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-rw-r--r--doc/README.rockchip6
-rwxr-xr-xtools/rkmux.py218
2 files changed, 224 insertions, 0 deletions
diff --git a/doc/README.rockchip b/doc/README.rockchip
index 9a2ebca..7be5a13 100644
--- a/doc/README.rockchip
+++ b/doc/README.rockchip
@@ -243,6 +243,12 @@ SPI flash.
See above for instructions on how to write a SPI image.
+rkmux.py
+--------
+
+You can use this script to create #defines for SoC register access. See the
+script for usage.
+
Device tree and driver model
----------------------------
diff --git a/tools/rkmux.py b/tools/rkmux.py
new file mode 100755
index 0000000..3917335
--- /dev/null
+++ b/tools/rkmux.py
@@ -0,0 +1,218 @@
+#!/usr/bin/python
+
+# Script to create enums from datasheet register tables
+#
+# Usage:
+#
+# First, create a text file from the datasheet:
+# pdftotext -layout /path/to/rockchip-3288-trm.pdf /tmp/asc
+#
+# Then use this script to output the #defines for a particular register:
+# ./tools/rkmux.py GRF_GPIO4C_IOMUX
+#
+# It will create output suitable for putting in a header file, with SHIFT and
+# MASK values for each bitfield in the register.
+#
+# Note: this tool is not perfect and you may need to edit the resulting code.
+# But it should speed up the process.
+
+import csv
+import re
+import sys
+
+tab_to_col = 3
+
+class RegField:
+ def __init__(self, cols=None):
+ if cols:
+ self.bits, self.attr, self.reset_val, self.desc = (
+ [x.strip() for x in cols])
+ self.desc = [self.desc]
+ else:
+ self.bits = ''
+ self.attr = ''
+ self.reset_val = ''
+ self.desc = []
+
+ def Setup(self, cols):
+ self.bits, self.attr, self.reset_val = cols[0:3]
+ if len(cols) > 3:
+ self.desc.append(cols[3])
+
+ def AddDesc(self, desc):
+ self.desc.append(desc)
+
+ def Show(self):
+ print self
+ print
+ self.__init__()
+
+ def __str__(self):
+ return '%s,%s,%s,%s' % (self.bits, self.attr, self.reset_val,
+ '\n'.join(self.desc))
+
+class Printer:
+ def __init__(self, name):
+ self.first = True
+ self.name = name
+ self.re_sel = re.compile("[1-9]'b([01]+): (.*)")
+
+ def __enter__(self):
+ return self
+
+ def __exit__(self, type, value, traceback):
+ if not self.first:
+ self.output_footer()
+
+ def output_header(self):
+ print '/* %s */' % self.name
+ print 'enum {'
+
+ def output_footer(self):
+ print '};';
+
+ def output_regfield(self, regfield):
+ lines = regfield.desc
+ field = lines[0]
+ #print 'field:', field
+ if field in ['reserved', 'reserve', 'write_enable', 'write_mask']:
+ return
+ if field.endswith('_sel') or field.endswith('_con'):
+ field = field[:-4]
+ elif field.endswith(' iomux'):
+ field = field[:-6]
+ elif field.endswith('_mode') or field.endswith('_mask'):
+ field = field[:-5]
+ #else:
+ #print 'bad field %s' % field
+ #return
+ field = field.upper()
+ if ':' in regfield.bits:
+ bit_high, bit_low = [int(x) for x in regfield.bits.split(':')]
+ else:
+ bit_high = bit_low = int(regfield.bits)
+ bit_width = bit_high - bit_low + 1
+ mask = (1 << bit_width) - 1
+ if self.first:
+ self.first = False
+ self.output_header()
+ else:
+ print
+ out_enum(field, 'shift', bit_low)
+ out_enum(field, 'mask', mask)
+ next_val = -1
+ #print 'lines: %s', lines
+ for line in lines:
+ m = self.re_sel.match(line)
+ if m:
+ val, enum = int(m.group(1), 2), m.group(2)
+ if enum not in ['reserved', 'reserve']:
+ out_enum(field, enum, val, val == next_val)
+ next_val = val + 1
+
+
+def process_file(name, fd):
+ field = RegField()
+ reg = ''
+
+ fields = []
+
+ def add_it(field):
+ if field.bits:
+ if reg == name:
+ fields.append(field)
+ field = RegField()
+ return field
+
+ def is_field_start(line):
+ if '=' in line or '+' in line:
+ return False
+ if (line.startswith('gpio') or line.startswith('peri_') or
+ line.endswith('_sel') or line.endswith('_con')):
+ return True
+ if not ' ' in line: # and '_' in line:
+ return True
+ return False
+
+ for line in fd:
+ line = line.rstrip()
+ if line[:4] in ['GRF_', 'PMU_', 'CRU_']:
+ field = add_it(field)
+ reg = line
+ do_this = name == reg
+ elif not line or not line.startswith(' '):
+ continue
+ line = line.replace('\xe2\x80\x99', "'")
+ leading = len(line) - len(line.lstrip())
+ line = line.lstrip()
+ cols = re.split(' *', line, 3)
+ if leading > 15 or (len(cols) > 3 and is_field_start(cols[3])):
+ if is_field_start(line):
+ field = add_it(field)
+ field.AddDesc(line)
+ else:
+ if cols[0] == 'Bit' or len(cols) < 3:
+ continue
+ #print
+ #print field
+ field = add_it(field)
+ field.Setup(cols)
+ field = add_it(field)
+
+ with Printer(name) as printer:
+ for field in fields:
+ #print field
+ printer.output_regfield(field)
+ #print
+
+def out_enum(field, suffix, value, skip_val=False):
+ str = '%s_%s' % (field.upper(), suffix.upper())
+ if not skip_val:
+ tabs = tab_to_col - len(str) / 8
+ if value > 9:
+ val_str = '%#x' % value
+ else:
+ val_str = '%d' % value
+
+ str += '%s= %s' % ('\t' * tabs, val_str)
+ print '\t%s,' % str
+
+# Process a CSV file, e.g. from tabula
+def process_csv(name, fd):
+ reader = csv.reader(fd)
+
+ rows = []
+
+ field = RegField()
+ for row in reader:
+ #print field.desc
+ if not row[0]:
+ field.desc.append(row[3])
+ continue
+ if field.bits:
+ if field.bits != 'Bit':
+ rows.append(field)
+ #print row
+ field = RegField(row)
+
+ with Printer(name) as printer:
+ for row in rows:
+ #print field
+ printer.output_regfield(row)
+ #print
+
+fname = sys.argv[1]
+name = sys.argv[2]
+
+# Read output from pdftotext -layout
+if 1:
+ with open(fname, 'r') as fd:
+ process_file(name, fd)
+
+# Use tabula
+# It seems to be better at outputting text for an entire cell in one cell.
+# But it does not always work. E.g. GRF_GPIO7CH_IOMUX.
+# So there is no point in using it.
+if 0:
+ with open(fname, 'r') as fd:
+ process_csv(name, fd)