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# This software may be used and distributed according to the terms of the
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# GNU General Public License version 2 or any later version.
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"""advertise pre-generated bundles to seed clones
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"clonebundles" is a server-side extension used to advertise the existence
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of pre-generated, externally hosted bundle files to clients that are
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cloning so that cloning can be faster, more reliable, and require less
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resources on the server. "pullbundles" is a related feature for sending
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pre-generated bundle files to clients as part of pull operations.
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Cloning can be a CPU and I/O intensive operation on servers. Traditionally,
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the server, in response to a client's request to clone, dynamically generates
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a bundle containing the entire repository content and sends it to the client.
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There is no caching on the server and the server will have to redundantly
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generate the same outgoing bundle in response to each clone request. For
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servers with large repositories or with high clone volume, the load from
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clones can make scaling the server challenging and costly.
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This extension provides server operators the ability to offload
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potentially expensive clone load to an external service. Pre-generated
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bundles also allow using more CPU intensive compression, reducing the
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effective bandwidth requirements.
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Here's how clone bundles work:
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1. A server operator establishes a mechanism for making bundle files available
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on a hosting service where Mercurial clients can fetch them.
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2. A manifest file listing available bundle URLs and some optional metadata
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is added to the Mercurial repository on the server.
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3. A client initiates a clone against a clone bundles aware server.
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4. The client sees the server is advertising clone bundles and fetches the
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manifest listing available bundles.
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5. The client filters and sorts the available bundles based on what it
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supports and prefers.
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6. The client downloads and applies an available bundle from the
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server-specified URL.
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7. The client reconnects to the original server and performs the equivalent
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of :hg:`pull` to retrieve all repository data not in the bundle. (The
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repository could have been updated between when the bundle was created
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and when the client started the clone.) This may use "pullbundles".
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Instead of the server generating full repository bundles for every clone
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request, it generates full bundles once and they are subsequently reused to
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bootstrap new clones. The server may still transfer data at clone time.
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However, this is only data that has been added/changed since the bundle was
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created. For large, established repositories, this can reduce server load for
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clones to less than 1% of original.
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Here's how pullbundles work:
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1. A manifest file listing available bundles and describing the revisions
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is added to the Mercurial repository on the server.
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2. A new-enough client informs the server that it supports partial pulls
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and initiates a pull.
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3. If the server has pull bundles enabled and sees the client advertising
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partial pulls, it checks for a matching pull bundle in the manifest.
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A bundle matches if the format is supported by the client, the client
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has the required revisions already and needs something from the bundle.
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4. If there is at least one matching bundle, the server sends it to the client.
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5. The client applies the bundle and notices that the server reply was
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incomplete. It initiates another pull.
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To work, this extension requires the following of server operators:
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* Generating bundle files of repository content (typically periodically,
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such as once per day).
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* Clone bundles: A file server that clients have network access to and that
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Python knows how to talk to through its normal URL handling facility
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(typically an HTTP/HTTPS server).
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* A process for keeping the bundles manifest in sync with available bundle
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files.
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Strictly speaking, using a static file hosting server isn't required: a server
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operator could use a dynamic service for retrieving bundle data. However,
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static file hosting services are simple and scalable and should be sufficient
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for most needs.
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Bundle files can be generated with the :hg:`bundle` command. Typically
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:hg:`bundle --all` is used to produce a bundle of the entire repository.
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:hg:`debugcreatestreamclonebundle` can be used to produce a special
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*streaming clonebundle*. These are bundle files that are extremely efficient
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to produce and consume (read: fast). However, they are larger than
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traditional bundle formats and require that clients support the exact set
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of repository data store formats in use by the repository that created them.
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Typically, a newer server can serve data that is compatible with older clients.
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However, *streaming clone bundles* don't have this guarantee. **Server
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operators need to be aware that newer versions of Mercurial may produce
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streaming clone bundles incompatible with older Mercurial versions.**
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A server operator is responsible for creating a ``.hg/clonebundles.manifest``
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file containing the list of available bundle files suitable for seeding
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clones. If this file does not exist, the repository will not advertise the
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existence of clone bundles when clients connect. For pull bundles,
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``.hg/pullbundles.manifest`` is used.
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The manifest file contains a newline (\\n) delimited list of entries.
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Each line in this file defines an available bundle. Lines have the format:
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<URL> [<key>=<value>[ <key>=<value>]]
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That is, a URL followed by an optional, space-delimited list of key=value
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pairs describing additional properties of this bundle. Both keys and values
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are URI encoded.
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For pull bundles, the URL is a path under the ``.hg`` directory of the
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repository.
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Keys in UPPERCASE are reserved for use by Mercurial and are defined below.
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All non-uppercase keys can be used by site installations. An example use
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for custom properties is to use the *datacenter* attribute to define which
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data center a file is hosted in. Clients could then prefer a server in the
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data center closest to them.
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The following reserved keys are currently defined:
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BUNDLESPEC
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A "bundle specification" string that describes the type of the bundle.
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These are string values that are accepted by the "--type" argument of
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:hg:`bundle`.
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The values are parsed in strict mode, which means they must be of the
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"<compression>-<type>" form. See
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mercurial.exchange.parsebundlespec() for more details.
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:hg:`debugbundle --spec` can be used to print the bundle specification
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string for a bundle file. The output of this command can be used verbatim
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for the value of ``BUNDLESPEC`` (it is already escaped).
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Clients will automatically filter out specifications that are unknown or
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unsupported so they won't attempt to download something that likely won't
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apply.
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The actual value doesn't impact client behavior beyond filtering:
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clients will still sniff the bundle type from the header of downloaded
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files.
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**Use of this key is highly recommended**, as it allows clients to
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easily skip unsupported bundles. If this key is not defined, an old
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client may attempt to apply a bundle that it is incapable of reading.
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REQUIRESNI
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Whether Server Name Indication (SNI) is required to connect to the URL.
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SNI allows servers to use multiple certificates on the same IP. It is
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somewhat common in CDNs and other hosting providers. Older Python
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versions do not support SNI. Defining this attribute enables clients
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with older Python versions to filter this entry without experiencing
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an opaque SSL failure at connection time.
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If this is defined, it is important to advertise a non-SNI fallback
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URL or clients running old Python releases may not be able to clone
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with the clonebundles facility.
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Value should be "true".
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heads
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Used for pull bundles. This contains the ``;`` separated changeset
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hashes of the heads of the bundle content.
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bases
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Used for pull bundles. This contains the ``;`` separated changeset
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hashes of the roots of the bundle content. This can be skipped if
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the bundle was created without ``--base``.
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Manifests can contain multiple entries. Assuming metadata is defined, clients
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will filter entries from the manifest that they don't support. The remaining
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entries are optionally sorted by client preferences
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(``ui.clonebundleprefers`` config option). The client then attempts
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to fetch the bundle at the first URL in the remaining list.
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**Errors when downloading a bundle will fail the entire clone operation:
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clients do not automatically fall back to a traditional clone.** The reason
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for this is that if a server is using clone bundles, it is probably doing so
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because the feature is necessary to help it scale. In other words, there
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is an assumption that clone load will be offloaded to another service and
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that the Mercurial server isn't responsible for serving this clone load.
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If that other service experiences issues and clients start mass falling back to
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the original Mercurial server, the added clone load could overwhelm the server
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due to unexpected load and effectively take it offline. Not having clients
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automatically fall back to cloning from the original server mitigates this
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scenario.
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Because there is no automatic Mercurial server fallback on failure of the
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bundle hosting service, it is important for server operators to view the bundle
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hosting service as an extension of the Mercurial server in terms of
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availability and service level agreements: if the bundle hosting service goes
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down, so does the ability for clients to clone. Note: clients will see a
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message informing them how to bypass the clone bundles facility when a failure
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occurs. So server operators should prepare for some people to follow these
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instructions when a failure occurs, thus driving more load to the original
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Mercurial server when the bundle hosting service fails.
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"""
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from __future__ import absolute_import
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from mercurial import (
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extensions,
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wireprotov1server,
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)
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testedwith = 'ships-with-hg-core'
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def capabilities(orig, repo, proto):
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caps = orig(repo, proto)
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# Only advertise if a manifest exists. This does add some I/O to requests.
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# But this should be cheaper than a wasted network round trip due to
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# missing file.
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if repo.vfs.exists('clonebundles.manifest'):
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caps.append('clonebundles')
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return caps
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def extsetup(ui):
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extensions.wrapfunction(wireprotov1server, '_capabilities', capabilities)
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