mirror of https://github.com/dahall/Vanara.git
343 lines
18 KiB
C#
343 lines
18 KiB
C#
using System.Runtime.InteropServices;
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namespace Vanara.PInvoke
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{
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public static partial class Ws2_32
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{
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/// <summary>Specifies the level of service to negotiate for the flow.</summary>
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[PInvokeData("qos.h", MSDNShortId = "268e0d3a-2b04-40fd-91eb-f1780236b3e4")]
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public enum SERVICETYPE : uint
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{
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/// <summary>
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/// Indicates that no traffic will be transmitted in the specified direction. On duplex-capable media, this value signals
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/// underlying software to set up unidirectional connections only. This service type is not valid for the TC API.
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/// </summary>
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SERVICETYPE_NOTRAFFIC = 0x00000000,
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/// <summary>
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/// Results in no action taken by the RSVP SP. Traffic control does create a BESTEFFORT flow, however, and traffic on the flow
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/// will be handled by traffic control similarly to other BESTEFFORT traffic.
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/// </summary>
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SERVICETYPE_BESTEFFORT = 0x00000001,
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/// <summary>
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/// Provides an end-to-end QOS that closely approximates transmission quality provided by best-effort service, as expected under
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/// unloaded conditions from the associated network components along the data path.
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/// <para>Applications that use SERVICETYPE_CONTROLLEDLOAD may therefore assume the following:</para>
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/// <list type="bullet">
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/// <item>
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/// The network will deliver a very high percentage of transmitted packets to its intended receivers. In other words, packet loss
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/// will closely approximate the basic packet error rate of the transmission medium.
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/// </item>
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/// <item>
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/// Transmission delay for a very high percentage of the delivered packets will not greatly exceed the minimum transit delay
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/// experienced by any successfully delivered packet.
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/// </item>
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/// </list>
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/// </summary>
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SERVICETYPE_CONTROLLEDLOAD = 0x00000002,
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/// <summary>
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/// Guarantees that datagrams will arrive within the guaranteed delivery time and will not be discarded due to queue overflows,
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/// provided the flow's traffic stays within its specified traffic parameters. This service is intended for applications that
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/// need a firm guarantee that a datagram will arrive no later than a certain time after it was transmitted by its source.
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/// </summary>
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SERVICETYPE_GUARANTEED = 0x00000003,
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/// <summary>Used to notify network changes.</summary>
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SERVICETYPE_NETWORK_UNAVAILABLE = 0x00000004,
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/// <summary>Specifies that all service types are supported for a flow. Can be used on sender side only.</summary>
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SERVICETYPE_GENERAL_INFORMATION = 0x00000005,
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/// <summary>
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/// Indicates that the quality of service in the transmission using this ServiceType value is not changed. SERVICETYPE_NOCHANGE
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/// can be used when requesting a change in the quality of service for one direction only, or when requesting a change only
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/// within the ProviderSpecific parameters of a QOS specification, and not in the SendingFlowspec or ReceivingFlowspec.
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/// </summary>
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SERVICETYPE_NOCHANGE = 0x00000006,
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/// <summary>Used to indicate nonconforming traffic.</summary>
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SERVICETYPE_NONCONFORMING = 0x00000009,
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/// <summary>
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/// Used only for transmission of control packets (such as RSVP signaling messages). This ServiceType has the highest priority.
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/// </summary>
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SERVICETYPE_NETWORK_CONTROL = 0x0000000A,
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/// <summary>
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/// Indicates that the application requires better than BESTEFFORT transmission, but cannot quantify its transmission
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/// requirements. Applications that use SERVICETYPE_QUALITATIVE can supply an application identifier policy object. The
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/// application identification policy object enables policy servers on the network to identify the application, and accordingly,
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/// assign an appropriate quality of service to the request. For more information on application identification, consult the IETF
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/// Internet Draft draft-ietf-rap-rsvp-appid-00.txt, or the Microsoft white paper on Application Identification. Traffic control
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/// treats flows of this type with the same priority as BESTEFFORT traffic on the local computer. However, application
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/// programmers can get boosted priority for such flows by modifying the Layer 2 settings on the associated flow using the
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/// QOS_TRAFFIC_CLASS QOS object.
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/// </summary>
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SERVICETYPE_QUALITATIVE = 0x0000000D,
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/// <summary>Indicates that traffic control should not be invoked in the specified direction.</summary>
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SERVICE_NO_TRAFFIC_CONTROL = 0x81000000,
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/// <summary>Suppresses RSVP signaling in the specified direction.</summary>
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SERVICE_NO_QOS_SIGNALING = 0x40000000
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}
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/// <summary>
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/// <para>
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/// The <c>FLOWSPEC</c> structure provides quality of service parameters to the RSVP SP. This allows QOS-aware applications to
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/// invoke, modify, or remove QOS settings for a given flow. Some members of <c>FLOWSPEC</c> can be set to default values. See
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/// Remarks for more information.
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/// </para>
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/// </summary>
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/// <remarks>
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/// <para>
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/// Many members of the <c>FLOWSPEC</c> structure can be set to default values by setting the member to QOS_NOT_SPECIFIED. Note that
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/// the members that can be set to default values differ depending on whether the <c>FLOWSPEC</c> is a receiving <c>FLOWSPEC</c> or a
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/// sending <c>FLOWSPEC</c>.
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/// </para>
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/// <para>There are a handful of considerations you should keep in mind when using <c>FLOWSPEC</c> with traffic control:</para>
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/// <list type="bullet">
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/// <item>
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/// <term>
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/// <c>TokenRate</c> can be QOS_NOT_SPECIFIED for SERVICETYPE_NETWORKCONTROL, SERVICETYPE_QUALITATIVE, and SERVICETYPE_BESTEFFORT.
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/// <c>TokenRate</c> must be valid for all other <c>ServiceType</c> values.
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/// </term>
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/// </item>
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/// <item>
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/// <term>If <c>PeakBandwidth</c> is specified, it must be greater than or equal to <c>TokenRate</c>.</term>
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/// </item>
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/// </list>
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/// <para>Many settings can be defaulted in a receiving <c>FLOWSPEC</c> except <c>ServiceType</c>, with the following considerations:</para>
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/// <list type="bullet">
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/// <item>
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/// <term>For a Controlled Load Service receiver, the default values are derived from the sender <c>TSPEC</c>.</term>
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/// </item>
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/// <item>
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/// <term>For a Guaranteed Service receiver, <c>ServiceType</c> and <c>TokenRate</c> must be specified.</term>
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/// </item>
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/// </list>
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/// <para>
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/// The following list specifies the values that are applied when a receiving <c>FLOWSPEC</c> sets the corresponding values to default:
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/// </para>
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/// <para>When the value of the <c>ServiceType</c> is set to SERVICETYPE_GUARANTEED, the following also applies:</para>
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/// <list type="bullet">
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/// <item>
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/// <term>The RATE value in <c>RSPEC</c> is set to the value of TokenRate.</term>
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/// </item>
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/// <item>
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/// <term>The DELAYSLACKTERM value in <c>RSPEC</c> is set to DelayVariation, which is set to zero if DelayVariation is set to QOS_NOT_SPECIFIED.</term>
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/// </item>
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/// <item>
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/// <term>
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/// For receivers requesting SERVICETYPE_GUARANTEED, the receiving TokenRate must be specified. This contrasts with a
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/// SERVICETYPE_CONTROLLEDLOAD receiver, for which TokenRate may be set to QOS_NOT_SPECIFIED.
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/// </term>
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/// </item>
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/// </list>
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/// <para>
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/// In a sending <c>FLOWSPEC</c>, everything can be defaulted except <c>ServiceType</c> and <c>TokenRate</c>. The following list
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/// specifies the values that are applied when a sending <c>FLOWSPEC</c> sets the corresponding values to default:
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/// </para>
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/// <para>
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/// <c>Traffic Control:</c> The following <c>ServiceType</c> s are invalid when specifically working with Traffic Control. If you are
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/// unsure whether you are working directly with Traffic Control (and thereby need to be concerned about whether the following
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/// <c>ServiceType</c> s are applicable in your situation), you probably are not:
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/// </para>
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/// </remarks>
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// https://docs.microsoft.com/en-us/windows/desktop/api/qos/ns-qos-_flowspec typedef struct _flowspec { ULONG TokenRate; ULONG
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// TokenBucketSize; ULONG PeakBandwidth; ULONG Latency; ULONG DelayVariation; SERVICETYPE ServiceType; ULONG MaxSduSize; ULONG
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// MinimumPolicedSize; } FLOWSPEC, *PFLOWSPEC, *LPFLOWSPEC;
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[PInvokeData("qos.h", MSDNShortId = "268e0d3a-2b04-40fd-91eb-f1780236b3e4")]
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[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Auto)]
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public struct FLOWSPEC
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{
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/// <summary>
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/// <para>
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/// Specifies the permitted rate at which data can be transmitted over the life of the flow. The <c>TokenRate</c> member is
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/// similar to other token bucket models seen in such WAN technologies as Frame Relay, in which the token is analogous to a
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/// credit. If such tokens are not used immediately, they accrue to allow data transmission up to a certain periodic limit (
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/// <c>PeakBandwidth</c>, in the case of Windows 2000 quality of service). Accrual of credits is limited, however, to a specified
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/// amount ( <c>TokenBucketSize</c>). Limiting total credits (tokens) avoids situations where, for example, flows that are
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/// inactive for some time flood the available bandwidth with their large amount of accrued tokens. Because flows may accrue
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/// transmission credits over time (at their <c>TokenRate</c> value) only up to the maximum of their <c>TokenBucketSize</c>, and
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/// because they are limited in burst transmissions to their <c>PeakBandwidth</c>, traffic control and network-device resource
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/// integrity are maintained. Traffic control is maintained because flows cannot send too much data at once, and network-device
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/// resource integrity is maintained because such devices are spared high traffic bursts.
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/// </para>
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/// <para>
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/// With this model, applications can transmit data only when sufficient credits are available. If sufficient credits are not
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/// available, the application must either wait or discard the traffic (based on the value of QOS_SD_MODE). Therefore, it is
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/// important that applications base their <c>TokenRate</c> requests on reasonable expectations for transmission requirements.
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/// For example, in video applications, <c>TokenRate</c> is typically set to the average bit rate from peak to peak.
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/// </para>
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/// <para>
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/// If <c>TokenRate</c> is set to QOS_NOT_SPECIFIED on the receiver only, the maximum transmission unit (MTU) is used for
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/// <c>TokenRate</c>, and limits on the transmission rate (the token bucket model) will not be put into effect. Thus,
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/// <c>TokenRate</c> is expressed in bytes per second.
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/// </para>
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/// <para>
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/// The <c>TokenRate</c> member cannot be set to zero. Nor can it be set as a default (that is, set to QOS_NOT_SPECIFIED) in a
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/// sending <c>FLOWSPEC</c>.
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/// </para>
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/// </summary>
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public uint TokenRate;
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/// <summary>
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/// <para>
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/// The maximum amount of credits a given direction of a flow can accrue, regardless of time, in bytes. In video applications,
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/// <c>TokenBucketSize</c> will likely be the largest average frame size. In constant rate applications, <c>TokenBucketSize</c>
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/// should be set to allow for small variations.
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/// </para>
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/// </summary>
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public uint TokenBucketSize;
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/// <summary>
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/// <para>
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/// The upper limit on time-based transmission permission for a given flow, in bytes per second. The <c>PeakBandwidth</c> member
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/// restricts flows that may have accrued a significant amount of transmission credits, or tokens from overburdening network
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/// resources with one-time or cyclical data bursts, by enforcing a per-second data transmission ceiling. Some intermediate
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/// systems can take advantage of this information, resulting in more efficient resource allocation.
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/// </para>
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/// </summary>
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public uint PeakBandwidth;
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/// <summary>
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/// <para>
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/// Maximum acceptable delay between transmission of a bit by the sender and its receipt by one or more intended receivers, in
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/// microseconds. The precise interpretation of this number depends on the level of guarantee specified in the QOS request.
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/// </para>
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/// </summary>
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public uint Latency;
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/// <summary>
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/// <para>
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/// Difference between the maximum and minimum possible delay a packet will experience, in microseconds. Applications use
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/// <c>DelayVariation</c> to determine the amount of buffer space needed at the receiving end of the flow. This buffer space
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/// information can be used to restore the original data transmission pattern.
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/// </para>
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/// </summary>
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public uint DelayVariation;
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/// <summary>
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/// <para>
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/// Specifies the level of service to negotiate for the flow. The <c>ServiceType</c> member can be one of the following defined
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/// service types.
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/// </para>
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/// <list type="table">
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/// <listheader>
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/// <term>Value</term>
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/// <term>Meaning</term>
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/// </listheader>
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/// <item>
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/// <term>SERVICETYPE_NOTRAFFIC</term>
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/// <term>
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/// Indicates that no traffic will be transmitted in the specified direction. On duplex-capable media, this value signals
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/// underlying software to set up unidirectional connections only. This service type is not valid for the TC API.
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/// </term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_BESTEFFORT</term>
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/// <term>
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/// Results in no action taken by the RSVP SP. Traffic control does create a BESTEFFORT flow, however, and traffic on the flow
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/// will be handled by traffic control similarly to other BESTEFFORT traffic.
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/// </term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_CONTROLLEDLOAD</term>
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/// <term>
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/// Provides an end-to-end QOS that closely approximates transmission quality provided by best-effort service, as expected under
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/// unloaded conditions from the associated network components along the data path. Applications that use
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/// SERVICETYPE_CONTROLLEDLOAD may therefore assume the following:
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/// </term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_GUARANTEED</term>
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/// <term>
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/// Guarantees that datagrams will arrive within the guaranteed delivery time and will not be discarded due to queue overflows,
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/// provided the flow's traffic stays within its specified traffic parameters. This service is intended for applications that
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/// need a firm guarantee that a datagram will arrive no later than a certain time after it was transmitted by its source.
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/// </term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_QUALITATIVE</term>
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/// <term>
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/// Indicates that the application requires better than BESTEFFORT transmission, but cannot quantify its transmission
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/// requirements. Applications that use SERVICETYPE_QUALITATIVE can supply an application identifier policy object. The
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/// application identification policy object enables policy servers on the network to identify the application, and accordingly,
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/// assign an appropriate quality of service to the request. For more information on application identification, consult the IETF
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/// Internet Draft draft-ietf-rap-rsvp-appid-00.txt, or the Microsoft white paper on Application Identification. Traffic control
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/// treats flows of this type with the same priority as BESTEFFORT traffic on the local computer. However, application
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/// programmers can get boosted priority for such flows by modifying the Layer 2 settings on the associated flow using the
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/// QOS_TRAFFIC_CLASS QOS object.
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/// </term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_NETWORK_UNAVAILBLE</term>
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/// <term>Used to notify network changes.</term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_NETWORK_CONTROL</term>
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/// <term>
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/// Used only for transmission of control packets (such as RSVP signaling messages). This ServiceType has the highest priority.
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/// </term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_GENERAL_INFORMATION</term>
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/// <term>Specifies that all service types are supported for a flow. Can be used on sender side only.</term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_NOCHANGE</term>
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/// <term>
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/// Indicates that the quality of service in the transmission using this ServiceType value is not changed. SERVICETYPE_NOCHANGE
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/// can be used when requesting a change in the quality of service for one direction only, or when requesting a change only
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/// within the ProviderSpecific parameters of a QOS specification, and not in the SendingFlowspec or ReceivingFlowspec.
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/// </term>
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/// </item>
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/// <item>
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/// <term>SERVICETYPE_NONCONFORMING</term>
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/// <term>Used to indicate nonconforming traffic.</term>
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/// </item>
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/// <item>
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/// <term>SERVICE_NO_TRAFFIC_CONTROL</term>
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/// <term>Indicates that traffic control should not be invoked in the specified direction.</term>
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/// </item>
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/// <item>
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/// <term>SERVICE_NO_QOS_SIGNALING</term>
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/// <term>Suppresses RSVP signaling in the specified direction.</term>
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/// </item>
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/// </list>
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/// <para>The following list identifies the relative priority of <c>ServiceType</c> settings:</para>
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/// <para>SERVICETYPE_NETWORK_CONTROL</para>
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/// <para>SERVICETYPE_GUARANTEED</para>
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/// <para>SERVICETYPE_CONTROLLED_LOAD</para>
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/// <para>SERVICETYPE_BESTEFFORT</para>
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/// <para>SERVICETYPE_QUALITATIVE</para>
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/// <para>Non-conforming traffic</para>
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/// <para>
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/// For a simple example, if a given network device were resource-bounded and had to choose among transmitting a packet from one
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/// of the above <c>ServiceType</c> settings, it would first send a packet of SERVICETYPE_NETWORKCONTROL, and if there were no
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/// packets of that <c>ServiceType</c> requiring transmission it would send a packet of <c>ServiceType</c>
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/// SERVICETYPE_GUARANTEED, and so on.
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/// </para>
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/// </summary>
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public SERVICETYPE ServiceType;
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/// <summary>
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/// <para>Specifies the maximum packet size permitted or used in the traffic flow, in bytes.</para>
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/// </summary>
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public uint MaxSduSize;
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/// <summary>
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/// <para>
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/// Specifies the minimum packet size for which the requested quality of service will be provided, in bytes. Packets smaller than
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/// this size are treated by traffic control as <c>MinimumPolicedSize</c>. When using the <c>FLOWSPEC</c> structure in
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/// association with RSVP, the value of <c>MinimumPolicedSize</c> cannot be zero; however, if you are using the <c>FLOWSPEC</c>
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/// structure specifically with the TC API, you can set <c>MinimumPolicedSize</c> to zero.
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/// </para>
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/// </summary>
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public uint MinimumPolicedSize;
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}
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}
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} |