google-native.networkservices/v1.TcpRoute

Rules that define how traffic is routed and handled. At least one RouteRule must be supplied. If there are multiple rules then the action taken will be the first rule to match.

Required. Short name of the TcpRoute resource to be created. E.g. TODO(Add an example).

Optional. A free-text description of the resource. Max length 1024 characters.

Optional. Gateways defines a list of gateways this TcpRoute is attached to, as one of the routing rules to route the requests served by the gateway. Each gateway reference should match the pattern: projects/*/locations/global/gateways/

Optional. Set of label tags associated with the TcpRoute resource.

Optional. Meshes defines a list of meshes this TcpRoute is attached to, as one of the routing rules to route the requests served by the mesh. Each mesh reference should match the pattern: projects/*/locations/global/meshes/ The attached Mesh should be of a type SIDECAR

Name of the TcpRoute resource. It matches pattern projects/*/locations/global/tcpRoutes/tcp_route_name>.

Rules that define how traffic is routed and handled. At least one RouteRule must be supplied. If there are multiple rules then the action taken will be the first rule to match.

Required. Short name of the TcpRoute resource to be created. E.g. TODO(Add an example).

Optional. A free-text description of the resource. Max length 1024 characters.

Optional. Gateways defines a list of gateways this TcpRoute is attached to, as one of the routing rules to route the requests served by the gateway. Each gateway reference should match the pattern: projects/*/locations/global/gateways/

Optional. Set of label tags associated with the TcpRoute resource.

Optional. Meshes defines a list of meshes this TcpRoute is attached to, as one of the routing rules to route the requests served by the mesh. Each mesh reference should match the pattern: projects/*/locations/global/meshes/ The attached Mesh should be of a type SIDECAR

Name of the TcpRoute resource. It matches pattern projects/*/locations/global/tcpRoutes/tcp_route_name>.

Rules that define how traffic is routed and handled. At least one RouteRule must be supplied. If there are multiple rules then the action taken will be the first rule to match.

Required. Short name of the TcpRoute resource to be created. E.g. TODO(Add an example).

Optional. A free-text description of the resource. Max length 1024 characters.

Optional. Gateways defines a list of gateways this TcpRoute is attached to, as one of the routing rules to route the requests served by the gateway. Each gateway reference should match the pattern: projects/*/locations/global/gateways/

Optional. Set of label tags associated with the TcpRoute resource.

Optional. Meshes defines a list of meshes this TcpRoute is attached to, as one of the routing rules to route the requests served by the mesh. Each mesh reference should match the pattern: projects/*/locations/global/meshes/ The attached Mesh should be of a type SIDECAR

Name of the TcpRoute resource. It matches pattern projects/*/locations/global/tcpRoutes/tcp_route_name>.

Rules that define how traffic is routed and handled. At least one RouteRule must be supplied. If there are multiple rules then the action taken will be the first rule to match.

Required. Short name of the TcpRoute resource to be created. E.g. TODO(Add an example).

Optional. A free-text description of the resource. Max length 1024 characters.

Optional. Gateways defines a list of gateways this TcpRoute is attached to, as one of the routing rules to route the requests served by the gateway. Each gateway reference should match the pattern: projects/*/locations/global/gateways/

Optional. Set of label tags associated with the TcpRoute resource.

Optional. Meshes defines a list of meshes this TcpRoute is attached to, as one of the routing rules to route the requests served by the mesh. Each mesh reference should match the pattern: projects/*/locations/global/meshes/ The attached Mesh should be of a type SIDECAR

Name of the TcpRoute resource. It matches pattern projects/*/locations/global/tcpRoutes/tcp_route_name>.

Rules that define how traffic is routed and handled. At least one RouteRule must be supplied. If there are multiple rules then the action taken will be the first rule to match.

Required. Short name of the TcpRoute resource to be created. E.g. TODO(Add an example).

Optional. A free-text description of the resource. Max length 1024 characters.

Optional. Gateways defines a list of gateways this TcpRoute is attached to, as one of the routing rules to route the requests served by the gateway. Each gateway reference should match the pattern: projects/*/locations/global/gateways/

Optional. Set of label tags associated with the TcpRoute resource.

Optional. Meshes defines a list of meshes this TcpRoute is attached to, as one of the routing rules to route the requests served by the mesh. Each mesh reference should match the pattern: projects/*/locations/global/meshes/ The attached Mesh should be of a type SIDECAR

Name of the TcpRoute resource. It matches pattern projects/*/locations/global/tcpRoutes/tcp_route_name>.

Rules that define how traffic is routed and handled. At least one RouteRule must be supplied. If there are multiple rules then the action taken will be the first rule to match.

Required. Short name of the TcpRoute resource to be created. E.g. TODO(Add an example).

Optional. A free-text description of the resource. Max length 1024 characters.

Optional. Gateways defines a list of gateways this TcpRoute is attached to, as one of the routing rules to route the requests served by the gateway. Each gateway reference should match the pattern: projects/*/locations/global/gateways/

Optional. Set of label tags associated with the TcpRoute resource.

Optional. Meshes defines a list of meshes this TcpRoute is attached to, as one of the routing rules to route the requests served by the mesh. Each mesh reference should match the pattern: projects/*/locations/global/meshes/ The attached Mesh should be of a type SIDECAR

Name of the TcpRoute resource. It matches pattern projects/*/locations/global/tcpRoutes/tcp_route_name>.

The timestamp when the resource was created.

The provider-assigned unique ID for this managed resource.

Server-defined URL of this resource

The timestamp when the resource was updated.

The timestamp when the resource was created.

The provider-assigned unique ID for this managed resource.

Server-defined URL of this resource

The timestamp when the resource was updated.

The timestamp when the resource was created.

The provider-assigned unique ID for this managed resource.

Server-defined URL of this resource

The timestamp when the resource was updated.

The timestamp when the resource was created.

The provider-assigned unique ID for this managed resource.

Server-defined URL of this resource

The timestamp when the resource was updated.

The timestamp when the resource was created.

The provider-assigned unique ID for this managed resource.

Server-defined URL of this resource

The timestamp when the resource was updated.

The timestamp when the resource was created.

The provider-assigned unique ID for this managed resource.

Server-defined URL of this resource

The timestamp when the resource was updated.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

Optional. The destination services to which traffic should be forwarded. At least one destination service is required. Only one of route destination or original destination can be set.

Optional. If true, Router will use the destination IP and port of the original connection as the destination of the request. Default is false. Only one of route destinations or original destination can be set.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

The URL of a BackendService to route traffic to.

Optional. Specifies the proportion of requests forwarded to the backend referenced by the serviceName field. This is computed as: weight/Sum(weights in this destination list). For non-zero values, there may be some epsilon from the exact proportion defined here depending on the precision an implementation supports. If only one serviceName is specified and it has a weight greater than 0, 100% of the traffic is forwarded to that backend. If weights are specified for any one service name, they need to be specified for all of them. If weights are unspecified for all services, then, traffic is distributed in equal proportions to all of them.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

Must be specified in the CIDR range format. A CIDR range consists of an IP Address and a prefix length to construct the subnet mask. By default, the prefix length is 32 (i.e. matches a single IP address). Only IPV4 addresses are supported. Examples: "10.0.0.1" - matches against this exact IP address. "10.0.0.0/8" - matches against any IP address within the 10.0.0.0 subnet and 255.255.255.0 mask. "0.0.0.0/0" - matches against any IP address'.

Specifies the destination port to match against.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.

The detailed rule defining how to route matched traffic.

Optional. RouteMatch defines the predicate used to match requests to a given action. Multiple match types are "OR"ed for evaluation. If no routeMatch field is specified, this rule will unconditionally match traffic.