From fdc0f2ecdb18b9176f87f55ee17f054ce107e8c7 Mon Sep 17 00:00:00 2001 From: Benny Prijono Date: Sun, 25 Oct 2009 09:02:07 +0000 Subject: Initial commit for ticket #950: QoS support: - implementation: - PJLIB (sock_qos*.*) - added QoS support in: - SIP UDP transport, - SIP TCP transport, - media UDP transport (done in pjsua-lib), - pjnath ICE stream transport, - pjnath STUN socket, - pjnath TURN client - added QoS options in pjsua-lib: - QoS fields in pjsua_transport_config - added "--set-qos" parameter in pjsua Notes: - QoS in TLS transport is not yet implemented, waiting for #957 - build ok on VS6, VS2005 (multiple targets), Carbide, and Mingw - no run-time testing yet git-svn-id: http://svn.pjsip.org/repos/pjproject/trunk@2966 74dad513-b988-da41-8d7b-12977e46ad98 --- pjlib/include/pj/sock_qos.h | 427 ++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 427 insertions(+) create mode 100644 pjlib/include/pj/sock_qos.h (limited to 'pjlib/include/pj/sock_qos.h') diff --git a/pjlib/include/pj/sock_qos.h b/pjlib/include/pj/sock_qos.h new file mode 100644 index 00000000..12dd4b80 --- /dev/null +++ b/pjlib/include/pj/sock_qos.h @@ -0,0 +1,427 @@ +/* $Id$ */ +/* + * Copyright (C) 2008-2009 Teluu Inc. (http://www.teluu.com) + * Copyright (C) 2003-2008 Benny Prijono + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * 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; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ +#ifndef __PJ_SOCK_QOS_H__ +#define __PJ_SOCK_QOS_H__ + +/** + * @file sock_qos.h + * @brief Socket QoS API + */ + +#include + +PJ_BEGIN_DECL + + +/** + * @defgroup socket_qos Socket Quality of Service (QoS) API + * @ingroup PJ_SOCK + * @{ + + + \section intro QoS Technologies + + QoS settings are available for both Layer 2 and 3 of TCP/IP protocols: + + \subsection intro_ieee8021p Layer 2: IEEE 802.1p for Ethernet + + IEEE 802.1p tagging will mark frames sent by a host for prioritized + delivery using a 3-bit Priority field in the virtual local area network + (VLAN) header of the Ethernet frame. The VLAN header is placed inside + the Ethernet header, between the Source Address field and either the + Length field (for an IEEE 802.3 frame) or the EtherType field (for an + Ethernet II frame). + + \subsection intro_wmm Layer 2: WMM + + At the Network Interface layer for IEEE 802.11 wireless, the Wi-Fi + Alliance certification for Wi-Fi Multimedia (WMM) defines four access + categories for prioritizing network traffic. These access categories + are (in order of highest to lowest priority) voice, video, best-effort, + and background. Host support for WMM prioritization requires that both + wireless network adapters and their drivers support WMM. Wireless + access points (APs) must have WMM enabled. + + \subsection intro_dscp Layer 3: DSCP + + At the Internet layer, you can use Differentiated Services/Diffserv and + set the value of the Differentiated Services Code Point (DSCP) in the + IP header. As defined in RFC 2472, the DSCP value is the high-order 6 bits + of the IP version 4 (IPv4) TOS field and the IP version 6 (IPv6) Traffic + Class field. + + \subsection intro_other Layer 3: Other + + Other mechanisms exist (such as RSVP, IntServ) but this will not be + implemented. + + + \section availability QoS Availability + + \subsection linux Linux + + DSCP is available via IP TOS option. + + Ethernet 802.1p tagging is done by setting setsockopt(SO_PRIORITY) option + of the socket, then with the set_egress_map option of the vconfig utility + to convert this to set vlan-qos field of the packet. + + WMM is not known to be available. + + \subsection windows Windows and Windows Mobile + + (It's a mess!) + + DSCP is settable with setsockopt() on Windows 2000 or older, but Windows + would silently ignore this call on WinXP or later, unless administrator + modifies the registry. On Windows 2000, Windows XP, and Windows Server + 2003, GQoS (Generic QoS) API is the standard API, but this API may not be + supported in the future. On Vista and Windows 7, the is a new QoS2 API, + also known as Quality Windows Audio-Video Experience (qWAVE). + + IEEE 802.1p tagging is available via Traffic Control (TC) API, available + on Windows XP SP2, but this needs administrator access. For Vista and + later, it's in qWAVE. + + WMM is available for mobile platforms on Windows Mobile 6 platform and + Windows Embedded CE 6, via setsockopt(IP_DSCP_TRAFFIC_TYPE). qWAVE + supports this as well. + + \subsection symbian Symbian S60 3rd Ed + + Both DSCP and WMM is supported via RSocket::SetOpt() with will set both + Layer 2 and Layer 3 QoS settings accordingly. Internally, PJLIB sets the + DSCP field of the socket, and based on certain DSCP values mapping, + Symbian will set the WMM tag accordingly. + + \section api PJLIB's QoS API Abstraction + + Based on the above, the following API is implemented. + + Declare the following "standard" traffic types. + + \code + typedef enum pj_qos_type + { + PJ_QOS_TYPE_BEST_EFFORT, + PJ_QOS_TYPE_BACKGROUND, + PJ_QOS_TYPE_VIDEO, + PJ_QOS_TYPE_VOICE, + PJ_QOS_TYPE_CONTROL + } pj_qos_type; + \endcode + + The traffic classes above will determine how the Layer 2 and 3 QoS + settings will be used. The standard mapping between the classes above + to the corresponding Layer 2 and 3 settings are as follows: + + \code + ================================================================= + PJLIB Traffic Type IP DSCP WMM 802.1p + ----------------------------------------------------------------- + BEST_EFFORT 0x00 BE (Bulk Effort) 0 + BACKGROUND 0x08 BK (Bulk) 2 + VIDEO 0x28 VI (Video) 5 + VOICE 0x30 VO (Voice) 6 + CONTROL 0x38 VO (Voice) 7 + ================================================================= + \endcode + + There are two sets of API provided to manipulate the QoS parameters. + + \subsection portable_api Portable API + + The first set of API is: + + \code + // Set QoS parameters + PJ_DECL(pj_status_t) pj_sock_set_qos_type(pj_sock_t sock, + pj_qos_type val); + + // Get QoS parameters + PJ_DECL(pj_status_t) pj_sock_get_qos_type(pj_sock_t sock, + pj_qos_type *p_val); + \endcode + + The API will set the traffic type according to the DSCP class, for both + Layer 2 and Layer 3 QoS settings, where it's available. If any of the + layer QoS setting is not settable, the API will silently ignore it. + If both layers are not setable, the API will return error. + + The API above is the recommended use of QoS, since it is the most + portable across all platforms. + + \subsection detail_api Fine Grained Control API + + The second set of API is intended for application that wants to fine + tune the QoS parameters. + + The Layer 2 and 3 QoS parameters are stored in pj_qos_params structure: + + \code + typedef enum pj_qos_flag + { + PJ_QOS_PARAM_HAS_DSCP = 1, + PJ_QOS_PARAM_HAS_802_1_P = 2, + PJ_QOS_PARAM_HAS_WMM = 4 + } pj_qos_flag; + + typedef enum pj_qos_wmm_prio + { + PJ_QOS_WMM_PRIO_BULK_EFFORT, + PJ_QOS_WMM_PRIO_BULK, + PJ_QOS_WMM_PRIO_VIDEO, + PJ_QOS_WMM_PRIO_VOICE + } pj_qos_wmm_prio; + + typedef struct pj_qos_params + { + pj_uint8_t flags; // Determines which values to + // set, bitmask of pj_qos_flag + pj_uint8_t dscp_val; // DSCP value to set + pj_uint8_t so_prio; // SO_PRIORITY value + pj_qos_wmm_prio wmm_prio; // WMM priority value + } pj_qos_params; + \endcode + + The second set of API with more fine-grained control over the parameters + are: + + \code + // Retrieve QoS params for the specified traffic type + PJ_DECL(pj_status_t) pj_qos_get_params(pj_qos_type type, + pj_qos_params *p); + + // Set QoS parameters to the socket + PJ_DECL(pj_status_t) pj_sock_set_qos_params(pj_sock_t sock, + const pj_qos_params *p); + + // Get QoS parameters from the socket + PJ_DECL(pj_status_t) pj_sock_get_qos_params(pj_sock_t sock, + pj_qos_params *p); + \endcode + + + Important: + + The pj_sock_set/get_qos_params() APIs are not portable, and it's probably + only going to be implemented on Linux. Application should always try to + use pj_sock_set_qos_type() instead. + */ + + +/** + * High level traffic classification. + */ +typedef enum pj_qos_type +{ + PJ_QOS_TYPE_BEST_EFFORT, /**< Best effort traffic (default value). + Any QoS function calls with specifying + this value are effectively no-op */ + PJ_QOS_TYPE_BACKGROUND, /**< Background traffic. */ + PJ_QOS_TYPE_VIDEO, /**< Video traffic. */ + PJ_QOS_TYPE_VOICE, /**< Voice traffic. */ + PJ_QOS_TYPE_CONTROL /**< Control traffic. */ +} pj_qos_type; + +/** + * Bitmask flag to indicate which QoS layer setting is set in the + * \a flags field of the #pj_qos_params structure. + */ +typedef enum pj_qos_flag +{ + PJ_QOS_PARAM_HAS_DSCP = 1, /**< DSCP field is set. */ + PJ_QOS_PARAM_HAS_802_1_P = 2, /**< IEEE 802.1p field is set */ + PJ_QOS_PARAM_HAS_WMM = 4 /**< WMM field is set. */ +} pj_qos_flag; + + +/** + * Standard WMM priorities. + */ +typedef enum pj_qos_wmm_prio +{ + PJ_QOS_WMM_PRIO_BULK_EFFORT, /**< Bulk effort priority */ + PJ_QOS_WMM_PRIO_BULK, /**< Bulk priority. */ + PJ_QOS_WMM_PRIO_VIDEO, /**< Video priority */ + PJ_QOS_WMM_PRIO_VOICE /**< Voice priority */ +} pj_qos_wmm_prio; + + +/** + * QoS parameters to be set or retrieved to/from the socket. + */ +typedef struct pj_qos_params +{ + pj_uint8_t flags; /**< Determines which values to + set, bitmask of pj_qos_flag */ + pj_uint8_t dscp_val; /**< DSCP value to set */ + pj_uint8_t so_prio; /**< SO_PRIORITY value */ + pj_qos_wmm_prio wmm_prio; /**< WMM priority value */ +} pj_qos_params; + + + +/** + * This is the high level and portable API to enable QoS on the specified + * socket, by setting the traffic type to the specified parameter. + * + * @param sock The socket. + * @param type Traffic type to be set. + * + * @return PJ_SUCCESS if at least Layer 2 or Layer 3 setting is + * successfully set. If both Layer 2 and Layer 3 settings + * can't be set, this function will return error. + */ +PJ_DECL(pj_status_t) pj_sock_set_qos_type(pj_sock_t sock, + pj_qos_type type); + +/** + * This is the high level and portable API to get the traffic type that has + * been set on the socket. On occasions where the Layer 2 or Layer 3 settings + * were modified by using low level API, this function may return approximation + * of the closest QoS type that matches the settings. + * + * @param sock The socket. + * @param p_type Pointer to receive the traffic type of the socket. + * + * @return PJ_SUCCESS if traffic type for the socket can be obtained + * or approximated.. + */ +PJ_DECL(pj_status_t) pj_sock_get_qos_type(pj_sock_t sock, + pj_qos_type *p_type); + + +/** + * This is a convenience function to apply QoS to the socket, and print error + * logging if the operations failed. Both QoS traffic type and the low level + * QoS parameters can be applied with this function. + * + * @param sock The socket handle. + * @param qos_type QoS traffic type. The QoS traffic type will be applied + * only if the value is not PJ_QOS_TYPE_BEST_EFFORT, + * @param qos_params Optional low-level QoS parameters. This will be + * applied only if this argument is not NULL and the + * flags inside the structure is non-zero. Upon return, + * the flags will indicate which parameters have been + * applied successfully. + * @param log_level This function will print to log at this level upon + * encountering errors. + * @param log_sender Optional sender name in the log. + * @param sock_name Optional name to help identify the socket in the log. + * + * @return PJ_SUCCESS if at least Layer 2 or Layer 3 setting is + * successfully set. If both Layer 2 and Layer 3 settings + * can't be set, this function will return error. + * + * @see pj_sock_apply_qos2() + */ +PJ_DECL(pj_status_t) pj_sock_apply_qos(pj_sock_t sock, + pj_qos_type qos_type, + pj_qos_params *qos_params, + unsigned log_level, + const char *log_sender, + const char *sock_name); + +/** + * Variant of #pj_sock_apply_qos() where the \a qos_params parameter is + * const. + * + * @see pj_sock_apply_qos() + */ +PJ_DECL(pj_status_t) pj_sock_apply_qos2(pj_sock_t sock, + pj_qos_type qos_type, + const pj_qos_params *qos_params, + unsigned log_level, + const char *log_sender, + const char *sock_name); + +/** + * Retrieve the standard mapping of QoS params for the specified traffic + * type. + * + * @param type The traffic type from which the QoS parameters + * are to be retrieved. + * @param p_param Pointer to receive the QoS parameters. + * + * @return PJ_SUCCESS on success or the appropriate error code. + */ +PJ_DECL(pj_status_t) pj_qos_get_params(pj_qos_type type, + pj_qos_params *p_param); + + +/** + * Retrieve the traffic type that matches the specified QoS parameters. + * If no exact matching is found, this function will return an + * approximation of the closest matching traffic type for the specified + * QoS parameters. + * + * @param param Structure containing QoS parameters to map into + * "standard" traffic types. + * @param p_type Pointer to receive the traffic type. + * + * @return PJ_SUCCESS on success or the appropriate error code. + */ +PJ_DECL(pj_status_t) pj_qos_get_type(const pj_qos_params *param, + pj_qos_type *p_type); + + +/** + * This is a low level API to set QoS parameters to the socket. + * + * @param sock The socket. + * @param param Structure containing QoS parameters to be applied + * to the socket. Upon return, the \a flags field + * of this structure will be set with bitmask value + * indicating which QoS settings have successfully + * been applied to the socket. + * + * @return PJ_SUCCESS if at least one field setting has been + * successfully set. If no setting can't be set, + * this function will return error. + */ +PJ_DECL(pj_status_t) pj_sock_set_qos_params(pj_sock_t sock, + pj_qos_params *param); + +/** + * This is a low level API to get QoS parameters from the socket. + * + * @param sock The socket. + * @param p_param Pointer to receive the parameters. Upon returning + * successfully, the \a flags field of this structure + * will be initialized with the appropriate bitmask + * to indicate which fields have been successfully + * retrieved. + * + * @return PJ_SUCCESS on success or the appropriate error code. + */ +PJ_DECL(pj_status_t) pj_sock_get_qos_params(pj_sock_t sock, + pj_qos_params *p_param); + + +/** + * @} + */ + + +PJ_END_DECL + +#endif /* __PJ_SOCK_QOS_H__ */ + -- cgit v1.2.3