Access Control Guide
All Interaction Model operations in Matter must be verified by the the Access Control mechanism.
Whenever a client device and a server device want to interact with one another by reading (or subscribing) attributes or events, writing attributes, or invoking commands, the Access Control mechanism must verify that the client has sufficient privileges to perform the operation on the server device.
If no sufficient privilege is obtained, the operation cannot take place and it
is denied (status 0x7E Access Denied).
This guide describes how the Access Control mechanism works and how it is implemented, and provides examples of Access Control Lists (ACLs) for different use cases.
Overview
The initial Administer privilege is obtained by the commissioner implicitly
over the PASE commissioning channel. This implicit Administer privilege is
used to invoke commands on the server node during commissioning.
As part of commissioning, the commissioner invokes the AddNOC command,
providing a CaseAdminNode argument. As well as commissioning the server node
onto the fabric, that command automatically installs an ACL on the server node
for Administer privilege using the provided CaseAdminNode argument as CASE
subject. The subject may be a single node, or multiple nodes (by providing a
CAT). These nodes become fabric administrators on that server node.
During and after commissioning, administrators manage ACLs for the fabric on the
server node by reading and writing the fabric-scoped ACL attribute of the
Access Control Cluster, which is always present on endpoint 0 on the server
node. It is these ACLs that govern which Interaction Model operations are
allowed or denied on that server node, for subjects on the fabric, via CASE and
group messaging.
Access Control Lists
Access Control Lists (ACLs) are fabric-scoped data structures with the following fields:
PrivilegeAuthModeSubjectsTargets
Privilege field
The Privilege can be of the following types:
View
Operate
Manage
Administer
Note: An additional
ProxyViewprivilege is not yet supported in the Matter SDK.
By default, the View privilege is required to read attributes or events, and
the Operate privilege is required to write attributes or invoke commands.
Clusters may also require stricter privileges for certain operations on certain
endpoints. For example, the Access Control Cluster requires the Administer
privilege for all its operations.
If applicable, the ACL grants the privilege, and all less strict privileges
subsumed by it. Therefore an ACL for Manage privilege will work for operations
which require Operate or View privilege (but not Administer privilege).
AuthMode field
The AuthMode, that is authentication modes, can be as follow:
CASE
Group
The ACL applies only to subjects using that authentication mode.
Subjects field
The Subjects field is a list containing zero, one, or more subject
identifiers, which are:
Node ID for CASE
AuthModeGroup ID for Group
AuthMode
A CASE subject may be a CAT, which has its own tag and version mechanism.
The ACL applies only to the listed subjects; if no subjects are listed, the ACL applies to any subjects using the authentication mode.
Targets field
The Targets field is a list containing zero, one, or more structured entries
with fields:
Cluster
Endpoint
DeviceType
All fields are nullable, but at least one must be present, and the endpoint and device type fields are mutually exclusive (only one of those two may be present):
If cluster is present, the ACL is targeted to just that cluster.
If endpoint is present, the ACL is targeted to just that endpoint.
If device type is present, the ACL is targeted to just endpoints which contain that device type (as reported by the Descriptor Cluster).
Note: Specifying device type in targets is not yet supported in the Matter SDK.
The ACL applies only to the listed targets; if no targets are listed, the ACL applies to any targets on the server node.
Limitations and Restrictions
The Matter Specification states that a Matter implementation must support at least:
3 ACLs per fabric
4 subjects per ACL
3 targets per ACL
There is no guarantee that an implementation supports any more than those minimums.
In the Matter SDK, using the example access control implementation, these values
can be configured globally in CHIPConfig.h or per-app in
CHIPProjectAppConfig.h by setting:
CHIP_CONFIG_EXAMPLE_ACCESS_CONTROL_MAX_ENTRIES_PER_FABRIC
CHIP_CONFIG_EXAMPLE_ACCESS_CONTROL_MAX_SUBJECTS_PER_ENTRY
CHIP_CONFIG_EXAMPLE_ACCESS_CONTROL_MAX_TARGETS_PER_ENTRY
Case Studies
This section provides use case examples for different ACL scenarios.
Single Administrator
A single controller commissions a server node, providing its own CASE node ID for the automatically installed ACL:
Privilege:
AdministerAuthMode:
CASESubjects:
112233Targets: (all)
The controller will be able to perform all Interaction Model operations on the server node, since it is the administrator.
Multiple Administrators
The commissioner provides a CAT for the automatically installed ACL:
Privilege:
AdministerAuthMode:
CASESubjects:
0xFFFFFFFD00010001Targets: (all)
All controllers which have the CAT as part of their CASE credentials will be administrators for the server node.
Client Controllers
The commissioner installs an ACL for non-administrative controllers:
Privilege:
ViewAuthMode:
CASESubjects:
4444,5555,6666Targets: (all)
The non-administrative controllers are granted View privilege for the entire
server node. This doesn’t mean they can view the entire server node, as some
clusters may require stricter privileges for reading attributes or events.
Group Messaging
The commissioner installs an ACL for group messaging:
Privilege:
OperateAuthMode:
GroupSubjects:
123,456Targets:
{cluster:onoff},{endpoint:1},{cluster:levelcontrol,endpoint:2}
Members of groups 123 and 456 are granted Operate privilege for the on/off
cluster on any endpoint, any cluster on endpoint 1, and the level control
cluster on endpoint 2.
Managing ACLs using CHIP-Tool
Usage
The following sections describe the requirements for managing ACLs using the CHIP-Tool.
Entire List
The Access Control Cluster’s ACL attribute is a list.
Note: Currently, list operations for single entries (append, update, delete) are not yet supported in the Matter SDK, so the entire list must be written to the attribute to change any ACL.
The write operation may employ multiple messages, making it unreliable. In any case, ACLs are updated as they are processed, and take effect immediately.
The implication of this is that the administrator must ensure the first ACL in
the list it is writing to the ACL attribute is one granting itself
Administer privilege. Otherwise, the administrator may lose its administrative
access during the write operation.
Null Fields
The tool requires all fields to be provided, even if null.
Incorrect: {"cluster": 6}
Correct: {"cluster": 6, "endpoint": null, "deviceType": null}
Fabric Index
The ACL attribute is fabric-scoped, so each ACL has a fabric index.
The tool requires this field to be provided, but ignores it when performing the actual write.
When reading ACLs, the proper fabric index is shown.
Enums Identifiers
The tool requires numerical values for enums and identifiers.
Privilege values:
View: 1
Operate: 3
Manage: 4
Administer: 5
AuthMode values:
CASE: 2
Group: 3
Values for some typical clusters:
On/Off: 6
Level Control: 8
Descriptor: 29
Binding: 30
Access Control: 31
Basic: 40
Examples
This section provides examples of commands and ACL output for different operations with the CHIP-Tool.
Verification of the Automatically Installed ACL
During commissioning with the CHIP-Tool, an ACL that assigns Administer rights to the commissioner is automatically installed on the commissionee. This can be verified using the following command:
out/debug/standalone/chip-tool accesscontrol read acl 1 0
Assuming the CaseAdminNode value is 112233, the ACL command output for this
case is the following:
Endpoint: 0 Cluster: 0x0000_001F Attribute 0x0000_0000 DataVersion: 2578401031
ACL: 1 entries
[1]: {
FabricIndex: 1
Privilege: 5
AuthMode: 2
Subjects: 1 entries
[1]: 112233
Targets: null
}
Installing a CASE ACL
The following command example requests the installation of a CASE ACL through a write interaction:
out/debug/standalone/chip-tool accesscontrol write acl '[{"fabricIndex": 0, "privilege": 5, "authMode": 2, "subjects": [112233], "targets": null}, {"fabricIndex": 0, "privilege": 1, "authMode": 2, "subjects": [4444, 5555, 6666], "targets": null}]' 1 0
The resulting ACL command output for this case can look like the following one:
Endpoint: 0 Cluster: 0x0000_001F Attribute 0x0000_0000 DataVersion: 2578401034
ACL: 2 entries
[1]: {
FabricIndex: 1
Privilege: 5
AuthMode: 2
Subjects: 1 entries
[1]: 112233
Targets: null
}
[2]: {
FabricIndex: 1
Privilege: 1
AuthMode: 2
Subjects: 3 entries
[1]: 4444
[2]: 5555
[3]: 6666
Targets: null
}
Installing a Group ACL
The following command example requests the installation of a Group ACL through a write interaction:
out/debug/standalone/chip-tool accesscontrol write acl '[{"fabricIndex": 0, "privilege": 5, "authMode": 2, "subjects": [112233], "targets": null}, {"fabricIndex": 0, "privilege": 1, "authMode": 2, "subjects": [4444, 5555, 6666], "targets": null}, {"fabricIndex": 0, "privilege": 3, "authMode": 3, "subjects": [123, 456], "targets": [{"cluster": 6, "endpoint": null, "deviceType": null}, {"cluster": null, "endpoint": 1, "deviceType": null}, {"cluster": 8, "endpoint": 2, "deviceType": null}]}]' 1 0
The resulting ACL command output for this case can look like the following one:
Endpoint: 0 Cluster: 0x0000_001F Attribute 0x0000_0000DataVersion: 2578401041
ACL: 3 entries
[1]: {
FabricIndex: 1
Privilege: 5
AuthMode: 2
Subjects: 1 entries
[1]: 112233
Targets: null
}
[2]: {
FabricIndex: 1
Privilege: 1
AuthMode: 2
Subjects: 3 entries
[1]: 4444
[2]: 5555
[3]: 6666
Targets: null
}
[3]: {
FabricIndex: 1
Privilege: 3
AuthMode: 3
Subjects: 2 entries
[1]: 123
[2]: 456
Targets: 3 entries
[1]: {
Cluster: 6
Endpoint: null
DeviceType: null
}
[2]: {
Cluster: null
Endpoint: 1
DeviceType: null
}
[3]: {
Cluster: 8
Endpoint: 2
DeviceType: null
}
}
Managing ACLs Using Chip-repl
Usage
This section provides examples of commands and ACL output for different operations with the CHIP-repl.
Entire List
See the important notes in the Managing ACLs using CHIP-Tool section, as they also apply to the CHIP-repl.
Null Fields
Null fields may be omitted.
This means that the following entry is acceptable:
Target(cluster=6, endpoint=Null, deviceType=Null). Just as the following one:
Target(cluster=6).
The above assumes Target and Null are defined at global scope, which is not normally the case.
Fabric Index
The ACL attribute is fabric-scoped, so each ACL has a fabric index.
The CHIP-repl ignores it when performing the actual write. Because null fields can be omitted, simply do not provide it when writing ACLs.
When reading ACLs, the proper fabric index is shown.
Enums and Identifiers
The CHIP-repl accepts numerical values for enums and identifiers, but it also accepts strongly typed values:
The privileges are:
Clusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kViewClusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kOperateClusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kManageClusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kAdminister
The authentication modes are:
Clusters.AccessControl.Enums.AccessControlEntryAuthModeEnum.kCASEClusters.AccessControl.Enums.AccessControlEntryAuthModeEnum.kGroup
Some typical clusters:
Clusters.OnOff.id
Clusters.LevelControl.id
Clusters.Descriptor.id
Clusters.Binding.id
Clusters.AccessControl.id
Clusters.BasicInformation.id
Examples
This section provides examples of commands and ACL output for different operations with the CHIP-repl.
Automatically Installed ACL
After commissioning with chip-repl, assuming CaseAdminNode is 1, the
automatically installed ACL is:
await devCtrl.ReadAttribute(1, [ (0, Clusters.AccessControl.Attributes.Acl ) ] )
{
│ 0: {
│ │ <class 'chip.clusters.Objects.AccessControl'>: {
│ │ │ <class 'chip.clusters.Attribute.DataVersion'>: 556798280,
│ │ │ <class 'chip.clusters.Objects.AccessControl.Attributes.Acl'>: [
│ │ │ │ AccessControlEntry(
│ │ │ │ │ fabricIndex=1,
│ │ │ │ │ privilege=<Privilege.kAdminister: 5>,
│ │ │ │ │ authMode=<AuthMode.kCase: 2>,
│ │ │ │ │ subjects=[
│ │ │ │ │ │ 1
│ │ │ │ │ ],
│ │ │ │ │ targets=Null
│ │ │ │ )
│ │ │ ]
│ │ }
│ }
}
Installing a CASE ACL
await devCtrl.WriteAttribute(1, [ (0, Clusters.AccessControl.Attributes.Acl( [
Clusters.AccessControl.Structs.AccessControlEntryStruct(
privilege = Clusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kAdminister,
authMode = Clusters.AccessControl.Enums.AccessControlEntryAuthModeEnum.kCase,
subjects = [ 1 ]
),
Clusters.AccessControl.Structs.AccessControlEntryStruct(
privilege = Clusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kView,
authMode = Clusters.AccessControl.Enums.AccessControlEntryAuthModeEnum.kCase,
subjects = [ 4444, 5555, 6666 ],
),
] ) ) ] )
{
│ 0: {
│ │ <class 'chip.clusters.Objects.AccessControl'>: {
│ │ │ <class 'chip.clusters.Attribute.DataVersion'>: 556798289,
│ │ │ <class 'chip.clusters.Objects.AccessControl.Attributes.Acl'>: [
│ │ │ │ AccessControlEntry(
│ │ │ │ │ fabricIndex=1,
│ │ │ │ │ privilege=<Privilege.kAdminister: 5>,
│ │ │ │ │ authMode=<AuthMode.kCase: 2>,
│ │ │ │ │ subjects=[
│ │ │ │ │ │ 1
│ │ │ │ │ ],
│ │ │ │ │ targets=Null
│ │ │ │ ),
│ │ │ │ AccessControlEntry(
│ │ │ │ │ fabricIndex=1,
│ │ │ │ │ privilege=<Privilege.kView: 1>,
│ │ │ │ │ authMode=<AuthMode.kCase: 2>,
│ │ │ │ │ subjects=[
│ │ │ │ │ │ 4444,
│ │ │ │ │ │ 5555,
│ │ │ │ │ │ 6666
│ │ │ │ │ ],
│ │ │ │ │ targets=Null
│ │ │ │ )
│ │ │ ]
│ │ }
│ }
}
Installing a Group ACL
await devCtrl.WriteAttribute(1, [ (0, Clusters.AccessControl.Attributes.Acl( [
Clusters.AccessControl.Structs.AccessControlEntryStruct(
privilege = Clusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kAdminister,
authMode = Clusters.AccessControl.Enums.AccessControlEntryAuthModeEnum.kCase,
subjects = [ 1 ]
),
Clusters.AccessControl.Structs.AccessControlEntryStruct(
privilege = Clusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kView,
authMode = Clusters.AccessControl.Enums.AccessControlEntryAuthModeEnum.kCase,
subjects = [ 4444, 5555, 6666 ],
),
Clusters.AccessControl.Structs.AccessControlEntryStruct(
privilege = Clusters.AccessControl.Enums.AccessControlEntryPrivilegeEnum.kOperate,
authMode = Clusters.AccessControl.Enums.AccessControlEntryAuthModeEnum.kGroup,
subjects = [ 123, 456 ],
targets = [
Clusters.AccessControl.Structs.AccessControlTargetStruct(
cluster = Clusters.OnOff.id,
),
Clusters.AccessControl.Structs.AccessControlTargetStruct(
endpoint = 1,
),
Clusters.AccessControl.Structs.AccessControlTargetStruct(
cluster = Clusters.LevelControl.id,
endpoint = 2,
),
]
),
] ) ) ] )
{
│ 0: {
│ │ <class 'chip.clusters.Objects.AccessControl'>: {
│ │ │ <class 'chip.clusters.Attribute.DataVersion'>: 556798301,
│ │ │ <class 'chip.clusters.Objects.AccessControl.Attributes.Acl'>: [
│ │ │ │ AccessControlEntry(
│ │ │ │ │ fabricIndex=1,
│ │ │ │ │ privilege=<Privilege.kAdminister: 5>,
│ │ │ │ │ authMode=<AuthMode.kCase: 2>,
│ │ │ │ │ subjects=[
│ │ │ │ │ │ 1
│ │ │ │ │ ],
│ │ │ │ │ targets=Null
│ │ │ │ ),
│ │ │ │ AccessControlEntry(
│ │ │ │ │ fabricIndex=1,
│ │ │ │ │ privilege=<Privilege.kView: 1>,
│ │ │ │ │ authMode=<AuthMode.kCase: 2>,
│ │ │ │ │ subjects=[
│ │ │ │ │ │ 4444,
│ │ │ │ │ │ 5555,
│ │ │ │ │ │ 6666
│ │ │ │ │ ],
│ │ │ │ │ targets=Null
│ │ │ │ ),
│ │ │ │ AccessControlEntry(
│ │ │ │ │ fabricIndex=1,
│ │ │ │ │ privilege=<Privilege.kOperate: 3>,
│ │ │ │ │ authMode=<AuthMode.kGroup: 3>,
│ │ │ │ │ subjects=[
│ │ │ │ │ │ 123,
│ │ │ │ │ │ 456
│ │ │ │ │ ],
│ │ │ │ │ targets=[
│ │ │ │ │ │ Target(
│ │ │ │ │ │ │ cluster=6,
│ │ │ │ │ │ │ endpoint=Null,
│ │ │ │ │ │ │ deviceType=Null
│ │ │ │ │ │ ),
│ │ │ │ │ │ Target(
│ │ │ │ │ │ │ cluster=Null,
│ │ │ │ │ │ │ endpoint=1,
│ │ │ │ │ │ │ deviceType=Null
│ │ │ │ │ │ ),
│ │ │ │ │ │ Target(
│ │ │ │ │ │ │ cluster=8,
│ │ │ │ │ │ │ endpoint=2,
│ │ │ │ │ │ │ deviceType=Null
│ │ │ │ │ │ )
│ │ │ │ │ ]
│ │ │ │ )
│ │ │ ]
│ │ }
│ }
}