Specification of Software Cluster Connection module, No.974, 2021-11
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用語(terms)
Term | Description |
---|---|
SwCluC | Software Cluster Connection |
Software Cluster | A Software Cluster groups all AUTOSAR artifacts that are relevant to deploy software on a machine. The full definition is given in document [2] |
Software Cluster Connection | The Software Cluster Connection is the BSW module that provides the features to • connect the Binary Objects deployed on the same machine • substitute not locally-available BSW modules in an Applicative Software Cluster, whose interfaces are required for the integrated SW, by so called Proxy Modules. • implement the VFB communication features between Software Clusters together with RTE by means of an RTE Implementation Plug-In |
machine | A machine consists of a set of computing resources - such as microcontroller cores, memory or peripheral (e.g. communication) devices - and has the ability to execute software applications. The representation of a machine in the AUTOSAR Classic Platform could be done with an EcuInstance, but note that this semantic is currently in clarification. Further information is given in document [2]. |
binary-identical | Bit for Bit identical |
Binary Object | A set of files, which contains the binary executable code and data. This binary executable code and data will not be modified again, before programming it on the target ECU. |
Binary Manifest | The Binary Manifest is the well-defined interface of the Software Cluster’s Binary Object, providing the meta information of a resources and information - so called handles - to access such a resource. |
Applicative Software Cluster | A Software Cluster that mainly contains software components, and only selected BSW modules (e.g. a Service module, transformers, e.t.c.) |
Host Software Cluster | The single Software Cluster that contains the major part of the BSW, and especially the micro controller dependent lower layer BSW Modules, e.g. OS and MCAL. |
Substitution Software Cluster | The single Software Cluster that can override the provided resources of other Software Clusters for bug fixing purpose. |
Proxy Module | A Proxy Module substitutes a BSW module in an Applicative Software Cluster. A Proxy module itself is split into High Proxy Module and Low Proxy Module. The High Proxy Module provides dedicated interfaces for modules in higher layers or same layer, and the functionality to connect them via the Binary Manifest to the Low Proxy Module in the Host Software Cluster. |
High Proxy Module | The part of the Proxy Module residing in an Applicative Software Cluster. |
Low Proxy Module | The part of the Proxy Module residing in the Host Software Cluster. |
Os High Proxy | A type of Proxy Module implementing Os APIs in the Applicative Software Cluster. |
Os Low Proxy | A type of proxy Module implementing an Os abstraction in the Host Software Cluster. |
NvM High Proxy | A type of Proxy Module substituting the NVRAM Manager in the Applicative Software Cluster. |
NvM Low Proxy | A type of Proxy Module connecting the NvM High Proxy Modules to the NVRAM Manager in the Host Software Cluster. |
LdCom High Proxy | A type of Proxy Module implementing default LdCom (Callback) APIs in the Applicative Software Cluster. |
LdCom Low Proxy | A type of proxy Module connecting LdCom High Proxy Modules to the LdCom in the Host Software Cluster. |
Com High Proxy | A type of Proxy Module implementing default Com (Callback) |
APIs in the Applicative Software Cluster. | |
Com Low Proxy | A type of proxy Module connecting Com High Proxy Modules |
to the Com in the Host Software Cluster. | |
Dcm High Proxy | A type of Proxy Module substituting the Dcm in the Applicative Software Cluster. |
Dcm Low Proxy | A type of proxy Module connecting Dcm High Proxy Modules to the Dcm in the Host Software Cluster. |
Dem High Proxy | A type of Proxy Module substituting the Dem in the Applicative Software Cluster. |
Dem Low Proxy | A type of proxy Module connecting Dem High Proxy Modules to the Dem in the Host Software Cluster. |
FiM High Proxy | A type of Proxy Module substituting the FiM in the Applicative Software Cluster. |
FiM Low Proxy | A type of proxy Module connecting FiM High Proxy Modules to the FiM in the Host Software Cluster. |
RTE Implementation Plug-In | A RTE Implementation Plug-In is a part of the overall RTE implementation, which is not provided by the RTE Generator, but from an additional source (e.g. a Plug-In Generator or a manually implemented source code). |
RTE Implementation Plug-In Service | A RTE Implementation Plug-In Service is a single entry point into the RTE Implementation Plug-In implementing a low level service for the RTE. For instance access to a specific buffer. |
Local Software Cluster Communication Plug-In | A Local Software Cluster Communication Plug-In is an RTE Implementation Plug-In, which handles the communication locally inside a Software Cluster. This includes the Transformer handling, if a DataMapping exist for the according Communication Graph |
Cross Software Cluster Communication Plug-In | A Cross Software Cluster Communication Plug-In is an RTE Implementation Plug-In that handles the communication towards other Software Clusters. This includes the Transformer handling, if intra ECU transformation is configured. |
Communication Graph | The sum of all AbstractAccessPoints to elements of PortInterfaces, instantiated in PortPrototypes which are connected to each other; or the sum of all accesses from BswModuleEntitys to interface elements in a BswModuleDescriptions connected to each other. |
Data Communication Graph | The sum of all VariableAccesses to VariableDataPrototypes instantiated in PortPrototypes, which are connected to each other; or the sum of all VariableAccesses to VariableDataPrototypes in the InternalBehavior; or the sum of all BswVariableAccesses to VariableDataPrototypes in BswModuleDescriptions connected to each other. |
Parameter Communication Graph | The sum of all ParameterAccesses to ParameterDataPrototypes instantiated in PortPrototypes, which are connected to each other; or the sum of all ParameterAccesses to ParameterDataPrototypes in the InternalBehavior. |
Client Server Communication Graph | The sum of all ServerCallPoints to operations instantiated in PortPrototypes, which are connected to each other, including the associated server runnable. |
Trigger Communication Graph | The sum of all ExternalTriggeringPoints for triggers instantiated in PortPrototypes, which are connected to each other, including the associated triggered runnable. |
Mode Communication Graph | The sum of all ModeAccessPoints and ModeSwitchPoints to ModeDeclarationGroupPrototypes instantiated in PortPrototypes, which are connected to each other; or the sum of all managedModeGroups and accessedModeGroups to ModeDeclarationGroupPrototypes in BswModuleDescriptions connected to each other. |
mode manager | Entering and leaving modes is initiated by a mode manager. A mode manager is either a software component that provides a p-port typed by a ModeSwitchInterface, or a BSW module that defines in its BswModuleDescription a ModeDeclarationGroupPrototype in the role providedModeGroup. |
mode switch notification | The communication of a mode switch from the mode manager to the mode user, using either the ModeSwitchInterface or providedModeGroup and requiredModeGroup ModeDeclarationGroupPrototypes. |
mode switch port | The port for receiving (or sending) a mode switch notification. For this purpose, a mode switch port is typed by a ModeSwitchInterface. |
mode user | An AUTOSAR SW-C or AUTOSAR Basic Software Module that depends on modes, is called a mode user. The dependency can occur through a SwcModeSwitchEvent/BswModeSwitchEvent, a ModeAccessPoint for a provided/required mode switch port, or a accessedModeGroup for a providedModeGroup/requiredModeGroup ModeDeclarationGroupPrototype. |
on-entry ExecutableEntity | A RunnableEntity that is triggered by a SwcModeSwitchEvent with ModeActivationKind ‘entry’; or a BswSchedulableEntity that is triggered by a BswModeSwitchEvent with ModeActivationKind ‘entry’. |
on-exit ExecutableEntity | A RunnableEntity that is triggered by a SwcModeSwitchEvent with ModeActivationKind ‘exit’; or a BswSchedulableEntity that is triggered by a BswModeSwitchEvent with ModeActivationKind ‘exit’. |
on-transition ExecutableEntity | A RunnableEntity that is triggered by a SwcModeSwitchEvent with ModeActivationKind ‘transition’; or a BswSchedulableEntity that is triggered by a BswModeSwitchEvent with ModeActivationKind ‘transition’. |
trigger port | A PortPrototype, which is typed by an TriggerInterface |
trigger sink | A trigger sink relies on the activation of RunnableEntity or a BswSchedulableEntity, if a particular Trigger is raised. A trigger sink has a dedicated require trigger port(s) and / or requiredTrigger Trigger(s) to communicate to the trigger source(s). |
trigger source | A trigger source administrates the particular Trigger, and informs the RTE or Basic Software Scheduler if the Trigger is raised. A trigger source has dedicated provide trigger port(s) and / or releasedTrigger Trigger(s) to communicate to the trigger sink(s). |
triggered BswSchedulableEntity | A BswSchedulableEntity that is triggered at least by one BswExternalTriggerOccurredEvent or BswInternalTriggerOccurredEvent. In particular cases, the Trigger Event Communication or the Inter Basic Software Schedulable Entity Triggering is implemented by the Basic Software Scheduler as a direct or trusted function call of the triggered ExecutableEntity, by the triggering ExecutableEntity. |
triggered ExecutableEntity | A RunnableEntity that is triggered by at least one ExternalTriggerOccurredEvent / InternalTriggerOccurredEvent; or a BswSchedulableEntity that is triggered by at least one BswExternalTriggerOccurredEvent/ BswInternalTriggerOccurredEvent. In particular cases, the Trigger Event Communication or the Inter Runnable Triggering is implemented by RTE or Basic Software Scheduler as a direct or trusted function call of the triggered ExecutableEntity, by the triggering ExecutableEntity. |
triggered runnable | A RunnableEntity that is triggered at least by one ExternalTriggerOccurredEvent or InternalTriggerOccurredEvent. In particular cases, the Trigger Event Communication or the Inter Runnable Triggering is implemented by RTE as a direct or trusted function call of the triggered runnable, by the triggering runnable. |
英日単語帳
日本語は仮訳
T.B.D.
参考(reference)
[1] Explanation of CP Software Cluster Design And Integration Guideline
AUTOSAR_EXP_CPSwClusterDesignAndIntegrationGuideline
[2] Glossary
AUTOSAR_TR_Glossary
[3] General Specification of Basic Software Modules
AUTOSAR_SWS_BSWGeneral
[4] Requirements on Software Cluster Connection module
AUTOSAR_SRS_SoftwareClusterConnection
[5] General Requirements on Basic Software Modules
AUTOSAR_SRS_BSWGeneral
[6] System Template
AUTOSAR_TPS_SystemTemplate
[7] Specification of CRC Routines
AUTOSAR_SWS_CRCLibrary
[8] Specification of Memory Mapping
AUTOSAR_SWS_MemoryMapping
[9] Specification of RTE Software
AUTOSAR_SWS_RTE
[10] Specification of ECU Configuration
AUTOSAR_TPS_ECUConfiguration
[11] Software Component Template
AUTOSAR_TPS_SoftwareComponentTemplate
[12] Specification of Operating System
AUTOSAR_SWS_OS
[13] Specification of NVRAM Manager
AUTOSAR_SWS_NVRAMManager
[14] Specification of Watchdog Manager
AUTOSAR_SWS_WatchdogManager
[15] Specification of Platform Types
AUTOSAR_SWS_PlatformTypes
[16] Specification of Standard Types
AUTOSAR_SWS_StandardTypes
[17] ISO 17356-3: Road vehicles – Open interface for embedded automotive applications – Part 3: OSEK/VDX Operating System (OS)
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関連文書(Related document)
Specification of Software Cluster Connection module, AUTOSAR 22-11, CP, No.974
文書履歴(document history)
ver. 0.01 初稿 20220528
ver. 0.02 URL追記 20221229