mirror of https://github.com/hashicorp/consul
134 lines
7.7 KiB
Markdown
134 lines
7.7 KiB
Markdown
---
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layout: "docs"
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page_title: "Consul Architecture"
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sidebar_current: "docs-internals-architecture"
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description: |-
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Consul is a complex system that has many different moving parts. To help users and developers of Consul form a mental model of how it works, this page documents the system architecture.
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---
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# Consul Architecture
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Consul is a complex system that has many different moving parts. To help
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users and developers of Consul form a mental model of how it works, this
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page documents the system architecture.
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~> **Advanced Topic!** This page covers technical details of
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the internals of Consul. You don't need to know these details to effectively
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operate and use Consul. These details are documented here for those who wish
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to learn about them without having to go spelunking through the source code.
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## Glossary
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Before describing the architecture, we provide a glossary of terms to help
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clarify what is being discussed:
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* Agent - An agent is the long running daemon on every member of the Consul cluster.
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It is started by running `consul agent`. The agent is able to run in either *client*
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or *server* mode. Since all nodes must be running an agent, it is simpler to refer to
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the node as being either a client or server, but there are other instances of the agent. All
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agents can run the DNS or HTTP interfaces, and are responsible for running checks and
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keeping services in sync.
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* Client - A client is an agent that forwards all RPCs to a server. The client is relatively
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stateless. The only background activity a client performs is taking part in the LAN gossip
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pool. This has a minimal resource overhead and consumes only a small amount of network
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bandwidth.
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* Server - A server is an agent with an expanded set of responsibilities including
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participating in the Raft quorum, maintaining cluster state, responding to RPC queries,
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exchanging WAN gossip with other datacenters, and forwarding queries to leaders or
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remote datacenters.
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* Datacenter - While the definition of a datacenter seems obvious, there are subtle details
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that must be considered. For example, in EC2, are multiple availability zones considered
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to comprise a single datacenter? We define a datacenter to be a networking environment that is
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private, low latency, and high bandwidth. This excludes communication that would traverse
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the public internet, but for our purposes multiple availability zones within a single EC2
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region would be considered part of a single datacenter.
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* Consensus - When used in our documentation we use consensus to mean agreement upon
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the elected leader as well as agreement on the ordering of transactions. Since these
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transactions are applied to a
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[finite-state machine](https://en.wikipedia.org/wiki/Finite-state_machine), our definition
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of consensus implies the consistency of a replicated state machine. Consensus is described
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in more detail on [Wikipedia](https://en.wikipedia.org/wiki/Consensus_(computer_science)),
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and our implementation is described [here](/docs/internals/consensus.html).
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* Gossip - Consul is built on top of [Serf](https://www.serf.io/) which provides a full
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[gossip protocol](https://en.wikipedia.org/wiki/Gossip_protocol) that is used for multiple purposes.
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Serf provides membership, failure detection, and event broadcast. Our use of these
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is described more in the [gossip documentation](/docs/internals/gossip.html). It is enough to know
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that gossip involves random node-to-node communication, primarily over UDP.
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* LAN Gossip - Refers to the LAN gossip pool which contains nodes that are all
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located on the same local area network or datacenter.
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* WAN Gossip - Refers to the WAN gossip pool which contains only servers. These
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servers are primarily located in different datacenters and typically communicate
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over the internet or wide area network.
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* RPC - Remote Procedure Call. This is a request / response mechanism allowing a
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client to make a request of a server.
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## 10,000 foot view
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From a 10,000 foot altitude the architecture of Consul looks like this:
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<div class="center">
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[![Consul Architecture](/assets/images/consul-arch.png)](/assets/images/consul-arch.png)
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</div>
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Let's break down this image and describe each piece. First of all, we can see
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that there are two datacenters, labeled "one" and "two". Consul has first
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class support for [multiple datacenters](/docs/guides/datacenters.html) and
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expects this to be the common case.
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Within each datacenter, we have a mixture of clients and servers. It is expected
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that there be between three to five servers. This strikes a balance between
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availability in the case of failure and performance, as consensus gets progressively
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slower as more machines are added. However, there is no limit to the number of clients,
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and they can easily scale into the thousands or tens of thousands.
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All the nodes that are in a datacenter participate in a [gossip protocol](/docs/internals/gossip.html).
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This means there is a gossip pool that contains all the nodes for a given datacenter. This serves
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a few purposes: first, there is no need to configure clients with the addresses of servers;
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discovery is done automatically. Second, the work of detecting node failures
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is not placed on the servers but is distributed. This makes failure detection much more
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scalable than naive heartbeating schemes. Thirdly, it is used as a messaging layer to notify
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when important events such as leader election take place.
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The servers in each datacenter are all part of a single Raft peer set. This means that
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they work together to elect a single leader, a selected server which has extra duties. The leader
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is responsible for processing all queries and transactions. Transactions must also be replicated to
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all peers as part of the [consensus protocol](/docs/internals/consensus.html). Because of this
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requirement, when a non-leader server receives an RPC request, it forwards it to the cluster leader.
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The server nodes also operate as part of a WAN gossip pool. This pool is different from the LAN pool
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as it is optimized for the higher latency of the internet and is expected to contain only
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other Consul server nodes. The purpose of this pool is to allow datacenters to discover each
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other in a low-touch manner. Bringing a new datacenter online is as easy as joining the existing
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WAN gossip. Because the servers are all operating in this pool, it also enables cross-datacenter
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requests. When a server receives a request for a different datacenter, it forwards it to a random
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server in the correct datacenter. That server may then forward to the local leader.
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This results in a very low coupling between datacenters, but because of failure detection,
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connection caching and multiplexing, cross-datacenter requests are relatively fast and reliable.
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In general, data is not replicated between different Consul datacenters. When a
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request is made for a resource in another datacenter, the local Consul servers forward
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an RPC request to the remote Consul servers for that resource and return the results.
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If the remote datacenter is not available, then those resources will also not be
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available, but that won't otherwise affect the local datacenter. There are some special
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situations where a limited subset of data can be replicated, such as with Consul's built-in
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[ACL replication](/docs/guides/acl.html#outages-and-acl-replication) capability, or
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external tools like [consul-replicate](https://github.com/hashicorp/consul-replicate).
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## Getting in depth
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At this point we've covered the high level architecture of Consul, but there are many
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more details for each of the subsystems. The [consensus protocol](/docs/internals/consensus.html) is
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documented in detail as is the [gossip protocol](/docs/internals/gossip.html). The [documentation](/docs/internals/security.html)
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for the security model and protocols used are also available.
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For other details, either consult the code, ask in IRC, or reach out to the mailing list.
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