def process(yaml_all):
# This will return all the enums when we're done
root = {}
# Loop for every chip
for chip in chip_list.getChips():
# Get the YAML corresponding to this chip
file = chip_list.getYamlFile(chip)
# Loop through all blocks
yaml_root = yaml_all[file]
for block in yaml_root:
# Trickbox doesn't exist in the chip as in only useful to Asim
if block == "TRICKBOX":
continue
yaml_block = yaml_root[block]
# Skip proprietary_for blocks
attributes = getChild(yaml_block, "attributes", True)
if attributes:
p = getChild(attributes, "proprietary_for", True)
if p and (not p in chip_list.ALLOWED_PROPRIETARY):
continue
# Find the yaml enums section
yaml_enums = getChild(yaml_block, "enums", True)
if not yaml_enums:
continue
# Process each enum for this chip
for enum in yaml_enums:
_parseEnum(root, enum, chip, block)
for e in root:
_validateEnum(root, e)
return root
def process(yaml_all, enums):
# This will return all the registers when we're done
root = {}
# Loop through all chips
for chip in chip_list.getChips():
# Get the YAML corresponding to this chip
file = chip_list.getYamlFile(chip)
yaml_root = yaml_all[file]
# Loop through all blocks
for block in yaml_root:
# Trickbox doesn't exist in the chip as in only useful to Asim
if block == "TRICKBOX":
continue
yaml_block = yaml_root[block]
# Skip proprietary_for blocks
attributes = getChild(yaml_block, "attributes", True)
if attributes:
p = getChild(attributes, "proprietary_for", True)
if p and (not p in chip_list.ALLOWED_PROPRIETARY):
continue
# Find the yaml registers section
yaml_regs = getChild(yaml_block, "registers", True)
if not yaml_regs:
continue
# Process each register for this chip
for reg in yaml_regs:
_parseReg(root, reg, chip, yaml_root, block)
for r in root.keys():
_validateReg(root, r)
_fixAddressRVU(root, r, enums)
for r in root.keys():
_buildBarOffsets(root, r, enums)
return root
def writeMainIndex(enums, structs, regs):
diff_list = []
out = open("html/index.html", "w")
writePageHeader(out, "Cavium Chip Information")
out.write("<table class=\"layout_table\">\n")
out.write("<tr><td>\n")
out.write("<font size=-1>Updated: %s</font><br><br>\n" % time.asctime())
out.write("<font size=+2>Chips</font><br>\n")
out.write("<table class=\"chips_table\">\n")
out.write("<tr>")
out.write(TH("Chip"))
out.write(TH("Pass", colspan=4))
out.write("</tr>")
by_model = {}
for chip in chip_list.getChips():
family, model, pass_num = chip_list.getChipNameParts(chip)
if not model in by_model:
by_model[model] = []
by_model[model].append((chip, pass_num))
models = by_model.keys()
models.sort()
for model in models:
out.write("<tr>")
out.write(TD(model))
last_chip = None
for chip, p in by_model[model]:
link = "<a href=%s.html target=\"frame\">%.1f</a>" % (chip.lower(),
p)
out.write(TD(link))
if last_chip:
diff_list.append(
diffChip(last_chip, chip, enums, structs, regs))
last_chip = chip
out.write("</tr>\n")
out.write("</table>\n")
out.write("<font size=+2>Differences</font><br>\n")
for diff in chip_list.DIFFS:
diff_list.append(diffChip(diff[0], diff[1], enums, structs, regs))
out.write("<table class=\"chips_table\">\n")
out.write("<tr>")
out.write(TH("Chip1"))
out.write(TH("Chip2"))
out.write(TH("Diff"))
out.write("</tr>\n")
for diff in diff_list:
out.write("<tr>")
out.write(TD(diff[0].replace("P", " ").replace("_", ".")))
out.write(TD(diff[1].replace("P", " ").replace("_", ".")))
link = "<a href=%s target=\"frame\">diff</a>" % diff[2]
out.write(TD(link))
out.write("</tr>\n")
out.write("</table>\n")
out.write("</td>\n")
out.write("<td width=100%>")
out.write("<iframe name=\"frame\" width=100%></iframe>\n")
out.write("</td></tr>\n")
out.write("</table>\n")
writePageFooter(out)
out.close()
def __setitem__(self, name, value):
if not name in ["s", "CN7", "CN8", "CN9"]:
assert name in chip_list.getChips()
if not isinstance(value, self.allowedType):
if not self.allowedType2 or not isinstance(value,
self.allowedType2):
assert False, "%s: %s not %s or %s" % (
name, value, self.allowedType, self.allowedType2)
types.DictType.__setitem__(self, name, value)
def consolidateChips(by_chip, useArch=None):
# Worker function to check that all "keys" are in "dict" and the same. If
# they are, remove the keys and replace them with a single item "new_key".
def check_all_same(keys, dict, new_key):
ref = None
ref_str = None
for key in keys:
if not key in by_chip:
return False
s = str(dict[key])
if ref_str == None:
ref = dict[key]
ref_str = s
elif s != ref_str:
return False
for key in keys:
del dict[key]
dict[new_key] = ref
return True
# If an architecture was supplied, all chips for said architecture must be
# present for consolidation. Otherwise we just require the ones passed.
if useArch:
chips = []
for chip in chip_list.getChips():
if csr_utils.isChipArch(useArch, chip):
chips.append(chip)
else:
chips = by_chip.keys()
# Create a multi-level dictionary describing all the families, models,
# major passes, and minor passes in use
used_chips = {}
for chip in chips:
family, model, chip_pass = chip_list.getChipNameParts(chip)
major = "%s_P%d" % (model, int(chip_pass))
if not family in used_chips:
used_chips[family] = {}
if not model in used_chips[family]:
used_chips[family][model] = {}
if not major in used_chips[family][model]:
used_chips[family][model][major] = []
used_chips[family][model][major].append(chip)
# Search for and consolidate duplicates
family_all_same = True
for family in used_chips:
model_all_same = True
for model in used_chips[family]:
major_all_same = True
for major in used_chips[family][model]:
minor_all_same = check_all_same(
used_chips[family][model][major], by_chip, major)
major_all_same &= minor_all_same
if major_all_same:
major_all_same = check_all_same(
used_chips[family][model].keys(), by_chip, model)
model_all_same &= major_all_same
if model_all_same:
model_all_same = check_all_same(used_chips[family].keys(), by_chip,
family)
family_all_same &= model_all_same
if family_all_same:
check_all_same(used_chips.keys(), by_chip, "CN")
import output_c_header_uboot
import output_c_database
#
# Misc constants
#
PICKLE_FILE = "yaml.pickle"
pp = pprint.PrettyPrinter(indent=4, width=132)
#
# Main code start
#
# Create a list of all possible chips
print "Processing Chips:"
all_chips = chip_list.getChips()
for chip in all_chips:
print "\t%s" % chip
# Load all the yaml
try:
inf = open(PICKLE_FILE, "r")
print "Loading %s" % PICKLE_FILE
yaml_all = cPickle.load(inf)
inf.close()
except:
print "Reading YAML files"
# Read YAML for all chips
yaml_all = yaml_loader.read_files(chip_list.getYamlFiles())
# Pickle it to disk for faster repeats
print "Saving %s" % PICKLE_FILE
def process(enums, structs, regs):
for chip in chip_list.getChips():
writeChip(chip, enums, structs, regs)
writeMainIndex(enums, structs, regs)
def writeDB(arch, regs):
global globalStringTable
global globalStringTableLookup
global globalStringTableLen
global globalNumberTable
global globalNumberTableLen
global globalFieldTable
global globalFieldTableLen
global globalFieldListTable
global globalFieldListTableLen
global globalRangeTable
global globalRangeTableLen
global globalParamIndexTable
global globalParamIndexTableLen
global globalCsrTable
global globalCsrTableLen
globalStringTable = {}
globalStringTableLookup = {}
globalStringTableLen = 0
globalNumberTable = {}
globalNumberTableLen = 0
globalFieldTable = {}
globalFieldTableLen = 0
globalFieldListTable = {}
globalFieldListTableLen = 0
globalRangeTable = {}
globalRangeTableLen = 0
globalParamIndexTable = {}
globalParamIndexTableLen = 0
globalCsrTable = {}
globalCsrTableLen = 0
filename = "output/%s/%s.c" % (arch, FILE_PREFIX)
out = open(filename, "w")
writeCopyrightBanner(out)
out.write('#include <bdk.h>\n')
out.write("\n")
empty_range = getRangeTable([(-1,-1)])
#
# Write the per chip CSR tables
#
null_csr_ranges = getParamIndexTable([0 for x in range(chip_list.MAX_CSR_PARAMS)])
null_csr = getCsrTable("{0, 0, 0, BDK_CSR_TYPE_NCB, 0, 0, %d, %d}" % (null_csr_ranges, null_csr_ranges))
for chip in chip_list.getChips():
if not csr_utils.isChipArch(arch, chip):
continue
# Skip minor passes as they are basically the same as the major pass
if not chip.endswith("_0"):
continue
out.write("static const int16_t __bdk_csr_db_%s[] = {\n" % chip)
names = regs.keys()
names.sort()
for name in names:
reg = regs[name]
if not chip in reg["description"]:
continue
# Don't insert CSRs that we couldn't simplify the equation
if isinstance(reg["address"][chip], StringType):
continue
# Skip dv_uvm_no_create registers
if (("attributes" in reg) and (chip in reg["attributes"]) and
("dv_uvm_no_create" in reg["attributes"][chip])):
if reg["attributes"][chip]["dv_uvm_no_create"]:
assert reg["attributes"][chip]["dv_uvm_no_create"] == "True", "dv_uvm_no_create is expected to be True"
continue
range_len = len(reg["ranges"][chip])
assert range_len <= chip_list.MAX_CSR_PARAMS, "Only support %d params for now" % chip_list.MAX_CSR_PARAMS
range_list = [empty_range for x in range(chip_list.MAX_CSR_PARAMS)]
param_inc = [0 for x in range(chip_list.MAX_CSR_PARAMS)]
for i in range(range_len):
range_list[i] = getRangeTable(reg["ranges"][chip][i])
param_inc[i] = getNumberTable(reg["address"][chip][i+1])
range_index = getParamIndexTable(range_list)
param_index = getParamIndexTable(param_inc)
csr_str = "{%5d, %4d, %d, BDK_CSR_TYPE_%s, %d, %d, %d, %d}" % (
getStringTable(name.replace("#", "X")), # Name index
getNumberTable(reg["address"][chip][0]), # Base index
0, # Unused
reg["bus"][chip], # Bus Type
csr_utils.getSizeBits(reg, 32) / 8, # Width in bytes
getFieldListTable(reg, chip), # Field index
range_index,
param_index)
csr_index = getCsrTable(csr_str)
out.write(" %d, /* %s */\n" % (csr_index, name))
out.write(" %s\n" % null_csr)
out.write("};\n\n")
#
# Write the global CSR table
#
out.write("const __bdk_csr_db_type_t __bdk_csr_db_csr[] = {\n")
keys = getKeysSorted(globalCsrTable)
for key in keys:
out.write(" %s, /* %d */\n" % (key, globalCsrTable[key]))
out.write("};\n\n")
#
# Write the CSR fieldList table
#
out.write("const uint16_t __bdk_csr_db_fieldList[] = {\n")
keys = getKeysSorted(globalFieldListTable)
for key in keys:
out.write(" %s, /* %d */\n" % (key, globalFieldListTable[key]))
out.write("};\n\n")
#
# Write the CSR field table
#
out.write("const __bdk_csr_db_field_t __bdk_csr_db_field[] = {\n")
keys = getKeysSorted(globalFieldTable)
for key in keys:
out.write(" %s, /* %d */\n" % (key, globalFieldTable[key]))
out.write("};\n\n")
#
# Write the CSR range table
#
out.write("const int __bdk_csr_db_range[] = {\n")
keys = getKeysSorted(globalRangeTable)
for key in keys:
out.write(" %s, /* %d */\n" % (key, globalRangeTable[key]))
out.write("};\n\n")
#
# Write the CSR string table
#
out.write("const char __bdk_csr_db_string[] = ")
keys = getKeysSorted(globalStringTable)
for key in keys:
if len(key) &1 == 0:
out.write("\n \"%s\\0\\0\" /* %s/2 */" % (key, globalStringTable[key]))
else:
out.write("\n \"%s\\0\" /* %s/2 */" % (key, globalStringTable[key]))
out.write("\n \"\";\n\n")
#
# Write the CSR number table
#
out.write("const uint64_t __bdk_csr_db_number[] = {\n")
keys = getKeysSorted(globalNumberTable)
for key in keys:
out.write(" 0x%016xull, /* %s */\n" % (key, globalNumberTable[key]))
out.write("};\n\n")
#
# Write the param index table
#
out.write("const uint16_t __bdk_csr_db_param_index[][BDK_CSR_DB_MAX_PARAM] = {\n")
keys = getKeysSorted(globalParamIndexTable)
for key in keys:
out.write(" %s, /* %d */\n" % (key, globalParamIndexTable[key]))
out.write("};\n\n")
#
# Write the chip id to CSR table map
#
out.write("const __bdk_csr_db_map_t __bdk_csr_db[] = {\n")
for chip in chip_list.getChips():
if not csr_utils.isChipArch(arch, chip):
continue
# Skip minor passes as they are basically the same as the major pass
if not chip.endswith("_0"):
continue
model_check = chip_list.chipToModelDefine(chip)
assert model_check.endswith("_0"), model_check
model_check = model_check[0:-2] + "_X"
out.write(" {%s, __bdk_csr_db_%s},\n" % (model_check, chip))
out.write(" {0, NULL}\n")
out.write("};\n\n")
out.close()
