342 lines
18 KiB
Groff
342 lines
18 KiB
Groff
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.\" **************************************************************************
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.\" * _ _ ____ _
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.\" * Project ___| | | | _ \| |
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.\" * / __| | | | |_) | |
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.\" * | (__| |_| | _ <| |___
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.\" * \___|\___/|_| \_\_____|
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.\" *
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.\" * Copyright (C) 1998 - 2018, Daniel Stenberg, <daniel@haxx.se>, et al.
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.\" *
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.\" * This software is licensed as described in the file COPYING, which
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.\" * you should have received as part of this distribution. The terms
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.\" * are also available at https://curl.haxx.se/docs/copyright.html.
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.\" *
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.\" * You may opt to use, copy, modify, merge, publish, distribute and/or sell
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.\" * copies of the Software, and permit persons to whom the Software is
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.\" * furnished to do so, under the terms of the COPYING file.
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.\" *
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.\" * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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.\" * KIND, either express or implied.
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.\" *
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.\" **************************************************************************
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.\"
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.TH libcurl-security 3 "13 Feb 2018" "libcurl" "libcurl security"
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.SH NAME
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libcurl-security \- security considerations when using libcurl
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.SH "Security"
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The libcurl project takes security seriously. The library is written with
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caution and precautions are taken to mitigate many kinds of risks encountered
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while operating with potentially malicious servers on the Internet. It is a
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powerful library, however, which allows application writers to make trade-offs
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between ease of writing and exposure to potential risky operations. If used
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the right way, you can use libcurl to transfer data pretty safely.
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Many applications are used in closed networks where users and servers can
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(possibly) be trusted, but many others are used on arbitrary servers and are
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fed input from potentially untrusted users. Following is a discussion about
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some risks in the ways in which applications commonly use libcurl and
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potential mitigations of those risks. It is by no means comprehensive, but
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shows classes of attacks that robust applications should consider. The Common
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Weakness Enumeration project at https://cwe.mitre.org/ is a good reference for
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many of these and similar types of weaknesses of which application writers
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should be aware.
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.SH "Command Lines"
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If you use a command line tool (such as curl) that uses libcurl, and you give
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options to the tool on the command line those options can very likely get read
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by other users of your system when they use 'ps' or other tools to list
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currently running processes.
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To avoid these problems, never feed sensitive things to programs using command
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line options. Write them to a protected file and use the \-K option to avoid
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this.
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.SH ".netrc"
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\&.netrc is a pretty handy file/feature that allows you to login quickly and
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automatically to frequently visited sites. The file contains passwords in
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clear text and is a real security risk. In some cases, your .netrc is also
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stored in a home directory that is NFS mounted or used on another network
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based file system, so the clear text password will fly through your network
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every time anyone reads that file!
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For applications that enable .netrc use, a user who manage to set the right
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URL might then be possible to pass on passwords.
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To avoid these problems, don't use .netrc files and never store passwords in
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plain text anywhere.
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.SH "Clear Text Passwords"
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Many of the protocols libcurl supports send name and password unencrypted as
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clear text (HTTP Basic authentication, FTP, TELNET etc). It is very easy for
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anyone on your network or a network nearby yours to just fire up a network
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analyzer tool and eavesdrop on your passwords. Don't let the fact that HTTP
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Basic uses base64 encoded passwords fool you. They may not look readable at a
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first glance, but they very easily "deciphered" by anyone within seconds.
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To avoid this problem, use an authentication mechanism or other protocol that
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doesn't let snoopers see your password: Digest, CRAM-MD5, Kerberos, SPNEGO or
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NTLM authentication. Or even better: use authenticated protocols that protect
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the entire connection and everything sent over it.
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.SH "Un-authenticated Connections"
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Protocols that don't have any form of cryptographic authentication cannot
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with any certainty know that they communicate with the right remote server.
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If your application is using a fixed scheme or fixed host name, it is not safe
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as long as the connection is un-authenticated. There can be a
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man-in-the-middle or in fact the whole server might have been replaced by an
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evil actor.
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Un-authenticated protocols are unsafe. The data that comes back to curl may
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have been injected by an attacker. The data that curl sends might be modified
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before it reaches the intended server. If it even reaches the intended server
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at all.
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Remedies:
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.IP "Restrict operations to authenticated transfers"
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Ie use authenticated protocols protected with HTTPS or SSH.
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.IP "Make sure the server's certificate etc is verified"
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Never ever switch off certificate verification.
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.SH "Redirects"
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The \fICURLOPT_FOLLOWLOCATION(3)\fP option automatically follows HTTP
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redirects sent by a remote server. These redirects can refer to any kind of
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URL, not just HTTP. libcurl restricts the protocols allowed to be used in
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redirects for security reasons: FILE, SCP, SMB and SMBS are disabled by
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default. Applications are encouraged to restrict that set further.
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A redirect to a file: URL would cause the libcurl to read (or write) arbitrary
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files from the local filesystem. If the application returns the data back to
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the user (as would happen in some kinds of CGI scripts), an attacker could
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leverage this to read otherwise forbidden data (e.g.
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file://localhost/etc/passwd).
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If authentication credentials are stored in the ~/.netrc file, or Kerberos
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is in use, any other URL type (not just file:) that requires
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authentication is also at risk. A redirect such as
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ftp://some-internal-server/private-file would then return data even when
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the server is password protected.
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In the same way, if an unencrypted SSH private key has been configured for the
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user running the libcurl application, SCP: or SFTP: URLs could access password
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or private-key protected resources,
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e.g. sftp://user@some-internal-server/etc/passwd
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The \fICURLOPT_REDIR_PROTOCOLS(3)\fP and \fICURLOPT_NETRC(3)\fP options can be
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used to mitigate against this kind of attack.
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A redirect can also specify a location available only on the machine running
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libcurl, including servers hidden behind a firewall from the attacker.
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e.g. http://127.0.0.1/ or http://intranet/delete-stuff.cgi?delete=all or
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tftp://bootp-server/pc-config-data
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Applications can mitigate against this by disabling
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\fICURLOPT_FOLLOWLOCATION(3)\fP and handling redirects itself, sanitizing URLs
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as necessary. Alternately, an app could leave \fICURLOPT_FOLLOWLOCATION(3)\fP
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enabled but set \fICURLOPT_REDIR_PROTOCOLS(3)\fP and install a
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\fICURLOPT_OPENSOCKETFUNCTION(3)\fP callback function in which addresses are
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sanitized before use.
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.SH "Local Resources"
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A user who can control the DNS server of a domain being passed in within a URL
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can change the address of the host to a local, private address which a
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server-side libcurl-using application could then use. e.g. the innocuous URL
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http://fuzzybunnies.example.com/ could actually resolve to the IP address of a
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server behind a firewall, such as 127.0.0.1 or 10.1.2.3. Applications can
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mitigate against this by setting a \fICURLOPT_OPENSOCKETFUNCTION(3)\fP and
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checking the address before a connection.
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All the malicious scenarios regarding redirected URLs apply just as well to
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non-redirected URLs, if the user is allowed to specify an arbitrary URL that
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could point to a private resource. For example, a web app providing a
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translation service might happily translate file://localhost/etc/passwd and
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display the result. Applications can mitigate against this with the
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\fICURLOPT_PROTOCOLS(3)\fP option as well as by similar mitigation techniques
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for redirections.
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A malicious FTP server could in response to the PASV command return an IP
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address and port number for a server local to the app running libcurl but
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behind a firewall. Applications can mitigate against this by using the
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\fICURLOPT_FTP_SKIP_PASV_IP(3)\fP option or \fICURLOPT_FTPPORT(3)\fP.
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Local servers sometimes assume local access comes from friends and trusted
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users. An application that expects http://example.com/file_to_read that and
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instead gets http://192.168.0.1/my_router_config might print a file that would
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otherwise be protected by the firewall.
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Allowing your application to connect to local hosts, be it the same machine
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that runs the application or a machine on the same local network, might be
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possible to exploit by an attacker who then perhaps can "port-scan" the
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particular hosts - depending on how the application and servers acts.
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.SH "IPv6 Addresses"
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libcurl will normally handle IPv6 addresses transparently and just as easily
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as IPv4 addresses. That means that a sanitizing function that filters out
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addresses like 127.0.0.1 isn't sufficient--the equivalent IPv6 addresses ::1,
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::, 0:00::0:1, ::127.0.0.1 and ::ffff:7f00:1 supplied somehow by an attacker
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would all bypass a naive filter and could allow access to undesired local
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resources. IPv6 also has special address blocks like link-local and
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site-local that generally shouldn't be accessed by a server-side libcurl-using
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application. A poorly-configured firewall installed in a data center,
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organization or server may also be configured to limit IPv4 connections but
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leave IPv6 connections wide open. In some cases, setting
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\fICURLOPT_IPRESOLVE(3)\fP to CURL_IPRESOLVE_V4 can be used to limit resolved
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addresses to IPv4 only and bypass these issues.
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.SH Uploads
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When uploading, a redirect can cause a local (or remote) file to be
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overwritten. Applications must not allow any unsanitized URL to be passed in
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for uploads. Also, \fICURLOPT_FOLLOWLOCATION(3)\fP should not be used on
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uploads. Instead, the applications should consider handling redirects itself,
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sanitizing each URL first.
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.SH Authentication
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Use of \fICURLOPT_UNRESTRICTED_AUTH(3)\fP could cause authentication
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information to be sent to an unknown second server. Applications can mitigate
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against this by disabling \fICURLOPT_FOLLOWLOCATION(3)\fP and handling
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redirects itself, sanitizing where necessary.
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Use of the CURLAUTH_ANY option to \fICURLOPT_HTTPAUTH(3)\fP could result in
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user name and password being sent in clear text to an HTTP server. Instead,
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use CURLAUTH_ANYSAFE which ensures that the password is encrypted over the
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network, or else fail the request.
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Use of the CURLUSESSL_TRY option to \fICURLOPT_USE_SSL(3)\fP could result in
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user name and password being sent in clear text to an FTP server. Instead,
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use CURLUSESSL_CONTROL to ensure that an encrypted connection is used or else
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fail the request.
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.SH Cookies
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If cookies are enabled and cached, then a user could craft a URL which
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performs some malicious action to a site whose authentication is already
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stored in a cookie. e.g. http://mail.example.com/delete-stuff.cgi?delete=all
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Applications can mitigate against this by disabling cookies or clearing them
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between requests.
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.SH "Dangerous SCP URLs"
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SCP URLs can contain raw commands within the scp: URL, which is a side effect
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of how the SCP protocol is designed. e.g.
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scp://user:pass@host/a;date >/tmp/test;
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Applications must not allow unsanitized SCP: URLs to be passed in for
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downloads.
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.SH "file://"
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By default curl and libcurl support file:// URLs. Such a URL is always an
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access, or attempted access, to a local resource. If your application wants to
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avoid that, keep control of what URLs to use and/or prevent curl/libcurl from
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using the protocol.
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By default, libcurl prohibits redirects to file:// URLs.
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.SH "What if the user can set the URL"
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Applications may find it tempting to let users set the URL that it can work
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on. That's probably fine, but opens up for mischief and trickery that you as
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an application author may want to address or take precautions against.
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If your curl-using script allow a custom URL do you also, perhaps
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unintentionally, allow the user to pass other options to the curl command line
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if creative use of special characters are applied?
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If the user can set the URL, the user can also specify the scheme part to
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other protocols that you didn't intend for users to use and perhaps didn't
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consider. curl supports over 20 different URL schemes. "http://" might be what
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you thought, "ftp://" or "imap://" might be what the user gives your
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application. Also, cross-protocol operations might be done by using a
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particular scheme in the URL but point to a server doing a different protocol
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on a non-standard port.
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Remedies:
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.IP "Use --proto"
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curl command lines can use \fI--proto\fP to limit what URL schemes it accepts
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.IP "Use CURLOPT_PROTOCOLS"
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libcurl programs can use \fICURLOPT_PROTOCOLS(3)\fP to limit what URL schemes it accepts
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.IP "consider not allowing the user to set the full URL"
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Maybe just let the user provide data for parts of it? Or maybe filter input to
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only allow specific choices?
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.SH "RFC 3986 vs WHATWG URL"
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curl supports URLs mostly according to how they are defined in RFC 3986, and
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has done so since the beginning.
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Web browsers mostly adhere to the WHATWG URL Specification.
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This deviance makes some URLs copied between browsers (or returned over HTTP
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for redirection) and curl not work the same way. This can mislead users into
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getting the wrong thing, connecting to the wrong host or otherwise not work
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identically.
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.SH "FTP uses two connections"
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When performing an FTP transfer, two TCP connections are used: one for setting
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up the transfer and one for the actual data.
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FTP is not only un-authenticated, but the setting up of the second transfer is
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also a weak spot. The second connection to use for data, is either setup with
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the PORT/EPRT command that makes the server connect back to the client on the
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given IP+PORT, or with PASV/EPSV that makes the server setup a port to listen
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to and tells the client to connect to a given IP+PORT.
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Again, un-authenticated means that the connection might be meddled with by a
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man-in-the-middle or that there's a malicious server pretending to be the
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right one.
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A malicious FTP server can respond to PASV commands with the IP+PORT of a
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totally different machine. Perhaps even a third party host, and when there are
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many clients trying to connect to that third party, it could create a
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Distributed Denial-Of-Service attack out of it! If the client makes an upload
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operation, it can make the client send the data to another site. If the
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attacker can affect what data the client uploads, it can be made to work as a
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HTTP request and then the client could be made to issue HTTP requests to third
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party hosts.
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An attacker that manages to control curl's command line options can tell curl
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to send an FTP PORT command to ask the server to connect to a third party host
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instead of back to curl.
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The fact that FTP uses two connections makes it vulnerable in a way that is
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hard to avoid.
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.SH "Denial of Service"
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A malicious server could cause libcurl to effectively hang by sending data
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very slowly, or even no data at all but just keeping the TCP connection open.
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This could effectively result in a denial-of-service attack. The
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\fICURLOPT_TIMEOUT(3)\fP and/or \fICURLOPT_LOW_SPEED_LIMIT(3)\fP options can
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be used to mitigate against this.
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A malicious server could cause libcurl to download an infinite amount of data,
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potentially causing all of memory or disk to be filled. Setting the
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\fICURLOPT_MAXFILESIZE_LARGE(3)\fP option is not sufficient to guard against
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this. Instead, applications should monitor the amount of data received within
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the write or progress callback and abort once the limit is reached.
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A malicious HTTP server could cause an infinite redirection loop, causing a
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denial-of-service. This can be mitigated by using the
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\fICURLOPT_MAXREDIRS(3)\fP option.
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.SH "Arbitrary Headers"
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User-supplied data must be sanitized when used in options like
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\fICURLOPT_USERAGENT(3)\fP, \fICURLOPT_HTTPHEADER(3)\fP,
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\fICURLOPT_POSTFIELDS(3)\fP and others that are used to generate structured
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data. Characters like embedded carriage returns or ampersands could allow the
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user to create additional headers or fields that could cause malicious
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transactions.
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.SH "Server-supplied Names"
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A server can supply data which the application may, in some cases, use as a
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file name. The curl command-line tool does this with
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\fI--remote-header-name\fP, using the Content-disposition: header to generate
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a file name. An application could also use \fICURLINFO_EFFECTIVE_URL(3)\fP to
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generate a file name from a server-supplied redirect URL. Special care must be
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taken to sanitize such names to avoid the possibility of a malicious server
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supplying one like "/etc/passwd", "\\autoexec.bat", "prn:" or even ".bashrc".
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.SH "Server Certificates"
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A secure application should never use the \fICURLOPT_SSL_VERIFYPEER(3)\fP
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option to disable certificate validation. There are numerous attacks that are
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enabled by applications that fail to properly validate server TLS/SSL
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certificates, thus enabling a malicious server to spoof a legitimate
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one. HTTPS without validated certificates is potentially as insecure as a
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plain HTTP connection.
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.SH "Report Security Problems"
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Should you detect or just suspect a security problem in libcurl or curl,
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contact the project curl security team immediately. See
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https://curl.haxx.se/dev/secprocess.html for details.
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.SH "Showing What You Do"
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Relatedly, be aware that in situations when you have problems with libcurl and
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ask someone for help, everything you reveal in order to get best possible help
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might also impose certain security related risks. Host names, user names,
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paths, operating system specifics, etc. (not to mention passwords of course)
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may in fact be used by intruders to gain additional information of a potential
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target.
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Be sure to limit access to application logs if they could hold private or
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security-related data. Besides the obvious candidates like user names and
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passwords, things like URLs, cookies or even file names could also hold
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sensitive data.
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To avoid this problem, you must of course use your common sense. Often, you
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can just edit out the sensitive data or just search/replace your true
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information with faked data.
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