Difference between revisions of "Profile Specification"
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A GridJob package... | A GridJob package... | ||
− | == | + | == Software Archive == |
In some cases, it can be useful to define a group of packages not directly bound to a specific service. This is typically the case of: | In some cases, it can be useful to define a group of packages not directly bound to a specific service. This is typically the case of: | ||
* [[Profile_Specification#ExternalSoftware | external software]] | * [[Profile_Specification#ExternalSoftware | external software]] | ||
Line 604: | Line 604: | ||
In order to compile such kind of Service profile, the following steps have to be followed: | In order to compile such kind of Service profile, the following steps have to be followed: | ||
− | * declare the service class as '' | + | * declare the service class as ''SoftwareArchive'' |
* define the list of one or more packages as described [[Profile_Specification#PackagesList_section|here]] (no WSRFService and/or Portlet package is accepted in the ServiceArchive class) | * define the list of one or more packages as described [[Profile_Specification#PackagesList_section|here]] (no WSRFService and/or Portlet package is accepted in the ServiceArchive class) | ||
− | * if the package is an external software or library, the appropriate tarball (.tar.gz) has to be prepared and made available on an HTTP location (typically on the ETICS repository). The Collective Layer behaves with these two kind of packages as follows: | + | * create the tarball (.tar.gz) to upload on the Package Repository service. The way in which it has to be done depends on the type of packages included in the Software Archive: |
− | :* external library | + | :* if the package is an external software or library, the appropriate tarball (.tar.gz) has to be prepared and made available on an HTTP location (typically on the ETICS repository). The Collective Layer behaves with these two kind of packages as follows: |
+ | ::* external library | ||
:: all the JAR archives included in the tarball are copied in the $GLOBUS_LOCATION/lib folder and made available to the services hosted in that container | :: all the JAR archives included in the tarball are copied in the $GLOBUS_LOCATION/lib folder and made available to the services hosted in that container | ||
− | :* external software | + | ::* external software |
− | :: the tarball is uncompressed and the [[Profile_Specification#InstallScripts|install scripts]] inside are executed, while the [[Profile_Specification#RebootScripts|reboot scripts]] and [[Profile_Specification#UninstallScripts|uninstall scripts]] scripts are scheduled; these scripts have to be declared in the package definition with their relative path inside the tarball | + | ::: the tarball is uncompressed and the [[Profile_Specification#InstallScripts|install scripts]] inside are executed, while the [[Profile_Specification#RebootScripts|reboot scripts]] and [[Profile_Specification#UninstallScripts|uninstall scripts]] scripts are scheduled; these scripts have to be declared in the package definition with their relative path inside the tarball |
[[Profile_Specification#How_to_specify_dependencies|Dependencies]] against the packages declared in a ServiceArchive class has to be specified as usual. | [[Profile_Specification#How_to_specify_dependencies|Dependencies]] against the packages declared in a ServiceArchive class has to be specified as usual. |
Revision as of 07:56, 19 July 2007
How to write the profile specification for this component depending on its type.
Contents
- 1 Preliminary definitions
- 2 How to compile the profile
- 2.1 Common elements
- 2.1.1 Class
- 2.1.2 Name
- 2.1.3 DescriptiveParameters
- 2.1.4 QoS
- 2.1.5 DeploymentInfo
- 2.1.6 DLDependencies
- 2.1.7 PackagesList section
- 2.1.7.1 Common elements
- 2.1.7.1.1 Example
- 2.1.7.1.2 PackageName
- 2.1.7.1.3 PackageType
- 2.1.7.1.4 Version
- 2.1.7.1.5 DLMandatory
- 2.1.7.1.6 DHNMandatory
- 2.1.7.1.7 VOMandatory
- 2.1.7.1.8 DLSharable
- 2.1.7.1.9 DisposeInterfaceSupport
- 2.1.7.1.10 MultiVersionSupport
- 2.1.7.1.11 VOSharingSupport
- 2.1.7.1.12 ManifestFile
- 2.1.7.1.13 InstallScripts
- 2.1.7.1.14 UninstallScripts
- 2.1.7.1.15 RebootScripts
- 2.1.7.1.16 Dependencies
- 2.1.7.1.17 DHNRequirements
- 2.1.7.1.18 ConfigurationFiles
- 2.1.7.1.19 OtherFiles
- 2.1.7.1.20 OtherProperties
- 2.1.7.1 Common elements
- 2.2 Package-specific sections
- 2.2.1 WSRFService
- 2.2.2 Library
- 2.2.3 Shared Library
- 2.2.4 Stub Library
- 2.2.5 External Library
- 2.2.6 Portlet
- 2.2.7 Software
- 2.2.8 ExternalSoftware
- 2.2.9 GridJob
- 2.1 Common elements
- 3 Software Archive
Preliminary definitions
DILIGENT Resources and profiles
A DILIGENT Resource is anything whose related information can be gathered, stored, monitored, and disseminated in order to provide the valuable amount of knowledge needed during the creation and management of a VDL as well as to operate the entire DILIGENT infrastructure. In the project, the following resources have been identified:
- VDL
- Collection
- Metadata Collection
- Transformation Program
- Service
- Running Instance
- External Running Instance
- DHN
- CS
- CSInstance
- gLite resource
Such resources can be combined or created at VDL creation time in order to set up a new Virtual Digital Library. In order to be appropriately managed and discovered, a DILIGENT Resource has to be described by creating a profile document compliant with its XML schema. A Schema per each resource type has been defined and all of them are available in the CNR's SVN Repository In the following, we will focus about how to compile service profile
The Service resource
Usually, a Service is defined as a software system that delivers functionalities. In DILIGENT, a Service is a not-empty set of related Packages (connected through dependencies) forming an unique logical entity. A Package is the smallest installable unit of software that can be deployed on a DHN (e.g. a JAR o a GAR archive). Packages are the way in which the software needed to set up a DL has to prepared in order to be used and stored in the system. Once the service components have been developed, they must be described by compiling the service profile.
Package types
Concretely, a Package is a “piece of software” that can be deployed on a DHN. A Package can be:
- a WSRFService, representing a package that once deployed produces a WSRF Service (a service able to manage stateful resources following the WS-Resource patterns);
- a Portlet, representing a package that once deployed produces a portlet (Web components, managed by a portlet container, that process requests and generate dynamic GUI content) that can be hosted in a DILIGENT Portal;
- a GridJob, representing a package containing the code and the related information needed to run a certain job on the grid infrastructure;
- a Library, representing a software library (typically a JAR) that can be hosted on a DHN. There are three types of library:
- Shared Library, software library offering functionality of common utility, e.g. an XML parser library or a mathematical support library;
- Stub Library, software library offering functionality for interacting with WSRF Services.
- External Library, a thirdy party library available on the ETICS Repository that can be dynamically deployed.
- Software, a thirdy party software distributed with the service that can be dynamically deployed;
- ExternalSoftware, a thirdy party software available on the ETICS repository that can be dynamically deployed.
About how to define a package of any type above, see the PackageList section.
Composition
The set of Packages forming a Service is composed by:
- one and only one Package of WSRFService or Portlet type (the main package)
- an arbitrary number of other Packages of different type logically related (even if not used) to it.
An exception to this rule is represented by the Software Archive.
The "main" part of a Service is, of course, the WSRFService package from which the related Running Instance resource is generated or the Portlet package. The other packages can be
- helper modules developed and used by the WSRFService
- thirdy parties software used by the WSRFService
- helper modules developed and distributed with the WSRFService in order to be used by other Services to interact with a Running Instance of the Service.
How to specify dependencies
A package, once deployed, can rely on other software to perform its activities. Let's see how to specify these dependencies by distinguishing among:
- software developed within this service (this is the case of a stub library, for instance)
- → the software has to be declared as Library and the dependency is specified as package Dependency
- software developed and distributed within other DILIGENT services
- → the dependency is specified as package Dependency against a package defined in another Service profile
- thirdy party deployable software used only by this service
- → the software has to be declared as Software or Library (it depends on the nature of the software) and the dependency is specified as package Dependency
- thirdy party deployable software used by other services
- → the software has to be uploaded in the ETICS repository, the package has to be declared as ExternalSoftware and the dependency is specified as package Dependency
- thirdy party software that is not dynamically deployable
- → the software has to be manually installed, the label has to be manually declared in the DHN profile (by the DHN owner) and the dependency is specified as DHN Requirement
How to compile the profile
The following example shows the common elements that compose the Service profile. The Package-specific sections are explained apart later.
<DILIGENTResource xmlns:wsdl="http://schemas.xmlsoap.org/wsdl/" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"> <UniqueID/> <ResourceType>Service</ResourceType> <AuthorizationPolicies> [...] </AuthorizationPolicies> <Profile> <Class>MetadataManagement</Class> <Name>MetadataCatalog</Name> <DescriptiveParameters> <DescParameter/> </DescriptiveParameters> <QoS/> <DeploymentInfo> <Deployable value="true"/> </DeploymentInfo> <DLDependencies> <DLComponent> <Class>MetadataManagement</Class> <Name>XMLIndexer</Name> <DescriptiveParametersValue/> </DLComponent> <DLComponent> <Class>ContentManagement</Class> <Name>StorageManagementService</Name> <DescriptiveParametersValue/> </DLComponent> <DLComponent> <Class>ContentManagement</Class> <Name>CollectionManagementService</Name> <DescriptiveParametersValue/> </DLComponent> </DLDependencies> <SpecificData/> <PackagesList> [...] </PackagesList> </Profile> </DILIGENTResource>
Common elements
Class
The class of a service is it's functional area. The following values are accepted as service classes:
- InformationSystem
- Keeper
- VDLGenerator
- BMM
- DVOS
- Search
- Index
- DataFusion
- CSD
- CSS
- ProcessManagement
- Annotation
- FeatureExtraction
- Personalisation
- ContentSecurity
- ContentManagement
- MetadataManagement
- Portal
Name
The Name is an arbitrary string that uniquely identifies the service within a service class.
DescriptiveParameters
QoS
DeploymentInfo
DLDependencies
A DILIGENT service is part of a complex system and it makes use of other services. At VDL definition time, firstly, it is compiled the list of services that satisfy the VDL definition criteria and, then, such a list is completed with the other services that allow the first ones to work properly. Therefore it is needed that a service declares which other services it will need to be available in order to do its work once it is deployed. Specify a DL dependency here means that if this service is deployed in a DL, also the service identified by the Service Class and Name has to be deployed in the DL. (The DescriptiveParametersValue sintax still needs to be defined)
PackagesList section
This element groups an unbounded sequence of Package elements. Each element describes a package that belongs the service. The structure of a Package element includes an initial common part and a package-specific part rooted by an element named as the service type (WSRFService, Library, Portlet, GridJob, Software, ExternalSoftware). The only constraint is that one and only one WSRFService element is accepted in the list.
Common elements
Example
The following example shows the elements of a Package definition common to all types of Package.
<Package> <PackageName>MetadataCatalogService</PackageName> <PackageType>WSRFService</PackageType> <Version>1.0</Version> <DLMandatory value="true"/> <DHNMandatory value="false"/> <VOMandatory value="false"/> <DLSharable value="true"/> <DisposeInterfaceSupport value="false"/> <MultiVersionSupport value="false"/> <VOSharingSupport value="false"/> <ManifestFile/> <InstallScripts> <File>...</File> </InstallScripts> <UninstallScripts> <File>...</File> </UninstallScripts> <RebootScripts> <File>...</File> </RebootScripts> <Dependencies> <Dependency> <Service> <Class>ContentManagement</Class> <Name>ContentManagementService</Name> </Service> <PackageName>ContentManagementLayer_lib</PackageName> <Version>0.1</Version> <SameDHN value="true"/> <Priority>3</Priority> </Dependency> <Dependency> <Service> <Class>MetadataManagement</Class> <Name>XMLIndexer</Name> </Service> <PackageName>XMLIndexerService_stubs</PackageName> <Version>1.0</Version> <SameDHN value="true"/> <Priority>3</Priority> </Dependency> </Dependencies> <DHNRequirements> <Req category="RunTimeEnv" operator="eq" requirement="Variable" value="java1.5"/> <Req category="OperatingSystem" operator="eq" requirement="Name" value="Linux"/> </DHNRequirements> <ConfigurationFiles> <File>....</File> </ConfigurationFiles> [package specific tag] <OtherFiles/> <OtherProperties/> </Package>
PackageName
An arbritrary string that uniquely identifies the package within this service.
PackageType
It identifies the type of the package. Allowed values are:
- WSRFService
- Library
- GridJob
- Portlet
- Software
- ExternalSoftware
Version
The version of the package. It has to be in the form of X.Y.
DLMandatory
If true, it states that at least one instance of this package must be deployed on a DL. This means that each time a new DL is created, this package is automatically added to the list of packages to be deployed.
DHNMandatory
If true, it states that one instance of this package must be deployed on each node of the infrastructure.
VOMandatory
If true, it states that at least one instance of this package must be deployed on a VO. This means that each time a new VO is created, this package is automatically added to the list of packages to be deployed in that VO. It is typically used to discriminate those packages that are needed for the management of a VO (mostly Collective Layer packages).
DLSharable
It states if the package can be shared across multiple DLs (true) or if it is DL-Specific (false).
DisposeInterfaceSupport
Not used
MultiVersionSupport
Not used
VOSharingSupport
It states if the package can be shared across multiple VOs (true) or if it is VO-Specific (false).
ManifestFile
InstallScripts
This set of scripts are executed before the deployment of the package. They can be used to prepare the environment for the package execution (create a file system structure, install third parties software). The current folder where they are executed is the one where the package is downloaded and uncompressed.
UninstallScripts
This set of scripts are executed after the undeployment of the package. They can be used to clean up the environment. The current folder where they are executed is the one where the package is downloaded and uncompressed.
RebootScripts
This set of scripts are executed before each container startup.
Dependencies
The dependencies of the package are a list of other packages (defined somewhere in the current or in other profiles) that allow the package to properly work. It is importat to point out that also the dependencies against the packages declared in the current profile has to be specified (like the one agains its stub library). From the Collective Layer perspective, a dependency is taken into consideration at package deployment time and it is a way to force the deployment of other packages (where it depends of the type of dependency) when the current package is deployed.
A dependency is a declaration of the following element:
- Service
- PackageName
- Version (optional)
- SameDHN
- A true value here means that the package must be co-deployed on the same DHN
- SameDL
- A true value here means that the package must be deployed on a DHN and visible in the same DL (typically used for dependencies against WSRFService packages)
- SameVO
- A true value here means that the package must be deployed on a DHN and visible in the same VO (typically used for dependencies against WSRFService packages)
- Priority
- The priority is a number that defines the level of the dependency:
- 1 -> wish
- 2 -> important
- 3 -> mandatory
- 4 -> security reasons
The following example defines a dependency that requires that the stub classes of the XMLIndexer service are co-deployed with the package that includes the dependency declaration:
<Dependency> <Service> <Class>MetadataManagement</Class> <Name>XMLIndexer</Name> </Service> <PackageName>XMLIndexerService_stubs</PackageName> <Version>1.0</Version> <SameDHN value="true"/> <Priority>3</Priority> </Dependency>
Finally, if the depenency is against a software stored in the ETICS repository, an ExternalSoftware package has to be defined in the current profile and the dependency has to be defined as any other one.
DHNRequirements
A DHNRequirement is a requirement against the node where the package is deployed. These requirements are matched with the DHN profiles in order to find a suitable node that can host the package. A DHN requirement is composed by:
- category
- It is a name of an element in the DHN profile
- operator
- it is one of the following values:
- eq (equal)
- ne (not equal)
- lt (less than)
- le (less or equal than)
- gt (greater than)
- ge (greater or equal than)
- requirement
- It is one of the attributes/child elements defined for the selected category in the DHN profile
- value
- it is the value of the selected attribute defined for the category in the DHN profile
At the end of the story, a requirement is an expression evaluated in this form: <category/requirement operator value>
Example:
<DHNRequirements> <Req category="RunTimeEnv" operator="eq" requirement="Variable" value="java1.5"/> <Req category="OperatingSystem" operator="eq" requirement="Name" value="Linux"/> </DHNRequirements>
The example above means: "I can be deployed on a DHN where there is a RunTimeEnv/Variable element equals to java 1.5 and an OperatingSystem[@Name] element equals to Linux"
A typical usage of DHNRequiremnts is when a package depends on a software that cannot be dynamically deployed. In this case, the software has to be manually installed and declared in the DHN profile as RunTimeEnv/Variable and then it has to be reported as DHN requirement in the package definition. A list of conventional labels that identify the software (and more in general, the DHN capabilities) has to be fixed:
- java1.5 - a JVM v1.5 is available
- gLiteSEAccess - the node is configured to access to a Storage Element on a gLite infrastructure
- MySQLdb - a MySQL database is available
- Oracle10g - an Oracle10g database is available
Of course, the list above can be enriched at any time.
ConfigurationFiles
...
OtherFiles
List here the files that are in the service archive belonging the package and that are not already included in other elements (like installscripts, GARArchive, etc.)
OtherProperties
This is a free section where you can insert anything that cannot be included in the other elements of the profile. For instance, you can insert here any information you suppose helps to discriminate the service among others. Let's suppose you have two different Search services, S1 and S2, implementing two different kinds of search. Ok, you specify a different name, but you can also add here information that helps to differentiate S1 from S2.
Package-specific sections
WSRFService
Example:
<WSRFService> <GARArchive>org_diligentproject_X.gar</GARArchive> <BuildFile/> <DeploymentOptions/> <ArchitecturalPattern>Factory</ArchitecturalPattern> <ServiceEquivalenceFunctions/> <WSRFEntry> <EntryName>String</EntryName> <Factory value="true"/> <Parameters/> <Security> [...] </Security> <WSDL> <wsdl:definitions targetNamespace="http://...." name="...."> [...] </wsdl:definitions> </WSDL> </WSRFEntry> </WSRFService>
GARArchive
BuildFile
DeploymentOptions
ArchitecturalPattern
This element declares the architectural pattern adopted by the WSRF service.
ServiceEquivalenceFunctions element: Fix the service equivalence
This element allows to define functions to use at runtime to understand when two Running Instances of the service are equivalents from a specific function point of view. They can be considered are a sort of criteria to find service's replicas. Each function defined here must have a corrispondent section in the Running Instance profile that gives the values to the formal parameter defined in the function. So far, the following fuction are used in the infrastructure:
- match, used by the Active Planner service to discriminate among two Running Instances of the same service
WSRFEntry
A WSRFEntry is a WSDL interface generated by the deployment of the WSRFService's GAR. Each of them is declared in the Deployment Descriptor file (WSDD) with a <service> element.
EntryName
The value of the name attribute in the <service> element in the service's WSDD file.
Security
This section includes information for a correct management of the service's security at Collective Layer level. If the service is not configured for security it can be omitted.
Example
<Security> <SecurityDescriptor> <securityConfig xmlns="http://www.globus.org"> <authz value="VOAuthorizationPDP:org.diligentproject.dvos.authorization.handler.VOAuthorizationPDP"/> <method name="addCredentialsRenewalOperation"> <auth-method> <GSISecureConversation> <protection-level> <privacy/> </protection-level> </GSISecureConversation> </auth-method> <run-as> <service-identity/> </run-as> </method> <auth-method> <GSISecureConversation/> </auth-method> <run-as> <service-identity/> </run-as> </securityConfig> </SecurityDescriptor> <LogicalOperations> <Operation id="{http://www.diligentproject.org/namespaces/dvos/credentialRenewal}manageCredentialsTask" name="manageCredentialsTask" description="This operation allows to set credentials renewal task on the credentials renewal service"> <Role name="CredentialsTaskManager"/> </Operation> </LogicalOperations> <ServiceRoles> <Role name="CredentialsManager"/> </ServiceRoles> </Security>
SecurityDescriptor
The content of the security descriptor file for the WSRF entry.,
LogicalOperations
This section defines logical operations required to access Running Instances of this service. Those used in the configuration file of the authorization handler for the service. For each operation also the list of roles to which the operation should be permitted in the VO must be given. This allows the DLManagement, after the deployment of a new Running Instance., to correclty set auhtorizations to access the RI just created.
ServiceRoles
The set of roles Running Instances of this service have to hold in order to succesfully act in the VO. As identities used by the Running Instance have to be selected before the deployment, the DLManagement is in charge to assign these roles to the identity selected for the new Running Instance.
Library
The Library packages are usually JAR archives. The Collective Layer copies such libraries in the $GLOBUS_LOCATION/lib folder. There are 3 types of Library:
- shared library
- stub library
- external library
Example
<Library> <Type>shared</Type> <Parameters/> <LibraryFile>ip/org_diligentproject_informationservice_disip.jar</LibraryFile> </Library>
- Type
- Fixed: "shared"
- Parameters
- The parameters grouped in this section allow to statically configure the library. The section can be leave empty if there is no need to configure the package in this way.
- LibraryFile
- The path and the name of the library's file in the service archive.
Stub Library
Example:
<Library> <Type>stub</Type> <IsStubOf> <PackageName>DIS-IC_Service</PackageName> <Version>1.0</Version> <Service> <Class>InformationSystem</Class> <Name>DIS-IC</Name> </Service> </IsStubOf> <Parameters/> <LibraryFile>bin/org_diligentproject_informationservice_disic_stubs.jar</LibraryFile> </Library>
- Type
- Fixed: "stub"
- IsStubOf
- This element declares of which WSRFService package the library is stub of.
- Parameters
- The parameters grouped in this section allow to statically configure the library. The section can be leave empty if there is no need to configure the package in this way.
- LibraryFile
- The path and the name of the library's file in the service archive.
External Library
Example:
<Library> <Type>external</Type> <ExternalLibraryFile> <DownloadFrom>http://grids17.eng.it/engrepository/commons-io/1.2.0/noarch/commons-io-1.2.tar.gz</DownloadFrom> <Description>Apache Common IO v1.2</Description> </ExternalLibraryFile> </Library>
- Type
- Fixed: "external"
- ExternalLibraryFile
- It includes the URL on the ETICS Repository (or in another network accessible location) and a human readable description.
The .jar files included in the archive will be added to the ones available on the JVM where the local DHN services are executed.
Portlet
Example:
<Portlet> <WARArchive>SearchPortlet</WARArchive> <BuildFile/> <DeploymentOptions/> <Parameters> <Param> <Name>param_name</Name> <AllowedValues> <Value>*</Value> </AllowedValues> </Param> </Parameters> <Service> <wsdl:definitions targetNamespace="http://diligentproject.org/..." name="..."> </wsdl:definitions> </Service> </Portlet>
Software
A Software package is a deployable thirdy party package uploaded with the service.
Example:
<Software> <FileList> <File>setup.exe</File> <File>data.cab</File> </FileList> <Description>my software</Description> </Software>
- FileList
- The list of files that compose the software. It is validated at registration time and if one of the declared files is not included in the Service Archive, the registration fails.
- Descritpion
- A human description of the software (can be left empty).
ExternalSoftware
An ExternalSoftware package is a deployable thirdy party package used by this service but not uploaded with the Service on the infrastructure. One can decide to do not include a software as part of a Service because:
- it is supposed that the software is of general interest and it can be used also by other Services
- the size of the software is quite huge (more than few Megabytes) and it is better to do not upload it in a service invocation.
These software must be uploaded in the ETICS Repository and referred here.
Example:
<ExternalSoftware> <DownloadFrom>http://grids17.eng.it/engrepository/..</DownloadFrom> <Description>Aggregator Framework for Java WS Core 4.0.2</Description> </ExternalSoftware>
- DownloadFrom
- A valid location on the ETICS Repository
- Descritpion
- A human readable description of the software referred by the ID (can be left empty).
The external software is downloaded on the DHN and the related installation scripts are executed in the same folder where it is stored.
GridJob
A GridJob package...
Software Archive
In some cases, it can be useful to define a group of packages not directly bound to a specific service. This is typically the case of:
- external software
- external libraries
- common libraries developed as part of the gCube framework not logically related to a single service
In order to compile such kind of Service profile, the following steps have to be followed:
- declare the service class as SoftwareArchive
- define the list of one or more packages as described here (no WSRFService and/or Portlet package is accepted in the ServiceArchive class)
- create the tarball (.tar.gz) to upload on the Package Repository service. The way in which it has to be done depends on the type of packages included in the Software Archive:
- if the package is an external software or library, the appropriate tarball (.tar.gz) has to be prepared and made available on an HTTP location (typically on the ETICS repository). The Collective Layer behaves with these two kind of packages as follows:
- external library
- all the JAR archives included in the tarball are copied in the $GLOBUS_LOCATION/lib folder and made available to the services hosted in that container
- external software
- the tarball is uncompressed and the install scripts inside are executed, while the reboot scripts and uninstall scripts scripts are scheduled; these scripts have to be declared in the package definition with their relative path inside the tarball
Dependencies against the packages declared in a ServiceArchive class has to be specified as usual.
Example:
The following related tarball file has to be uploaded in the reported URI:
--Manuele Simi 9:43, 18 July 2007 (EET)