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Copyright (C) 2014-2015 Jaguar Land Rover

This document is licensed under Creative Commons Attribution-ShareAlike 4.0 International.

GENIVI SOFTWARE MANAGEMENT - PROOF OF CONCEPT

This directory contains a set of python components that are used to explore the API between the components forming the Software Management system.

The components are outlined in the image below

SWM Layout The components are as follows:

See the GENIVI SWLM specification for details on use cases, features, etc.

ACRONYMS

Acronym Description
SWM Software Management
SC Sota Client
SWLM Software Loading Managent
PkgMgr Package Manager
PartMgr Partition Manager
ML Module Loader
HMI Human Machine Interface
LCMgr Life Cycle Manager
LocMedMgr Local Media Manager

TODO

  1. Implement get installed packages use case
    module_loader_ecu1.py needs to correctly implement get_module_firmware_version(). package_manager.py needs to correctly implement get_installed_packages(). software_loading_manager.py needs to implement get_installed_software(), which means invoking package_manager.get_installed_packages() and get_module_firmware_version() of each module loader instance. There is today no tracking in software_loading_manager.py of deployed module loaders. Maybe extend SoftwareOperation.operation_descriptor?

  2. Implement blacklists
    PackMgr install_package() and update_package() needs to verify that the package in the image_path argument is not present in the list of banned packages in the blacklist argument.

    ML's flash_firmware() needs to run a SHA256 checksum on the image pointed to by image_path and verify that the sum is not present in the provided blacklist argument.

    PartMgr write_disk_partition() and patch_disk_partition needs to run a SHA256 checksum on the image pointed to by image_path and verify that the sum is not present in the provided blacklist argument.
    The blacklist needs to be persistent.

  3. Validate update available signature
    SWLM's update_available() implementation needs to be extended to validate that the signature argument matches the update_id argument to ensure that this is not a spoofed update available call sent from a malicious server to SC. The signature is generated by
    echo $UPDATE_ID | openssl dgst -sha256 -sign private_key | base64
    Public key needs to be read and used.

  4. Validate image
    SWLM's download_complete() implementation needs to be extended to validate that the image pointed to by update_image argument matches the signature argument to authenticate the image. The signature is generated by: ````openssl dgst -sha256 -sign priv_key.pem $image_path | base64```

  5. Create signing scripts and basic key management
    The create_update_image.sh script needs to create signatures and make sure that they can be used by sota_client.py

  6. Expand use case testing
    There are many use case variants not tested today. A tesiting update should be created to provide a better test footprint.

  7. Implement LocMedMgr use case
    A LocMedMgr PoC component needs to be connected that simulated local media connect/mount, and disconect/unmount. LocMedMgr should feed the given events into to SWLM. SWLM needs to receive the mount/unmount event and execute the LocMedMgr update use case (chapter 6.4 in the SWM spec).

  8. Implement abort download
    software_loading_manager.py needs to implenent abort_download() as specified by the "SC Abort Download" use case described in chpater 6.2 of the SWM spec.

  9. Act both on SC- and manifest-provided user confirmation request
    Today the SC will include a request_confirmation flag in its update_available() call to SWLM, specifying if the user should be queried prior to initating the download. This does not work in the "LocMedMgr update" use case where the download stage is not applicable. Instead, the manifest file's get_user_confirmation flag should be inspected by manifest_processor.py to check if a confirmation is required. The get_user_confirmation flag is correctly specified in the SWLM spec, but the PoC code does not use it.

  10. Implement the allow downgrade flag
    When SWLM sends an upgrade_package to PackMgr, the allow_downgrade flag needs to be implemented, checking if there is a newer version than the upgrade already installed.
    The same flag needs to be implemented in ML as well.

  11. Implement parallel software operations
    The parallel JSON element inside the manifest file needs to be implemented by manifest_processor.py. See chapter 5.3.8 and the operations[].parallel entry in Table 9.

  12. Integrate systemd emulator
    The current lifecycle_manager.py needs to be renamed to systemd_emulator.py and implement the appropriate StartUnit() and StopUnit callas.

RUNNING THE CODE ON UBUNTU 14.10 AND 15.10

Install python and add ons.

Make sure you have Python 2.7 (or later 2.X) installed.

Install the necessary python libraries

sudo apt-get install python-gtk2

Launch SWM components

In a terminal window, run a fully automated demo using:

sudo sh start_swm.sh -r 

sudo is needed since the sample_update.upd file is a squashfs image that needs to be mounted.

-r Specifies that the database storing already processed software operations (hosted in an update) should be reset. If that is not done, subsequent runs will all return "Already processed"

-i Does not start the sota_client.py, but instead prints instruction on how to do so. This allows the user to run SC manually and control the actions.

Each launched component will get their own terminal window.

Watch execution

The system will execute the manifest from sample_update/update_manifest.json, stored in the sample_update.upd squashfs image of the sample_update directory.

During the execution the HMI window will show an overall progress bar and a progress bar for each software operation carried out.

The SWLM window will give a running log on what is going on.

All other windows will show progress bars as they are being invoked by SWLM as it processes the manifest file.

View installation report

The installation report will be displayed both by SC and HMI.

Terminate demo

In the window where start_swm.sh was executed, press enter or ctrl-c.

Sota client usage.

Usage:

export PYTHONPATH="${PWD}/common/
cd sota_client
python sota_cliuent.py -u <update_id> -i <image_file> -d <description> -s <signature> [-c]

-u update_id         Pacakage id string. Default: 'media_player_1_2_3'
-i image_file        Path to update squashfs image.
-s signature         RSA encrypted sha256um of image_file. (Not currently used)
-c                   Request user confirmation.
-d description       Description of update.

Example:

export PYTHONPATH="${PWD}/common/
cd sota_client
python sota_client.py -u boot_loader_2.10.9 -i boot_loader.img -s 2889ee...4db0ed22cdb8f4e -c

CREATING UPDATES

Please note that squashfs-tools needs to be installed prior to creating an update:

sudo apt-get install squashfs-tools

Create a new or modified update image with the following command:

sh create_update_image.sh -d sample_update -o sample_update.upd

See SWM specification and software_loading_manager/manifest.py for details on how to edit sample_update/update_manifest.json.

The resulting image, sample_update.upd is provided as an argument to sota_client.py. See start_swm.sh for details.

SYSTEM DESCRIPTION

SOTA Client - SC [sota_client/sota_client.py]

NOTE: The SOTA Client also acts as a Diagnostic Tools Manager since their use cases are identical

SC simulator, to be replaced by the real GENIVI Sota Client developed by Advanced Telematic Systems, is a command line tool that launches the SWM use cases.

The SC simulator has the following features

  1. Notify SWM of available updates
    A notification about the available package, specified at the command line, will be sent to SWLM for user confirmation.

  2. Download the package
    Once a confirmation has been received from SWLM, SC will be asked by SWLM to initiate the download of the package. The download will be simulated with a 5 second progress bar.

  3. Send the package for processing
    Once the download has completed, the package is sent by SC to SWLM for processing.

  4. Handle installation report
    Once the package operation has completed, SWLM will forward an installation report to SC, which will present it as output before exitin.

  5. Get installed packages
    A separate use case allows the command line to request all currently installed packages in PkgMgr, PartMgr, or ML.

Software Loading Manager - SWLM [software_loading_manager/*.py]

SWLM coordinates all use cases in SWM. SC Initiates these use cases through command line parameters

SWLM has the following features

  1. Retrieve user approval for packages
    When a package notification is received from SC, the notification will be forwarded to HMI for a user approval.

  2. Signal SC to start download
    When SWLM receives a package confirmation from HMI, the SC will be signalled to initiate the download.

  3. Process downloaded packages
    Once a download is complete, SC will send a process package command to SWLM. SWLM will forward the command to the approrpiate target, which can be PartMgr for partition operations, PackMgr fo package manager, or ML for the module loader

  4. Handle installation report
    When a target has processed a package it will wend back a installation report to SWLM, which will forward it to HMI, to inform the user, and SC, to inform the server.

  5. Get installed packages
    When a get installed packages command is received from SC, it will be forwarded to the package manaager to retrieve a list of all installed packages.

Human Machine Interface - HMI [hmi/hmi.py]

HMI is responsible for reqtrieving a user approval (or decline) on a package installation, and to show the user the result of a package operation.

HMI has the following features

  1. Retrieve user approval for packages
    SWLM will send a package notification to HMI, which will ask the user if the package operation is to be carried out or not. The user input (approve or decline) is forwarded as a package confirmation to SWLM

  2. Show update progress
    SWLM will inform HMI when a new manifest is being processed, and when a new software operation within that manifest is being processed. This allows the HMI to continuously display information and progress bars as the update is carried out.

  3. Show package operation result
    Once a package operation has been carried out by PkgMgr, PartMgr, or ML, the result will be forwarded to HMI to inform the ser.

Package Manager - PackMgr [package_manager/package_manager.py]

PackMgr is responsible for processing packages forwarded to it by SWLM. It can also report all currently installed packages.

PackMgr has the following features

  1. Install package
    SWLM will send a install a package command, which will simulate package install and then send back a installation report.

  2. Upgrade package
    SWLM will send an upgrade a package command, which will simulate package upgrade and then send back a installation report.

  3. Remove package
    SWLM will send a remove a package command, which will simulate package removal and then send back a installation report.

  4. Get installed packages
    PackMgr will send back a static list of currently installed packages.

Partition Manager - PartMgr [partition_manager.py]

PartMgr is responsible for processing packages forwarded to it by SWLM. It can also report all currently installed packages.

PartMgr has the following features

  1. Create Partition
    SWLM will send a create partition command, which will simulate partition creation and then send back a installation report.

  2. Delete Partition
    SWLM will send a delete partition command, which will simulate partition deletion and then send back a installation report.

  3. Resize Partition
    SWLM will send a resize partition command, which will simulate partition resizing and then send back a installation report.

  4. Write Partition
    SWLM will send a resize partition command, which will simulate partition writing and then send back a installation report.

  5. Patch Partition
    SWLM will send a resize partition command, which will simulate partition binary delta applicaiton and then send back a installation report.

Module Loader - ML [module_loader_ecu1/module_loader_ecu1.py]

ML, which can have multiple different instances for different ECUs (SiriusXM, Telematics Control Unit, Body Control Unit, etc), is responsible for reflashing external modules through CAN or other in-vehicle networks.

ML has the following features

  1. Flash module firmware
    SWLM will send a flash module firmwar command, which will simulate module flashing and then send back a installation report.

  2. Get installed packages
    ML will send back a static list of currently installed flash images in the module managed by ML.

Lifecycle manager - LCMgr [lifecycle_manager/lifecycle_manager.py]

LCMgr manager (to be replaced by systemd and Node State Managerin production) simulates a system component that can start and stop software entitites that are about to be affected by an update operation.

LCMgr has the following features.

ML has the following features

  1. Start components
    SWLM will send a start_component, which will simulate component(s) start.

  2. Stop components
    SWLM will send a start_component, which will simulate component(s) stop.

  3. Reboot system
    SWLM will send a reboot command, which will simulate system reboot.