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https://github.com/espressif/esp-idf.git
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208 lines
7.4 KiB
Python
Executable File
208 lines
7.4 KiB
Python
Executable File
#!/usr/bin/env python
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#
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# Demonstrates the use of parttool.py, a tool for performing partition level
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# operations.
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#
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# Copyright 2018 Espressif Systems (Shanghai) PTE LTD
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http:#www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import os
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import sys
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import subprocess
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import argparse
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IDF_PATH = os.path.expandvars("$IDF_PATH")
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PARTTOOL_PY = os.path.join(IDF_PATH, "components", "partition_table", "parttool.py")
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PARTITION_TABLE_OFFSET = 0x8000
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INVOKE_ARGS = [sys.executable, PARTTOOL_PY, "-q", "--partition-table-offset", str(PARTITION_TABLE_OFFSET)]
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def sized_file_compare(file1, file2):
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with open(file1, "rb") as f1:
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with open(file2, "rb") as f2:
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f1 = f1.read()
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f2 = f2.read()
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if len(f1) < len(f2):
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f2 = f2[:len(f1)]
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else:
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f1 = f1[:len(f2)]
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return f1 == f2
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def check(condition, message):
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if not condition:
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print("Error: " + message)
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sys.exit(1)
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def write_data_partition(size):
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print("Writing to data partition")
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with open("write.bin", "wb") as f:
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# Create a file to write to the data partition with randomly generated content
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f.write(os.urandom(int(size, 16)))
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# Invokes the command
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#
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# parttool.py --partition-table-offset 0x8000 -q --partition-name storage write_partition --input write.bin
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#
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# to write the contents of a file to a partition in the device.
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invoke_args = INVOKE_ARGS + ["--partition-name", "storage", "write_partition", "--input", f.name]
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subprocess.check_call(invoke_args)
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return f.name
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def read_data_partition():
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print("Reading data partition")
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# Invokes the command
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#
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# parttool.py --partition-table-offset 0x8000 -q --partition-name storage read_partition --output read.bin
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#
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# to read the contents of a partition in the device, which is then written to a file.
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f = "read.bin"
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invoke_args = INVOKE_ARGS + ["--partition-name", "storage", "read_partition", "--output", f]
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subprocess.check_call(invoke_args)
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return f
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def get_data_partition_info():
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print("Retrieving data partition offset and size")
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# Invokes the command
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#
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# parttool.py --partition-table-offset 0x8000 -q --partition-name storage get_partition_info --info offset size
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#
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# to get the offset and size of a partition named 'storage'.
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invoke_args = INVOKE_ARGS + ["--partition-name", "storage", "get_partition_info", "--info", "offset", "size"]
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(offset, size) = subprocess.check_output(invoke_args).strip().split(b" ")
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return (offset, size)
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def check_app(args):
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print("Checking if device app binary matches built binary")
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# Invokes the command
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#
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# parttool.py --partition-table-offset 0x8000 --partition-type app --partition-subtype factory read_partition --output app.bin"
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#
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# to read the app binary and write it to a file. The read app binary is compared to the built binary in the build folder.
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invoke_args = INVOKE_ARGS + ["--partition-type", "app", "--partition-subtype", "factory", "read_partition", "--output", "app.bin"]
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subprocess.check_call(invoke_args)
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app_same = sized_file_compare("app.bin", args.binary)
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check(app_same, "Device app binary does not match built binary")
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def check_partition_table():
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sys.path.append(os.path.join(IDF_PATH, "components", "partition_table"))
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import gen_esp32part as gen
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print("Checking if device partition table matches partition table csv")
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# Invokes the command
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#
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# parttool.py --partition-table-offset 0x8000 get_partition_info --table table.bin
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#
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# to read the device partition table and write it to a file. The read partition table is compared to
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# the partition table csv.
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invoke_args = INVOKE_ARGS + ["get_partition_info", "--table", "table.bin"]
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subprocess.check_call(invoke_args)
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with open("table.bin", "rb") as read:
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partition_table_csv = os.path.join(IDF_PATH, "examples", "storage", "parttool", "partitions_example.csv")
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with open(partition_table_csv, "r") as csv:
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read = gen.PartitionTable.from_binary(read.read())
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csv = gen.PartitionTable.from_csv(csv.read())
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check(read == csv, "Device partition table does not match csv partition table")
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def erase_data_partition():
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print("Erasing data partition")
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# Invokes the command
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#
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# parttool.py --partition-table-offset 0x8000 --partition-name storage erase_partition
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#
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# to erase the 'storage' partition.
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invoke_args = INVOKE_ARGS + ["--partition-name", "storage", "erase_partition"]
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subprocess.check_call(invoke_args)
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def generate_blank_data_file():
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print("Generating blank data partition file")
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# Invokes the command
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#
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# parttool.py --partition-table-offset 0x8000 --partition-name storage generate_blank_partition_file --output blank.bin
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#
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# to generate a blank partition file and write it to a file. The blank partition file has the same size as the
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# 'storage' partition.
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f = "blank.bin"
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invoke_args = INVOKE_ARGS + ["--partition-name", "storage", "generate_blank_partition_file", "--output", f]
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subprocess.check_call(invoke_args)
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return f
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def main():
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global INVOKE_ARGS
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parser = argparse.ArgumentParser("ESP-IDF Partitions Tool Example")
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parser.add_argument("--port", "-p", help="port where the device to perform operations on is connected")
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parser.add_argument("--binary", "-b", help="path to built example binary", default=os.path.join("build", "parttool.bin"))
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args = parser.parse_args()
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if args.port:
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INVOKE_ARGS += ["--port", args.port]
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# Before proceeding, do checks to verify whether the app and partition table in the device matches the built binary and
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# the generated partition table during build
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check_app(args)
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check_partition_table()
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# Get the offset and size of the data partition
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(offset, size) = get_data_partition_info()
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print("Found data partition at offset %s with size %s" % (offset, size))
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# Write a generated file of random bytes to the found data partition
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written = write_data_partition(size)
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# Read back the contents of the data partition
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read = read_data_partition()
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# Compare the written and read back data
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data_same = sized_file_compare(read, written)
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check(data_same, "Read contents of the data partition does not match written data")
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# Erase the data partition
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erase_data_partition()
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# Read back the erase data partition, which should be all 0xFF's after erasure
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read = read_data_partition()
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# Generate blank partition file (all 0xFF's)
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blank = generate_blank_data_file()
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# Verify that the partition has been erased by comparing the contents to the generated blank file
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data_same = sized_file_compare(read, blank)
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check(data_same, "Erased data partition contents does not match blank partition file")
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print("\nPartition tool operations performed successfully!")
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if __name__ == '__main__':
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main()
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