diff --git a/iodelay-autogen.py b/iodelay-autogen.py
index e3738e11d22d7f21d5dce6fa9da5d87d0f89f7c3..d684602bb720ec52462c7451fb85fda5311ec92a 100755 (executable)
--- a/iodelay-autogen.py
+++ b/iodelay-autogen.py
parser.add_argument('-m', '--module', dest='module',
action='store', type=str, default="",
- help='generate only for this module')
+ help='generate only for modules matching the provided RE')
parser.add_argument('-s', '--strict', dest='strict',
action='store_true',
if (args.part == "dra74x" or args.part == "dra75x"):
XML_PATH = "XMLFiles/DRA75x_DRA74x"
PART = "DRA75x_DRA74x"
- PCT_VERSION = "v1.0.9"
+ PCT_VERSION = "v1.0.10"
elif (args.part == "dra72x"):
XML_PATH = "XMLFiles/DRA72x"
PART = "DRA72x"
- PCT_VERSION = "v1.0.6"
+ PCT_VERSION = "v1.0.7"
pad_data_xml = XML_PATH + "/CTRL_MODULE_CORE.xml"
iod_data_xml = XML_PATH + "/IODELAYCONFIG.xml"
else:
return int(bitlist[0].get("resetval"), 16)
-def xml_pad_get_pin(offset, muxmode):
+# For DRA72x SoC, for "ball compatibility" purpose, some signals have same muxmode.
+# CTRL_CORE_ALT_SELECT_MUX register allows to select between one of the signals
+# Its like a board mux has been added inside the SoC, except it uses same muxmode.
+def resolve_group(muxmode_str):
+ mmlist = muxmode_str.split(" ")
+ mmlen = len(mmlist)
+ if (mmlen == 1):
+ def_mode = mmlist[0]
+ return mmlist[0]
+ elif (mmlen == 2):
+ def_mode = mmlist[0]
+ grp1_mode = mmlist[1]
+ elif (mmlen == 3):
+ def_mode = mmlist[0]
+ grp1_mode = mmlist[1]
+ grp2_mode = mmlist[2]
+ else:
+ print "ERR: Cannot resolve muxmode group for '%s'" % muxmode_str
+
+ #HACK for now
+ return def_mode
+
+def xml_model_get_signal(offset, muxmode):
padlist = pad_xml.findall("register[@offset='0x%X']" % offset)
if (len(padlist) == 0):
return "Unknown"
modes = mux_field[0].findall("./bitenum[@value='%d']" % muxmode)
if (len(modes) == 0):
return "Unknown"
- return modes[0].get("id")
+ return resolve_group(modes[0].get("id"))
def xml_iodelay_get_reg(name):
delaylist = iod_xml.findall("register[@id='%s']" % name)
# It's possible to read the pad data using gpio datain registers
# Dump the linux commands to read the gpio registers and read the pad data
def pad_dump_gpio(padconf, per_padconf):
- if(args.gpio == False):
- return
-
- print "# Read pad signals using GPIO DATA-IN registers"
+ print "###########################################"
+ print "# Read %s signals using GPIO DATA-IN registers" % args.module
print "# Works only for the input signals"
+ print "###########################################"
gpio_data_addrs = (0, 0x4ae10138, 0x48055138, 0x48057138, 0x48059138, 0x4805b138, 0x4805d138, 0x48051138, 0x48053138)
for i in padconf:
(pad_name, pin_name, addr, val, mode, delayinfo) = i
offset = addr - 0x4a002000
- gpio_name = xml_pad_get_pin(offset, 14)
+ gpio_name = xml_model_get_signal(offset, 14)
matchlist = re.match("GPIO(.)_(.*)", gpio_name)
if (matchlist == None):
print "ERR: No GPIO for pad %s" % pad_name
for i in padconf:
(pad_name, pin_name, addr, val, mode, delayinfo) = i
- if (re.match("MMC.*", pin_name) != None):
- print "WARN: Skipping MMC padconf in uboot"
-
muxmode = val & 0xf
(method, data) = delayinfo
if (method == "LEGACY"):
for i in delayconf:
(pad_name, pin_name, regname, del_offset, man_name, adel, gdel) = i
- if (re.match("MMC.*", pin_name) != None):
- print "WARN: Skipping MMC delayconf in uboot"
- continue
-
entry = (del_offset, adel, gdel, regname, pin_name, man_name)
manual_del.append(entry)
for per in per_padconf:
if (re.match("MMC.*", per) == None):
- print "ERR: Only MMC padconf is recommended in kernel"
- continue
+ print "WARN: Only MMC padconf is recommended in kernel"
# Get the mode from the first entry
(pad_name, pin_name, addr, val, mode, delayinfo) = per_padconf[per][0]
for per in per_delayconf.keys():
if (re.match("MMC.*", per) == None):
- print "ERR: Only MMC delayconf is recommended in kernel"
- continue
+ print "WARN: Only MMC delayconf is recommended in kernel"
# Get the mode from the first entry
(pad_name, pin_name, regname, del_offset, mode, adel, gdel) = per_delayconf[per][0]
# Find out the pin based on the muxmode
pad_name = xml_pad_get_name(offset)
- pin_name = xml_pad_get_pin(offset, muxmode)
+ pin_name = xml_model_get_signal(offset, muxmode)
if (pad_name == "Unknown" or pin_name == "Unknown"):
print "WARN: Cannot find out Pad/Pin name for PAD address 0x%X (%s[%s] = %s)" \
% (addr, pad_name, muxmode, pin_name)
continue
- if (pin_name == "DRIVER OFF"):
+ if (pin_name == "DRIVER"):
continue
# Find out if the delaymode for this module is already selected
module = re.match("([^_]+)_.*", pin_name).groups(0)[0]
- if (args.module != "" and args.module != module):
+ if (args.module != "" and re.match("%s" % args.module, module) == None):
continue
# It is recommended to keep the reset value of the slewcontrol bit
# Find out all the possible virtual, manual modes fot the specific pad -> pin combination
(virt, man) = xml_find_delaymodes(pad_name, muxmode)
- # Need to select one out of allowed modes
- mode = select_mode(pad_name, pin_name, module, virt, man, modehelp, sel)
+ if (args.gpio == True):
+ mode = "LEGACY"
+ else:
+ # Need to select one out of allowed modes
+ mode = select_mode(pad_name, pin_name, module, virt, man, modehelp, sel)
# Remember the selection for that module, for later reuse
if (args.strict == False and module not in sel.keys()):
print "Total DELAY registers: %d" % len(delayconf)
print ""
+if(args.gpio == True):
+ pad_dump_gpio(padconf, per_padconf)
+ exit()
+
format_pad_regs(padconf, per_padconf)
format_delay_regs(delayconf, per_delayconf)
-pad_dump_gpio(padconf, per_padconf)
# Dump the final selection for reuse
print "Selected modes for each peripheral module\n"