Get the main page from a web-server:
curl https://www.example.com/
Get a README file from an FTP server:
curl ftp://ftp.example.com/README
Get a webpage from a server using port 8000:
curl http://www.example.com:8000/
Get a directory listing of an FTP site:
curl ftp://ftp.example.com/
Get the all terms matching curl from a dictionary:
curl dict://dict.example.com/m:curl
Get the definition of curl from a dictionary:
curl dict://dict.example.com/d:curl
Fetch two documents at once:
curl ftp://ftp.example.com/ http://www.example.com:8000/
Get a file off an FTPS server:
curl ftps://files.are.example.com/secrets.txt
or use the more appropriate FTPS way to get the same file:
curl --ftp-ssl ftp://files.are.example.com/secrets.txt
Get a file from an SSH server using SFTP:
curl -u username sftp://example.com/etc/issue
Get a file from an SSH server using SCP using a private key (not password-protected) to authenticate:
curl -u username: --key ~/.ssh/id_rsa scp://example.com/~/file.txt
Get a file from an SSH server using SCP using a private key (password-protected) to authenticate:
curl -u username: --key ~/.ssh/id_rsa --pass private_key_password
scp://example.com/~/file.txt
Get the main page from an IPv6 web server:
curl "http://[2001:1890:1112:1::20]/"
Get a file from an SMB server:
curl -u "domain\username:passwd" smb://server.example.com/share/file.txt
Get a webpage and store in a local file with a specific name:
curl -o thatpage.html http://www.example.com/
Get a webpage and store in a local file, make the local file get the name of the remote document (if no filename part is specified in the URL, this fails):
curl -O http://www.example.com/index.html
Fetch two files and store them with their remote names:
curl -O www.haxx.se/index.html -O curl.se/download.html
To ftp files using name and password, include them in the URL like:
curl ftp://name:passwd@ftp.server.example:port/full/path/to/file
or specify them with the -u
flag like
curl -u name:passwd ftp://ftp.server.example:port/full/path/to/file
It is just like for FTP, but you may also want to specify and use SSL-specific options for certificates etc.
Note that using FTPS://
as prefix is the implicit way as described in the
standards while the recommended explicit way is done by using FTP://
and
the --ssl-reqd
option.
This is similar to FTP, but you can use the --key
option to specify a
private key to use instead of a password. Note that the private key may itself
be protected by a password that is unrelated to the login password of the
remote system; this password is specified using the --pass
option.
Typically, curl automatically extracts the public key from the private key
file, but in cases where curl does not have the proper library support, a
matching public key file must be specified using the --pubkey
option.
Curl also supports user and password in HTTP URLs, thus you can pick a file like:
curl http://name:passwd@http.server.example/full/path/to/file
or specify user and password separately like in
curl -u name:passwd http://http.server.example/full/path/to/file
HTTP offers many different methods of authentication and curl supports
several: Basic, Digest, NTLM and Negotiate (SPNEGO). Without telling which
method to use, curl defaults to Basic. You can also ask curl to pick the most
secure ones out of the ones that the server accepts for the given URL, by
using --anyauth
.
Note! According to the URL specification, HTTP URLs can not contain a user
and password, so that style does not work when using curl via a proxy, even
though curl allows it at other times. When using a proxy, you must use the
-u
style for user and password.
Probably most commonly used with private certificates, as explained below.
curl supports both HTTP and SOCKS proxy servers, with optional authentication. It does not have special support for FTP proxy servers since there are no standards for those, but it can still be made to work with many of them. You can also use both HTTP and SOCKS proxies to transfer files to and from FTP servers.
Get an ftp file using an HTTP proxy named my-proxy that uses port 888:
curl -x my-proxy:888 ftp://ftp.example.com/README
Get a file from an HTTP server that requires user and password, using the same proxy as above:
curl -u user:passwd -x my-proxy:888 http://www.example.com/
Some proxies require special authentication. Specify by using -U as above:
curl -U user:passwd -x my-proxy:888 http://www.example.com/
A comma-separated list of hosts and domains which do not use the proxy can be specified as:
curl --noproxy example.com -x my-proxy:888 http://www.example.com/
If the proxy is specified with --proxy1.0
instead of --proxy
or -x
, then
curl uses HTTP/1.0 instead of HTTP/1.1 for any CONNECT
attempts.
curl also supports SOCKS4 and SOCKS5 proxies with --socks4
and --socks5
.
See also the environment variables Curl supports that offer further proxy control.
Most FTP proxy servers are set up to appear as a normal FTP server from the
client's perspective, with special commands to select the remote FTP server.
curl supports the -u
, -Q
and --ftp-account
options that can be used to
set up transfers through many FTP proxies. For example, a file can be uploaded
to a remote FTP server using a Blue Coat FTP proxy with the options:
curl -u "username@ftp.server.example Proxy-Username:Remote-Pass"
--ftp-account Proxy-Password --upload-file local-file
ftp://my-ftp.proxy.example:21/remote/upload/path/
See the manual for your FTP proxy to determine the form it expects to set up
transfers, and curl's -v
option to see exactly what curl is sending.
Get a key file and add it with apt-key
(when on a system that uses apt
for
package management):
curl -L https://apt.example.org/llvm-snapshot.gpg.key | sudo apt-key add -
The '|' pipes the output to STDIN. -
tells apt-key
that the key file
should be read from STDIN.
HTTP 1.1 introduced byte-ranges. Using this, a client can request to get only
one or more sub-parts of a specified document. Curl supports this with the
-r
flag.
Get the first 100 bytes of a document:
curl -r 0-99 http://www.example.com/
Get the last 500 bytes of a document:
curl -r -500 http://www.example.com/
Curl also supports simple ranges for FTP files as well. Then you can only specify start and stop position.
Get the first 100 bytes of a document using FTP:
curl -r 0-99 ftp://www.example.com/README
Upload all data on stdin to a specified server:
curl -T - ftp://ftp.example.com/myfile
Upload data from a specified file, login with user and password:
curl -T uploadfile -u user:passwd ftp://ftp.example.com/myfile
Upload a local file to the remote site, and use the local filename at the remote site too:
curl -T uploadfile -u user:passwd ftp://ftp.example.com/
Upload a local file to get appended to the remote file:
curl -T localfile -a ftp://ftp.example.com/remotefile
Curl also supports ftp upload through a proxy, but only if the proxy is configured to allow that kind of tunneling. If it does, you can run curl in a fashion similar to:
curl --proxytunnel -x proxy:port -T localfile ftp.example.com
curl -T file.txt -u "domain\username:passwd"
smb://server.example.com/share/
Upload all data on stdin to a specified HTTP site:
curl -T - http://www.example.com/myfile
Note that the HTTP server must have been configured to accept PUT before this can be done successfully.
For other ways to do HTTP data upload, see the POST section below.
If curl fails where it is not supposed to, if the servers do not let you in,
if you cannot understand the responses: use the -v
flag to get verbose
fetching. Curl outputs lots of info and what it sends and receives in order to
let the user see all client-server interaction (but it does not show you the
actual data).
curl -v ftp://ftp.example.com/
To get even more details and information on what curl does, try using the
--trace
or --trace-ascii
options with a given filename to log to, like
this:
curl --trace trace.txt www.haxx.se
Different protocols provide different ways of getting detailed information
about specific files/documents. To get curl to show detailed information about
a single file, you should use -I
/--head
option. It displays all available
info on a single file for HTTP and FTP. The HTTP information is a lot more
extensive.
For HTTP, you can get the header information (the same as -I
would show)
shown before the data by using -i
/--include
. Curl understands the
-D
/--dump-header
option when getting files from both FTP and HTTP, and it
then stores the headers in the specified file.
Store the HTTP headers in a separate file (headers.txt in the example):
curl --dump-header headers.txt curl.se
Note that headers stored in a separate file can be useful at a later time if you want curl to use cookies sent by the server. More about that in the cookies section.
It is easy to post data using curl. This is done using the -d <data>
option.
The post data must be urlencoded.
Post a simple name
and phone
guestbook.
curl -d "name=Rafael%20Sagula&phone=3320780" http://www.example.com/guest.cgi
Or automatically URL encode the data.
curl --data-urlencode "name=Rafael Sagula&phone=3320780" http://www.example.com/guest.cgi
How to post a form with curl, lesson #1:
Dig out all the <input>
tags in the form that you want to fill in.
If there is a normal post, you use -d
to post. -d
takes a full post
string, which is in the format
<variable1>=<data1>&<variable2>=<data2>&...
The variable names are the names set with "name="
in the <input>
tags, and
the data is the contents you want to fill in for the inputs. The data must
be properly URL encoded. That means you replace space with + and that you
replace weird letters with %XX
where XX
is the hexadecimal representation
of the letter's ASCII code.
Example:
(say if http://example.com
had the following html)
<form action="post.cgi" method="post">
<input name=user size=10>
<input name=pass type=password size=10>
<input name=id type=hidden value="blablabla">
<input name=ding value="submit">
</form>
We want to enter user foobar
with password 12345
.
To post to this, you would enter a curl command line like:
curl -d "user=foobar&pass=12345&id=blablabla&ding=submit" http://example.com/post.cgi
While -d
uses the application/x-www-form-urlencoded mime-type, generally
understood by CGI's and similar, curl also supports the more capable
multipart/form-data type. This latter type supports things like file upload.
-F
accepts parameters like -F "name=contents"
. If you want the contents to
be read from a file, use @filename
as contents. When specifying a file, you
can also specify the file content type by appending ;type=<mime type>
to the
filename. You can also post the contents of several files in one field. For
example, the field name coolfiles
is used to send three files, with
different content types using the following syntax:
curl -F "coolfiles=@fil1.gif;type=image/gif,fil2.txt,fil3.html"
http://www.example.com/postit.cgi
If the content-type is not specified, curl tries to guess from the file
extension (it only knows a few), or use the previously specified type (from an
earlier file if several files are specified in a list) or else it uses the
default type application/octet-stream
.
Emulate a fill-in form with -F
. Let's say you fill in three fields in a
form. One field is a filename which to post, one field is your name and one
field is a file description. We want to post the file we have written named
cooltext.txt
. To let curl do the posting of this data instead of your
favorite browser, you have to read the HTML source of the form page and find
the names of the input fields. In our example, the input field names are
file
, yourname
and filedescription
.
curl -F "file=@cooltext.txt" -F "yourname=Daniel"
-F "filedescription=Cool text file with cool text inside"
http://www.example.com/postit.cgi
To send two files in one post you can do it in two ways:
Send multiple files in a single field with a single field name:
curl -F "pictures=@dog.gif,cat.gif" $URL
Send two fields with two field names
curl -F "docpicture=@dog.gif" -F "catpicture=@cat.gif" $URL
To send a field value literally without interpreting a leading @
or <
, or
an embedded ;type=
, use --form-string
instead of -F
. This is recommended
when the value is obtained from a user or some other unpredictable
source. Under these circumstances, using -F
instead of --form-string
could
allow a user to trick curl into uploading a file.
An HTTP request has the option to include information about which address referred it to the actual page. curl allows you to specify the referrer to be used on the command line. It is especially useful to fool or trick stupid servers or CGI scripts that rely on that information being available or contain certain data.
curl -e www.example.org http://www.example.com/
An HTTP request has the option to include information about the browser that generated the request. Curl allows it to be specified on the command line. It is especially useful to fool or trick stupid servers or CGI scripts that only accept certain browsers.
Example:
curl -A 'Mozilla/3.0 (Win95; I)' http://www.bank.example.com/
Other common strings:
Mozilla/3.0 (Win95; I)
- Netscape Version 3 for Windows 95Mozilla/3.04 (Win95; U)
- Netscape Version 3 for Windows 95Mozilla/2.02 (OS/2; U)
- Netscape Version 2 for OS/2Mozilla/4.04 [en] (X11; U; AIX 4.2; Nav)
- Netscape for AIXMozilla/4.05 [en] (X11; U; Linux 2.0.32 i586)
- Netscape for LinuxNote that Internet Explorer tries hard to be compatible in every way:
Mozilla/4.0 (compatible; MSIE 4.01; Windows 95)
- MSIE for W95Mozilla is not the only possible User-Agent name:
Konqueror/1.0
- KDE File Manager desktop clientLynx/2.7.1 libwww-FM/2.14
- Lynx command line browserCookies are generally used by web servers to keep state information at the
client's side. The server sets cookies by sending a response line in the
headers that looks like Set-Cookie: <data>
where the data part then
typically contains a set of NAME=VALUE
pairs (separated by semicolons ;
like NAME1=VALUE1; NAME2=VALUE2;
). The server can also specify for what path
the cookie should be used for (by specifying path=value
), when the cookie
should expire (expire=DATE
), for what domain to use it (domain=NAME
) and
if it should be used on secure connections only (secure
).
If you have received a page from a server that contains a header like:
Set-Cookie: sessionid=boo123; path="/foo";
it means the server wants that first pair passed on when we get anything in a
path beginning with /foo
.
Example, get a page that wants my name passed in a cookie:
curl -b "name=Daniel" www.example.com
Curl also has the ability to use previously received cookies in following sessions. If you get cookies from a server and store them in a file in a manner similar to:
curl --dump-header headers www.example.com
... you can then in a second connect to that (or another) site, use the
cookies from the headers.txt
file like:
curl -b headers.txt www.example.com
While saving headers to a file is a working way to store cookies, it is however error-prone and not the preferred way to do this. Instead, make curl save the incoming cookies using the well-known Netscape cookie format like this:
curl -c cookies.txt www.example.com
Note that by specifying -b
you enable the cookie engine and with -L
you
can make curl follow a location:
(which often is used in combination with
cookies). If a site sends cookies and a location field, you can use a
non-existing file to trigger the cookie awareness like:
curl -L -b empty.txt www.example.com
The file to read cookies from must be formatted using plain HTTP headers OR as
Netscape's cookie file. Curl determines what kind it is based on the file
contents. In the above command, curl parses the header and store the cookies
received from www.example.com. curl sends the stored cookies which match the
request to the server as it follows the location. The file empty.txt
may be
a nonexistent file.
To read and write cookies from a Netscape cookie file, you can set both -b
and -c
to use the same file:
curl -b cookies.txt -c cookies.txt www.example.com
The progress meter exists to show a user that something actually is happening. The different fields in the output have the following meaning:
% Total % Received % Xferd Average Speed Time Curr.
Dload Upload Total Current Left Speed
0 151M 0 38608 0 0 9406 0 4:41:43 0:00:04 4:41:39 9287
From left-to-right:
%
- percentage completed of the whole transferTotal
- total size of the whole expected transfer%
- percentage completed of the downloadReceived
- currently downloaded amount of bytes%
- percentage completed of the uploadXferd
- currently uploaded amount of bytesAverage Speed Dload
- the average transfer speed of the downloadAverage Speed Upload
- the average transfer speed of the uploadTime Total
- expected time to complete the operationTime Current
- time passed since the invokeTime Left
- expected time left to completionCurr.Speed
- the average transfer speed the last 5 seconds (the first
5 seconds of a transfer is based on less time of course.)The -#
option displays a totally different progress bar that does not need
much explanation!
Curl allows the user to set the transfer speed conditions that must be met to
let the transfer keep going. By using the switch -y
and -Y
you can make
curl abort transfers if the transfer speed is below the specified lowest limit
for a specified time.
To have curl abort the download if the speed is slower than 3000 bytes per second for 1 minute, run:
curl -Y 3000 -y 60 www.far-away.example.com
This can be used in combination with the overall time limit, so that the above operation must be completed in whole within 30 minutes:
curl -m 1800 -Y 3000 -y 60 www.far-away.example.com
Forcing curl not to transfer data faster than a given rate is also possible, which might be useful if you are using a limited bandwidth connection and you do not want your transfer to use all of it (sometimes referred to as bandwidth throttle).
Make curl transfer data no faster than 10 kilobytes per second:
curl --limit-rate 10K www.far-away.example.com
or
curl --limit-rate 10240 www.far-away.example.com
Or prevent curl from uploading data faster than 1 megabyte per second:
curl -T upload --limit-rate 1M ftp://uploads.example.com
When using the --limit-rate
option, the transfer rate is regulated on a
per-second basis, which causes the total transfer speed to become lower than
the given number. Sometimes of course substantially lower, if your transfer
stalls during periods.
Curl automatically tries to read the .curlrc
file (or _curlrc
file on
Microsoft Windows systems) from the user's home directory on startup.
The config file could be made up with normal command line switches, but you
can also specify the long options without the dashes to make it more
readable. You can separate the options and the parameter with spaces, or with
=
or :
. Comments can be used within the file. If the first letter on a
line is a #
-symbol the rest of the line is treated as a comment.
If you want the parameter to contain spaces, you must enclose the entire
parameter within double quotes ("
). Within those quotes, you specify a quote
as \"
.
NOTE: You must specify options and their arguments on the same line.
Example, set default time out and proxy in a config file:
# We want a 30 minute timeout:
-m 1800
# ... and we use a proxy for all accesses:
proxy = proxy.our.domain.com:8080
Whitespaces ARE significant at the end of lines, but all whitespace leading up to the first characters of each line are ignored.
Prevent curl from reading the default file by using -q as the first command line parameter, like:
curl -q www.example.org
Force curl to get and display a local help page in case it is invoked without URL by making a config file similar to:
# default url to get
url = "http://help.with.curl.example.com/curlhelp.html"
You can specify another config file to be read by using the -K
/--config
flag. If you set config filename to -
it reads the config from stdin, which
can be handy if you want to hide options from being visible in process tables
etc:
echo "user = user:passwd" | curl -K - http://that.secret.example.com
When using curl in your own programs, you may end up needing to pass on your
own custom headers when getting a webpage. You can do this by using the -H
flag.
Example, send the header X-you-and-me: yes
to the server when getting a
page:
curl -H "X-you-and-me: yes" love.example.com
This can also be useful in case you want curl to send a different text in a
header than it normally does. The -H
header you specify then replaces the
header curl would normally send. If you replace an internal header with an
empty one, you prevent that header from being sent. To prevent the Host:
header from being used:
curl -H "Host:" server.example.com
Do note that when getting files with a ftp://
URL, the given path is
relative to the directory you enter. To get the file README
from your home
directory at your ftp site, do:
curl ftp://user:passwd@my.example.com/README
If you want the README file from the root directory of that same site, you need to specify the absolute filename:
curl ftp://user:passwd@my.example.com//README
(I.e with an extra slash in front of the filename.)
With sftp: and scp: URLs, the path name given is the absolute name on the
server. To access a file relative to the remote user's home directory, prefix
the file with /~/
, such as:
curl -u $USER sftp://home.example.com/~/.bashrc
The FTP protocol requires one of the involved parties to open a second connection as soon as data is about to get transferred. There are two ways to do this.
The default way for curl is to issue the PASV command which causes the server to open another port and await another connection performed by the client. This is good if the client is behind a firewall that does not allow incoming connections.
curl ftp.example.com
If the server, for example, is behind a firewall that does not allow
connections on ports other than 21 (or if it just does not support the PASV
command), the other way to do it is to use the PORT
command and instruct the
server to connect to the client on the given IP number and port (as parameters
to the PORT command).
The -P
flag to curl supports a few different options. Your machine may have
several IP-addresses and/or network interfaces and curl allows you to select
which of them to use. Default address can also be used:
curl -P - ftp.example.com
Download with PORT
but use the IP address of our le0
interface (this does
not work on Windows):
curl -P le0 ftp.example.com
Download with PORT
but use 192.168.0.10 as our IP address to use:
curl -P 192.168.0.10 ftp.example.com
Get a webpage from a server using a specified port for the interface:
curl --interface eth0:1 http://www.example.com/
or
curl --interface 192.168.1.10 http://www.example.com/
Secure HTTP requires a TLS library to be installed and used when curl is built. If that is done, curl is capable of retrieving and posting documents using the HTTPS protocol.
Example:
curl https://secure.example.com
curl is also capable of using client certificates to get/post files from sites that require valid certificates. The only drawback is that the certificate needs to be in PEM-format. PEM is a standard and open format to store certificates with, but it is not used by the most commonly used browsers. If you want curl to use the certificates you use with your favorite browser, you may need to download/compile a converter that can convert your browser's formatted certificates to PEM formatted ones.
Example on how to automatically retrieve a document using a certificate with a personal password:
curl -E /path/to/cert.pem:password https://secure.example.com/
If you neglect to specify the password on the command line, you are prompted for the correct password before any data can be received.
Many older HTTPS servers have problems with specific SSL or TLS versions, which newer versions of OpenSSL etc use, therefore it is sometimes useful to specify what TLS version curl should use.:
curl --tlv1.0 https://secure.example.com/
Otherwise, curl attempts to use a sensible TLS default version.
To continue a file transfer where it was previously aborted, curl supports resume on HTTP(S) downloads as well as FTP uploads and downloads.
Continue downloading a document:
curl -C - -o file ftp://ftp.example.com/path/file
Continue uploading a document:
curl -C - -T file ftp://ftp.example.com/path/file
Continue downloading a document from a web server
curl -C - -o file http://www.example.com/
HTTP allows a client to specify a time condition for the document it requests.
It is If-Modified-Since
or If-Unmodified-Since
. curl allows you to specify
them with the -z
/--time-cond
flag.
For example, you can easily make a download that only gets performed if the remote file is newer than a local copy. It would be made like:
curl -z local.html http://remote.example.com/remote.html
Or you can download a file only if the local file is newer than the remote
one. Do this by prepending the date string with a -
, as in:
curl -z -local.html http://remote.example.com/remote.html
You can specify a plain text date as condition. Tell curl to only download the file if it was updated since January 12, 2012:
curl -z "Jan 12 2012" http://remote.example.com/remote.html
curl accepts a wide range of date formats. You always make the date check the
other way around by prepending it with a dash (-
).
For fun try
curl dict://dict.org/m:curl
curl dict://dict.org/d:heisenbug:jargon
curl dict://dict.org/d:daniel:gcide
Aliases for m
are match
and find
, and aliases for d
are define
and
lookup
. For example,
curl dict://dict.org/find:curl
Commands that break the URL description of the RFC (but not the DICT protocol) are
curl dict://dict.org/show:db
curl dict://dict.org/show:strat
Authentication support is still missing
If you have installed the OpenLDAP library, curl can take advantage of it and
offer ldap://
support. On Windows, curl uses WinLDAP from Platform SDK by
default.
Default protocol version used by curl is LDAP version 3. Version 2 is used as a fallback mechanism in case version 3 fails to connect.
LDAP is a complex thing and writing an LDAP query is not an easy task. Familiarize yourself with the exact syntax description elsewhere. One such place might be: RFC 2255, The LDAP URL Format
To show you an example, this is how to get all people from an LDAP server that has a certain subdomain in their email address:
curl -B "ldap://ldap.example.com/o=frontec??sub?mail=*sth.example.com"
You also can use authentication when accessing LDAP catalog:
curl -u user:passwd "ldap://ldap.example.com/o=frontec??sub?mail=*"
curl "ldap://user:passwd@ldap.example.com/o=frontec??sub?mail=*"
By default, if user and password are provided, OpenLDAP/WinLDAP uses basic
authentication. On Windows you can control this behavior by providing one of
--basic
, --ntlm
or --digest
option in curl command line
curl --ntlm "ldap://user:passwd@ldap.example.com/o=frontec??sub?mail=*"
On Windows, if no user/password specified, auto-negotiation mechanism is used with current logon credentials (SSPI/SPNEGO).
Curl reads and understands the following environment variables:
http_proxy, HTTPS_PROXY, FTP_PROXY
They should be set for protocol-specific proxies. General proxy should be set with
ALL_PROXY
A comma-separated list of hostnames that should not go through any proxy is
set in (only an asterisk, *
matches all hosts)
NO_PROXY
If the hostname matches one of these strings, or the host is within the domain
of one of these strings, transactions with that node is not done over the
proxy. When a domain is used, it needs to start with a period. A user can
specify that both www.example.com and foo.example.com should not use a proxy
by setting NO_PROXY
to .example.com
. By including the full name you can
exclude specific hostnames, so to make www.example.com
not use a proxy but
still have foo.example.com
do it, set NO_PROXY
to www.example.com
.
The usage of the -x
/--proxy
flag overrides the environment variables.
Unix introduced the .netrc
concept a long time ago. It is a way for a user
to specify name and password for commonly visited FTP sites in a file so that
you do not have to type them in each time you visit those sites. You realize
this is a big security risk if someone else gets hold of your passwords,
therefore most Unix programs do not read this file unless it is only readable
by yourself (curl does not care though).
Curl supports .netrc
files if told to (using the -n
/--netrc
and
--netrc-optional
options). This is not restricted to just FTP, so curl can
use it for all protocols where authentication is used.
A simple .netrc
file could look something like:
machine curl.se login iamdaniel password mysecret
To better allow script programmers to get to know about the progress of curl,
the -w
/--write-out
option was introduced. Using this, you can specify what
information from the previous transfer you want to extract.
To display the amount of bytes downloaded together with some text and an ending newline:
curl -w 'We downloaded %{size_download} bytes\n' www.example.com
Curl supports kerberos4 and kerberos5/GSSAPI for FTP transfers. You need the kerberos package installed and used at curl build time for it to be available.
First, get the krb-ticket the normal way, like with the kinit
/kauth
tool.
Then use curl in way similar to:
curl --krb private ftp://krb4site.example.com -u username:fakepwd
There is no use for a password on the -u
switch, but a blank one makes curl
ask for one and you already entered the real password to kinit
/kauth
.
The curl telnet support is basic and easy to use. Curl passes all data passed to it on stdin to the remote server. Connect to a remote telnet server using a command line similar to:
curl telnet://remote.example.com
Enter the data to pass to the server on stdin. The result is sent to stdout or
to the file you specify with -o
.
You might want the -N
/--no-buffer
option to switch off the buffered output
for slow connections or similar.
Pass options to the telnet protocol negotiation, by using the -t
option. To
tell the server we use a vt100 terminal, try something like:
curl -tTTYPE=vt100 telnet://remote.example.com
Other interesting options for it -t
include:
XDISPLOC=<X display>
Sets the X display location.NEW_ENV=<var,val>
Sets an environment variable.NOTE: The telnet protocol does not specify any way to login with a specified user and password so curl cannot do that automatically. To do that, you need to track when the login prompt is received and send the username and password accordingly.
Specifying multiple files on a single command line makes curl transfer all of them, one after the other in the specified order.
libcurl attempts to use persistent connections for the transfers so that the second transfer to the same host can use the same connection that was already initiated and was left open in the previous transfer. This greatly decreases connection time for all but the first transfer and it makes a far better use of the network.
Note that curl cannot use persistent connections for transfers that are used in subsequent curl invokes. Try to stuff as many URLs as possible on the same command line if they are using the same host, as that makes the transfers faster. If you use an HTTP proxy for file transfers, practically all transfers are persistent.
As is mentioned above, you can download multiple files with one command line
by simply adding more URLs. If you want those to get saved to a local file
instead of just printed to stdout, you need to add one save option for each
URL you specify. Note that this also goes for the -O
option (but not
--remote-name-all
).
For example: get two files and use -O
for the first and a custom file
name for the second:
curl -O http://example.com/file.txt ftp://example.com/moo.exe -o moo.jpg
You can also upload multiple files in a similar fashion:
curl -T local1 ftp://example.com/moo.exe -T local2 ftp://example.com/moo2.txt
curl connects to a server with IPv6 when a host lookup returns an IPv6 address
and fall back to IPv4 if the connection fails. The --ipv4
and --ipv6
options can specify which address to use when both are available. IPv6
addresses can also be specified directly in URLs using the syntax:
http://[2001:1890:1112:1::20]/overview.html
When this style is used, the -g
option must be given to stop curl from
interpreting the square brackets as special globbing characters. Link local
and site local addresses including a scope identifier, such as fe80::1234%1
,
may also be used, but the scope portion must be numeric or match an existing
network interface on Linux and the percent character must be URL escaped. The
previous example in an SFTP URL might look like:
sftp://[fe80::1234%251]/
IPv6 addresses provided other than in URLs (e.g. to the --proxy
,
--interface
or --ftp-port
options) should not be URL encoded.
For your convenience, we have several open mailing lists to discuss curl, its development and things relevant to this. Get all info at https://curl.se/mail/.
Please direct curl questions, feature requests and trouble reports to one of these mailing lists instead of mailing any individual.
Available lists include:
curl-users
Users of the command line tool. How to use it, what does not work, new features, related tools, questions, news, installations, compilations, running, porting etc.
curl-library
Developers using or developing libcurl. Bugs, extensions, improvements.
curl-announce
Low-traffic. Only receives announcements of new public versions. At worst, that makes something like one or two mails per month, but usually only one mail every second month.
curl-and-php
Using the curl functions in PHP. Everything curl with a PHP angle. Or PHP with a curl angle.
curl-and-python
Python hackers using curl with or without the python binding pycurl.