aws_sdk_evs::types

Struct InitialVlans

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#[non_exhaustive]
pub struct InitialVlans {
    pub vmk_management: Option<InitialVlanInfo>,
    pub vm_management: Option<InitialVlanInfo>,
    pub v_motion: Option<InitialVlanInfo>,
    pub v_san: Option<InitialVlanInfo>,
    pub v_tep: Option<InitialVlanInfo>,
    pub edge_v_tep: Option<InitialVlanInfo>,
    pub nsx_uplink: Option<InitialVlanInfo>,
    pub hcx: Option<InitialVlanInfo>,
    pub expansion_vlan1: Option<InitialVlanInfo>,
    pub expansion_vlan2: Option<InitialVlanInfo>,
}
Expand description

The initial VLAN subnets for the environment. Amazon EVS VLAN subnets have a minimum CIDR block size of /28 and a maximum size of /24. Amazon EVS VLAN subnet CIDR blocks must not overlap with other subnets in the VPC.

Fields (Non-exhaustive)§

This struct is marked as non-exhaustive
Non-exhaustive structs could have additional fields added in future. Therefore, non-exhaustive structs cannot be constructed in external crates using the traditional Struct { .. } syntax; cannot be matched against without a wildcard ..; and struct update syntax will not work.
§vmk_management: Option<InitialVlanInfo>

The host VMkernel management VLAN subnet. This VLAN subnet carries traffic for managing ESXi hosts and communicating with VMware vCenter Server.

§vm_management: Option<InitialVlanInfo>

The VM management VLAN subnet. This VLAN subnet carries traffic for vSphere virtual machines.

§v_motion: Option<InitialVlanInfo>

The vMotion VLAN subnet. This VLAN subnet carries traffic for vSphere vMotion.

§v_san: Option<InitialVlanInfo>

The vSAN VLAN subnet. This VLAN subnet carries the communication between ESXi hosts to implement a vSAN shared storage pool.

§v_tep: Option<InitialVlanInfo>

The VTEP VLAN subnet. This VLAN subnet handles internal network traffic between virtual machines within a VCF instance.

§edge_v_tep: Option<InitialVlanInfo>

The edge VTEP VLAN subnet. This VLAN subnet manages traffic flowing between the internal network and external networks, including internet access and other site connections.

§nsx_uplink: Option<InitialVlanInfo>

The NSX uplink VLAN subnet. This VLAN subnet allows connectivity to the NSX overlay network.

§hcx: Option<InitialVlanInfo>

The HCX VLAN subnet. This VLAN subnet allows the HCX Interconnnect (IX) and HCX Network Extension (NE) to reach their peers and enable HCX Service Mesh creation.

§expansion_vlan1: Option<InitialVlanInfo>

An additional VLAN subnet that can be used to extend VCF capabilities once configured. For example, you can configure an expansion VLAN subnet to use NSX Federation for centralized management and synchronization of multiple NSX deployments across different locations.

§expansion_vlan2: Option<InitialVlanInfo>

An additional VLAN subnet that can be used to extend VCF capabilities once configured. For example, you can configure an expansion VLAN subnet to use NSX Federation for centralized management and synchronization of multiple NSX deployments across different locations.

Implementations§

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impl InitialVlans

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pub fn vmk_management(&self) -> Option<&InitialVlanInfo>

The host VMkernel management VLAN subnet. This VLAN subnet carries traffic for managing ESXi hosts and communicating with VMware vCenter Server.

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pub fn vm_management(&self) -> Option<&InitialVlanInfo>

The VM management VLAN subnet. This VLAN subnet carries traffic for vSphere virtual machines.

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pub fn v_motion(&self) -> Option<&InitialVlanInfo>

The vMotion VLAN subnet. This VLAN subnet carries traffic for vSphere vMotion.

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pub fn v_san(&self) -> Option<&InitialVlanInfo>

The vSAN VLAN subnet. This VLAN subnet carries the communication between ESXi hosts to implement a vSAN shared storage pool.

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pub fn v_tep(&self) -> Option<&InitialVlanInfo>

The VTEP VLAN subnet. This VLAN subnet handles internal network traffic between virtual machines within a VCF instance.

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pub fn edge_v_tep(&self) -> Option<&InitialVlanInfo>

The edge VTEP VLAN subnet. This VLAN subnet manages traffic flowing between the internal network and external networks, including internet access and other site connections.

The NSX uplink VLAN subnet. This VLAN subnet allows connectivity to the NSX overlay network.

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pub fn hcx(&self) -> Option<&InitialVlanInfo>

The HCX VLAN subnet. This VLAN subnet allows the HCX Interconnnect (IX) and HCX Network Extension (NE) to reach their peers and enable HCX Service Mesh creation.

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pub fn expansion_vlan1(&self) -> Option<&InitialVlanInfo>

An additional VLAN subnet that can be used to extend VCF capabilities once configured. For example, you can configure an expansion VLAN subnet to use NSX Federation for centralized management and synchronization of multiple NSX deployments across different locations.

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pub fn expansion_vlan2(&self) -> Option<&InitialVlanInfo>

An additional VLAN subnet that can be used to extend VCF capabilities once configured. For example, you can configure an expansion VLAN subnet to use NSX Federation for centralized management and synchronization of multiple NSX deployments across different locations.

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impl InitialVlans

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pub fn builder() -> InitialVlansBuilder

Creates a new builder-style object to manufacture InitialVlans.

Trait Implementations§

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impl Clone for InitialVlans

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fn clone(&self) -> InitialVlans

Returns a duplicate of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for InitialVlans

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl PartialEq for InitialVlans

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fn eq(&self, other: &InitialVlans) -> bool

Tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl StructuralPartialEq for InitialVlans

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