def setGlbl_vars(mhs):
global sys_clk
global sys_reset
global main_plb
global lib_name
global lib_dir_name
lib_dir_name = "kapi_cpuhwt_v1_00_a"
lib_name = "kapi_cpuhwt"
instances = mhs.getPcores("plb_v34")
xps_instances = mhs.getPcores("plb_v46")
if len(xps_instances) > 0:
#instances.append(xps_instances)
if len(instances) == 0:
instances = xps_instances
else:
instances.append(xps_instances)
if len(instances) <= 0:
sys.stderr.write("ERROR, no PLB bus in system!\n")
sys.exit(1)
found = 0
for pcore in instances:
if pcore.instance_name == "plb":
sys.stderr.write("pcore: %s" % pcore.instance_name)
found = 1
main_plb = "plb"
sys_clk = pcore.getValue("PLB_Clk")
sys_reset = pcore.getValue("SYS_Rst")
#if no plb with instance_name "plb" found just take the first plb instance as main_plb
if found == 0:
sys.stderr.write("ERROR found == 0!\n")
main_plb = instances[0].instance_name
sys_clk = instances[0].getValue("PLB_Clk")
sys_reset = instances[0].getValue("SYS_Rst")
def setGlbl_vars(mhs):
global sys_clk
global sys_reset
global main_plb
global lib_name
global lib_dir_name
lib_dir_name = "kapi_cpuhwt_v1_00_a"
lib_name = "kapi_cpuhwt"
instances = mhs.getPcores("plb_v34")
xps_instances = mhs.getPcores("plb_v46")
if len(xps_instances) > 0:
#instances.append(xps_instances)
if len(instances) == 0:
instances = xps_instances
else:
instances.append(xps_instances)
if len(instances) <= 0:
sys.stderr.write("ERROR, no PLB bus in system!\n")
sys.exit(1)
found = 0
for pcore in instances:
if pcore.instance_name == "plb":
sys.stderr.write("pcore: %s" % pcore.instance_name)
found = 1
main_plb = "plb"
sys_clk = pcore.getValue("PLB_Clk")
sys_reset = pcore.getValue("SYS_Rst")
#if no plb with instance_name "plb" found just take the first plb instance as main_plb
if found == 0:
sys.stderr.write("ERROR found == 0!\n")
main_plb = instances[0].instance_name
sys_clk = instances[0].getValue("PLB_Clk")
sys_reset = instances[0].getValue("SYS_Rst")
def getBramLogicPort(mhs):
global baseaddr #this is used also by another function
instance = mhs.getPcore("cpu_hwt_bram_logic")
if instance == None:
bram_logic = reconos.mhs.MHSPCore("cpu_hwt_bram_logic")
bram_logic.instance_name = "CPUHWT_BRAM_LOGIC"
bram_logic.addEntry("PARAMETER", "HW_VER", "1.00.a")
instances = mhs.getPcores("plb_bram_if_cntlr")
xps_instances = mhs.getPcores("xps_bram_if_cntlr")
#instances.append(xps_instances)
if len(instances) == 0:
instances = xps_instances
else:
instances.append(xps_instances)
if len(instances) > 0:
bus_interface_porta = ""
found = 0
for bc in instances:
if (bc.getValue("C_HIGHADDR")
== "0xffffffff") or (bc.getValue("C_HIGHADDR")
== "0xFFFFFFFF"):
#this is the right bram_ctrl
#now get Value of PortB and start searching for right BRAM_BLOCK
found = 1
bus_interface_porta = bc.getValue("PORTA")
baseaddr = bc.getValue("C_BASEADDR")
break
if found == 0:
sys.stderr.write(
"ERROR, no BRAM-CTRL which ends at Address 0xFFFFFFFF!\n")
sys.exit(1)
#if bramctrl was found check if via baseaddr if the bramsize is big enough
#it should be > 16kb because we leave 8kb for ecos
bram_size = 0xffffffff - int(baseaddr, 16)
if bram_size < 0x3fff:
sys.stderr.write(
"Size of bram_ctrl with C_HIGHADDR=0xFFFFFFFF is too small. It has to be minimum 16kb!!!!\n"
)
sys.exit(1)
#now manipulate the eCos linkerscript (target.ld) to reduce the bram-space used by eCos
#this is done because the eCos executable is loaded last and if the whole bramspace is added in target.ld
#all the boot0 sections of the CPU-HW-Threads will be zeroed
#get all BRAM_BLOCK instances
instances = mhs.getPcores("bram_block")
if len(instances) <= 0:
sys.stderr.write("ERROR, no BRAM-BLOCKS in system!\n")
sys.exit(1)
#search all instances for the right bram_block (the bram which is connected to the right bram_ctrl)
for bb in instances:
if bb.getValue("PORTA") == bus_interface_porta:
#set PORTB to bram_ctrl_logic
##check if PORTB is already used
portb_val = bb.getValue("PORTB")
if portb_val != None:
sys.stderr.write("ERROR, PORTB of %s is not free! \n" %
bb.instance_name)
sys.exit(1)
#connect cpu_hwt_bram_logic with bram_block
bb.addEntry("BUS_INTERFACE", "PORTB",
"CPU_HWT_BRAM_LOGIC_PORT")
bram_logic.addEntry("BUS_INTERFACE", "PORTB",
"CPU_HWT_BRAM_LOGIC_PORT")
#now connect clk and rst
bram_logic.addEntry("PORT", "clk", sys_clk)
bram_logic.addEntry("PORT", "reset", sys_reset)
#This is the first instantiation of the cpu_hwt_bram_logic so we return the CPU0 Port
ret_val = "BRAM_LOGIC_CPU_PORT_0"
bram_logic.addEntry("BUS_INTERFACE", "CPU0", ret_val)
#Because this is the first CPUHWT the library has to be linked to the edk dir
set_cpuhwt_lib()
break
mhs.pcores.append(bram_logic)
return ret_val
else:
sys.stderr.write("ERROR, no BRAM-CTRL Instance!\n")
sys.exit(1)
else:
sys.stderr.write(
"ERROR. This toolchain can only manage 1 CPU-HW-Thread!\n")
sys.exit(1)
os.mkdir(pcore_name)
open(readme_file, "w").write(readme_text)
#Now check which cpu_type and begin scanning/modifiing the mhs file
mhs_file = "../../edk-static/system.mhs"
mhs_new = "../../edk-static/system.mhsnew"
mss_file = "../../edk-static/system.mss"
mss_new = "../../edk-static/system.mssnew"
mhs = reconos.mhs.MHS(mhs_file)
mss = reconos.mss.MSS(mss_file)
#before scanning, set the global vars
setGlbl_vars(mhs)
if cpuhwt_type == "PPC405":
if (platform == "virtex2"):
ppc_instances = mhs.getPcores("ppc405")
elif (platform == "virtex4"):
ppc_instances = mhs.getPcores("ppc405_virtex4")
if (len(ppc_instances)) <= 1:
#the toolchain requires that the reference design has already instantiated the processors
sys.stderr.write("Only one PowerPC in system!\n")
sys.exit(1)
else:
found = 0
ppc_core = None
#search for ppc instance which is not used
for pcore in ppc_instances:
#ppc405_0 is the ecos cpu
if pcore.instance_name != "ppc405_0":
#make a simple check if ppc is already used (if the IPLB is connected the PPC could be in use)
def getBramLogicPort(mhs):
global baseaddr #this is used also by another function
instance = mhs.getPcore("cpu_hwt_bram_logic")
if instance == None:
bram_logic = reconos.mhs.MHSPCore("cpu_hwt_bram_logic")
bram_logic.instance_name = "CPUHWT_BRAM_LOGIC"
bram_logic.addEntry("PARAMETER","HW_VER","1.00.a")
instances = mhs.getPcores("plb_bram_if_cntlr")
xps_instances = mhs.getPcores("xps_bram_if_cntlr")
#instances.append(xps_instances)
if len(instances) == 0:
instances = xps_instances
else:
instances.append(xps_instances)
if len(instances) > 0:
bus_interface_porta = ""
found = 0
for bc in instances:
if (bc.getValue("C_HIGHADDR") == "0xffffffff") or (bc.getValue("C_HIGHADDR") == "0xFFFFFFFF"):
#this is the right bram_ctrl
#now get Value of PortB and start searching for right BRAM_BLOCK
found = 1
bus_interface_porta = bc.getValue("PORTA")
baseaddr = bc.getValue("C_BASEADDR")
break
if found == 0:
sys.stderr.write("ERROR, no BRAM-CTRL which ends at Address 0xFFFFFFFF!\n")
sys.exit(1)
#if bramctrl was found check if via baseaddr if the bramsize is big enough
#it should be > 16kb because we leave 8kb for ecos
bram_size = 0xffffffff - int(baseaddr, 16)
if bram_size < 0x3fff:
sys.stderr.write("Size of bram_ctrl with C_HIGHADDR=0xFFFFFFFF is too small. It has to be minimum 16kb!!!!\n")
sys.exit(1)
#now manipulate the eCos linkerscript (target.ld) to reduce the bram-space used by eCos
#this is done because the eCos executable is loaded last and if the whole bramspace is added in target.ld
#all the boot0 sections of the CPU-HW-Threads will be zeroed
#get all BRAM_BLOCK instances
instances = mhs.getPcores("bram_block")
if len(instances) <= 0:
sys.stderr.write("ERROR, no BRAM-BLOCKS in system!\n")
sys.exit(1)
#search all instances for the right bram_block (the bram which is connected to the right bram_ctrl)
for bb in instances:
if bb.getValue("PORTA") == bus_interface_porta:
#set PORTB to bram_ctrl_logic
##check if PORTB is already used
portb_val = bb.getValue("PORTB")
if portb_val != None:
sys.stderr.write("ERROR, PORTB of %s is not free! \n" % bb.instance_name)
sys.exit(1)
#connect cpu_hwt_bram_logic with bram_block
bb.addEntry("BUS_INTERFACE", "PORTB", "CPU_HWT_BRAM_LOGIC_PORT")
bram_logic.addEntry("BUS_INTERFACE", "PORTB", "CPU_HWT_BRAM_LOGIC_PORT")
#now connect clk and rst
bram_logic.addEntry("PORT", "clk", sys_clk)
bram_logic.addEntry("PORT", "reset", sys_reset)
#This is the first instantiation of the cpu_hwt_bram_logic so we return the CPU0 Port
ret_val = "BRAM_LOGIC_CPU_PORT_0"
bram_logic.addEntry("BUS_INTERFACE", "CPU0", ret_val)
#Because this is the first CPUHWT the library has to be linked to the edk dir
set_cpuhwt_lib()
break
mhs.pcores.append(bram_logic)
return ret_val
else:
sys.stderr.write("ERROR, no BRAM-CTRL Instance!\n")
sys.exit(1)
else:
sys.stderr.write("ERROR. This toolchain can only manage 1 CPU-HW-Thread!\n")
sys.exit(1)
os.mkdir(pcore_name)
open(readme_file, "w").write(readme_text)
#Now check which cpu_type and begin scanning/modifiing the mhs file
mhs_file = "../../edk-static/system.mhs"
mhs_new = "../../edk-static/system.mhsnew"
mss_file = "../../edk-static/system.mss"
mss_new = "../../edk-static/system.mssnew"
mhs = reconos.mhs.MHS(mhs_file)
mss = reconos.mss.MSS(mss_file)
#before scanning, set the global vars
setGlbl_vars(mhs)
if cpuhwt_type == "PPC405":
if (platform == "virtex2"):
ppc_instances = mhs.getPcores("ppc405")
elif (platform =="virtex4"):
ppc_instances = mhs.getPcores("ppc405_virtex4")
if (len(ppc_instances)) <= 1:
#the toolchain requires that the reference design has already instantiated the processors
sys.stderr.write("Only one PowerPC in system!\n")
sys.exit(1)
else:
found = 0
ppc_core = None
#search for ppc instance which is not used
for pcore in ppc_instances:
#ppc405_0 is the ecos cpu
if pcore.instance_name != "ppc405_0":
#make a simple check if ppc is already used (if the IPLB is connected the PPC could be in use)
