go-getter alternatives and similar packages
Based on the "Networking" category.
Alternatively, view go-getter alternatives based on common mentions on social networks and blogs.
-
fasthttp
Fast HTTP package for Go. Tuned for high performance. Zero memory allocations in hot paths. Up to 10x faster than net/http -
Netmaker
Netmaker makes networks with WireGuard. Netmaker automates fast, secure, and distributed virtual networks. -
gnet
🚀 gnet is a high-performance, lightweight, non-blocking, event-driven networking framework written in pure Go. -
mqttPaho
The Paho Go Client provides an MQTT client library for connection to MQTT brokers via TCP, TLS or WebSockets. -
fortio
Fortio load testing library, command line tool, advanced echo server and web UI in go (golang). Allows to specify a set query-per-second load and record latency histograms and other useful stats. -
nbio
Pure Go 1000k+ connections solution, support tls/http1.x/websocket and basically compatible with net/http, with high-performance and low memory cost, non-blocking, event-driven, easy-to-use. -
gev
🚀Gev is a lightweight, fast non-blocking TCP network library / websocket server based on Reactor mode. Support custom protocols to quickly and easily build high-performance servers. -
gmqtt
Gmqtt is a flexible, high-performance MQTT broker library that fully implements the MQTT protocol V3.x and V5 in golang -
easytcp
:sparkles: :rocket: EasyTCP is a light-weight TCP framework written in Go (Golang), built with message router. EasyTCP helps you build a TCP server easily fast and less painful. -
peerdiscovery
Pure-Go library for cross-platform local peer discovery using UDP multicast :woman: :repeat: :woman: -
raw
DISCONTINUED. Package raw enables reading and writing data at the device driver level for a network interface. MIT Licensed. -
ethernet
Package ethernet implements marshaling and unmarshaling of IEEE 802.3 Ethernet II frames and IEEE 802.1Q VLAN tags. MIT Licensed. -
buffstreams
A library to simplify writing applications using TCP sockets to stream protobuff messages
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README
go-getter
go-getter is a library for Go (golang) for downloading files or directories from various sources using a URL as the primary form of input.
The power of this library is being flexible in being able to download from a number of different sources (file paths, Git, HTTP, Mercurial, etc.) using a single string as input. This removes the burden of knowing how to download from a variety of sources from the implementer.
The concept of a detector automatically turns invalid URLs into proper URLs. For example: "github.com/hashicorp/go-getter" would turn into a Git URL. Or "./foo" would turn into a file URL. These are extensible.
This library is used by Terraform for downloading modules and Nomad for downloading binaries.
Installation and Usage
Package documentation can be found on GoDoc.
Installation can be done with a normal go get
:
$ go get github.com/hashicorp/go-getter
go-getter also has a command you can use to test URL strings:
$ go install github.com/hashicorp/go-getter/cmd/go-getter
...
$ go-getter github.com/foo/bar ./foo
...
The command is useful for verifying URL structures.
Security
Fetching resources from user-supplied URLs is an inherently dangerous operation and may leave your application vulnerable to server side request forgery, path traversal, denial of service or other security flaws.
go-getter contains mitigations for some of these security issues, but should still be used with caution in security-critical contexts. See the available security options that can be configured to mitigate some of these risks.
go-getter may return values that contain caller-provided query parameters that can contain sensitive data. Context around what parameters are and are not sensitive is known only by the caller of go-getter, and specific to each use case. We recommend the caller ensure that go-getter's return values (e.g., error messages) are properly handled and sanitized to ensure sensitive data is not persisted to logs.
URL Format
go-getter uses a single string URL as input to download from a variety of protocols. go-getter has various "tricks" with this URL to do certain things. This section documents the URL format.
Supported Protocols and Detectors
Protocols are used to download files/directories using a specific mechanism. Example protocols are Git and HTTP.
Detectors are used to transform a valid or invalid URL into another URL if it matches a certain pattern. Example: "github.com/user/repo" is automatically transformed into a fully valid Git URL. This allows go-getter to be very user friendly.
go-getter out of the box supports the following protocols. Additional protocols
can be augmented at runtime by implementing the Getter
interface.
- Local files
- Git
- Mercurial
- HTTP
- Amazon S3
- Google GCP
In addition to the above protocols, go-getter has what are called "detectors." These take a URL and attempt to automatically choose the best protocol for it, which might involve even changing the protocol. The following detection is built-in by default:
- File paths such as "./foo" are automatically changed to absolute file URLs.
- GitHub URLs, such as "github.com/mitchellh/vagrant" are automatically changed to Git protocol over HTTP.
- GitLab URLs, such as "gitlab.com/inkscape/inkscape" are automatically changed to Git protocol over HTTP.
- BitBucket URLs, such as "bitbucket.org/mitchellh/vagrant" are automatically changed to a Git or mercurial protocol using the BitBucket API.
Forced Protocol
In some cases, the protocol to use is ambiguous depending on the source URL. For example, "http://github.com/mitchellh/vagrant.git" could reference an HTTP URL or a Git URL. Forced protocol syntax is used to disambiguate this URL.
Forced protocol can be done by prefixing the URL with the protocol followed
by double colons. For example: git::http://github.com/mitchellh/vagrant.git
would download the given HTTP URL using the Git protocol.
Forced protocols will also override any detectors.
In the absence of a forced protocol, detectors may be run on the URL, transforming the protocol anyways. The above example would've used the Git protocol either way since the Git detector would've detected it was a GitHub URL.
Protocol-Specific Options
Each protocol can support protocol-specific options to configure that
protocol. For example, the git
protocol supports specifying a ref
query parameter that tells it what ref to checkout for that Git
repository.
The options are specified as query parameters on the URL (or URL-like string) given to go-getter. Using the Git example above, the URL below is a valid input to go-getter:
github.com/hashicorp/go-getter?ref=abcd1234
The protocol-specific options are documented below the URL format section. But because they are part of the URL, we point it out here so you know they exist.
Subdirectories
If you want to download only a specific subdirectory from a downloaded
directory, you can specify a subdirectory after a double-slash //
.
go-getter will first download the URL specified before the double-slash
(as if you didn't specify a double-slash), but will then copy the
path after the double slash into the target directory.
For example, if you're downloading this GitHub repository, but you only
want to download the testdata
directory, you can do the following:
https://github.com/hashicorp/go-getter.git//testdata
If you downloaded this to the /tmp
directory, then the file
/tmp/archive.gz
would exist. Notice that this file is in the testdata
directory in this repository, but because we specified a subdirectory,
go-getter automatically copied only that directory contents.
Subdirectory paths may also use filesystem glob patterns. The path must match exactly one entry or go-getter will return an error. This is useful if you're not sure the exact directory name but it follows a predictable naming structure.
For example, the following URL would also work:
https://github.com/hashicorp/go-getter.git//test-*
Checksumming
For file downloads of any protocol, go-getter can automatically verify a checksum for you. Note that checksumming only works for downloading files, not directories, but checksumming will work for any protocol.
To checksum a file, append a checksum
query parameter to the URL. go-getter
will parse out this query parameter automatically and use it to verify the
checksum. The parameter value can be in the format of type:value
or just
value
, where type is "md5", "sha1", "sha256", "sha512" or "file" . The
"value" should be the actual checksum value or download URL for "file". When
type
part is omitted, type will be guessed based on the length of the
checksum string. Examples:
./foo.txt?checksum=md5:b7d96c89d09d9e204f5fedc4d5d55b21
./foo.txt?checksum=b7d96c89d09d9e204f5fedc4d5d55b21
./foo.txt?checksum=file:./foo.txt.sha256sum
When checksumming from a file - ex: with checksum=file:url
- go-getter will
get the file linked in the URL after file:
using the same configuration. For
example, in file:http://releases.ubuntu.com/cosmic/MD5SUMS
go-getter will
download a checksum file under the aforementioned url using the http protocol.
All protocols supported by go-getter can be used. The checksum file will be
downloaded in a temporary file then parsed. The destination of the temporary
file can be changed by setting system specific environment variables: TMPDIR
for unix; TMP
, TEMP
or USERPROFILE
on windows. Read godoc of
os.TempDir for more information on the
temporary directory selection. Content of files are expected to be BSD or GNU
style. Once go-getter is done with the checksum file; it is deleted.
The checksum query parameter is never sent to the backend protocol implementation. It is used at a higher level by go-getter itself.
If the destination file exists and the checksums match: download will be skipped.
Unarchiving
go-getter will automatically unarchive files into a file or directory based on the extension of the file being requested (over any protocol). This works for both file and directory downloads.
go-getter looks for an archive
query parameter to specify the format of
the archive. If this isn't specified, go-getter will use the extension of
the path to see if it appears archived. Unarchiving can be explicitly
disabled by setting the archive
query parameter to false
.
The following archive formats are supported:
tar.gz
andtgz
tar.bz2
andtbz2
tar.xz
andtxz
zip
gz
bz2
xz
For example, an example URL is shown below:
./foo.zip
This will automatically be inferred to be a ZIP file and will be extracted. You can also be explicit about the archive type:
./some/other/path?archive=zip
And finally, you can disable archiving completely:
./some/path?archive=false
You can combine unarchiving with the other features of go-getter such
as checksumming. The special archive
query parameter will be removed
from the URL before going to the final protocol downloader.
Protocol-Specific Options
This section documents the protocol-specific options that can be specified for go-getter. These options should be appended to the input as normal query parameters (HTTP headers are an exception to this, however). Depending on the usage of go-getter, applications may provide alternate ways of inputting options. For example, Nomad provides a nice options block for specifying options rather than in the URL.
General (All Protocols)
The options below are available to all protocols:
archive
- The archive format to use to unarchive this file, or "" (empty string) to disable unarchiving. For more details, see the complete section on archive support above.checksum
- Checksum to verify the downloaded file or archive. See the entire section on checksumming above for format and more details.filename
- When in file download mode, allows specifying the name of the downloaded file on disk. Has no effect in directory mode.
Local Files (file
)
None
Git (git
)
ref
- The Git ref to checkout. This is a ref, so it can point to a commit SHA, a branch name, etc. If it is a named ref such as a branch name, go-getter will update it to the latest on each get.sshkey
- An SSH private key to use during clones. The provided key must be a base64-encoded string. For example, to generate a suitablesshkey
from a private key file on disk, you would runbase64 -w0 <file>
.Note: Git 2.3+ is required to use this feature.
depth
- The Git clone depth. The provided number specifies the lastn
revisions to clone from the repository.
The git
getter accepts both URL-style SSH addresses like
git::ssh://[email protected]/foo/bar
, and "scp-style" addresses like
git::[email protected]/foo/bar
. In the latter case, omitting the git::
force prefix is allowed if the username prefix is exactly git@
.
The "scp-style" addresses cannot be used in conjunction with the ssh://
scheme prefix, because in that case the colon is used to mark an optional
port number to connect on, rather than to delimit the path from the host.
Mercurial (hg
)
rev
- The Mercurial revision to checkout.
HTTP (http
)
Basic Authentication
To use HTTP basic authentication with go-getter, simply prepend username:password@
to the
hostname in the URL such as https://Aladdin:[email protected]/index.html
. All special
characters, including the username and password, must be URL encoded.
Headers
Optional request headers can be added by supplying them in a custom
HttpGetter
(not as query parameters like most other options). These headers will be sent
out on every request the getter in question makes.
S3 (s3
)
S3 takes various access configurations in the URL. Note that it will also read these from standard AWS environment variables if they're set. S3 compliant servers like Minio are also supported. If the query parameters are present, these take priority.
aws_access_key_id
- AWS access key.aws_access_key_secret
- AWS access key secret.aws_access_token
- AWS access token if this is being used.aws_profile
- Use this profile from local ~/.aws/ config. Takes priority over the other three.
Using IAM Instance Profiles with S3
If you use go-getter and want to use an EC2 IAM Instance Profile to avoid using credentials, then just omit these and the profile, if available will be used automatically.
Using S3 with Minio
If you use go-gitter for Minio support, you must consider the following:
aws_access_key_id
(required) - Minio access key.aws_access_key_secret
(required) - Minio access key secret.region
(optional - defaults to us-east-1) - Region identifier to use.version
(optional - defaults to Minio default) - Configuration file format.
S3 Bucket Examples
S3 has several addressing schemes used to reference your bucket. These are listed here: https://docs.aws.amazon.com/AmazonS3/latest/userguide/access-bucket-intro.html
Some examples for these addressing schemes:
- s3::https://s3.amazonaws.com/bucket/foo
- s3::https://s3-eu-west-1.amazonaws.com/bucket/foo
- bucket.s3.amazonaws.com/foo
- bucket.s3-eu-west-1.amazonaws.com/foo/bar
- "s3::http://127.0.0.1:9000/test-bucket/hello.txt?aws_access_key_id=KEYID&aws_access_key_secret=SECRETKEY®ion=us-east-2"
GCS (gcs
)
GCS Authentication
In order to access to GCS, authentication credentials should be provided. More information can be found here
GCS Bucket Examples
- gcs::https://www.googleapis.com/storage/v1/bucket
- gcs::https://www.googleapis.com/storage/v1/bucket/foo.zip
- www.googleapis.com/storage/v1/bucket/foo
GCS Testing
The tests for get_gcs.go
require you to have GCP credentials set in your environment. These credentials can have any level of permissions to any project, they just need to exist. This means setting GOOGLE_APPLICATION_CREDENTIALS="~/path/to/credentials.json"
or GOOGLE_CREDENTIALS="{stringified-credentials-json}"
. Due to this configuration, get_gcs_test.go
will fail for external contributors in CircleCI.
Security Options
Disable Symlinks
In your getter client config, we recommend using the DisableSymlinks
option,
which prevents writing through or copying from symlinks (which may point outside the directory).
client := getter.Client{
// This will prevent copying or writing files through symlinks
DisableSymlinks: true,
}
Disable or Limit X-Terraform-Get
Go-Getter supports arbitrary redirects via the X-Terraform-Get
header. This functionality
exists to support Terraform use cases,
but is likely not needed in most applications.
For code that uses the HttpGetter
, add the following configuration options:
var httpGetter = &getter.HttpGetter{
// Most clients should disable X-Terraform-Get
// See the note below
XTerraformGetDisabled: true,
// Your software probably doesn’t rely on X-Terraform-Get, but
// if it does, you should set the above field to false, plus
// set XTerraformGet Limit to prevent endless redirects
// XTerraformGetLimit: 10,
}
Enforce Timeouts
The HttpGetter
supports timeouts and other resource-constraining configuration options. The GitGetter
and HgGetter
only support timeouts.
Configuration for the HttpGetter
:
var httpGetter = &getter.HttpGetter{
// Disable pre-fetch HEAD requests
DoNotCheckHeadFirst: true,
// As an alternative to the above setting, you can
// set a reasonable timeout for HEAD requests
// HeadFirstTimeout: 10 * time.Second,
// Read timeout for HTTP operations
ReadTimeout: 30 * time.Second,
// Set the maximum number of bytes
// that can be read by the getter
MaxBytes: 500000000, // 500 MB
}
For code that uses the GitGetter
or HgGetter
, set the Timeout
option:
var gitGetter = &getter.GitGetter{
// Set a reasonable timeout for git operations
Timeout: 5 * time.Minute,
}
var hgGetter = &getter.HgGetter{
// Set a reasonable timeout for hg operations
Timeout: 5 * time.Minute,
}