A tooling for flashable parameter data container generation
Project description
Tools for Creating Flashable Parameter Container
Pargen - Parameter File Generator
The main tool in flashcontainer is called Pargen. Pargen is generating data files for parameter values or other data structures that can to be stored in flash memory. It allows to change the data without recompilation by reading definitions from an XML file.
Flashcontainter also includes tailored front ends for Pargen to simplify special use cases. See the TC3xx tool description chapter for generating Infineon Aurix TC3xx boot mode headers structures.
Concept and Features
- Read input from a schema validated XML file
- Generate C-Source stubs for embedding into the application source amd testing environments
- Generate Intel Hex files for flashing with a programmer
- Generate GNU linker include file for mapping the parameter to absolute addresses
Installation
The package is available on Pypi and can be installed using
pip install flashcontainer
A python 3.8 or higher version is required.
The parameter generator tool can then by called on cmdline using
$ pargen -h
usage: pargen [-h] [--ihex] [--csrc] [--gld] [--a2l] [--pyhexdump] [--destdir directory] [--filename basename] [--static] [--modify name=value] [--version] file
pargen 0.4.0: A tool for generating flashable parameter container.
positional arguments:
file name of the XML parameter definition file
optional arguments:
-h, --help show this help message and exit
--ihex generate intelhex file
--csrc generate c/c++ header and source files
--gld generate GNU linker include file for parameter symbol generation
--a2l generate A2L parameter description file
--pyhexdump generate pyHexDump print configuration file
--destdir directory, -o directory
specify output directory for generated files
--filename basename, -f basename
set basename for generated files
--static, -s create static comment output without dynamic elements like date and time
--modify name=value, -m name=value
modify parameter value using name=value notation
--version show program's version number and exit
Copyright (c) 2022-2023 Haju Schulz <haju.schulz@online.de>. Visit https://github.com/nhjschulz/flashcontainer for full documentation and examples.
The flashcontainer Developing page on Github explains how to use unreleased development builds or how to setup a development environment.
XML Definitions File
The flash container configuration for Pargen is a XML definition file with the format explained below.
TL;DR
The examples folder shows how to configure Pargen for various use cases. Most of it is likely self explanatory. Read the examples.md files inside the examples folder to learn more about them. To understand Pargen's XML capabilities in depth, read on.
XML Configuration File Anatomy
The XML follows an XSD-schema defined in pargen_1.0.xsd. It is highly recommended to use an XML editor with schema validation support to avoid or detect validations already while editing. Visual Studio Code is a perfect choice, given the "XML Language Support" extension from Red Hat is installed. This extensions brings validation and "IntelliSense" to editing XML files.
The file defines the following data element hierarchy. The "..." lines mean that the preceding element may appear multiple times:
<pd:Container>
<pd:blocks>
<pd:block>
<pd:parameter> or <pd:crc>
...
</pd:block>
...
<pd:blocks>
...
</pd:Container>
XML Root Element
The XML file uses XSD schema validation and a namespace. This requires the following (static) XML element to be used as the root XML element at the beginning of the file:
?xml version="1.0" encoding="utf-8"?>
<pd:pargen xmlns:pd="http://nhjschulz.github.io/1.0/pargen"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://nhjschulz.github.io/1.0/pargen http://nhjschulz.github.io/xsd/pargen_1.0.xsd" >
Container Element
The top level configuration element is the container. A container maps its parameter blocks to absolute addresses by the at attribute. Address attributes inside block elements are offsets to the at attribute value.
Container Element Attributes
Attribute | Description | optional | default |
---|---|---|---|
name | The container name. | No | |
at | Absolute address of the container. | No |
Container Child Elements
Element | Description | Multiplicity |
---|---|---|
blocks | Parent Element for blocks | 1 |
Example Container Element
<pd:container name="UCBRange" at="0xAF400000">
<pd:blocks>
....
</pd:blocks>
</pd:container>
Block Element
A block element defines a contiguous memory area inside a container. Blocks contain an optional header and parameters at unique offsets inside the block memory range. Gaps between parameters are filled with the byte value specified using the 'fill' attribute. A container may have 1 to many block children inside a blocks element.
Block Attributes
Attribute | Description | optional | default |
---|---|---|---|
name | The block name. | No | |
offset | Memory start offset inside container. Value may be "." to use the next free offset inside the container. | No | |
length | Number of bytes covered by this block | No | |
align | block alignment to the next 1,2,4,8 bytes boundary | Yes | 1 |
fill | byte value used to fill gaps. | Yes | 0x00 |
endianness | LE or BE: Little or big endian byte order | Yes | LE |
Block Child Elements
Element | Description | Multiplicity |
---|---|---|
comment | Optional comment text for this block | 0..1 |
header | Optional header with id, version and length information | 0..1 |
data | Parent element for block parameter | 1 |
Block Header Element
Pargen blocks may contain a header at the beginning of the block memory area. This optional header contains block identification, version and length information. The header supports parameter validation to verify correctness and compatibility with the using application during runtime. The safety example in the examples folder shows how to use the header in combination with a CRC for this purpose.
The header data is a 16 byte long data structure with the following layout:
struct sruct_pargen_header_type
{
uint16_t id; /* from id header attribute */
uint16_t major; /* from major header attribute */
uint16_t minor; /* from minor header attribute */
uint16_t dataver; /* from version header attribute */
uint32_t reserved; /* reserved = 0x00000000 */
uint32_t length; /* from length block attribute */
};
Application can freely decide how to use the id, major, minor and dataver header fields. The proposed usage is as follows:
- id - A unique id to identify the blocks purpose. (Example: 1:CAN Bus settings, 2 :Motor parameters, ...)
- Major.Minor - A version pair defining the layout of the block
- dataver - The version or build number of the parameter set
The header data is internally handled as a parameter. Space for any further parameter starts at offset 16 (0x10) if the header is used.
Example Block Element
<pd:block offset="0x0000" name="UCB_BMHD0" length="0x1F4" fill="0x00" endianness="LE">
<pd:header id="0x0A" major="1" minor="0" version="1"></pd:header>
<pd:comment>Aurix Bootmode Headers</pd:comment>
<pd:data>
....
</pd:data>
</pd:block>
Parameter Element
A parameter element defines a single parameter inside a block. Blocks may have one to many parameter elements.
Parameter Element Attributes
Attribute | Description | optional | default |
---|---|---|---|
offset | Memory start offset inside block. Value may be "." to use the next free offset inside the block. | No | |
name | The parameter name. | No | |
type | Parameter type, one of [u]int{bits} with bits one of 8,16,32,64 or float32,float64 or utf8 | No | |
align | Parameter offset alignment to the next 1,2,4,8 bytes boundary | Yes | 1 |
Parameter Child Elements
Element | Description | Multiplicity |
---|---|---|
comment | Optional comment text for this parameter | 0..1 |
value | The parameter value | 1 |
Parameter Element Example
<pd:param offset="0x004" name="STAD" type="uint32">
<pd:comment>Application entry point address</pd:comment>
<pd:value>0x80028000</pd:value>
Parameter Value Element
The value element of a parameter holds the parameter value inside its text element using a JSON style syntax. The following subset of JSON definitions are supported:
Value type | Examples |
---|---|
Integer values in decimal or hexadecimal | 1, -2, 0xABCDEF |
Floating point variables | 3.141, 1E-005 |
Strings in double quotes | "Hello world!" |
One-dimensional arrays | [1, 2, 3, 4, 5, 6] |
Crc Element
The crc element defines an integer parameter. The difference to a normal integer parameter is the automatic value calculation using a crc algorithm. Instead of a parameter value child element, memory and config elements are used to define crc calculation parameters.
Crc Element Attributes
Attribute | Description | optional | default |
---|---|---|---|
offset | Memory start offset inside block. Value may be "." to use the next free offset inside the block | No | |
name | The crc parameter name. | No | |
type | Parameter type, one of uint{bits} with bits one of 8,16,32,64 | No | |
align | Parameter offset alignment to the next 1,2,4,8 bytes boundary | Yes | 1 |
Crc Child Elements
Element | Description | Multiplicity |
---|---|---|
comment | Optional comment text for this parameter | 0..1 |
memory | The crc memory range and access method | 1 |
config | The optional crc computation parameter | 0..1 |
Crc Memory Element
The memory element defines the memory range used to calculate the crc and the access method to this memory range if byte swapping is needed. The bytes at the range boundaries are included into the crc calculation.
Attribute | Description | optional | default |
---|---|---|---|
from | Start address for crc calculation | No | |
to | End address for crc calculation. The value may be "." to represent an address right before the crc offset. | No | |
access | Bit width in case of swapping (8,16,32,64) | yes | 8 |
swap | Enable bytes swapping using access size | Yes | false |
Crc Config Element
The config element defines the crc calculation parameters to enable arbitrary crc methods. The values for common used crc methods can be taken from this crc catalog page. The default values select the IEEE802.3 crc calculation also known as CRC-32. Note that the bit size of the crc is not part of these parameters, but derived from the type attribute of the crc element.
Attribute | Description | optional | default |
---|---|---|---|
polynomial | polynomial coefficients | yes | 0x04C11DB7 |
init | Start value, usual 0 or -1 | yes | 0xFFFFFFFF |
rev_in | Process bytes MSB(false) or LSB(true) first. | yes | true |
rev_out | Enable reflection of final crc result | Yes | true |
final_xor | Perform final XOR of the crc | yes | true |
Crc Element Example
<pd:crc offset="0x008" name="CRCBMHD" type="uint32">
<pd:memory from="0x0000" to="0x0007" access="32" swap="true"/>
<pd:config polynomial="0x04C11DB7" init="0xFFFFFFFF" rev_in="true" rev_out="true" final_xor="true" ></pd:config>
</pd:crc>
Generating TC3xx Boot Mode Header Structures
The tc3xx tool is used to generate Pargen definition XML files for boot mode header structures. A Boot mode header structure is a data block in flash memory, which is defined by Infineon TC3xx processors. It gets processed by startup software to select which image to boot into.
General usage of the tc3xx command:
tc3xx [-h] [--version] {tool name} ...
TC3xx ABMHD - Alternate Boot Mode Header Generator
Tc3xx supports the abmhd tool to a generate an alternate boot mode header structure for firmware hex files. The tc3xx abmhd tool is controlled by options and produces a Pargen definition file. The definitions file is written to stdout id no output file option is given. This allows to "pipe" the definitions directly into Pargen.
tc3xx abmhd usage:
usage: tc3xx abmhd [-h] [--stad STADABM] [--from CHKSTART] [--to CHKEND] [--abmhdid ABMHDID] [--output filename] ADDRESS HEXFILE
Generate TC3XX alternate boot mode header Pargen definition file.
Example:
tc3xx abmhd --stad 0x80028000 --from 0x8002000 --to 0x8004000 0x80000100 fw.hex | pargen --ihex -f abmhd -
positional arguments:
ADDRESS flash address of alternate boot mode header.
HEXFILE name of hexfile with user data content
options:
-h, --help show this help message and exit
--stad STADABM, -s STADABM
user code start address (default: lowest address in hexfile)
--from CHKSTART, -f CHKSTART
begin of range to be checked (default: lowest address in hexfile)
--to CHKEND, -t CHKEND
end of range to be checked (default: highest address in hexfile + 1)
--abmhdid ABMHDID, -i ABMHDID
alternate Boot Mode Header Identifier value (default=0xFA7CB359)
--output filename, -o filename
file name of generated Pargen xml file (default: <stdout>)
Issues, Ideas And Bugs
If you have further ideas or you found some bugs, great! Create an issue or if you are able and willing to fix it by yourself, clone the repository and create a pull request.
Used Non Standard Python Libraries
The project uses the following non standard python libraries:
Library | Purpose | License |
---|---|---|
lxml | XML parsing and validation | BSD-3-Clause |
intelhex | intel hex file generation | BSD |
json5 | JSON read and write (with hexadecimal number support) | Apache |
toml | Accessing toml file content | MIT |
License
The whole source code is published under the BSD 3-Clause License. Consider also the different licenses of used third party libraries too!
Contribution
We welcome contribution, but unless you explicitly state otherwise: Any contribution intentionally submitted for inclusion in the work by you, shall be licensed as above, without any additional terms or conditions.
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