From 3b75dec3e32e7d838ed56be5667d1cf3ac4cef18 Mon Sep 17 00:00:00 2001 From: David Sommerseth Date: Thu, 28 Jul 2011 23:58:50 +0200 Subject: Moved doxygen-specific files to a separate directory Signed-off-by: Adriaan de Jong Acked-by: David Sommerseth Signed-off-by: David Sommerseth --- doxygen/doc_compression.h | 92 ++++++++++++ doxygen/doc_control_processor.h | 189 +++++++++++++++++++++++++ doxygen/doc_control_tls.h | 105 ++++++++++++++ doxygen/doc_data_control.h | 103 ++++++++++++++ doxygen/doc_data_crypto.h | 75 ++++++++++ doxygen/doc_eventloop.h | 67 +++++++++ doxygen/doc_external_multiplexer.h | 46 ++++++ doxygen/doc_fragmentation.h | 96 +++++++++++++ doxygen/doc_internal_multiplexer.h | 44 ++++++ doxygen/doc_key_generation.h | 148 ++++++++++++++++++++ doxygen/doc_mainpage.h | 162 +++++++++++++++++++++ doxygen/doc_memory_management.h | 99 +++++++++++++ doxygen/doc_protocol_overview.h | 199 ++++++++++++++++++++++++++ doxygen/doc_reliable.h | 49 +++++++ doxygen/doc_tunnel_state.h | 155 +++++++++++++++++++++ doxygen/openvpn.doxyfile | 279 +++++++++++++++++++++++++++++++++++++ 16 files changed, 1908 insertions(+) create mode 100644 doxygen/doc_compression.h create mode 100644 doxygen/doc_control_processor.h create mode 100644 doxygen/doc_control_tls.h create mode 100644 doxygen/doc_data_control.h create mode 100644 doxygen/doc_data_crypto.h create mode 100644 doxygen/doc_eventloop.h create mode 100644 doxygen/doc_external_multiplexer.h create mode 100644 doxygen/doc_fragmentation.h create mode 100644 doxygen/doc_internal_multiplexer.h create mode 100644 doxygen/doc_key_generation.h create mode 100644 doxygen/doc_mainpage.h create mode 100644 doxygen/doc_memory_management.h create mode 100644 doxygen/doc_protocol_overview.h create mode 100644 doxygen/doc_reliable.h create mode 100644 doxygen/doc_tunnel_state.h create mode 100644 doxygen/openvpn.doxyfile (limited to 'doxygen') diff --git a/doxygen/doc_compression.h b/doxygen/doc_compression.h new file mode 100644 index 0000000..c28c0b6 --- /dev/null +++ b/doxygen/doc_compression.h @@ -0,0 +1,92 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file Data Channel Compression module documentation file. + */ + +/** + * @defgroup compression Data Channel Compression module + * + * This module offers compression of data channel packets. + * + * @par State structures + * The Data Channel Compression module stores its internal state in a \c + * lzo_compress_workspace structure. This state includes flags which + * control the module's behavior and preallocated working memory. One + * such structure is present for each VPN tunnel, and is stored in the \c + * context.c2.lzo_compwork of the \c context associated with that VPN + * tunnel. + * + * @par Initialization and cleanup + * Every time a new \c lzo_compress_workspace is needed, it must be + * initialized using the \c lzo_compress_init() function. Similarly, + * every time a \c lzo_compress_workspace is no longer needed, it must be + * cleaned up using the \c lzo_compress_uninit() function. These + * functions take care of the allocation and freeing of internal working + * memory, but not of the \c lzo_compress_workspace structures themselves. + * + * @par + * Because of the one-to-one relationship between \c + * lzo_compress_workspace structures and VPN tunnels, the above-mentioned + * initialization and cleanup functions are called directly from the \c + * init_instance() and \c close_instance() functions, which control the + * initialization and cleanup of VPN tunnel instances and their associated + * \c context structures. + * + * @par Packet processing functions + * This module receives data channel packets from the \link data_control + * Data Channel Control module\endlink and processes them according to the + * settings of the packet's VPN tunnel. The \link data_control Data + * Channel Control module\endlink uses the following interface functions: + * - For packets which will be sent to a remote OpenVPN peer: \c + * lzo_compress() + * - For packets which have been received from a remote OpenVPN peer: \c + * lzo_decompress() + * + * @par Settings that control this module's activity + * Whether or not the Data Channel Compression module is active depends on + * the compile-time \c USE_LZO preprocessor macro and the runtime flags + * stored in \c lzo_compress_workspace.flags of the associated VPN tunnel. + * The latter are initialized from \c options.lzo, which gets its value + * from the process's configuration sources, such as its configuration + * file or command line %options. + * + * @par Adaptive compression + * The compression module supports adaptive compression. If this feature + * is enabled, the compression routines monitor their own performance and + * turn compression on or off depending on whether it is leading to + * significantly reduced payload size. + * + * @par Compression algorithms + * This module uses the Lempel-Ziv-Oberhumer (LZO) compression algorithms. + * These offer lossless compression and are designed for high-performance + * decompression. This module uses the external \c lzo library's + * implementation of the algorithms. + * + * @par + * For more information on the LZO library, see:\n + * http://www.oberhumer.com/opensource/lzo/ + */ diff --git a/doxygen/doc_control_processor.h b/doxygen/doc_control_processor.h new file mode 100644 index 0000000..072dc37 --- /dev/null +++ b/doxygen/doc_control_processor.h @@ -0,0 +1,189 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Control Channel Processor module documentation file. + */ + +/** + * @defgroup control_processor Control Channel Processor module + * + * This module controls the setup and maintenance of VPN tunnels and the + * associated security parameters. + * + * @par This module's role + * The Control Channel Processor module lies at the core of OpenVPN's + * activities. It handles the setup of new VPN tunnels, the negotiation + * of data channel security parameters, the managing of active VPN + * tunnels, and finally the cleanup of expired VPN tunnels. + * + * @par State structures + * A large amount of VPN tunnel state information must be stored within an + * OpenVPN process. A wide variety of container structures are used by + * this module for that purpose. Several of these structures are listed + * below, and the function of the first three VPN tunnel state containers + * is described in more detail later. + * - VPN tunnel state containers: + * - \c tls_multi, security parameter state for a single VPN tunnel. + * Contains three instances of the \c tls_session structure. + * - \c tls_session, security parameter state of a single session + * within a VPN tunnel. Contains two instances of the \c key_state + * structure. + * - \c key_state, security parameter state of one TLS and data + * channel %key set. + * - Data channel security parameter containers: + * - \c key_ctx_bi, container for two sets of OpenSSL cipher and/or + * HMAC context (both directions). Contains two instances of the \c + * key_ctx structure. + * - \c key_ctx, container for one set of OpenSSL cipher and/or HMAC + * context (one directions. + * - Key material containers: + * - \c key2, container for two sets of cipher and/or HMAC %key + * material (both directions). Contains two instances of the \c key + * structure. + * - \c key, container for one set of cipher and/or HMAC %key material + * (one direction). + * - \c key_direction_state, ordering of %key material within the \c + * key2.key array. + * - Key method 2 random material containers: + * - \c key_source2, container for both halves of random material used + * for %key method 2. Contains two instances of the \c key_source + * structure. + * - \c key_source, container for one half of random material used for + * %key method 2. + * + * @par The life of a \c tls_multi object + * A \c tls_multi structure contains all the security parameter state + * information related to the control and data channels of one VPN tunnel. + * Its life cycle can be summarized as follows: + * -# Initialization: \c tls_multi_init() and \c + * tls_multi_init_finalize(), which are called (indirectly) from \c + * init_instance() when initializing a new \c context structure. + * - Initializes a \c tls_multi structure. + * - Allocates the three \c tls_session objects contained by the \c + * tls_multi structure, and initializes as appropriate. + * -# Management: \c tls_multi_process() and \c tls_pre_decrypt() + * - If a new session is initiated by the remote peer, then \c + * tls_pre_decrypt() starts the new session negotiation in the + * un-trusted \c tls_session. + * - If the, as yet, un-trusted \c tls_session authenticates + * successfully, then \c tls_multi_process() moves it so as to be + * the active \c tls_session. + * - If an error occurs during processing of a \c key_state object, + * then \c tls_multi_process() cleans up and initializes the + * associated \c tls_session object. If the error occurred in the + * active \c key_state of the active \c tls_session and the + * lame-duck \c key_state of that \c tls_session has not yet + * expired, it is preserved as fallback. + * -# Cleanup: \c tls_multi_free(), which is called (indirectly) from \c + * close_instance() when cleaning up a \c context structure. + * - Cleans up a \c tls_multi structure. + * - Cleans up the three \c tls_session objects contained by the \c + * tls_multi structure. + * + * @par The life of a \c tls_session object + * A \c tls_session structure contains the state information related to an + * active and a lame-duck \c key_state. Its life cycle can be summarized + * as follows: + * -# Initialization: \c tls_session_init() + * - Initializes a \c tls_session structure. + * - Initializes the primary \c key_state by calling \c + * key_state_init(). + * -# Renegotiation: \c key_state_soft_reset() + * - Cleans up the old lame-duck \c key_state by calling \c + * key_state_free(). + * - Moves the old primary \c key_state to be the new lame-duck \c + * key_state. + * - Initializes a new primary \c key_state by calling \c + * key_state_init(). + * -# Cleanup: \c tls_session_free() + * - Cleans up a \c tls_session structure. + * - Cleans up all \c key_state objects associated with the session by + * calling \c key_state_free() for each. + * + * @par The life of a \c key_state object + * A \c key_state structure represents one control and data channel %key + * set. It contains an OpenSSL TLS object that encapsulates the control + * channel, and the data channel security parameters needed by the \link + * data_crypto Data Channel Crypto module\endlink to perform cryptographic + * operations on data channel packets. Its life cycle can be summarized + * as follows: + * -# Initialization: \c key_state_init() + * - Initializes a \c key_state structure. + * - Creates a new OpenSSL TLS object to encapsulate this new control + * channel session. + * - Sets \c key_state.state to \c S_INITIAL. + * - Allocates several internal buffers. + * - Initializes new reliability layer structures for this key set. + * -# Negotiation: \c tls_process() + * - The OpenSSL TLS object negotiates a TLS session between itself + * and the remote peer's TLS object. + * - Key material is generated and exchanged through the TLS session + * between OpenVPN peers. + * - Both peers initialize their data channel cipher and HMAC key + * contexts. + * - On successful negotiation, the \c key_state.state will progress + * from \c S_INITIAL to \c S_ACTIVE and \c S_NORMAL. + * -# Active tunneling: \link data_crypto Data Channel Crypto + * module\endlink + * - Data channel packet to be sent to a remote OpenVPN peer: + * - \c tls_pre_encrypt() loads the security parameters from the \c + * key_state into a \c crypto_options structure. + * - \c openvpn_encrypt() uses the \c crypto_options to an encrypt + * and HMAC sign the data channel packet. + * - Data channel packet received from a remote OpenVPN peer: + * - \c tls_pre_decrypt() loads the security parameters from the \c + * key_state into a \c crypto_options structure. + * - \c openvpn_encrypt() uses the \c crypto_options to + * authenticate and decrypt the data channel packet. + * -# Cleanup: \c key_state_free() + * - Cleans up a \c key_state structure together with its OpenSSL TLS + * object, key material, internal buffers, and reliability layer + * structures. + * + * @par Control functions + * The following two functions drive the Control Channel Processor's + * activities. + * - \c tls_multi_process(), iterates through the \c tls_session objects + * within a given \c tls_multi of a VPN tunnel, and calls \c + * tls_process() for each \c tls_session which is being set up, is + * already active, or is busy expiring. + * - \c tls_process(), performs the Control Channel Processor module's + * core handling of received control channel messages, and generates + * appropriate messages to be sent. + * + * @par Functions which control data channel key generation + * - Key method 1 key exchange functions: + * - \c key_method_1_write(), generates and processes key material to + * be sent to the remote OpenVPN peer. + * - \c key_method_1_read(), processes key material received from the + * remote OpenVPN peer. + * - Key method 2 key exchange functions: + * - \c key_method_2_write(), generates and processes key material to + * be sent to the remote OpenVPN peer. + * - \c key_method_2_read(), processes key material received from the + * remote OpenVPN peer. + */ diff --git a/doxygen/doc_control_tls.h b/doxygen/doc_control_tls.h new file mode 100644 index 0000000..aba55f7 --- /dev/null +++ b/doxygen/doc_control_tls.h @@ -0,0 +1,105 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Control Channel TLS module documentation file. + */ + +/** + * @defgroup control_tls Control Channel TLS module + * + * This module provides secure encapsulation of control channel messages + * exchanged between OpenVPN peers. + * + * The Control Channel TLS module uses the Transport Layer Security (TLS) + * protocol to provide an encrypted communication channel between the + * local OpenVPN process and a remote peer. This protocol simultaneously + * offers certificate-based authentication of the communicating parties. + * + * @par This module's roles + * The Control Channel TLS module is essential for the security of any + * OpenVPN-based system. On the one hand, it performs the security + * operations necessary to protect control channel messages exchanged + * between OpenVPN peers. On the other hand, before the control and data + * channels are even setup, it controls the exchange of certificates and + * verification of the remote's identity during negotiation of VPN + * tunnels. + * + * @par + * The former role is described below. The latter is described in the + * documentation for the \c verify_callback() function. + * + * @par + * In other words, this module takes care of the confidentiality and + * integrity of data channel communications, and the authentication of + * both the communicating parties and the control channel messages + * exchanged. + * + * @par Initialization and cleanup + * Because of the one-to-one relationship between control channel TLS + * state and \c key_state structures, the initialization and cleanup of an + * instance of the Control Channel TLS module's state happens within the + * \c key_state_init() and \c key_state_free() functions. In other words, + * each \c key_state object contains exactly one OpenSSL SSL-BIO object, + * which is initialized and cleaned up together with the rest of the \c + * key_state object. + * + * @par Packet processing functions + * This object behaves somewhat like a black box with a ciphertext and a + * plaintext I/O port. Its interaction with OpenVPN's control channel + * during operation takes place within the \c tls_process() function of + * the \link control_processor Control Channel Processor\endlink. The + * following functions are available for processing packets: + * - If ciphertext received from the remote peer is available in the \link + * reliable Reliability Layer\endlink: + * - Insert it into the ciphertext-side of the SSL-BIO. + * - Use function: \c key_state_write_ciphertext() + * - If ciphertext can be extracted from the ciphertext-side of the + * SSL-BIO: + * - Pass it to the \link reliable Reliability Layer\endlink for sending + * to the remote peer. + * - Use function: \c key_state_read_ciphertext() + * - If plaintext can be extracted from the plaintext-side of the SSL-BIO: + * - Pass it on to the \link control_processor Control Channel + * Processor\endlink for local processing. + * - Use function: \c key_state_read_plaintext() + * - If plaintext from the \link control_processor Control Channel + * Processor\endlink is available to be sent to the remote peer: + * - Insert it into the plaintext-side of the SSL-BIO. + * - Use function: \c key_state_write_plaintext() or \c + * key_state_write_plaintext_const() + * + * @par Transport Layer Security protocol implementation + * This module uses the OpenSSL library's implementation of the TLS + * protocol in the form of an OpenSSL SSL-BIO object. + * + * @par + * For more information on the OpenSSL library's BIO objects, please see: + * - OpenSSL's generic BIO objects: + * http://www.openssl.org/docs/crypto/bio.html + * - OpenSSL's SSL-BIO object: + * http://www.openssl.org/docs/crypto/BIO_f_ssl.html + */ diff --git a/doxygen/doc_data_control.h b/doxygen/doc_data_control.h new file mode 100644 index 0000000..d0f65ba --- /dev/null +++ b/doxygen/doc_data_control.h @@ -0,0 +1,103 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Data Channel Control module documentation file. + */ + +/** + * @defgroup data_control Data Channel Control module + * + * This module controls the processing of packets as they pass through the + * data channel. + * + * The Data Channel Control module controls the processing of packets as + * they pass through the data channel. The processing includes packet + * compression, fragmentation, and the performing of security operations + * on the packets. This module does not do the processing itself, but + * passes the packet to other data channel modules to perform the + * appropriate actions. + * + * Packets can travel in two directions through the data channel. They + * can be going to a remote destination which is reachable through a VPN + * tunnel, in which case this module prepares them to be sent out through + * a VPN tunnel. On the other hand, they can have been received through a + * VPN tunnel from a remote OpenVPN peer, in which case this module + * retrieves the packet in its original form as it was before entering the + * VPN tunnel on the remote OpenVPN peer. How this module processes + * packets traveling in the two directions is discussed in more detail + * below. + * + * @par Packets to be sent to a remote OpenVPN peer + * This module's main function for processing packets traveling in this + * direction is \c encrypt_sign(), which performs the following processing + * steps: + * - Call the \link compression Data Channel Compression module\endlink to + * perform packet compression if necessary. + * - Call the \link fragmentation Data Channel Fragmentation + * module\endlink to perform packet fragmentation if necessary. + * - Call the \link data_crypto Data Channel Crypto module\endlink to + * perform the required security operations. + * + * @par + * See the \c encrypt_sign() documentation for details of these + * interactions. + * + * @par + * After the above processing is complete, the packet is ready to be sent + * to a remote OpenVPN peer as a VPN tunnel packet. The actual sending of + * the packet is handled by the \link external_multiplexer External + * Multiplexer\endlink. + * + * @par Packets received from a remote OpenVPN peer + * The function that controls how packets traveling in this direction are + * processed is \c process_incoming_link(). That function, however, also + * performs some of the tasks required for the \link external_multiplexer + * External Multiplexer\endlink and is therefore listed as part of that + * module, instead of here. + * + * @par + * After the \c process_incoming_link() function has determined that a + * received packet is a data channel packet, it performs the following + * processing steps: + * - Call the \link data_crypto Data Channel Crypto module\endlink to + * perform the required security operations. + * - Call the \link fragmentation Data Channel Fragmentation + * module\endlink to perform packet reassembly if necessary. + * - Call the \link compression Data Channel Compression module\endlink to + * perform packet decompression if necessary. + * + * @par + * See the \c process_incoming_link() documentation for details of these + * interactions. + * + * @par + * After the above processing is complete, the packet is in its original + * form again as it was received by the remote OpenVPN peer. It can now + * be routed further to its final destination. If that destination is a + * locally reachable host, then the \link internal_multiplexer Internal + * Multiplexer\endlink will send it there. + */ diff --git a/doxygen/doc_data_crypto.h b/doxygen/doc_data_crypto.h new file mode 100644 index 0000000..50437c1 --- /dev/null +++ b/doxygen/doc_data_crypto.h @@ -0,0 +1,75 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Data Channel Crypto module documentation file. + */ + +/** + * @addtogroup data_crypto Data Channel Crypto module + * + * The Data Channel Crypto Module performs cryptographic operations on + * data channel packets. + * + * @par Security parameters + * This module is merely the user of a VPN tunnel's security parameters. + * It does not perform the negotiation and setup of the security + * parameters, nor the %key generation involved. These actions are done + * by the \link control_processor Control Channel Processor\endlink. This + * module receives the appropriate security parameters from that module in + * the form of a \c crypto_options structure when they are necessary for + * processing a packet. + * + * @par Packet processing functions + * This module receives data channel packets from the \link data_control + * Data Channel Control module\endlink and processes them according to the + * security parameters of the packet's VPN tunnel. The \link data_control + * Data Channel Control module\endlink uses the following interface + * functions: + * - For packets which will be sent to a remote OpenVPN peer: + * - \c tls_pre_encrypt() + * - \c openvpn_encrypt() + * - \c tls_post_encrypt() + * - For packets which have been received from a remote OpenVPN peer: + * - \c tls_pre_decrypt() (documented as part of the \link + * external_multiplexer External Multiplexer\endlink) + * - \c openvpn_decrypt() + * + * @par Settings that control this module's activity + * Whether or not the Data Channel Crypto module is active depends on the + * compile-time \c USE_CRYPTO and \c USE_SSL preprocessor macros. How it + * processes packets received from the \link data_control Data Channel + * Control module\endlink at runtime depends on the associated \c + * crypto_options structure. To perform cryptographic operations, the \c + * crypto_options.key_ctx_bi must contain the correct cipher and HMAC + * security parameters for the direction the packet is traveling in. + * + * @par Crypto algorithms + * This module uses the crypto algorithm implementations of the external + * OpenSSL library. More precisely, it uses the OpenSSL library's \c + * EVP_Cipher* and \c HMAC_* set of functions to perform cryptographic + * operations on data channel packets. + */ diff --git a/doxygen/doc_eventloop.h b/doxygen/doc_eventloop.h new file mode 100644 index 0000000..a860db6 --- /dev/null +++ b/doxygen/doc_eventloop.h @@ -0,0 +1,67 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Main Event Loop module documentation file. + */ + +/** + * @defgroup eventloop Main Event Loop module + * + * This main event loop module drives the packet processing of OpenVPN. + * + * OpenVPN is an event driven system. Its activities are driven by a main + * event loop, which repeatedly waits for one of several predefined events + * to occur, and then calls the appropriate module to handle the event. + * The major types of network events that OpenVPN processes are: + * - A packet can be read from the external network interface. + * - The main event loop activates the \link external_multiplexer + * External Multiplexer\endlink to read and process the packet. + * - A packet can be read from the virtual tun/tap network interface. + * - The main event loop activates the \link internal_multiplexer + * Internal Multiplexer\endlink to read and process the packet. + * - If a packet is ready to be sent out as a VPN tunnel packet: the + * external network interface can be written to. + * - The main event loop activates the \link external_multiplexer + * External Multiplexer\endlink to send the packet. + * - If a packet is ready to be sent to a locally reachable destination: + * the virtual tun/tap network interface can be written to. + * - The main event loop activates the \link internal_multiplexer + * Internal Multiplexer\endlink to send the packet. + * + * Beside these external events, OpenVPN also processes other types of + * internal events. These include scheduled events, such as resending of + * non-acknowledged control channel messages. + * + * @par Main event loop implementations + * + * Depending on the mode in which OpenVPN is running, a different main + * event loop function is called to drive the event processing. The + * following implementations are available: + * - Client mode using UDP or TCP: \c tunnel_point_to_point() + * - Server mode using UDP: \c tunnel_server_udp_single_threaded() + * - Server mode using TCP: \c tunnel_server_tcp() + */ diff --git a/doxygen/doc_external_multiplexer.h b/doxygen/doc_external_multiplexer.h new file mode 100644 index 0000000..7653255 --- /dev/null +++ b/doxygen/doc_external_multiplexer.h @@ -0,0 +1,46 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * External Multiplexer module documentation file. + */ + +/** + * @addtogroup external_multiplexer External Multiplexer module + * + * The External Multiplexer is the link between the external network + * interface and the other OpenVPN modules. It reads packets from the + * external network interface, determines which remote OpenVPN peer and + * VPN tunnel they are associated with, and whether they are data channel + * or control channel packets. It then passes the packets on to the + * appropriate processing module. + * + * This module also handles packets traveling in the reverse direction, + * which have been generated by the local control channel or which have + * already been processed by the \link data_control Data Channel Control + * module\endlink and are destined for a remote host reachable through a + * VPN tunnel. + */ diff --git a/doxygen/doc_fragmentation.h b/doxygen/doc_fragmentation.h new file mode 100644 index 0000000..ef34cdb --- /dev/null +++ b/doxygen/doc_fragmentation.h @@ -0,0 +1,96 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Data Channel Fragmentation module documentation file. + */ + +/** + * @defgroup fragmentation Data Channel Fragmentation module + * + * The Data Channel Fragmentation module offers fragmentation of data + * channel packets. + * + * @par State structures + * The Data Channel Fragmentation module stores its internal state in a \c + * fragment_master structure. One such structure is present for each VPN + * tunnel, and is stored in \c context.c2.fragment of the \c context + * associated with that VPN tunnel. + * + * @par + * The \c fragment_master structure contains one \c fragment_list + * structure \c fragment_master.incoming. This is a list of \c fragment + * structures, each of which can store the parts of one fragmented packet + * while it is being reassembled. The \c fragment_master structure also + * contains one \c buffer called \c fragment_master.outgoing, in which a + * data channel large packet to be sent to a remote OpenVPN peer can be + * broken up into parts to be sent one by one. + * + * @par Initialization and cleanup + * Every time a new \c fragment_master is needed, it must be allocated and + * initialized by the \c fragment_init() function. Similarly, every time + * a \c fragment_master is no longer needed, it must be cleaned up using + * the \c fragment_free() function. These functions take care of the + * allocation and freeing of the \c fragment_master structure itself and + * all internal memory required for the use of that structure. Note that + * this behavior is different from that displayed by the \link compression + * Data Channel Compression module\endlink. + * + * @par + * Because of the one-to-one relationship between \c fragment_master + * structures and VPN tunnels, the above-mentioned initialization and + * cleanup functions are called directly from the \c init_instance() and + * \c close_instance() functions, which control the initialization and + * cleanup of VPN tunnel instances and their associated \c context + * structures. + * + * @par Packet processing functions + * This module receives data channel packets from the \link data_control + * Data Channel Control module\endlink and processes them according to the + * settings of the packet's VPN tunnel. The \link data_control Data + * Channel Control module\endlink uses the following interface functions: + * - For packets which will be sent to a remote OpenVPN peer: \c + * fragment_outgoing() \n This function inspects data channel packets as + * they are being made ready to be sent as VPN tunnel packets to a + * remote OpenVPN peer. If a packet's size is larger than its + * destination VPN tunnel's maximum transmission unit (MTU), then this + * module breaks that packet up into smaller parts, each of which is + * smaller than or equal to the VPN tunnel's MTU. See \c + * fragment_outgoing() for details. + * - For packets which have been received from a remote OpenVPN peer: \c + * fragment_incoming() \n This function inspects data channel packets + * that have been received from a remote OpenVPN peer through a VPN + * tunnel. It reads the fragmentation header of the packet, and + * depending on its value performs the appropriate action. See \c + * fragment_incoming() for details. + * + * @par Settings that control this module's activity + * Whether the Data Channel Fragmentation module is active or not depends + * on the compile-time \c ENABLE_FRAGMENT preprocessor macro and the + * runtime flag \c options.fragment, which gets its value from the + * process's configuration sources, such as the configuration file and + * commandline %options. + */ diff --git a/doxygen/doc_internal_multiplexer.h b/doxygen/doc_internal_multiplexer.h new file mode 100644 index 0000000..5142dd0 --- /dev/null +++ b/doxygen/doc_internal_multiplexer.h @@ -0,0 +1,44 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Internal Multiplexer module documentation file. + */ + +/** + * @addtogroup internal_multiplexer Internal Multiplexer module + * + * The Internal Multiplexer is the link between the virtual tun/tap + * network interface and the \link data_control Data Channel Control + * module\endlink. It reads packets from the virtual network interface, + * determines for which remote OpenVPN peer they are destined, and then + * passes the packets on to the Data Channel Control module together with + * information about their destination VPN tunnel instance. + * + * This module also handles packets traveling in the reverse direction, + * which have already been processed by the Data Channel Control module + * and are destined for a locally reachable host. + */ diff --git a/doxygen/doc_key_generation.h b/doxygen/doc_key_generation.h new file mode 100644 index 0000000..4e20d3a --- /dev/null +++ b/doxygen/doc_key_generation.h @@ -0,0 +1,148 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Key generation documentation file. + */ + +/** + * @page key_generation Data channel %key generation + * + * This section describes how OpenVPN peers generate and exchange %key + * material necessary for the security operations performed on data + * channel packets. + * + * The %key generation and exchange process between OpenVPN client and + * server occurs every time data channel security parameters are + * negotiated, for example during the initial setup of a VPN tunnel or + * when the active security parameters expire. In source code terms, this + * is when a new key_state structure is initialized. + * + * @section key_generation_method Key methods + * + * OpenVPN supports two different ways of generating and exchanging %key + * material between client and server. These are known as %key method 1 + * and %key method 2. %Key method 2 is the recommended method. Both are + * explained below. + * + * @subsection key_generation_method_1 Key method 1 + * + * -# Each host generates its own random material. + * -# Each host uses its locally generated random material as %key data + * for encrypting and signing packets sent to the remote peer. + * -# Each host then sends its random material to the remote peer, so that + * the remote peer can use that %key data for authenticating and + * decrypting received packets. + * + * @subsection key_generation_method_2 Key method 2 + * + * -# The client generates random material in the following amounts: + * - Pre-master secret: 48 bytes + * - Client's PRF seed for master secret: 32 bytes + * - Client's PRF seed for %key expansion: 32 bytes + * -# The client sends its share of random material to the server. + * -# The server generates random material in the following amounts: + * - Server's PRF seed for master secret: 32 bytes + * - Server's PRF seed for %key expansion: 32 bytes + * -# The server computes the %key expansion using its own and the + * client's random material. + * -# The server sends its share of random material to the client. + * -# The client computes the %key expansion using its own and the + * server's random material. + * + * %Key method 2 %key expansion is performed by the \c + * generate_key_expansion() function. Please refer to its source code for + * details of the %key expansion process. + * + * @subsection key_generation_random Source of random material + * + * OpenVPN uses the OpenSSL library as its source of random material. More + * specifically, the \c RAND_bytes() function is called to supply + * cryptographically strong pseudo-random data. The following links + * contain more information on this subject: + * - For OpenSSL's \c RAND_bytes() function: + * http://www.openssl.org/docs/crypto/RAND_bytes.html + * - For OpenSSL's pseudo-random number generating system: + * http://www.openssl.org/docs/crypto/rand.html + * - For OpenSSL's support for external crypto modules: + * http://www.openssl.org/docs/crypto/engine.html + * + * @section key_generation_exchange Key exchange: + * + * The %key exchange process is initiated by the OpenVPN process running + * in client mode. After the initial three-way handshake has successfully + * completed, the client sends its share of random material to the server, + * after which the server responds with its part. This process is + * depicted below: + * +@verbatim + Client Client Server Server + State Action Action State +---------- -------------------- -------------------- ---------- + + ... waiting until three-way handshake complete ... +S_START S_START + key_method_?_write() + send to server --> --> --> --> receive from client +S_SENT_KEY key_method_?_read() + S_GOT_KEY + key_method_?_write() + receive from server <-- <-- <-- <-- send to client + key_method_?_read() S_SENT_KEY +S_GOT_KEY + ... waiting until control channel fully synchronized ... +S_ACTIVE S_ACTIVE +@endverbatim + * + * For more information about the client and server state values, see the + * \link control_processor Control Channel Processor module\endlink. + * + * Depending on which %key method is used, the \c ? in the function names + * of the diagram above is a \c 1 or a \c 2. For example, if %key method + * 2 is used, that %key exchange would be started by the client calling \c + * key_method_2_write(). These functions are called from the \link + * control_processor Control Channel Processor module's\endlink \c + * tls_process() function and control the %key generation and exchange + * process as follows: + * - %Key method 1: + * - \c key_method_1_write(): generate random material locally, and load + * as "sending" keys. + * - \c key_method_1_read(): read random material received from remote + * peer, and load as "receiving" keys. + * - %Key method 2: + * - \c key_method_2_write(): generate random material locally, and if + * in server mode generate %key expansion. + * - \c key_method_2_read(): read random material received from remote + * peer, and if in client mode generate %key expansion. + * + * @subsection key_generation_encapsulation Transmission of key material + * + * The OpenVPN client and server communicate with each other through their + * control channel. This means that all of the data transmitted over the + * network, such as random material for %key generation, is encapsulated + * in a TLS layer. For more details, see the \link control_tls Control + * Channel TLS module\endlink documentation. + */ diff --git a/doxygen/doc_mainpage.h b/doxygen/doc_mainpage.h new file mode 100644 index 0000000..821b2e8 --- /dev/null +++ b/doxygen/doc_mainpage.h @@ -0,0 +1,162 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Main page documentation file. + */ + +/** + * @mainpage OpenVPN v2.1 source code documentation + * + * This documentation describes the internal structure of OpenVPN. It was + * automatically generated from specially formatted comment blocks in + * OpenVPN's source code using Doxygen. (See + * http://www.stack.nl/~dimitri/doxygen/ for more information on Doxygen) + * + * The \ref mainpage_modules "Modules section" below gives an introduction + * into the high-level module concepts used throughout this documentation. + * The \ref mainpage_relatedpages "Related Pages section" below describes + * various special subjects related to OpenVPN's implementation which are + * discussed in the related pages section. + * + * @section mainpage_modules Modules + * + * For the purpose of describing the internal structure of OpenVPN, this + * documentation and the underlying source code has been broken up into a + * number of conceptually well-defined parts, known as modules. Each + * module plays a specific role within the OpenVPN process, and in most + * cases each module has a clear interfacing strategy for interacting with + * other modules. + * + * The following modules have been defined: + * - Driver module: + * - The \link eventloop Main Event Loop\endlink: this module drives the + * event handling of OpenVPN. It implements various types of + * select-loop which wait until an event happens, and then delegate + * the handling of that event to the appropriate module. + * - Network interface modules: + * - The \link external_multiplexer External Multiplexer\endlink: this + * module sends and receives packets to and from remote OpenVPN peers + * over the external network interface. It also takes care of + * demultiplexing received packets to their appropriate VPN tunnel and + * splitting control channel and data channel packets. + * - The \link internal_multiplexer Internal Multiplexer\endlink: this + * module sends and receives packets to and from locally reachable + * posts over the virtual tun/tap network interface. It also takes + * care of determining through which VPN tunnel a received packet must + * be sent to reach its destination. + * - Control channel modules: + * - The \link reliable Reliability Layer\endlink: this module offers a + * %reliable and sequential transport layer for control channel + * messages. + * - The \link control_tls Control Channel TLS module\endlink: this + * module offers a secure encapsulation of control channel messages + * using the TLS protocol. + * - The \link control_processor Control Channel Processor\endlink: his + * module manages the setup, maintenance, and shut down of VPN + * tunnels. + * - Data channel modules: + * - The \link data_control Data Channel Control module\endlink: this + * module controls the processing of data channel packets and, + * depending on the settings of the packet's VPN tunnel, passes the + * packet to the three modules below for handling. + * - The \link data_crypto Data Channel Crypto module\endlink: this + * module performs security operations on data channel packets. + * - The \link fragmentation Data Channel Fragmentation module\endlink: + * this module offers fragmentation of data channel packets larger + * than the VPN tunnel's MTU. + * - The \link compression Data Channel Compression module\endlink: this + * module offers compression of data channel packets. + * + * @subsection mainpage_modules_example Example event: receiving a packet + * + * OpenVPN handles many types of events during operation. These include + * external events, such as network traffic being received, and internal + * events, such as a %key session timing out causing renegotiation. An + * example event, receiving a packet over the network, is described here + * together with which modules play what roles: + * -# The \link eventloop Main Event Loop\endlink detects that a packet + * can be read from the external or the virtual tun/tap network + * interface. + * -# The \link eventloop Main Event Loop\endlink calls the \link + * external_multiplexer External Multiplexer\endlink or \link + * internal_multiplexer Internal Multiplexer\endlink to read and + * process the packet. + * -# The multiplexer module determines the type of packet and its + * destination, and passes the packet on to the appropriate handling + * module: + * - A control channel packet received by the \link + * external_multiplexer External Multiplexer\endlink is passed on + * through the \link reliable Reliability Layer\endlink and the \link + * control_tls Control Channel TLS module\endlink to the \link + * control_processor Control Channel Processor\endlink. + * - A data channel packet received by either multiplexer module is + * passed on to the \link data_control Data Channel Control + * module\endlink. + * -# The packet is processed by the appropriate control channel or data + * channel modules. + * -# If, after processing the packet, a resulting packet is generated + * that needs to be sent to a local or remote destination, it is given + * to the \link external_multiplexer External Multiplexer\endlink or + * \link internal_multiplexer Internal Multiplexer\endlink for sending. + * -# If a packet is waiting to be sent by either multiplexer module and + * the \link eventloop Main Event Loop\endlink detects that data can be + * written to the associated network interface, it calls the + * multiplexer module to send the packet. + * + * @section mainpage_relatedpages Related pages + * + * This documentation includes a number of descriptions of various aspects + * of OpenVPN and its implementation. These are not directly related to + * one module, function, or data structure, and are therefore listed + * separately under "Related Pages". + * + * @subsection mainpage_relatedpages_key_generation Data channel key generation + * + * The @ref key_generation "Data channel key generation" related page + * describes how, during VPN tunnel setup and renegotiation, OpenVPN peers + * generate and exchange the %key material required for the symmetric + * encryption/decryption and HMAC signing/verifying security operations + * performed on data channel packets. + * + * @subsection mainpage_relatedpages_tunnel_state VPN tunnel state + * + * The @ref tunnel_state "Structure of VPN tunnel state storage" related + * page describes how an OpenVPN process manages the state information + * associated with its active VPN tunnels. + * + * @subsection mainpage_relatedpages_network_protocol Network protocol + * + * The @ref network_protocol "Network protocol" related page describes the + * format and content of VPN tunnel packets exchanged between OpenVPN + * peers. + * + * @subsection mainpage_relatedpages_memory_management Memory management + * + * The @ref memory_management "Memory management strategies" related page + * gives a brief introduction into OpenVPN's memory %buffer library and + * garbage collection facilities. + */ diff --git a/doxygen/doc_memory_management.h b/doxygen/doc_memory_management.h new file mode 100644 index 0000000..f948783 --- /dev/null +++ b/doxygen/doc_memory_management.h @@ -0,0 +1,99 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Memory management strategies documentation file. + */ + +/** + * @page memory_management OpenVPN's memory management strategies + * + * This section describes several implementation details relating to + * OpenVPN's memory management strategies. + * + * During operation, the OpenVPN process performs all kinds of operations + * on blocks of data. Receiving packets, encrypting content, prepending + * headers, etc. To make the programmer's job easier and to decrease the + * likelihood of memory-related bugs, OpenVPN uses its own memory %buffer + * library and garbage collection facilities. These are described in + * brief here. + * + * @section memory_management_buffer The buffer structure + * + * The \c buffer structure is a wrapper around a block of dynamically + * allocated memory which keeps track of the block's capacity \c + * buffer.capacity and location in memory \c buffer.data. This structure + * supports efficient prepending and appending within the allocated memory + * through the use of offset \c buffer.offset and length \c buffer.len + * fields. See the \c buffer documentation for more details on the + * structure itself. + * + * OpenVPN's %buffer library, implemented in the \c buffer.h and \c + * buffer.c files, contains many utility functions for working with \c + * buffer structures. These functions facilitate common operations, such + * as allocating, freeing, reading and writing to \c buffer structures, + * and even offer several more advanced operations, such as string + * matching and creating sub-buffers. + * + * Not only do these utility functions make working with \c buffer + * structures easy, they also perform extensive error checking. Each + * function, where necessary, checks whether enough space is available + * before performing its actions. This minimizes the chance of bugs + * leading to %buffer overflows and other vulnerabilities. + * + * @section memory_management_frame The frame structure + * + * The \c frame structure keeps track of the maximum allowed packet + * geometries of a network connection. + * + * It is used, for example, to determine the size of \c buffer structures + * in which to store data channel packets. This is done by having each + * data channel processing module register the maximum amount of extra + * space it will need for header prepending and content expansion in the + * \c frame structure. Once these parameters are known, \c buffer + * structures can be allocated, based on the \c frame parameters, so that + * they are large enough to allow efficient prepending of headers and + * processing of content. + * + * @section memory_management_garbage Garbage collection + * + * OpenVPN has many sizable functions which perform various actions + * depending on their %context. This makes it difficult to know in advance + * exactly how much memory must be allocated. The garbage collection + * facilities are used to keep track of dynamic allocations, thereby + * allowing easy collective freeing of the allocated memory. + * + * The garbage collection system is implemented by the \c gc_arena and \c + * gc_entry structures. The arena represents a garbage collecting unit, + * and contains a linked list of entries. Each entry represents one block + * of dynamically allocated memory. + * + * The garbage collection system also contains various utility functions + * for working with the garbage collection structures. These include + * functions for initializing new arenas, allocating memory of a given + * size and registering the allocation in an arena, and freeing all the + * allocated memory associated with an arena. + */ diff --git a/doxygen/doc_protocol_overview.h b/doxygen/doc_protocol_overview.h new file mode 100644 index 0000000..26fed33 --- /dev/null +++ b/doxygen/doc_protocol_overview.h @@ -0,0 +1,199 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file Network protocol overview documentation file. + */ + +/** + * @page network_protocol OpenVPN's network protocol + * + * Description of packet structure in OpenVPN's network protocol. + * + * This document describes the structure of packets exchanged between + * OpenVPN peers. It is based on the protocol description in the \c ssl.h + * file. + * + * @section network_protocol_external Outer structure of packets exchanged between OpenVPN peers + * + * VPN tunnel packets are transported between OpenVPN peers using the UDP + * or TCP protocols. Their structure is described below. + * + * @subsection network_protocol_external_structure External packet structure + * + * - packet length (16 bits, unsigned) [TCP-mode only]: always sent as + * plain text. Since TCP is a stream protocol, this packet length + * defines the packetization of the stream. + * - packet opcode and key_id (8 bits) [TLS-mode only]: + * - package message type (high 5 bits) + * - key_id (low 3 bits): the key_id refers to an already negotiated + * TLS session. OpenVPN seamlessly renegotiates the TLS session by + * using a new key_id for the new session. Overlap (controlled by + * user definable parameters) between old and new TLS sessions is + * allowed, providing a seamless transition during tunnel operation. + * - payload (n bytes) + * + * @subsection network_protocol_external_types Message types + * + * The type of a VPN tunnel packet is indicated by its opcode. The + * following describes the various opcodes available. + * + * - Control channel messages: + * - \c P_CONTROL_HARD_RESET_CLIENT_V1 -- %Key method 1, initial %key + * from client, forget previous state. + * - \c P_CONTROL_HARD_RESET_SERVER_V1 -- %Key method 1, initial %key + * from server, forget previous state. + * - \c P_CONTROL_HARD_RESET_CLIENT_V2 -- %Key method 2, initial %key + * from client, forget previous state. + * - \c P_CONTROL_HARD_RESET_SERVER_V2 -- %Key method 2, initial %key + * from server, forget previous state. + * - \c P_CONTROL_SOFT_RESET_V1 -- New %key, with a graceful + * transition from old to new %key in the sense that a transition + * window exists where both the old or new key_id can be used. + * - \c P_CONTROL_V1 -- Control channel packet (usually TLS + * ciphertext). + * - \c P_ACK_V1 -- Acknowledgement for control channel packets + * received. + * - Data channel messages: + * - \c P_DATA_V1 -- Data channel packet containing data channel + * ciphertext. + * + * @subsection network_protocol_external_key_id Session IDs and Key IDs + * + * OpenVPN uses two different forms of packet identifiers: + * - The first form is 64 bits and is used for all control channel + * messages. This form is referred to as a \c session_id. + * - Data channel messages on the other hand use a shortened form of 3 + * bits for efficiency reasons since the vast majority of OpenVPN + * packets in an active tunnel will be data channel messages. This + * form is referred to as a \c key_id. + * + * The control and data channels use independent packet-id sequences, + * because the data channel is an unreliable channel while the control + * channel is a %reliable channel. Each use their own independent HMAC + * keys. + * + * @subsection network_protocol_external_reliable Control channel reliability layer + * + * Control channel messages (\c P_CONTROL_* and \c P_ACK_* message types) + * are TLS ciphertext packets which have been encapsulated inside of a + * reliability layer. The reliability layer is implemented as a + * straightforward acknowledge and retransmit model. + * + * Acknowledgments of received messages can be encoded in either the + * dedicated \c P_ACK_* record or they can be prepended to a \c + * P_CONTROL_* message. + * + * See the \link reliable Reliability Layer\endlink module for a detailed + * description. + * + * @section network_protocol_control Structure of control channel messages + * + * @subsection network_protocol_control_ciphertext Structure of ciphertext control channel messages + * + * Control channel packets in ciphertext form consist of the following + * parts: + * + * - local \c session_id (random 64 bit value to identify TLS session). + * - HMAC signature of entire encapsulation header for HMAC firewall + * [only if \c --tls-auth is specified] (usually 16 or 20 bytes). + * - packet-id for replay protection (4 or 8 bytes, includes sequence + * number and optional \c time_t timestamp). + * - acknowledgment packet-id array length (1 byte). + * - acknowledgment packet-id array (if length > 0). + * - acknowledgment remote session-id (if length > 0). + * - packet-id of this message (4 bytes). + * - TLS payload ciphertext (n bytes) (only for \c P_CONTROL_V1). + * + * Note that when \c --tls-auth is used, all message types are protected + * with an HMAC signature, even the initial packets of the TLS handshake. + * This makes it easy for OpenVPN to throw away bogus packets quickly, + * without wasting resources on attempting a TLS handshake which will + * ultimately fail. + * + * @subsection network_protocol_control_key_methods Control channel key methods and + * + * Once the TLS session has been initialized and authenticated, the TLS + * channel is used to exchange random %key material for bidirectional + * cipher and HMAC keys which will be used to secure data channel packets. + * OpenVPN currently implements two %key methods. %Key method 1 directly + * derives keys using random bits obtained from the \c RAND_bytes() + * OpenSSL function. %Key method 2 mixes random %key material from both + * sides of the connection using the TLS PRF mixing function. %Key method + * 2 is the preferred method and is the default for OpenVPN 2.0. + * + * The @ref key_generation "Data channel key generation" related page + * describes the %key methods in more detail. + * + * @subsection network_protocol_control_plaintext Structure of plaintext control channel messages + * + * - %Key method 1: + * - Cipher %key length in bytes (1 byte). + * - Cipher %key (n bytes). + * - HMAC %key length in bytes (1 byte). + * - HMAC %key (n bytes). + * - %Options string (n bytes, null terminated, client/server %options + * string should match). + * - %Key method 2: + * - Literal 0 (4 bytes). + * - %Key method (1 byte). + * - \c key_source structure (\c key_source.pre_master only defined + * for client -> server). + * - %Options string length, including null (2 bytes). + * - %Options string (n bytes, null terminated, client/server %options + * string must match). + * - [The username/password data below is optional, record can end at + * this point.] + * - Username string length, including null (2 bytes). + * - Username string (n bytes, null terminated). + * - Password string length, including null (2 bytes). + * - Password string (n bytes, null terminated). + * + * @section network_protocol_data Structure of data channel messages + * + * @subsection network_protocol_data_ciphertext Structure of ciphertext data channel messages + * + * The P_DATA_* payload represents encrypted, encapsulated tunnel packets + * which tend to be either IP packets or Ethernet frames. This is + * essentially the "payload" of the VPN. + * + * Data channel packets in ciphertext form consist of the following parts: + * - HMAC of ciphertext IV + ciphertext (if not disabled by \c --auth + * none). + * - Ciphertext IV (size is cipher-dependent, if not disabled by \c + * --no-iv). + * - Tunnel packet ciphertext. + * + * @subsection network_protocol_data_plaintext Structure of plaintext data channel messages + * + * Data channel packets in plaintext form consist of the following parts: + * - packet-id (4 or 8 bytes, if not disabled by --no-replay). + * - In TLS mode, 4 bytes are used because the implementation can + * force a TLS renegotation before \c 2^32 packets are sent. + * - In pre-shared %key mode, 8 bytes are used (sequence number and \c + * time_t value) to allow long-term %key usage without packet-id + * collisions. + * - User plaintext (n bytes). + */ diff --git a/doxygen/doc_reliable.h b/doxygen/doc_reliable.h new file mode 100644 index 0000000..5264906 --- /dev/null +++ b/doxygen/doc_reliable.h @@ -0,0 +1,49 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * Reliability Layer module documentation file. + */ + +/** + * @defgroup reliable Reliability Layer module + * + * The Reliability Layer is part of OpenVPN's control channel. It + * provides a reliable and sequential transport mechanism for control + * channel messages between OpenVPN peers. This module forms the + * interface between the \link external_multiplexer External + * Multiplexer\endlink and the \link control_tls Control Channel TLS + * module\endlink. + * + * @par UDP or TCP as VPN tunnel transport + * + * This is especially important when OpenVPN is configured to communicate + * over UDP, because UDP does not offer a reliable and sequential + * transport. OpenVPN endpoints can also communicate over TCP which does + * provide a reliable and sequential transport. In both cases, using UDP + * or TCP as an external transport, the internal Reliability Layer is + * active. + */ diff --git a/doxygen/doc_tunnel_state.h b/doxygen/doc_tunnel_state.h new file mode 100644 index 0000000..6c93e71 --- /dev/null +++ b/doxygen/doc_tunnel_state.h @@ -0,0 +1,155 @@ +/* + * OpenVPN -- An application to securely tunnel IP networks + * over a single TCP/UDP port, with support for SSL/TLS-based + * session authentication and key exchange, + * packet encryption, packet authentication, and + * packet compression. + * + * Copyright (C) 2010 Fox Crypto B.V. + * + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program (see the file COPYING included with this + * distribution); if not, write to the Free Software Foundation, Inc., + * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +/** + * @file + * VPN tunnel state documentation file. + */ + +/** + * @page tunnel_state Structure of the VPN tunnel state storage + * + * This section describes how OpenVPN stores its VPN tunnel state during + * operation. + * + * OpenVPN uses several data structures as storage containers for state + * information of active VPN tunnels. These are described in this + * section, together with a little bit of history to help understand the + * origin of the current architecture. + * + * Whether an OpenVPN process is running in client-mode or server-mode + * determines whether it can support only one or multiple simultaneously + * active VPN tunnels. This consequently also determines how the + * associated state information is wrapped up internally. This section + * gives an overview of the differences. + * + * @section tunnel_state_history Historic developments + * + * In the old v1.x series, an OpenVPN process managed only one single VPN + * tunnel. This allowed the VPN tunnel state to be stored together with + * process-global information in one single \c context structure. + * + * This changed, however, in the v2.x series, as new OpenVPN versions + * running in server-mode can support multiple simultaneously active VPN + * tunnels. This necessitated a redesign of the VPN tunnel state + * container structures, and modification of the \link + * external_multiplexer External Multiplexer\endlink and \link + * internal_multiplexer Internal Multiplexer\endlink systems. The + * majority of these changes are only relevant for OpenVPN processes + * running in server-mode, and the client-mode structure has remained very + * similar to the v1.x single-tunnel form. + * + * @section tunnel_state_client Client-mode state + * + * An OpenVPN process running in client-mode can manage at most one single + * VPN tunnel at any one time. The state information for a client's VPN + * tunnel is stored in a \c context structure. + * + * The \c context structure is created in the \c main() function. That is + * also where process-wide initialization takes place, such as parsing + * command line %options and reading configuration files. The \c context + * is then passed to \c tunnel_point_to_point() which drives OpenVPN's + * main event processing loop. These functions are both part of the \link + * eventloop Main Event Loop\endlink module. + * + * @subsection tunnel_state_client_init Initialization and cleanup + * + * Because there is only one \c context structure present, it can be + * initialized and cleaned up from the client's main event processing + * function. Before the \c tunnel_point_to_point() function enters its + * event loop, it calls \c init_instance_handle_signals() which calls \c + * init_instance() to initialize the single \c context structure. After + * the event loop stops, it calls \c close_instance() to clean up the \c + * context. + * + * @subsection tunnel_state_client_event Event processing + * + * When the main event processing loop activates the external or internal + * multiplexer to handle a network event, it is not necessary to determine + * which VPN tunnel the event is associated with, because there is only + * one VPN tunnel active. + * + * @section tunnel_state_server Server-mode state + * + * An OpenVPN process running in server-mode can manage multiple + * simultaneously active VPN tunnels. For every VPN tunnel active, in + * other words for every OpenVPN client which is connected to a server, + * the OpenVPN server has one \c context structure in which it stores that + * particular VPN tunnel's state information. + * + * @subsection tunnel_state_server_multi Multi_context and multi_instance structures + * + * To support multiple \c context structures, each is wrapped in a \c + * multi_instance structure, and all the \c multi_instance structures are + * registered in one single \c multi_context structure. The \link + * external_multiplexer External Multiplexer\endlink and \link + * internal_multiplexer Internal Multiplexer\endlink then use the \c + * multi_context to retrieve the correct \c multi_instance and \c context + * associated with a given network address. + * + * @subsection tunnel_state_server_init Startup and initialization + * + * An OpenVPN process running in server-mode starts in the same \c main() + * function as it would in client-mode. The same process-wide + * initialization is performed, and the resulting state and configuration + * is stored in a \c context structure. The server-mode and client-mode + * processes diverge when the \c main() function calls one of \c + * tunnel_point_to_point() or \c tunnel_server(). + * + * In server-mode, \c main() calls the \c tunnel_server() function, which + * transfers control to \c tunnel_server_udp_single_threaded() or \c + * tunnel_server_tcp() depending on the external transport protocol. + * + * These functions receive the \c context created in \c main(). This + * object has a special status in server-mode, as it does not represent an + * active VPN tunnel, but does contain process-wide configuration + * parameters. In the source code, it is often stored in "top" variables. + * To distinguish this object from other instances of the same type, its + * \c context.mode value is set to \c CM_TOP. Other \c context objects, + * which do represent active VPN tunnels, have a \c context.mode set to \c + * CM_CHILD_UDP or \c CM_CHILD_TCP, depending on the external transport + * protocol. + * + * Both \c tunnel_server_udp_single_threaded() and \c tunnel_server_tcp() + * perform similar initialization. In either case, a \c multi_context + * structure is created, and it is initialized according to the + * configuration stored in the top \c context by the \c multi_init() and + * \c multi_top_init() functions. + * + * @subsection tunnel_state_server_tunnels Creating and destroying VPN tunnels + * + * When an OpenVPN client makes a new connection to a server, the server + * creates a new \c context and \c multi_instance. The latter is + * registered in the \c multi_context, which makes it possible for the + * external and internal multiplexers to retrieve the correct \c + * multi_instance and \c context when a network event occurs. + * + * @subsection tunnel_state_server_cleanup Final cleanup + * + * After the main event loop exits, both \c + * tunnel_server_udp_single_threaded() and \c tunnel_server_tcp() perform + * similar cleanup. They call \c multi_uninit() followed by \c + * multi_top_free() to clean up the \c multi_context structure. + */ diff --git a/doxygen/openvpn.doxyfile b/doxygen/openvpn.doxyfile new file mode 100644 index 0000000..5d87172 --- /dev/null +++ b/doxygen/openvpn.doxyfile @@ -0,0 +1,279 @@ +# Doxyfile 1.5.5 + +#--------------------------------------------------------------------------- +# Project related configuration options +#--------------------------------------------------------------------------- +DOXYFILE_ENCODING = UTF-8 +PROJECT_NAME = "OpenVPN" +PROJECT_NUMBER = +OUTPUT_DIRECTORY = doxygen +CREATE_SUBDIRS = NO +OUTPUT_LANGUAGE = English +BRIEF_MEMBER_DESC = YES +REPEAT_BRIEF = YES +ABBREVIATE_BRIEF = "The $name class" \ + "The $name widget" \ + "The $name file" \ + is \ + provides \ + specifies \ + contains \ + represents \ + a \ + an \ + the +ALWAYS_DETAILED_SEC = NO +INLINE_INHERITED_MEMB = NO +FULL_PATH_NAMES = YES +STRIP_FROM_PATH = "" +STRIP_FROM_INC_PATH = +SHORT_NAMES = NO +JAVADOC_AUTOBRIEF = YES # 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