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[/] [plasma/] [trunk/] [kernel/] [makefile] - Rev 427

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# Makefile for Plasma RTOS and Plasma TCP/IP stack

ifeq ($(LANG),)

# Customize for Windows
# The MIPS gcc compiler must use the cygwin1.dll that came with the compiler.
CC_X86 = cl /O1 /nologo /I..\tools
CP = copy
RM = del
DWIN32 = -DWIN32
BIN_MIPS = ..\gccmips_elf
TOOLS_DIR = ..\tools\\
TOOLS2_DIR = ..\tools
APP_DIR = ..\app\\
LINUX_PWD =
ALIASING  =
GCC_MIPS  = $(BIN_MIPS)\gcc $(CFLAGS)
AS_MIPS   = $(BIN_MIPS)\as
LD_MIPS   = $(BIN_MIPS)\ld
DUMP_MIPS = $(BIN_MIPS)\objdump
CONVERT_BIN = $(TOOLS_DIR)convert_bin.exe
OBJ = obj
CFLAGS_X86 = /c /DWIN32
LFLAGS_X86 = /MT

else

# Customized for Linux
# See the GNU GCC tab on the Opencores Plasma page
CC_X86 = gcc -Wall -O -g -I../tools
CP = cp
RM = rm -rf 
DWIN32 =
TOOLS_DIR = ../tools/
TOOLS2_DIR = ../tools
APP_DIR = ../app/
LINUX_PWD = ./
ALIASING  = -fno-strict-aliasing
#GCC_MIPS  = $(BIN_MIPS)mips-elf-gcc $(CFLAGS)
#AS_MIPS   = $(BIN_MIPS)mips-elf-as
#LD_MIPS   = $(BIN_MIPS)mips-elf-ld
#DUMP_MIPS = $(BIN_MIPS)mips-elf-objdump
GCC_MIPS  = $(BIN_MIPS)mips-uclibc-gcc $(CFLAGS)
AS_MIPS   = $(BIN_MIPS)mips-uclibc-as
LD_MIPS   = $(BIN_MIPS)mips-uclibc-ld
DUMP_MIPS = $(BIN_MIPS)mips-uclibc-objdump
CONVERT_BIN = $(TOOLS_DIR)convert_bin.exe
#CONVERT_BIN = $(BIN_MIPS)mips-elf-objcopy -I elf32-big -O binary test.axf test.bin
OBJ = o
CFLAGS_X86 = -c -DWIN32 -DLINUX
LFLAGS_X86 = -lm

endif

# Use software multiplier (don't use mult.vhd)
CFLAGS_SW_MULT = -mno-mul -DUSE_SW_MULT

# Use 16 fewer registers (make reg_bank.vhd smaller)
CFLAGS_FEW_REGS = -ffixed-t0 -ffixed-t1 -ffixed-t2 -ffixed-t3 -ffixed-t4 -ffixed-t5 -ffixed-t6 -ffixed-t7 -ffixed-s0 -ffixed-s1 -ffixed-s2 -ffixed-s3 -ffixed-s4 -ffixed-s5 -ffixed-s6 -ffixed-s7 

CFLAGS = -O2 -Wall -c -I$(TOOLS2_DIR) -msoft-float -fno-builtin
CFLAGS += -fno-pic -mips1 -mno-abicalls
#CFLAGS += $(CFLAGS_SW_MULT)
#CFLAGS += $(CFLAGS_FEW_REGS)
#CFLAGS += -Wa,-alhs -g

# Build just the Plasma RTOS for Plasma CPU
rtos: 
        $(AS_MIPS) -o boot.o $(TOOLS_DIR)boot.asm
        $(GCC_MIPS) rtos.c
        $(GCC_MIPS) libc.c
        $(GCC_MIPS) uart.c
        $(GCC_MIPS) rtos_test.c
        $(GCC_MIPS) math.c $(ALIASING)
        $(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map \
                -s -N -o test.axf \
                boot.o rtos.o libc.o uart.o rtos_test.o math.o 
        $(CONVERT_BIN)
        @sort <test.map >test2.map
        @$(DUMP_MIPS) --disassemble test.axf > test.lst

# Build the Plasma RTOS, Plasma TCP/IP stack, and web server for the Plasma CPU
# Use the serial port and etermip for TCP/IP packets
rtos_tcpip_uart:
        $(AS_MIPS) -o boot.o $(TOOLS_DIR)boot.asm
        $(GCC_MIPS) rtos.c
        $(GCC_MIPS) libc.c
        $(GCC_MIPS) uart.c -DUART_PACKETS
        $(GCC_MIPS) rtos_test.c -DINCLUDE_UART_PACKETS 
        $(GCC_MIPS) math.c $(ALIASING)
        $(GCC_MIPS) tcpip.c 
        $(GCC_MIPS) http.c -DEXAMPLE_HTML
        $(GCC_MIPS) netutil.c -DEXCLUDE_FLASH
        $(GCC_MIPS) filesys.c -DEXCLUDE_FLASH
        $(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map \
                -s -N -o test.axf \
                boot.o rtos.o libc.o uart.o rtos_test.o math.o \
                tcpip.o http.o netutil.o filesys.o
        $(CONVERT_BIN)
        @sort <test.map >test2.map
        @$(DUMP_MIPS) --disassemble test.axf > test.lst

# Use Ethernet for TCP/IP packets, use flash file system
rtos_tcpip_eth:
        $(AS_MIPS) -o boot.o $(TOOLS_DIR)boot.asm
        $(GCC_MIPS) rtos.c
        $(GCC_MIPS) libc.c
        $(GCC_MIPS) uart.c 
        $(GCC_MIPS) rtos_test.c -DINCLUDE_ETH 
        $(GCC_MIPS) math.c $(ALIASING)
        $(GCC_MIPS) tcpip.c 
        $(GCC_MIPS) http.c -DEXAMPLE_HTML
        $(GCC_MIPS) netutil.c 
        $(GCC_MIPS) filesys.c 
        $(GCC_MIPS) ethernet.c
        $(GCC_MIPS) flash.c
        $(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map \
                -s -N -o test.axf \
                boot.o rtos.o libc.o uart.o rtos_test.o math.o \
                tcpip.o http.o netutil.o filesys.o ethernet.o flash.o
        $(CONVERT_BIN)
        @sort <test.map >test2.map
        @$(DUMP_MIPS) --disassemble test.axf > test.lst

# Build full test application.  (Use rtos_tcpip_eth instead.) 
rtosfull: 
        $(AS_MIPS) -o boot.o $(TOOLS_DIR)boot.asm
        $(GCC_MIPS) rtos.c
        $(GCC_MIPS) libc.c
        $(GCC_MIPS) uart.c 
        $(GCC_MIPS) rtos_test.c -DINCLUDE_ETH 
        $(GCC_MIPS) math.c $(ALIASING)
        $(GCC_MIPS) tcpip.c 
        $(GCC_MIPS) http.c 
        $(GCC_MIPS) netutil.c
        $(GCC_MIPS) filesys.c
        $(GCC_MIPS) ethernet.c
        $(GCC_MIPS) flash.c
        $(GCC_MIPS) -I. $(APP_DIR)html.c -DMainThread=HtmlThread
        $(GCC_MIPS) -I. $(APP_DIR)image.c
        $(GCC_MIPS) -I. $(APP_DIR)tictac.c
        $(GCC_MIPS) -I. $(APP_DIR)tic3d.c
        $(GCC_MIPS) -I. $(APP_DIR)connect4.c
        $(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map \
                -s -N -o test.axf \
                boot.o rtos.o libc.o uart.o rtos_test.o math.o \
                tcpip.o http.o netutil.o filesys.o ethernet.o \
                flash.o html.o image.o tictac.o tic3d.o connect4.o 
        $(CONVERT_BIN)
        @sort <test.map >test2.map
        @$(DUMP_MIPS) --disassemble test.axf > test.lst

# Create a separate Dynamically Linked Library executable
# ftp test.bin to /flash/bin/dlltest
# telnet to board and execute "dlltest"
dlltest:
        $(GCC_MIPS) -G0 dlltest.c
        $(LD_MIPS) -Ttext 0x10100000 -s -N -o dlltest.axf dlltest.o
        @echo PlasmaSend > ftp.txt
        @echo password >> ftp.txt
        @echo send dlltest.axf >> ftp.txt
        @echo quit >> ftp.txt
        ftp -s:ftp.txt plasma

# Test the RTOS running on a PC (requires Windows)
testrtos:
        @$(CC_X86) $(CFLAGS_X86) rtos.c
        @$(CC_X86) $(CFLAGS_X86) rtos_ex.c
        @$(CC_X86) $(CFLAGS_X86) libc.c 
        @$(CC_X86) $(CFLAGS_X86) rtos_test.c
        @$(CC_X86) $(CFLAGS_X86) math.c $(ALIASING)
        @$(CC_X86) $(LFLAGS_X86) -o testrtos.exe rtos.$(OBJ) rtos_ex.$(OBJ) libc.$(OBJ) rtos_test.$(OBJ) math.$(OBJ) 
        $(LINUX_PWD)testrtos.exe

# Test the TCP/IP protocol stack running on a PC (requires Windows)
testip: *.c
        @$(CC_X86) $(CFLAGS_X86) tcpip.c
        @$(CC_X86) $(CFLAGS_X86) http.c /DEXAMPLE_HTML
        @$(CC_X86) $(CFLAGS_X86) netutil.c
        @$(CC_X86) $(CFLAGS_X86) filesys.c /DEXCLUDE_FLASH 
        @$(CC_X86) $(CFLAGS_X86) libc.c /I$(TOOLS_DIR) 
        @$(CC_X86) $(CFLAGS_X86) /DSIMULATE_PLASMA $(TOOLS_DIR)etermip.c
        @$(CC_X86) $(CFLAGS_X86) os_stubs.c
        @$(CC_X86) -o testip.exe etermip.obj $(TOOLS_DIR)wpcap.lib \
        tcpip.obj http.obj netutil.obj filesys.obj libc.obj os_stubs.obj
        @echo Try http://plasmb/.  Try telnet plasmb.  Try ftp plasmb.
        $(LINUX_PWD)testip.exe

install:
        @echo PlasmaSend > ftp.txt
        @echo password >> ftp.txt
        @echo send test.bin >> ftp.txt
        @echo quit >> ftp.txt
        ftp -s:ftp.txt plasma
        @echo Telnet to plasma and run 'reboot test.bin [flash]'

clean:
        -$(RM) *.o *.obj *.axf *.map *.lst *.hex *.txt *.bin *.exe

# Run a Plasma CPU opcode simulator (can execute rtos target)
run: 
        @$(TOOLS_DIR)mlite.exe test.bin 

disassemble:
        -@$(TOOLS_DIR)mlite.exe test.bin BD > test.txt

# Start the EtermIP terminal program to download the code to the 
# Plasma CPU and permit an Ethernet packets to be transfered.
download:
        @echo Reset board before downloading code
        $(TOOLS_DIR)etermip.exe


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