFLAGS)"; \
|
|
export USER_LDDFLAGS="$(VLT_CPPFLAGS)"; \
|
|
$(MAKE) -f Vorpsoc_top.mk verilated.o
|
|
|
|
.PHONY: vlt-modules-compile
|
|
vlt-modules-compile:
|
|
# Compile the module files
|
|
@echo; echo "\tCompiling SystemC models"
|
|
$(Q)cd $(SIM_VLT_DIR) && \
|
|
for SYSCMODEL in $(SYSC_MODELS_BUILD); do \
|
|
echo;echo "\t$$SYSCMODEL"; echo; \
|
|
export CXXFLAGS=$(VLT_DEBUG_COMPILE_FLAGS); \
|
|
export USER_CPPFLAGS="$(VLT_CPPFLAGS) -I$(BENCH_SYSC_INCLUDE_DIR)"; \
|
|
export USER_LDDFLAGS="$(VLT_CPPFLAGS)"; \
|
|
$(MAKE) -f Vorpsoc_top.mk $$SYSCMODEL.o; \
|
|
done
|
|
|
|
$(SIM_VLT_DIR)/Vorpsoc_top__ALL.a: $(SIM_VLT_DIR)/Vorpsoc_top.mk
|
# $(Q)for module in $(GATELEVEL_MODULES); do echo "\`define "$$module"_IS_GATELEVEL " >> $@; done
|
@echo; echo "\tCompiling main design"; echo
|
# More possible test defines go here
|
$(Q)cd $(SIM_VLT_DIR) && \
|
|
export USER_CPPFLAGS="$(VLT_CPPFLAGS)"; \
|
|
export USER_LDDFLAGS="$(VLT_CPPFLAGS)"; \
|
|
$(MAKE) -f Vorpsoc_top.mk Vorpsoc_top__ALL.a
|
|
|
|
$(SIM_VLT_DIR)/Vorpsoc_top.mk: $(SIM_VLT_DIR)/$(VLT_COMMAND_FILE).generated $(SIM_VLT_DIR)/libmodules.a
|
|
# Now call verilator to generate the .mk files
|
|
@echo; echo "\tGenerating makefiles with Verilator"; echo
|
|
cd $(SIM_VLT_DIR) && \
|
|
verilator -language 1364-2001 -Wno-lint --top-module orpsoc_top $(VLT_DEBUG_OPTIONS) -Mdir . -sc $(VLT_FLAGS) -I$(BENCH_SYSC_INCLUDE_DIR) -I$(BENCH_SYSC_SRC_DIR) -f $(VLT_COMMAND_FILE).generated
|
|
|
|
# SystemC modules library
|
|
$(SIM_VLT_DIR)/libmodules.a:
|
|
@echo; echo "\tCompiling SystemC modules"; echo
|
|
$(Q)export VLT_CPPFLAGS="$(VLT_CPPFLAGS)"; \
|
|
$(MAKE) -C $(BENCH_SYSC_SRC_DIR) -f $(BENCH_SYSC_SRC_DIR)/Modules.make $(VLT_SYSC_DEBUG_DEFINE)
|
|
|
|
|
|
ALL_VLOG=$(shell find $(RTL_VERILOG_DIR) -name "*.v")
|
|
|
|
# Verilator command script
|
|
# Generate the compile script to give Verilator - make it sensitive to the RTL
|
|
$(SIM_VLT_DIR)/$(VLT_COMMAND_FILE).generated: $(ALL_VLOG)
|
|
@echo; echo "\tGenerating verilator compile script"; echo
|
|
$(Q)sed < $(SIM_BIN_DIR)/$(VLT_COMMAND_FILE) > $(SIM_VLT_DIR)/$(VLT_COMMAND_FILE).generated \
|
|
-e s!\$$BENCH_DIR!$(BENCH_VERILOG_DIR)! \
|
|
-e s!\$$RTL_DIR!$(RTL_VERILOG_DIR)! \
|
|
-e s!\$$BACKEND_DIR!$(BACKEND_DIR)! \
|
|
-e \\!^//.*\$$!d -e \\!^\$$!d;
|
|
|
|
.PHONY: vlt-model-links
|
|
vlt-model-links:
|
|
# Link all the required system C model files into the verilator work dir
|
|
@echo; echo "\tLinking SystemC model source to verilator build path"; echo
|
|
@if [ ! -d $(SIM_VLT_DIR) ]; then mkdir $(SIM_VLT_DIR); fi
|
|
$(Q)cd $(SIM_VLT_DIR) && \
|
|
for SYSCMODEL in $(SYSC_MODELS); do \
|
|
if [ ! -e $$SYSCMODEL.cpp ]; then \
|
|
ln -s $(BENCH_SYSC_SRC_DIR)/$$SYSCMODEL.cpp .; \
|
|
ln -s $(BENCH_SYSC_INCLUDE_DIR)/$$SYSCMODEL.h .; \
|
|
fi; \
|
|
done
|
|
|
|
|
# Software make rules (called recursively)
|
|
TEST_SW_DIR=$(SW_DIR)/$(shell echo $(TEST) | cut -d "-" -f 1)
|
|
|
################################################################################
|
# Set PRELOAD_RAM=1 to preload the system memory, avoiding lengthy SPI FLASH
|
# Verilator test loop
|
# bootloader process.
|
################################################################################
|
#ifeq ($(PRELOAD_RAM), 1)
|
|
SIM_SW_IMAGE ?=sram.vmem
|
# Verilator defaults to internal memories
|
#else
|
vlt-tests: prepare-sw prepare-rtl prepare-dirs prepare-vlt
|
#SIM_SW_IMAGE ?=flash.in
|
@echo
|
#endif
|
@echo "Beginning loop that will complete the following tests: $(TESTS)"
|
|
@echo
|
|
$(Q)for TEST in $(TESTS); do \
|
|
echo "################################################################################"; \
|
|
echo; \
|
|
echo "\t#### Current test: $$TEST ####"; echo; \
|
|
echo "\t#### Compiling software ####"; echo; \
|
|
CURRENT_TEST_SW_DIR=$(SW_DIR)/`echo $$TEST | cut -d "-" -f 1`; \
|
|
$(MAKE) -C $$CURRENT_TEST_SW_DIR $$TEST.vmem $(TEST_SW_MAKE_OPTS) UART_PRINTF=1; \
|
|
rm -f $(SIM_RUN_DIR)/$(SIM_SRAM_MEM_FILE); \
|
|
ln -s $$CURRENT_TEST_SW_DIR/$$TEST.vmem $(SIM_RUN_DIR)/$(SIM_SRAM_MEM_FILE); \
|
|
echo "\t#### Beginning simulation ####"; \
|
|
time -p $(SIM_VLT_DIR)/Vorpsoc_top $$TEST; \
|
|
if [ $$? -gt 0 ]; then exit $$?; fi; \
|
|
TEST_RESULT=1; \
|
|
echo; echo "\t####"; \
|
|
if [ $$TEST_RESULT -gt 0 ]; then \
|
|
echo "\t#### Test $$TEST PASSED ####";TESTS_PASSED=`expr $$TESTS_PASSED + 1`;\
|
|
else echo "\t#### Test $$TEST FAILED ####";\
|
|
fi; \
|
|
echo "\t####"; echo; \
|
|
TESTS_PERFORMED=`expr $$TESTS_PERFORMED + 1`;\
|
|
done; \
|
|
echo "Test results: "$$TESTS_PASSED" out of "$$TESTS_PERFORMED" tests passed"; echo
|
|
|
|
###############################################################################
|
|
# Verilator profiled module make
|
|
###############################################################################
|
|
# To run this, first run a "make prepare-vlt VLT_DO_PROFILING=1" then do a
|
|
# "make clean" and then a "make prepare-vlt_profiled"
|
|
# This new make target copies athe results of the profiling back to the right
|
|
# paths before we create everything again
|
|
###############################################################################
|
|
.PHONY: prepare-vlt-profiled
|
|
prepare-vlt-profiled: $(SIM_VLT_DIR)/OrpsocMain.gcda clean vlt-restore-profileoutput prepare-rtl vlt-model-links $(SIM_VLT_DIR)/Vorpsoc_top
|
|
|
|
$(SIM_VLT_DIR)/OrpsocMain.gcda: $(SIM_VLT_DIR)/Vorpsoc_top-for-profiling prepare-sw-uart-printf
|
|
$(MAKE) -C $(SW_DIR)/dhry dhry.elf NUM_RUNS=2000
|
|
$(SIM_VLT_DIR)/Vorpsoc_top -f $(SW_DIR)/dhry/dhry.elf -v -l sim.log --crash-monitor
|
|
|
|
.PHONY: $(SIM_VLT_DIR)/Vorpsoc_top-for-profiling
|
|
$(SIM_VLT_DIR)/Vorpsoc_top-for-profiling:
|
|
$(MAKE) prepare-vlt VLT_DO_PROFILING=1
|
|
|
|
.PHONY: vlt-restore-profileoutput
|
|
vlt-restore-profileoutput:
|
|
@echo;echo "\tRestoring profiling outputs"; echo
|
|
$(Q)mkdir -p ../vlt
|
|
$(Q)cp /tmp/*.gc* $(SIM_VLT_DIR)
|
|
$(Q)cp /tmp/*.gc* $(BENCH_SYSC_SRC_DIR)
|
|
|
|
################################################################################
|
|
# Architectural simulator test loop
|
|
################################################################################
|
|
|
|
sim-tests: prepare-sw
|
|
@if [ ! -d $(SIM_RESULTS_DIR) ]; then mkdir -p $(SIM_RESULTS_DIR); fi
|
|
@echo
|
|
@echo "Beginning loop that will complete the following tests: $(TESTS)"
|
|
@echo
|
|
$(Q)for TEST in $(TESTS); do \
|
|
echo "################################################################################"; \
|
|
echo; \
|
|
echo "\t#### Current test: $$TEST ####"; echo; \
|
|
echo "\t#### Compiling software ####"; echo; \
|
|
CURRENT_TEST_SW_DIR=$(SW_DIR)/`echo $$TEST | cut -d "-" -f 1`; \
|
|
$(MAKE) -C $$CURRENT_TEST_SW_DIR $$TEST.elf $(TEST_SW_MAKE_OPTS) UART_PRINTF=1; \
|
|
ln -s $$CURRENT_TEST_SW_DIR/$$TEST.elf $(SIM_RUN_DIR)/.; \
|
|
echo;echo "\t#### Launching architectural simulator ####"; \
|
|
time -p $(ARCH_SIM_EXE) --nosrv -f $(SIM_BIN_DIR)/$(ARCH_SIM_CFG_FILE) $$TEST.elf > $(SIM_RESULTS_DIR)/$$TEST-or1ksim.log 2>&1; \
|
|
if [ $$? -gt 0 ]; then exit $$?; fi; \
|
|
if [ `tail -n 10 $(SIM_RESULTS_DIR)/$$TEST-or1ksim.log | grep -c $(SIM_SUCCESS_MESSAGE)` -gt 0 ]; then \
|
|
TEST_RESULT=1; \
|
|
fi; \
|
|
echo; echo "\t####"; \
|
|
if [ $$TEST_RESULT -gt 0 ]; then \
|
|
echo "\t#### Test $$TEST PASSED ####";TESTS_PASSED=`expr $$TESTS_PASSED + 1`;\
|
|
else echo "\t#### Test $$TEST FAILED ####";\
|
|
fi; \
|
|
echo "\t####"; echo; \
|
|
TESTS_PERFORMED=`expr $$TESTS_PERFORMED + 1`;\
|
|
unlink $(SIM_RUN_DIR)/$$TEST.elf; \
|
|
done; \
|
|
echo "Test results: "$$TESTS_PASSED" out of "$$TESTS_PERFORMED" tests passed"; echo
|
|
|
|
|
.PHONY : sw
|
|
sw: $(SIM_SW_IMAGE)
|
|
|
|
flash.in: $(TEST_SW_DIR)/$(TEST).flashin
|
|
$(Q)if [ -L $@ ]; then unlink $@; fi
|
|
$(Q)ln -s $< $@
|
|
|
|
sram.vmem: $(TEST_SW_DIR)/$(TEST).vmem
|
|
$(Q)if [ -L $@ ]; then unlink $@; fi
|
|
$(Q)ln -s $< $@
|
|
|
|
.PHONY: $(TEST_SW_DIR)/$(TEST).flashin
|
|
$(TEST_SW_DIR)/$(TEST).flashin:
|
|
$(Q) echo; echo "\t### Compiling software ###"; echo;
|
|
$(Q)$(MAKE) -C $(TEST_SW_DIR) $(TEST).flashin
|
|
|
|
.PHONY: $(TEST_SW_DIR)/$(TEST).vmem
|
|
$(TEST_SW_DIR)/$(TEST).vmem:
|
|
$(Q) echo; echo "\t### Compiling software ###"; echo;
|
|
$(Q)$(MAKE) -C $(TEST_SW_DIR) $(TEST).vmem
|
|
|
################################################################################
|
#
|
# Cleaning rules
|
# Cleaning rules
|
################################################################################
|
#
|
|
clean: clean-sim clean-sim-test-sw clean-bootrom clean-out clean-sw
|
|
|
|
clean-sim:
|
|
$(Q) echo; echo "\t### Cleaning simulation run directory ###"; echo;
|
|
$(Q)rm -rf *.* lib_* work transcript check-test-log
|
|
$(Q) if [ -e $(VPI_SRC_C_DIR) ]; then $(MAKE) -C $(VPI_SRC_C_DIR) clean; fi
|
|
|
dist-clean: clean
|
clean-bootrom:
|
$(MAKE) -C $(SW_DIR)/utils clean
|
$(MAKE) -C $(BOOTROM_SW_DIR) clean
|
|
|
clean: clean-sw clean-sim clean-sysc clean-rtl clean-vpi
|
clean-out:
|
|
$(Q)rm -rf $(RTL_SIM_RESULTS_DIR)/*.*
|
|
|
clean-sw:
|
clean-test-defines:
|
@for SWDIR in `ls $(SW_DIR) | grep -v utils`; do \
|
$(Q)rm -f $(TEST_DEFINES_VLG)
|
echo $$SWDIR; \
|
|
$(MAKE) -C $(SW_DIR)/$$SWDIR clean; \
|
|
done
|
|
|
|
clean-sim:
|
clean-sim-test-sw:
|
#backup any profiling output files
|
$(Q)if [ -e $(SIM_SW_IMAGE) ]; then unlink $(SIM_SW_IMAGE); fi
|
@if [ -f $(SIM_VLT_DIR)/OrpsocMain.gcda ]; then echo;echo "\tBacking up verilator profiling output to /tmp"; echo; \
|
|
cp $(SIM_VLT_DIR)/*.gc* /tmp; \
|
clean-sw:
|
cp $(BENCH_SYSC_SRC_DIR)/*.gc* /tmp; fi
|
$(Q) echo; echo "\t### Cleaning simulation sw directories ###"; echo;
|
rm -rf $(SIM_RESULTS_DIR) $(SIM_RUN_DIR)/*.* $(SIM_VLT_DIR) $(MGC_ORPSOC_LIB_DIR) $(SIM_RUN_DIR)/work $(SIM_RUN_DIR)/transcript
|
$(Q) $(MAKE) -C $(SW_DIR)/support distclean
|
|
|
clean-sysc:
|
|
# Clean away dependency files generated by verilator
|
|
$(MAKE) -C $(BENCH_SYSC_SRC_DIR) -f $(BENCH_SYSC_SRC_DIR)/Modules.make clean
|
|
|
|
clean-rtl:
|
clean-rtl:
|
# Clean away temporary verilog source files
|
$(Q) echo; echo "\t### Cleaning generated verilog RTL ###"; echo;
|
rm -f $(RTL_VERILOG_DIR)/components/wb_sdram_ctrl/wb_sdram_ctrl_fsm.v
|
for module in $(RTL_TO_CHECK); do \
|
|
$(MAKE) -C $(RTL_VERILOG_DIR)/$$module clean; \
|
|
done
|
|
|
|
# Removes any checked out RTL
|
|
distclean: clean
|
|
$(Q) echo; echo "\t### Cleaning generated verilog RTL ###"; echo;
|
|
$(Q)for module in $(RTL_TO_CHECK); do \
|
|
$(MAKE) -C $(RTL_VERILOG_DIR)/$$module distclean; \
|
|
done
|
