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[/] [plasma/] [trunk/] [tools/] [makefile] - Rev 389
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# The CC_X86 is for compiling tools on your PC.
# The GCC_MIPS is for compiling code on the target.
# Convert_bin changes test.axf into code.txt which is used by the VHDL.
# Convert_bin == "objcopy -I elf32-big -O binary test.axf test.bin"
ifeq ($(LANG),)
# Customize for Windows
# The MIPS gcc compiler must use the cygwin1.dll that came with the compiler.
CC_X86 = cl /O1 /nologo
CP = copy
RM = del
DWIN32 = -DWIN32
BIN_MIPS = ..\gccmips_elf
VHDL_DIR = ..\vhdl
LINUX_PWD =
GCC_MIPS = $(BIN_MIPS)\gcc $(CFLAGS)
AS_MIPS = $(BIN_MIPS)\as
LD_MIPS = $(BIN_MIPS)\ld
DUMP_MIPS = $(BIN_MIPS)\objdump
CONVERT_BIN = $(LINUX_PWD)convert_bin.exe
else
# Customized for Linux
# See http://www.opencores.com/projects.cgi/web/mips/linux_tools.htm
CC_X86 = gcc -Wall -O -g
CP = cp
RM = rm -rf
DWIN32 =
BIN_MIPS =
VHDL_DIR = ../vhdl
LINUX_PWD = ./
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
CONVERT_BIN = $(LINUX_PWD)convert_bin.exe
#CONVERT_BIN = $(BIN_MIPS)mips-elf-objcopy -I elf32-big -O binary test.axf test.bin
endif
CFLAGS = -O2 -Wall -c -s
all: convert_bin.exe tracehex.exe bintohex.exe ram_image.exe
@echo make targets = count, opcodes, pi, test, run, tohex,\
bootldr, toimage, eterm
clean:
-$(RM) *.o *.obj *.map *.lst *.hex *.txt *.exe *.axf
#Same as "objcopy -I elf32-big -O binary test.axf test.bin"
convert_bin.exe: convert.c
@$(CC_X86) -o convert_bin.exe convert.c
convert_le.exe: convert.c
@$(CC_X86) -DLITTLE_ENDIAN -o convert_le.exe convert.c
mlite.exe: mlite.c
@$(CC_X86) -o mlite.exe mlite.c $(DWIN32)
tracehex.exe: tracehex.c
@$(CC_X86) -o tracehex.exe tracehex.c
bintohex.exe: bintohex.c
@$(CC_X86) -o bintohex.exe bintohex.c
ram_image.exe: ram_image.c
@$(CC_X86) -o ram_image.exe ram_image.c
# Terminal program that will download a new image.
# For Linux, use any serial port program at 57600 baud 8-bits;1-stop bit
# This mode does not support Ethernet packet transfers.
eterm: etermip.c
-@$(CC_X86) -o etermip.exe etermip.c
# Terminal program that will download a new image and supports Ethernet
# traffic over UART. Get wpcap.lib from http://www.winpcap.org/.
# Requires Windows OS
# Uses wpcap.lib for receiving and transmitting raw Ethernet packets
# Get wpcap.lib from http://www.winpcap.org/.
etermip: etermip.c
@echo Get wpcap.lib from http://www.winpcap.org/
-@$(CC_X86) -DUSE_WPCAP -o etermip.exe etermip.c wpcap.lib
nomult.exe: nomult.c
-@$(CC_X86) -o nomult.exe nomult.c
download: etermip
@echo Reset board before downloading code
etermip
opcodes:
$(AS_MIPS) -o opcodes.o opcodes.asm
$(LD_MIPS) -Ttext 0 -eentry -Map test.map -s -N -o test.axf opcodes.o
-@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
opcodes2:
$(AS_MIPS) -o opcodes.o opcodes.asm
$(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map -s -N -o test.axf opcodes.o
-@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
test:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) test.c
$(GCC_MIPS) no_os.c
$(LD_MIPS) -Ttext 0 -eentry -Map test.map -s -N -o test.axf \
boot.o test.o no_os.o
-@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
count:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) count.c
$(GCC_MIPS) no_os.c
$(LD_MIPS) -Ttext 0 -eentry -Map test.map -s -N -o test.axf \
boot.o count.o no_os.o
-$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
count_le:
$(AS_MIPS) -EL -o boot.o boot.asm
$(GCC_MIPS) -EL count.c
$(GCC_MIPS) -EL no_os.c
$(LD_MIPS) -EL -Ttext 0 -eentry -Map test.map -s -N -o test.axf \
boot.o count.o no_os.o
-$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
count2:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) count.c
$(GCC_MIPS) no_os.c
$(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map -s -N -o test.axf \
boot.o count.o no_os.o
-$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
count3:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) count.c
$(GCC_MIPS) no_os.c
$(LD_MIPS) -Ttext 0x2000 -eentry -Map test.map -s -N -o test.axf \
boot.o count.o no_os.o
-$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
count5: nomult.exe
$(AS_MIPS) -o boot.o boot.asm
$(AS_MIPS) -o mult_sim.o mult_sim.asm
$(GCC_MIPS) count.c
$(GCC_MIPS) no_os.c
$(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map -s -N -o test.axf \
boot.o mult_sim.o count.o no_os.o
-$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CP) test.axf test_old.axf
nomult test.axf test.lst test.map
-$(DUMP_MIPS) --disassemble test.axf > test2.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
pi:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) pi.c
$(LD_MIPS) -Ttext 0 -eentry -Map test.map -s -N -o test.axf \
boot.o pi.o
@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
pi2:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) pi.c
$(LD_MIPS) -Ttext 0x10000000 -eentry -Map test.map -s -N -o test.axf \
boot.o pi.o
@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
pi5: nomult.exe
$(AS_MIPS) -o boot.o boot.asm
$(AS_MIPS) -o mult_sim.o mult_sim.asm
$(GCC_MIPS) pi.c
$(LD_MIPS) -Ttext 0x0 -eentry -Map test.map -s -N -o test.axf \
boot.o mult_sim.o pi.o
@$(DUMP_MIPS) --disassemble test.axf > test.lst
nomult test.axf test.lst test.map
@$(DUMP_MIPS) --disassemble test.axf > test2.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
ddr_test:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) ddr_init.c -DDDR_TEST_MAIN
$(GCC_MIPS) no_os.c
$(LD_MIPS) -Ttext 0x0 -eentry -Map test.map -s -N -o test.axf \
boot.o ddr_init.o no_os.o
@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
memtest:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) memtest.c
$(LD_MIPS) -Ttext 0x2000 -eentry -o test.axf boot.o memtest.o
$(CONVERT_BIN)
memtest2:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) -DINIT_DDR memtest.c
$(GCC_MIPS) ddr_init.c
$(LD_MIPS) -Ttext 0x0 -eentry -o test.axf boot.o memtest.o ddr_init.o
$(CONVERT_BIN)
memtest3:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) memtest.c
$(LD_MIPS) -Ttext 0x10000000 -eentry -o test.axf boot.o memtest.o
$(CONVERT_BIN)
bootldr:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) bootldr.c
$(GCC_MIPS) no_os.c
$(GCC_MIPS) -DDLL_DISABLE ddr_init.c
$(LD_MIPS) -Ttext 0 -eentry -Map test.map -s -N -o test.axf \
boot.o bootldr.o no_os.o ddr_init.o
@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
@echo Next do "make toimage" for Xilinx or "make tohex" for Altera.
bootldr2:
$(AS_MIPS) -o boot.o boot.asm
$(GCC_MIPS) bootldr.c
$(GCC_MIPS) no_os.c
$(GCC_MIPS) -DDLL_DISABLE ddr_init.c
$(LD_MIPS) -Ttext 0x1000 -eentry -Map test.map -s -N -o test.axf \
boot.o bootldr.o no_os.o ddr_init.o
@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(CONVERT_BIN)
$(CP) code.txt $(VHDL_DIR)
bootldr_little_endian: convert_le.exe
$(AS_MIPS) -EL -o boot.o boot.asm
$(GCC_MIPS) -EL bootldr.c
$(GCC_MIPS) -EL no_os.c
$(GCC_MIPS) -EL ddr_init.c
$(LD_MIPS) -EL -Ttext 0 -eentry -Map test.map -s -N -o test.axf \
boot.o bootldr.o no_os.o ddr_init.o
@$(DUMP_MIPS) --disassemble test.axf > test.lst
$(LINUX_PWD)convert_le.exe
$(CP) code.txt $(VHDL_DIR)
# Run a MIPS opcode simulator
run: mlite.exe
@$(LINUX_PWD)mlite.exe test.bin
run_little_endian: mlite.exe
@$(LINUX_PWD)mlite.exe test.bin L
disassemble: mlite.exe
$(LINUX_PWD)mlite.exe test.bin BD > test.txt
# Used by Altera FPGAs for ram image
tohex: bintohex.exe
$(LINUX_PWD)bintohex.exe test.bin
$(CP) code*.hex $(VHDL_DIR)
# Used by Xilinx FPGAs for ram image
toimage:
$(LINUX_PWD)ram_image.exe ../vhdl/ram_xilinx.vhd ../vhdl/code.txt ../vhdl/ram_image.vhd
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