Skip to content

56quarters/mtop

Repository files navigation

mtop

build status docs.rs crates.io

mtop: top for Memcached.

mtop

Features

  • Display real-time statistics about your memcached servers such as
    • Memory usage/limit
    • Per-slab memory usage
    • Current/max connections
    • Hit ratio
    • Gets/Sets/Evictions
    • Bytes transmitted and received
    • Server CPU usage
  • Support for easily switching between multiple servers

Install

There are multiple ways to install mtop listed below.

Binaries

Binaries are published for GNU/Linux (x86_64), Musl/Linux (x86_64), Windows (x86_64), and MacOS (x86_64 and aarch64) for each release. Each available archive contains the mtop and mc binaries for that platform and a few documentation files.

Docker

Docker images for GNU/Linux (amd64, arm64) are published for each release. The docker images are built with the Dockerfile in this repository. They do not set an entrypoint and will run mtop --help by default. The mtop and mc binaries are placed on the PATH, in /usr/local/bin.

Cargo

mtop along with its dependencies can be downloaded and built from source using the Rust cargo tool. Note that this requires you have a Rust toolchain installed.

To install:

cargo install mtop

To install as a completely static binary (Linux only):

cargo install --target x86_64-unknown-linux-musl mtop 

To uninstall:

cargo uninstall mtop

Source

mtop along with its dependencies can be built from the latest sources on Github using the Rust cargo tool. Note that this requires you have Git and a Rust toolchain installed.

Get the sources:

git clone https://github.com/56quarters/mtop.git && cd mtop

Install from local sources:

cargo install --path mtop

Install a completely static binary from local sources (Linux only):

cargo install --path mtop --target x86_64-unknown-linux-musl

To uninstall:

cargo uninstall mtop

Usage

mtop takes one or more Memcached host:port combinations as arguments. Statistics from each of these servers will be collected approximately once a second. A maximum of ten measurements from each server will be kept in memory to use for computations.

If mtop is not able to connect to the servers when starting, it will exit after printing an error message. If mtop is not able to connect to servers or fetch statistics from them after starting, the errors will be logged to a file. The location of this file is /tmp/mtop/mtop.log on Unix-like systems. This log file is truncated every time mtop starts.

Some examples of invoking mtop are given below.

Connecting to a local server

mtop localhost:11211

Connecting to multiple servers

mtop cache01.example.com:11211 cache02.example.com:11211 cache03.example.com:11211

Connecting to multiple servers with a single DNS name

A or AAAA

In this example, a DNS A lookup for memcached.local returns three DNS A records.

dig -t A memcached.local
;; QUESTION SECTION:
;memcached.local.         IN      A

;; ANSWER SECTION:
memcached.local.  0       IN      A       127.0.0.3
memcached.local.  0       IN      A       127.0.0.2
memcached.local.  0       IN      A       127.0.0.1

mtop will connect to all three servers: 127.0.0.1, 127.0.0.2, and 127.0.0.3.

mtop dns+memcached.local:11211

SRV

In this example, a DNS SRV lookup for _memcached._tcp.example.com returns three DNS SRV records.

dig -t SRV _memcached._tcp.example.com
;; QUESTION SECTION:
;_memcached._tcp.example.com.        IN      SRV

;; ANSWER SECTION:
_memcached._tcp.example.com. 300 IN  SRV     100 100 11211 memcached01.example.com.
_memcached._tcp.example.com. 300 IN  SRV     100 100 11211 memcached02.example.com.
_memcached._tcp.example.com. 300 IN  SRV     100 100 11211 memcached03.example.com.

mtop will connect to all three servers, resolving their names to A or AAAA records when connections are established: memcached01.example.com., memcached02.example.com., and memcached03.example.com.. Note that the port number from the SRV records are ignored, only the port from the command line argument is used.

mtop dnssrv+_memcached._tcp.example.com:11211

Connecting to a port-forwarded Kubernetes pod

kubectl port-forward --namespace=example memcached-0 11211:11211
mtop localhost:11211

TLS connection to server

mtop --tls-enabled cache01.example.com:11211

TLS with a custom CA

mtop --tls-enabled --tls-ca memcached-ca-cert.pem cache01.example.com:11211

TLS with client authentication and a custom CA

mtop --tls-enabled --tls-ca memcached-ca-cert.pem --tls-cert memcached-client-cert.pem --tls-key memcached-client-key.pem cache01.example.com:11211

UI

Within the mtop UI, there are a few keys that control behavior.

  • q to quit.
  • m to toggle between the default UI and per-slab UI.
  • l or right-arrow to select the next host.
  • h or left-arrow to select the previous host.
  • j or down-arrow to select the next slab row.
  • k or up-arrow to select the previous slab row.

Limitations

No historical data

mtop displays instantaneous statistics or an average over the last 10 seconds (depending on the particular statistic). It does not persist statistics anywhere for historical analysis. If this is something you need, use the memcached_exporter for Prometheus.

License

mtop is available under the terms of the GPL, version 3.

Contribution

Any contribution intentionally submitted for inclusion in the work by you shall be licensed as above, without any additional terms or conditions.

Releasing

Steps for releasing new versions of mtop are described below.

  • Open and merge a PR incrementing the version of mtop in all Cargo.toml files and update CHANGELOG.md.
  • Update local master from Github remote. Make sure to build once with updated versions to update Cargo.lock.
  • Create but do not push a tag of the format v1.2.3
  • Run cargo package and cargo publish for the mtop-client crate.
  • Run cargo package and cargo publish for the mtop crate.
  • Push tags to all remotes git push --tags origin, git push --tags github