forked from Mirrors/freeswitch
541 lines
23 KiB
Markdown
541 lines
23 KiB
Markdown
[![CMake Build](https://github.com/cisco/libsrtp/actions/workflows/cmake.yml/badge.svg)](https://github.com/cisco/libsrtp/actions/workflows/cmake.yml)
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[![Build Status](https://travis-ci.org/cisco/libsrtp.svg?branch=master)](https://travis-ci.org/cisco/libsrtp)
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[![Coverity Scan Build Status](https://scan.coverity.com/projects/14274/badge.svg)](https://scan.coverity.com/projects/cisco-libsrtp)
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[![OSS-Fuzz Status](https://oss-fuzz-build-logs.storage.googleapis.com/badges/systemd.svg)](https://oss-fuzz-build-logs.storage.googleapis.com/index.html#libsrtp)
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<a name="introduction-to-libsrtp"></a>
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# Introduction to libSRTP
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This package provides an implementation of the Secure Real-time
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Transport Protocol (SRTP), the Universal Security Transform (UST), and
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a supporting cryptographic kernel. The SRTP API is documented in include/srtp.h,
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and the library is in libsrtp2.a (after compilation).
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This document describes libSRTP, the Open Source Secure RTP library
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from Cisco Systems, Inc. RTP is the Real-time Transport Protocol, an
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IETF standard for the transport of real-time data such as telephony,
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audio, and video, defined by [RFC 3550](https://tools.ietf.org/html/rfc3550).
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Secure RTP (SRTP) is an RTP profile for providing confidentiality to RTP data
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and authentication to the RTP header and payload. SRTP is an IETF Standard,
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defined in [RFC 3711](https://tools.ietf.org/html/rfc3711), and was developed
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in the IETF Audio/Video Transport (AVT) Working Group. This library supports
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all of the mandatory features of SRTP, but not all of the optional features. See
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the [Supported Features](#supported-features) section for more detailed information.
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This document is also used to generate the documentation files in the /doc/
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folder where a more detailed reference to the libSRTP API and related functions
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can be created (requires installing doxygen.). The reference material is created
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automatically from comments embedded in some of the C header files. The
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documentation is organized into modules in order to improve its clarity. These
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modules do not directly correspond to files. An underlying cryptographic kernel
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provides much of the basic functionality of libSRTP but is mostly undocumented
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because it does its work behind the scenes.
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--------------------------------------------------------------------------------
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<a name="contact-us"></a>
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# Contact Us
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- [libsrtp@lists.packetizer.com](mailto:libsrtp@lists.packetizer.com) general mailing list for news / announcements / discussions. This is an open list, see
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[https://lists.packetizer.com/mailman/listinfo/libsrtp](https://lists.packetizer.com/mailman/listinfo/libsrtp) for singing up.
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- [libsrtp-security@lists.packetizer.com](mailto:libsrtp-security@lists.packetizer.com) for disclosing security issues to the libsrtp maintenance team. This is a closed list but anyone can send to it.
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--------------------------------------------------------------------------------
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<a name="contents"></a>
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## Contents
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- [Introduction to libSRTP](#introduction-to-libsrtp)
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- [Contact Us](#contact-us)
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- [Contents](#contents)
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- [License and Disclaimer](#license-and-disclaimer)
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- [libSRTP Overview](#libsrtp-overview)
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- [Secure RTP Background](#secure-rtp-background)
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- [Supported Features](#supported-features)
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- [Implementation Notes](#implementation-notes)
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- [Installing and Building libSRTP](#installing-and-building-libsrtp)
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- [Changing Build Configuration](#changing-build-configuration)
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- [Using Visual Studio](#using-visual-studio)
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- [Applications](#applications)
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- [Example Code](#example-code)
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- [Credits](#credits)
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- [References](#references)
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--------------------------------------------------------------------------------
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<a name="license-and-disclaimer"></a>
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# License and Disclaimer
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libSRTP is distributed under the following license, which is included
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in the source code distribution. It is reproduced in the manual in
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case you got the library from another source.
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> Copyright (c) 2001-2017 Cisco Systems, Inc. All rights reserved.
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>
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> Redistribution and use in source and binary forms, with or without
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> modification, are permitted provided that the following conditions
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> are met:
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>
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> - Redistributions of source code must retain the above copyright
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> notice, this list of conditions and the following disclaimer.
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> - Redistributions in binary form must reproduce the above copyright
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> notice, this list of conditions and the following disclaimer in
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> the documentation and/or other materials provided with the distribution.
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> - Neither the name of the Cisco Systems, Inc. nor the names of its
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> contributors may be used to endorse or promote products derived
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> from this software without specific prior written permission.
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>
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> THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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> "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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> LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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> FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
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> COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
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> INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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> (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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> SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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> HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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> STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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> ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
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> OF THE POSSIBILITY OF SUCH DAMAGE.
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--------------------------------------------------------------------------------
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<a name="libsrtp-overview"></a>
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# libSRTP Overview
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libSRTP provides functions for protecting RTP and RTCP. RTP packets
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can be encrypted and authenticated (using the `srtp_protect()`
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function), turning them into SRTP packets. Similarly, SRTP packets
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can be decrypted and have their authentication verified (using the
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`srtp_unprotect()` function), turning them into RTP packets. Similar
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functions apply security to RTCP packets.
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The typedef `srtp_stream_t` points to a structure holding all of the
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state associated with an SRTP stream, including the keys and
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parameters for cipher and message authentication functions and the
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anti-replay data. A particular `srtp_stream_t` holds the information
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needed to protect a particular RTP and RTCP stream. This datatype
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is intentionally opaque in order to better seperate the libSRTP
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API from its implementation.
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Within an SRTP session, there can be multiple streams, each
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originating from a particular sender. Each source uses a distinct
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stream context to protect the RTP and RTCP stream that it is
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originating. The typedef `srtp_t` points to a structure holding all of
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the state associated with an SRTP session. There can be multiple
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stream contexts associated with a single `srtp_t`. A stream context
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cannot exist indepent from an `srtp_t`, though of course an `srtp_t` can
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be created that contains only a single stream context. A device
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participating in an SRTP session must have a stream context for each
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source in that session, so that it can process the data that it
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receives from each sender.
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In libSRTP, a session is created using the function `srtp_create()`.
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The policy to be implemented in the session is passed into this
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function as an `srtp_policy_t` structure. A single one of these
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structures describes the policy of a single stream. These structures
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can also be linked together to form an entire session policy. A linked
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list of `srtp_policy_t` structures is equivalent to a session policy.
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In such a policy, we refer to a single `srtp_policy_t` as an *element*.
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An `srtp_policy_t` structure contains two `srtp_crypto_policy_t` structures
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that describe the cryptograhic policies for RTP and RTCP, as well as
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the SRTP master key and the SSRC value. The SSRC describes what to
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protect (e.g. which stream), and the `srtp_crypto_policy_t` structures
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describe how to protect it. The key is contained in a policy element
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because it simplifies the interface to the library. In many cases, it
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is desirable to use the same cryptographic policies across all of the
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streams in a session, but to use a distinct key for each stream. A
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`srtp_crypto_policy_t` structure can be initialized by using either the
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`srtp_crypto_policy_set_rtp_default()` or `srtp_crypto_policy_set_rtcp_default()`
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functions, which set a crypto policy structure to the default policies
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for RTP and RTCP protection, respectively.
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--------------------------------------------------------------------------------
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<a name="secure-rtp-background"></a>
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## Secure RTP Background
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In this section we review SRTP and introduce some terms that are used
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in libSRTP. An RTP session is defined by a pair of destination
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transport addresses, that is, a network address plus a pair of UDP
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ports for RTP and RTCP. RTCP, the RTP control protocol, is used to
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coordinate between the participants in an RTP session, e.g. to provide
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feedback from receivers to senders. An *SRTP session* is
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similarly defined; it is just an RTP session for which the SRTP
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profile is being used. An SRTP session consists of the traffic sent
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to the SRTP or SRTCP destination transport addresses. Each
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participant in a session is identified by a synchronization source
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(SSRC) identifier. Some participants may not send any SRTP traffic;
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they are called receivers, even though they send out SRTCP traffic,
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such as receiver reports.
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RTP allows multiple sources to send RTP and RTCP traffic during the
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same session. The synchronization source identifier (SSRC) is used to
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distinguish these sources. In libSRTP, we call the SRTP and SRTCP
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traffic from a particular source a *stream*. Each stream has its own
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SSRC, sequence number, rollover counter, and other data. A particular
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choice of options, cryptographic mechanisms, and keys is called a
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*policy*. Each stream within a session can have a distinct policy
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applied to it. A session policy is a collection of stream policies.
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A single policy can be used for all of the streams in a given session,
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though the case in which a single *key* is shared across multiple
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streams requires care. When key sharing is used, the SSRC values that
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identify the streams **must** be distinct. This requirement can be
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enforced by using the convention that each SRTP and SRTCP key is used
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for encryption by only a single sender. In other words, the key is
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shared only across streams that originate from a particular device (of
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course, other SRTP participants will need to use the key for
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decryption). libSRTP supports this enforcement by detecting the case
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in which a key is used for both inbound and outbound data.
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--------------------------------------------------------------------------------
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<a name="supported-features"></a>
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## Supported Features
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This library supports all of the mandatory-to-implement features of
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SRTP (as defined in [RFC 3711](https://tools.ietf.org/html/rfc3711)). Some of these
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features can be selected (or de-selected) at run time by setting an
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appropriate policy; this is done using the structure `srtp_policy_t`.
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Some other behaviors of the protocol can be adapted by defining an
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approriate event handler for the exceptional events; see the SRTPevents
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section in the generated documentation.
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Some options that are described in the SRTP specification are not
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supported. This includes
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- key derivation rates other than zero,
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- the cipher F8,
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- the use of the packet index to select between master keys.
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The user should be aware that it is possible to misuse this libary,
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and that the result may be that the security level it provides is
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inadequate. If you are implementing a feature using this library, you
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will want to read the Security Considerations section of [RFC 3711](https://tools.ietf.org/html/rfc3711#section-9).
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In addition, it is important that you read and understand the
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terms outlined in the [License and Disclaimer](#license-and-disclaimer) section.
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--------------------------------------------------------------------------------
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<a name="implementation-notes"></a>
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## Implementation Notes
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* The `srtp_protect()` function assumes that the buffer holding the
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rtp packet has enough storage allocated that the authentication
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tag can be written to the end of that packet. If this assumption
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is not valid, memory corruption will ensue.
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* Automated tests for the crypto functions are provided through
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the `cipher_type_self_test()` and `auth_type_self_test()` functions.
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These functions should be used to test each port of this code
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to a new platform.
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* Replay protection is contained in the crypto engine, and
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tests for it are provided.
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* This implementation provides calls to initialize, protect, and
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unprotect RTP packets, and makes as few as possible assumptions
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about how these functions will be called. For example, the
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caller is not expected to provide packets in order (though if
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they're called more than 65k out of sequence, synchronization
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will be lost).
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* The sequence number in the rtp packet is used as the low 16 bits
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of the sender's local packet index. Note that RTP will start its
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sequence number in a random place, and the SRTP layer just jumps
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forward to that number at its first invocation. An earlier
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version of this library used initial sequence numbers that are
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less than 32,768; this trick is no longer required as the
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`rdbx_estimate_index(...)` function has been made smarter.
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* The replay window for (S)RTCP is hardcoded to 128 bits in length.
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--------------------------------------------------------------------------------
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<a name="installing-and-building-libsrtp"></a>
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# Installing and Building libSRTP
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To install libSRTP, download the latest release of the distribution
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from [https://github.com/cisco/libsrtp/releases](https://github.com/cisco/libsrtp/releases).
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You probably want to get the most recent release. Unpack the distribution and
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extract the source files; the directory into which the source files
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will go is named `libsrtp-A-B-C` where `A` is the version number, `B` is the
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major release number and `C` is the minor release number.
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libSRTP uses the GNU `autoconf` and `make` utilities (BSD make will not work; if
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both versions of make are on your platform, you can invoke GNU make as
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`gmake`.). In the `libsrtp` directory, run the configure script and then
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make:
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~~~.txt
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./configure [ options ]
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make
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~~~
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The configure script accepts the following options:
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Option | Description
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-------------------------------|--------------------
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\-\-help \-h | Display help
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\-\-enable-debug-logging | Enable debug logging in all modules
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\-\-enable-log-stdout | Enable logging to stdout
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\-\-enable-openssl | Enable OpenSSL crypto engine
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\-\-enable-openssl-kdf | Enable OpenSSL KDF algorithm
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\-\-with-log-file | Use file for logging
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\-\-with-openssl-dir | Location of OpenSSL installation
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By default there is no log output, logging can be enabled to be output to stdout
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or a given file using the configure options.
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This package has been tested on the following platforms: Mac OS X
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(powerpc-apple-darwin1.4), Cygwin (i686-pc-cygwin), Solaris
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(sparc-sun-solaris2.6), RedHat Linux 7.1 and 9 (i686-pc-linux), and
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OpenBSD (sparc-unknown-openbsd2.7).
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--------------------------------------------------------------------------------
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<a name="changing-build-configuration"></a>
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## Changing Build Configuration
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To build the `./configure` script mentioned above, libSRTP relies on the
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[automake](https://www.gnu.org/software/automake/) toolchain. Since
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`./configure` is built from `configure.in` by automake, if you make changes in
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how `./configure` works (e.g., to add a new library dependency), you will need
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to rebuild `./configure` and commit the updated version. In addition to
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automake itself, you will need to have the `pkgconfig` tools installed as well.
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For example, on macOS:
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```
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brew install automake pkgconfig
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# Edit configure.in
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autoremake -ivf
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```
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--------------------------------------------------------------------------------
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<a name="using-visual-studio"></a>
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## Using Visual Studio
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On Windows one can use Visual Studio via CMake. CMake can be downloaded here:
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https://cmake.org/ . To create Visual Studio build files, for example run the
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following commands:
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```
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# Create build subdirectory
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mkdir build
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cd build
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# Make project files
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cmake .. -G "Visual Studio 15 2017"
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# Or for 64 bit project files
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cmake .. -G "Visual Studio 15 2017 Win64"
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```
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--------------------------------------------------------------------------------
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<a name="using-meson"></a>
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## Using Meson
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On all platforms including Windows, one can build using [Meson](https://mesonbuild.org).
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Steps to download Meson are here: https://mesonbuild.com/Getting-meson.html
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To build with Meson, you can do something like:
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```
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# Setup the build subdirectory
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meson setup --prefix=/path/to/prefix builddir
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# Build the project
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meson compile -C builddir
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# Run tests
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meson test -C builddir
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# Optionally, install
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meson install -C builddir
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```
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To build with Visual Studio, run the above commands from inside a Visual Studio
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command prompt, or run `vcvarsall.bat` with the appropriate arguments inside
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a Command Prompt.
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Note that you can also replace the above commands with the appropriate `ninja`
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targets: `ninja -C build`, `ninja -C build test`, `ninja -C build install`.
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--------------------------------------------------------------------------------
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<a name="applications"></a>
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# Applications
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Several test drivers and a simple and portable srtp application are
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included in the `test/` subdirectory.
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Test driver | Function tested
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--------- | -------
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kernel_driver | crypto kernel (ciphers, auth funcs, rng)
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srtp_driver | srtp in-memory tests (does not use the network)
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rdbx_driver | rdbx (extended replay database)
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roc_driver | extended sequence number functions
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replay_driver | replay database
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cipher_driver | ciphers
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auth_driver | hash functions
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The app `rtpw` is a simple rtp application which reads words from
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`/usr/dict/words` and then sends them out one at a time using [s]rtp.
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Manual srtp keying uses the -k option; automated key management
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using gdoi will be added later.
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usage:
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~~~.txt
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rtpw [[-d <debug>]* [-k|b <key> [-a][-e <key size>][-g]] [-s | -r] dest_ip dest_port] | [-l]
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~~~
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Either the -s (sender) or -r (receiver) option must be chosen. The
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values `dest_ip`, `dest_port` are the IP address and UDP port to which
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the dictionary will be sent, respectively.
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The options are:
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Option | Description
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--------- | -------
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-s | (S)RTP sender - causes app to send words
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-r | (S)RTP receive - causes app to receive words
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-k <key> | use SRTP master key <key>, where the key is a hexadecimal (without the leading "0x")
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-b <key> | same as -k but with base64 encoded key
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-e <keysize> | encrypt/decrypt (for data confidentiality) (requires use of -k option as well) (use 128, 192, or 256 for keysize)
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-g | use AES-GCM mode (must be used with -e)
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-a | message authentication (requires use of -k option as well)
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-l | list the available debug modules
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-d <debug> | turn on debugging for module <debug>
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|
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In order to get random 30-byte values for use as key/salt pairs , you
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can use the following bash function to format the output of
|
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`/dev/random` (where that device is available).
|
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|
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~~~.txt
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function randhex() {
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cat /dev/random | od --read-bytes=32 --width=32 -x | awk '{ print $2 $3 $4 $5 $6 $7 $8 $9 $10 $11 $12 $13 $14 $15 $16 }'
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}
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~~~
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An example of an SRTP session using two rtpw programs follows:
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|
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~~~.txt
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set k=c1eec3717da76195bb878578790af71c4ee9f859e197a414a78d5abc7451
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[sh1]$ test/rtpw -s -k $k -e 128 -a 0.0.0.0 9999
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Security services: confidentiality message authentication
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set master key/salt to C1EEC3717DA76195BB878578790AF71C/4EE9F859E197A414A78D5ABC7451
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setting SSRC to 2078917053
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sending word: A
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sending word: a
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sending word: aa
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sending word: aal
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...
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[sh2]$ test/rtpw -r -k $k -e 128 -a 0.0.0.0 9999
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security services: confidentiality message authentication
|
|
set master key/salt to C1EEC3717DA76195BB878578790AF71C/4EE9F859E197A414A78D5ABC7451
|
|
19 octets received from SSRC 2078917053 word: A
|
|
19 octets received from SSRC 2078917053 word: a
|
|
20 octets received from SSRC 2078917053 word: aa
|
|
21 octets received from SSRC 2078917053 word: aal
|
|
...
|
|
~~~
|
|
|
|
--------------------------------------------------------------------------------
|
|
|
|
<a name="example-code"></a>
|
|
## Example Code
|
|
|
|
This section provides a simple example of how to use libSRTP. The
|
|
example code lacks error checking, but is functional. Here we assume
|
|
that the value ssrc is already set to describe the SSRC of the stream
|
|
that we are sending, and that the functions `get_rtp_packet()` and
|
|
`send_srtp_packet()` are available to us. The former puts an RTP packet
|
|
into the buffer and returns the number of octets written to that
|
|
buffer. The latter sends the RTP packet in the buffer, given the
|
|
length as its second argument.
|
|
|
|
~~~.c
|
|
srtp_t session;
|
|
srtp_policy_t policy;
|
|
|
|
// Set key to predetermined value
|
|
uint8_t key[30] = {0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
|
|
0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F,
|
|
0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17,
|
|
0x18, 0x19, 0x1A, 0x1B, 0x1C, 0x1D};
|
|
|
|
// initialize libSRTP
|
|
srtp_init();
|
|
|
|
// default policy values
|
|
memset(&policy, 0x0, sizeof(srtp_policy_t));
|
|
|
|
// set policy to describe a policy for an SRTP stream
|
|
srtp_crypto_policy_set_rtp_default(&policy.rtp);
|
|
srtp_crypto_policy_set_rtcp_default(&policy.rtcp);
|
|
policy.ssrc = ssrc;
|
|
policy.key = key;
|
|
policy.next = NULL;
|
|
|
|
// allocate and initialize the SRTP session
|
|
srtp_create(&session, &policy);
|
|
|
|
// main loop: get rtp packets, send srtp packets
|
|
while (1) {
|
|
char rtp_buffer[2048];
|
|
unsigned len;
|
|
|
|
len = get_rtp_packet(rtp_buffer);
|
|
srtp_protect(session, rtp_buffer, &len);
|
|
send_srtp_packet(rtp_buffer, len);
|
|
}
|
|
~~~
|
|
|
|
--------------------------------------------------------------------------------
|
|
|
|
<a name="credits"></a>
|
|
# Credits
|
|
|
|
The original implementation and documentation of libSRTP was written
|
|
by David McGrew of Cisco Systems, Inc. in order to promote the use,
|
|
understanding, and interoperability of Secure RTP. Michael Jerris
|
|
contributed support for building under MSVC. Andris Pavenis
|
|
contributed many important fixes. Brian West contributed changes to
|
|
enable dynamic linking. Yves Shumann reported documentation bugs.
|
|
Randell Jesup contributed a working SRTCP implementation and other
|
|
fixes. Steve Underwood contributed x86_64 portability changes. We also give
|
|
thanks to Fredrik Thulin, Brian Weis, Mark Baugher, Jeff Chan, Bill
|
|
Simon, Douglas Smith, Bill May, Richard Preistley, Joe Tardo and
|
|
others for contributions, comments, and corrections.
|
|
|
|
This reference material, when applicable, in this documenation was generated
|
|
using the doxygen utility for automatic documentation of source code.
|
|
|
|
Copyright 2001-2005 by David A. McGrew, Cisco Systems, Inc.
|
|
|
|
--------------------------------------------------------------------------------
|
|
|
|
<a name="references"></a>
|
|
# References
|
|
|
|
SRTP and ICM References
|
|
September, 2005
|
|
|
|
Secure RTP is defined in [RFC 3711](https://tools.ietf.org/html/rfc3711).
|
|
The counter mode definition is in [Section 4.1.1](https://tools.ietf.org/html/rfc3711#section-4.1.1).
|
|
|
|
SHA-1 is defined in [FIPS PUB 180-4](http://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.180-4.pdf).
|
|
|
|
HMAC is defined in [RFC 2104](https://tools.ietf.org/html/rfc2104)
|
|
and HMAC-SHA1 test vectors are available
|
|
in [RFC 2202](https://tools.ietf.org/html/rfc2202#section-3).
|
|
|
|
AES-GCM usage in SRTP is defined in [RFC 7714](https://tools.ietf.org/html/rfc7714)
|