blob: 82d5c1bbb857a4a39096686a3cb0ffdf008a30a2 [file] [log] [blame]
#!/usr/bin/python3
# Copyright (c) 2020-2022, Arm Limited. All rights reserved.
#
# SPDX-License-Identifier: BSD-3-Clause
"""
This script is invoked by Make system and generates secure partition makefile.
It expects platform provided secure partition layout file which contains list
of Secure Partition Images and Partition manifests(PM).
Layout file can exist outside of TF-A tree and the paths of Image and PM files
must be relative to it.
This script parses the layout file and generates a make file which updates
FDT_SOURCES, FIP_ARGS, CRT_ARGS and SPTOOL_ARGS which are used in later build
steps.
If the SP entry in the layout file has a "uuid" field the scripts gets the UUID
from there, otherwise it parses the associated partition manifest and extracts
the UUID from there.
param1: Generated mk file "sp_gen.mk"
param2: "SP_LAYOUT_FILE", json file containing platform provided information
param3: plat out directory
param4: CoT parameter
Generated "sp_gen.mk" file contains triplet of following information for each
Secure Partition entry
FDT_SOURCES += sp1.dts
SPTOOL_ARGS += -i sp1.bin:sp1.dtb -o sp1.pkg
FIP_ARGS += --blob uuid=XXXXX-XXX...,file=sp1.pkg
CRT_ARGS += --sp-pkg1 sp1.pkg
A typical SP_LAYOUT_FILE file will look like
{
"SP1" : {
"image": "sp1.bin",
"pm": "test/sp1.dts"
},
"SP2" : {
"image": "sp2.bin",
"pm": "test/sp2.dts",
"uuid": "1b1820fe-48f7-4175-8999-d51da00b7c9f"
}
...
}
"""
import getopt
import json
import os
import re
import sys
import uuid
with open(sys.argv[2],'r') as in_file:
data = json.load(in_file)
json_file = os.path.abspath(sys.argv[2])
json_dir = os.path.dirname(json_file)
gen_file = os.path.abspath(sys.argv[1])
out_dir = os.path.abspath(sys.argv[3])
dtb_dir = out_dir + "/fdts/"
MAX_SP = 8
dualroot = sys.argv[4].lower() == "dualroot"
split = int(MAX_SP / 2)
print(dtb_dir)
platform_count = 1
sip_count = 1
with open(gen_file, 'w') as out_file:
for idx, key in enumerate(data.keys()):
pkg_num = idx + 1
if (pkg_num > MAX_SP):
print("WARNING: Too many secure partitions\n")
exit(-1)
if dualroot:
owner = data[key].get('owner')
if owner == "Plat":
if (platform_count > split):
print("WARNING: Maximum Secure partitions by Plat " +
"have been exceeded (" + str(split) + ")\n")
exit(-1)
pkg_num = split + platform_count
platform_count += 1
elif (sip_count > split):
print("WARNING: Maximum Secure partitions by SiP " +
"have been exceeded (" + str(split) + ")\n")
exit(-1)
else:
pkg_num = sip_count
sip_count += 1
"""
Append FDT_SOURCES
"""
dts = os.path.join(json_dir, data[key]['pm'])
dtb = dtb_dir + os.path.basename(data[key]['pm'][:-1] + "b")
out_file.write("FDT_SOURCES += " + dts + "\n")
"""
Update SPTOOL_ARGS
"""
dst = out_dir + "/" + key + ".pkg"
src = [ json_dir + "/" + data[key]['image'] , dtb ]
out_file.write("SPTOOL_ARGS += -i " + ":".join(src) + " -o " + dst + "\n")
if "uuid" in data[key]:
"""
Extract the UUID from the JSON file if the SP entry has a 'uuid' field
"""
uuid_std = uuid.UUID(data[key]['uuid'])
else:
"""
Extract uuid from partition manifest
"""
pm_file = open(dts)
for line in pm_file:
if "uuid" in line:
# re.findall returns a list of string tuples.
# uuid_hex is the first item in this list representing the four
# uuid hex integers from the manifest uuid field. The heading
# '0x' of the hexadecimal representation is stripped out.
# e.g. uuid = <0x1e67b5b4 0xe14f904a 0x13fb1fb8 0xcbdae1da>;
# uuid_hex = ('1e67b5b4', 'e14f904a', '13fb1fb8', 'cbdae1da')
uuid_hex = re.findall(r'0x([0-9a-f]+) 0x([0-9a-f]+) 0x([0-9a-f]+) 0x([0-9a-f]+)', line)[0];
# uuid_hex is a list of four hex string values
if len(uuid_hex) != 4:
print("ERROR: malformed UUID")
exit(-1)
# The uuid field in SP manifest is the little endian representation
# mapped to arguments as described in SMCCC section 5.3.
# Convert each unsigned integer value to a big endian representation
# required by fiptool.
y=list(map(bytearray.fromhex, uuid_hex))
z=(int.from_bytes(y[0], byteorder='little', signed=False),
int.from_bytes(y[1], byteorder='little', signed=False),
int.from_bytes(y[2], byteorder='little', signed=False),
int.from_bytes(y[3], byteorder='little', signed=False))
uuid_std = uuid.UUID(f'{z[0]:08x}{z[1]:08x}{z[2]:08x}{z[3]:08x}')
"""
Append FIP_ARGS
"""
out_file.write("FIP_ARGS += --blob uuid=" + str(uuid_std) + ",file=" + dst + "\n")
"""
Append CRT_ARGS
"""
out_file.write("CRT_ARGS += --sp-pkg" + str(pkg_num) + " " + dst + "\n")
out_file.write("\n")