View Source URI (Elixir v1.16.3)
Utilities for working with URIs.
This module provides functions for working with URIs (for example, parsing URIs or encoding query strings). The functions in this module are implemented according to RFC 3986.
Summary
Functions
The URI struct.
Appends path
to the given uri
.
Appends query
to the given uri
.
Checks if character
is a reserved one in a URI.
Checks if character
is allowed unescaped in a URI.
Checks if character
is an unreserved one in a URI.
Percent-unescapes a URI.
Decodes query
into a map.
Decodes string
as "x-www-form-urlencoded".
Returns the default port for a given scheme
.
Registers the default port
for the given scheme
.
Percent-encodes all characters that require escaping in string
.
Encodes enumerable
into a query string using encoding
.
Encodes string
as "x-www-form-urlencoded".
Merges two URIs.
Creates a new URI struct from a URI or a string.
Parses a URI into its components, without further validation.
Returns a stream of two-element tuples representing key-value pairs in the
given query
.
Returns the string representation of the given URI struct.
Types
@opaque authority()
Functions
The URI struct.
The fields are defined to match the following URI representation (with field names between brackets):
[scheme]://[userinfo]@[host]:[port][path]?[query]#[fragment]
Note the authority
field is deprecated. parse/1
will still
populate it for backwards compatibility but you should generally
avoid setting or getting it.
Appends path
to the given uri
.
Path must start with /
and cannot contain additional URL components like
fragments or query strings. This function further assumes the path is valid and
it does not contain a query string or fragment parts.
Examples
iex> URI.append_path(URI.parse("http://example.com/foo/?x=1"), "/my-path") |> URI.to_string()
"http://example.com/foo/my-path?x=1"
iex> URI.append_path(URI.parse("http://example.com"), "my-path")
** (ArgumentError) path must start with "/", got: "my-path"
Appends query
to the given uri
.
The given query
is not automatically encoded, use encode/2
or encode_www_form/1
.
Examples
iex> URI.append_query(URI.parse("http://example.com/"), "x=1") |> URI.to_string()
"http://example.com/?x=1"
iex> URI.append_query(URI.parse("http://example.com/?x=1"), "y=2") |> URI.to_string()
"http://example.com/?x=1&y=2"
iex> URI.append_query(URI.parse("http://example.com/?x=1"), "x=2") |> URI.to_string()
"http://example.com/?x=1&x=2"
Checks if character
is a reserved one in a URI.
As specified in RFC 3986, section 2.2,
the following characters are reserved: :
, /
, ?
, #
, [
, ]
, @
, !
, $
, &
, '
, (
, )
, *
, +
, ,
, ;
, =
Examples
iex> URI.char_reserved?(?+)
true
Checks if character
is allowed unescaped in a URI.
This is the default used by URI.encode/2
where both
reserved and unreserved characters
are kept unescaped.
Examples
iex> URI.char_unescaped?(?{)
false
Checks if character
is an unreserved one in a URI.
As specified in RFC 3986, section 2.3, the following characters are unreserved:
- Alphanumeric characters:
A-Z
,a-z
,0-9
~
,_
,-
,.
Examples
iex> URI.char_unreserved?(?_)
true
Percent-unescapes a URI.
Examples
iex> URI.decode("https%3A%2F%2Felixir-lang.org")
"https://elixir-lang.org"
@spec decode_query(binary(), %{optional(binary()) => binary()}, :rfc3986 | :www_form) :: %{ optional(binary()) => binary() }
Decodes query
into a map.
Given a query string in the form of key1=value1&key2=value2...
, this
function inserts each key-value pair in the query string as one entry in the
given map
. Keys and values in the resulting map will be binaries. Keys and
values will be percent-unescaped.
You can specify one of the following encoding
options:
:www_form
- (default, since v1.12.0) keys and values are decoded as perdecode_www_form/1
. This is the format typically used by browsers on query strings and form data. It decodes "+" as " ".:rfc3986
- (since v1.12.0) keys and values are decoded as perdecode/1
. The result is the same as:www_form
except for leaving "+" as is in line with RFC 3986.
Encoding defaults to :www_form
for backward compatibility.
Use query_decoder/1
if you want to iterate over each value manually.
Examples
iex> URI.decode_query("foo=1&bar=2")
%{"bar" => "2", "foo" => "1"}
iex> URI.decode_query("percent=oh+yes%21", %{"starting" => "map"})
%{"percent" => "oh yes!", "starting" => "map"}
iex> URI.decode_query("percent=oh+yes%21", %{}, :rfc3986)
%{"percent" => "oh+yes!"}
Decodes string
as "x-www-form-urlencoded".
Note "x-www-form-urlencoded" is not specified as part of RFC 3986. However, it is a commonly used format to encode query strings and form data by browsers.
Examples
iex> URI.decode_www_form("%3Call+in%2F")
"<all in/"
@spec default_port(binary()) :: nil | non_neg_integer()
Returns the default port for a given scheme
.
If the scheme is unknown to the URI
module, this function returns
nil
. The default port for any scheme can be configured globally
via default_port/2
.
Examples
iex> URI.default_port("ftp")
21
iex> URI.default_port("ponzi")
nil
@spec default_port(binary(), non_neg_integer()) :: :ok
Registers the default port
for the given scheme
.
After this function is called, port
will be returned by
default_port/1
for the given scheme scheme
. Note that this function
changes the default port for the given scheme
globally, meaning for
every application.
It is recommended for this function to be invoked in your application's start callback in case you want to register new URIs.
@spec encode(binary(), (byte() -> as_boolean(term()))) :: binary()
Percent-encodes all characters that require escaping in string
.
By default, this function is meant to escape the whole URI, and
therefore it will escape all characters which are foreign to the
URI specification. Reserved characters (such as :
and /
) or
unreserved (such as letters and numbers) are not escaped.
Because different components of a URI require different escaping
rules, this function also accepts a predicate
function as an optional
argument. If passed, this function will be called with each byte
in string
as its argument and should return a truthy value (anything other
than false
or nil
) if the given byte should be left as is, or
return a falsy value (false
or nil
) if the character should be
escaped. Defaults to URI.char_unescaped?/1
.
See encode_www_form/1
if you are interested in escaping reserved
characters too.
Examples
iex> URI.encode("ftp://s-ite.tld/?value=put it+й")
"ftp://s-ite.tld/?value=put%20it+%D0%B9"
iex> URI.encode("a string", &(&1 != ?i))
"a str%69ng"
@spec encode_query(Enumerable.t(), :rfc3986 | :www_form) :: binary()
Encodes enumerable
into a query string using encoding
.
Takes an enumerable that enumerates as a list of two-element
tuples (for instance, a map or a keyword list) and returns a string
in the form of key1=value1&key2=value2...
.
Keys and values can be any term that implements the String.Chars
protocol with the exception of lists, which are explicitly forbidden.
You can specify one of the following encoding
strategies:
:www_form
- (default, since v1.12.0) keys and values are URL encoded as perencode_www_form/1
. This is the format typically used by browsers on query strings and form data. It encodes " " as "+".:rfc3986
- (since v1.12.0) the same as:www_form
except it encodes " " as "%20" according RFC 3986. This is the best option if you are encoding in a non-browser situation, since encoding spaces as "+" can be ambiguous to URI parsers. This can inadvertently lead to spaces being interpreted as literal plus signs.
Encoding defaults to :www_form
for backward compatibility.
Examples
iex> query = %{"foo" => 1, "bar" => 2}
iex> URI.encode_query(query)
"bar=2&foo=1"
iex> query = %{"key" => "value with spaces"}
iex> URI.encode_query(query)
"key=value+with+spaces"
iex> query = %{"key" => "value with spaces"}
iex> URI.encode_query(query, :rfc3986)
"key=value%20with%20spaces"
iex> URI.encode_query(%{key: [:a, :list]})
** (ArgumentError) encode_query/2 values cannot be lists, got: [:a, :list]
Encodes string
as "x-www-form-urlencoded".
Note "x-www-form-urlencoded" is not specified as part of RFC 3986. However, it is a commonly used format to encode query strings and form data by browsers.
Example
iex> URI.encode_www_form("put: it+й")
"put%3A+it%2B%D0%B9"
Merges two URIs.
This function merges two URIs as per RFC 3986, section 5.2.
Examples
iex> URI.merge(URI.parse("http://google.com"), "/query") |> to_string()
"http://google.com/query"
iex> URI.merge("http://example.com", "http://google.com") |> to_string()
"http://google.com"
Creates a new URI struct from a URI or a string.
If a %URI{}
struct is given, it returns {:ok, uri}
. If a string is
given, it will parse and validate it. If the string is valid, it returns
{:ok, uri}
, otherwise it returns {:error, part}
with the invalid part
of the URI. For parsing URIs without further validation, see parse/1
.
This function can parse both absolute and relative URLs. You can check
if a URI is absolute or relative by checking if the scheme
field is
nil
or not.
When a URI is given without a port, the value returned by URI.default_port/1
for the URI's scheme is used for the :port
field. The scheme is also
normalized to lowercase.
Examples
iex> URI.new("https://elixir-lang.org/")
{:ok, %URI{
fragment: nil,
host: "elixir-lang.org",
path: "/",
port: 443,
query: nil,
scheme: "https",
userinfo: nil
}}
iex> URI.new("//elixir-lang.org/")
{:ok, %URI{
fragment: nil,
host: "elixir-lang.org",
path: "/",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}}
iex> URI.new("/foo/bar")
{:ok, %URI{
fragment: nil,
host: nil,
path: "/foo/bar",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}}
iex> URI.new("foo/bar")
{:ok, %URI{
fragment: nil,
host: nil,
path: "foo/bar",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}}
iex> URI.new("//[fe80::]/")
{:ok, %URI{
fragment: nil,
host: "fe80::",
path: "/",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}}
iex> URI.new("https:?query")
{:ok, %URI{
fragment: nil,
host: nil,
path: nil,
port: 443,
query: "query",
scheme: "https",
userinfo: nil
}}
iex> URI.new("/invalid_greater_than_in_path/>")
{:error, ">"}
Giving an existing URI simply returns it wrapped in a tuple:
iex> {:ok, uri} = URI.new("https://elixir-lang.org/")
iex> URI.new(uri)
{:ok, %URI{
fragment: nil,
host: "elixir-lang.org",
path: "/",
port: 443,
query: nil,
scheme: "https",
userinfo: nil
}}
Similar to new/1
but raises URI.Error
if an invalid string is given.
Examples
iex> URI.new!("https://elixir-lang.org/")
%URI{
fragment: nil,
host: "elixir-lang.org",
path: "/",
port: 443,
query: nil,
scheme: "https",
userinfo: nil
}
iex> URI.new!("/invalid_greater_than_in_path/>")
** (URI.Error) cannot parse due to reason invalid_uri: ">"
Giving an existing URI simply returns it:
iex> uri = URI.new!("https://elixir-lang.org/")
iex> URI.new!(uri)
%URI{
fragment: nil,
host: "elixir-lang.org",
path: "/",
port: 443,
query: nil,
scheme: "https",
userinfo: nil
}
Parses a URI into its components, without further validation.
This function can parse both absolute and relative URLs. You can check
if a URI is absolute or relative by checking if the scheme
field is
nil or not. Furthermore, this function expects both absolute and
relative URIs to be well-formed and does not perform any validation.
See the "Examples" section below. Use new/1
if you want to validate
the URI fields after parsing.
When a URI is given without a port, the value returned by URI.default_port/1
for the URI's scheme is used for the :port
field. The scheme is also
normalized to lowercase.
If a %URI{}
struct is given to this function, this function returns it
unmodified.
:authority
fieldThis function sets the field
:authority
for backwards-compatibility reasons but it is deprecated.
Examples
iex> URI.parse("https://elixir-lang.org/")
%URI{
authority: "elixir-lang.org",
fragment: nil,
host: "elixir-lang.org",
path: "/",
port: 443,
query: nil,
scheme: "https",
userinfo: nil
}
iex> URI.parse("//elixir-lang.org/")
%URI{
authority: "elixir-lang.org",
fragment: nil,
host: "elixir-lang.org",
path: "/",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}
iex> URI.parse("/foo/bar")
%URI{
fragment: nil,
host: nil,
path: "/foo/bar",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}
iex> URI.parse("foo/bar")
%URI{
fragment: nil,
host: nil,
path: "foo/bar",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}
In contrast to URI.new/1
, this function will parse poorly-formed
URIs, for example:
iex> URI.parse("/invalid_greater_than_in_path/>")
%URI{
fragment: nil,
host: nil,
path: "/invalid_greater_than_in_path/>",
port: nil,
query: nil,
scheme: nil,
userinfo: nil
}
Another example is a URI with brackets in query strings. It is accepted
by parse/1
, it is commonly accepted by browsers, but it will be refused
by new/1
:
iex> URI.parse("/?foo[bar]=baz")
%URI{
fragment: nil,
host: nil,
path: "/",
port: nil,
query: "foo[bar]=baz",
scheme: nil,
userinfo: nil
}
@spec query_decoder(binary(), :rfc3986 | :www_form) :: Enumerable.t()
Returns a stream of two-element tuples representing key-value pairs in the
given query
.
Key and value in each tuple will be binaries and will be percent-unescaped.
You can specify one of the following encoding
options:
:www_form
- (default, since v1.12.0) keys and values are decoded as perdecode_www_form/1
. This is the format typically used by browsers on query strings and form data. It decodes "+" as " ".:rfc3986
- (since v1.12.0) keys and values are decoded as perdecode/1
. The result is the same as:www_form
except for leaving "+" as is in line with RFC 3986.
Encoding defaults to :www_form
for backward compatibility.
Examples
iex> URI.query_decoder("foo=1&bar=2") |> Enum.to_list()
[{"foo", "1"}, {"bar", "2"}]
iex> URI.query_decoder("food=bread%26butter&drinks=tap%20water+please") |> Enum.to_list()
[{"food", "bread&butter"}, {"drinks", "tap water please"}]
iex> URI.query_decoder("food=bread%26butter&drinks=tap%20water+please", :rfc3986) |> Enum.to_list()
[{"food", "bread&butter"}, {"drinks", "tap water+please"}]
Returns the string representation of the given URI struct.
Examples
iex> uri = URI.parse("http://google.com")
iex> URI.to_string(uri)
"http://google.com"
iex> uri = URI.parse("foo://bar.baz")
iex> URI.to_string(uri)
"foo://bar.baz"