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// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef QUICHE_HTTP2_HTTP2_CONSTANTS_H_
#define QUICHE_HTTP2_HTTP2_CONSTANTS_H_
// Constants from the HTTP/2 spec, RFC 7540, and associated helper functions.
#include <cstdint>
#include <iosfwd>
#include <ostream>
#include <string>
#include "common/platform/api/quiche_export.h"
namespace http2 {
// TODO(jamessynge): create http2_simple_types for types similar to
// SpdyStreamId, but not for structures like Http2FrameHeader. Then will be
// able to move these stream id functions there.
constexpr uint32_t UInt31Mask() {
return 0x7fffffff;
}
constexpr uint32_t StreamIdMask() {
return UInt31Mask();
}
// The value used to identify types of frames. Upper case to match the RFC.
// The comments indicate which flags are valid for that frame type.
// ALTSVC is defined in http://httpwg.org/http-extensions/alt-svc.html
// (not yet final standard as of March 2016, but close).
enum class Http2FrameType : uint8_t {
DATA = 0, // END_STREAM | PADDED
HEADERS = 1, // END_STREAM | END_HEADERS | PADDED | PRIORITY
PRIORITY = 2, //
RST_STREAM = 3, //
SETTINGS = 4, // ACK
PUSH_PROMISE = 5, // END_HEADERS | PADDED
PING = 6, // ACK
GOAWAY = 7, //
WINDOW_UPDATE = 8, //
CONTINUATION = 9, // END_HEADERS
ALTSVC = 10, //
};
// Is the frame type known/supported?
inline bool IsSupportedHttp2FrameType(uint32_t v) {
return v <= static_cast<uint32_t>(Http2FrameType::ALTSVC);
}
inline bool IsSupportedHttp2FrameType(Http2FrameType v) {
return IsSupportedHttp2FrameType(static_cast<uint32_t>(v));
}
// The return type is 'std::string' so that they can generate a unique string
// for each unsupported value. Since these are just used for debugging/error
// messages, that isn't a cost to we need to worry about. The same applies to
// the functions later in this file.
QUICHE_EXPORT_PRIVATE std::string Http2FrameTypeToString(Http2FrameType v);
QUICHE_EXPORT_PRIVATE std::string Http2FrameTypeToString(uint8_t v);
QUICHE_EXPORT_PRIVATE inline std::ostream& operator<<(std::ostream& out,
Http2FrameType v) {
return out << Http2FrameTypeToString(v);
}
// Flags that appear in supported frame types. These are treated as bit masks.
// The comments indicate for which frame types the flag is valid.
enum Http2FrameFlag {
END_STREAM = 0x01, // DATA, HEADERS
ACK = 0x01, // SETTINGS, PING
END_HEADERS = 0x04, // HEADERS, PUSH_PROMISE, CONTINUATION
PADDED = 0x08, // DATA, HEADERS, PUSH_PROMISE
PRIORITY = 0x20, // HEADERS
};
// Formats zero or more flags for the specified type of frame. Returns an
// empty string if flags==0.
QUICHE_EXPORT_PRIVATE std::string Http2FrameFlagsToString(Http2FrameType type,
uint8_t flags);
QUICHE_EXPORT_PRIVATE std::string Http2FrameFlagsToString(uint8_t type,
uint8_t flags);
// Error codes for GOAWAY and RST_STREAM frames.
enum class Http2ErrorCode : uint32_t {
// The associated condition is not a result of an error. For example, a GOAWAY
// might include this code to indicate graceful shutdown of a connection.
HTTP2_NO_ERROR = 0x0,
// The endpoint detected an unspecific protocol error. This error is for use
// when a more specific error code is not available.
PROTOCOL_ERROR = 0x1,
// The endpoint encountered an unexpected internal error.
INTERNAL_ERROR = 0x2,
// The endpoint detected that its peer violated the flow-control protocol.
FLOW_CONTROL_ERROR = 0x3,
// The endpoint sent a SETTINGS frame but did not receive a response in a
// timely manner. See Section 6.5.3 ("Settings Synchronization").
SETTINGS_TIMEOUT = 0x4,
// The endpoint received a frame after a stream was half-closed.
STREAM_CLOSED = 0x5,
// The endpoint received a frame with an invalid size.
FRAME_SIZE_ERROR = 0x6,
// The endpoint refused the stream prior to performing any application
// processing (see Section 8.1.4 for details).
REFUSED_STREAM = 0x7,
// Used by the endpoint to indicate that the stream is no longer needed.
CANCEL = 0x8,
// The endpoint is unable to maintain the header compression context
// for the connection.
COMPRESSION_ERROR = 0x9,
// The connection established in response to a CONNECT request (Section 8.3)
// was reset or abnormally closed.
CONNECT_ERROR = 0xa,
// The endpoint detected that its peer is exhibiting a behavior that might
// be generating excessive load.
ENHANCE_YOUR_CALM = 0xb,
// The underlying transport has properties that do not meet minimum
// security requirements (see Section 9.2).
INADEQUATE_SECURITY = 0xc,
// The endpoint requires that HTTP/1.1 be used instead of HTTP/2.
HTTP_1_1_REQUIRED = 0xd,
};
// Is the error code supported? (So far that means it is in RFC 7540.)
inline bool IsSupportedHttp2ErrorCode(uint32_t v) {
return v <= static_cast<uint32_t>(Http2ErrorCode::HTTP_1_1_REQUIRED);
}
inline bool IsSupportedHttp2ErrorCode(Http2ErrorCode v) {
return IsSupportedHttp2ErrorCode(static_cast<uint32_t>(v));
}
// Format the specified error code.
QUICHE_EXPORT_PRIVATE std::string Http2ErrorCodeToString(uint32_t v);
QUICHE_EXPORT_PRIVATE std::string Http2ErrorCodeToString(Http2ErrorCode v);
QUICHE_EXPORT_PRIVATE inline std::ostream& operator<<(std::ostream& out,
Http2ErrorCode v) {
return out << Http2ErrorCodeToString(v);
}
// Supported parameters in SETTINGS frames; so far just those in RFC 7540.
enum class Http2SettingsParameter : uint16_t {
// Allows the sender to inform the remote endpoint of the maximum size of the
// header compression table used to decode header blocks, in octets. The
// encoder can select any size equal to or less than this value by using
// signaling specific to the header compression format inside a header block
// (see [COMPRESSION]). The initial value is 4,096 octets.
HEADER_TABLE_SIZE = 0x1,
// This setting can be used to disable server push (Section 8.2). An endpoint
// MUST NOT send a PUSH_PROMISE frame if it receives this parameter set to a
// value of 0. An endpoint that has both set this parameter to 0 and had it
// acknowledged MUST treat the receipt of a PUSH_PROMISE frame as a connection
// error (Section 5.4.1) of type PROTOCOL_ERROR.
//
// The initial value is 1, which indicates that server push is permitted. Any
// value other than 0 or 1 MUST be treated as a connection error (Section
// 5.4.1) of type PROTOCOL_ERROR.
ENABLE_PUSH = 0x2,
// Indicates the maximum number of concurrent streams that the sender will
// allow. This limit is directional: it applies to the number of streams that
// the sender permits the receiver to create. Initially, there is no limit to
// this value. It is recommended that this value be no smaller than 100, so as
// to not unnecessarily limit parallelism.
//
// A value of 0 for MAX_CONCURRENT_STREAMS SHOULD NOT be treated as
// special by endpoints. A zero value does prevent the creation of new
// streams; however, this can also happen for any limit that is exhausted with
// active streams. Servers SHOULD only set a zero value for short durations;
// if a server does not wish to accept requests, closing the connection is
// more appropriate.
MAX_CONCURRENT_STREAMS = 0x3,
// Indicates the sender's initial window size (in octets) for stream-level
// flow control. The initial value is 2^16-1 (65,535) octets.
//
// This setting affects the window size of all streams (see Section 6.9.2).
//
// Values above the maximum flow-control window size of 2^31-1 MUST be treated
// as a connection error (Section 5.4.1) of type FLOW_CONTROL_ERROR.
INITIAL_WINDOW_SIZE = 0x4,
// Indicates the size of the largest frame payload that the sender is willing
// to receive, in octets.
//
// The initial value is 2^14 (16,384) octets. The value advertised by an
// endpoint MUST be between this initial value and the maximum allowed frame
// size (2^24-1 or 16,777,215 octets), inclusive. Values outside this range
// MUST be treated as a connection error (Section 5.4.1) of type
// PROTOCOL_ERROR.
MAX_FRAME_SIZE = 0x5,
// This advisory setting informs a peer of the maximum size of header list
// that the sender is prepared to accept, in octets. The value is based on the
// uncompressed size of header fields, including the length of the name and
// value in octets plus an overhead of 32 octets for each header field.
//
// For any given request, a lower limit than what is advertised MAY be
// enforced. The initial value of this setting is unlimited.
MAX_HEADER_LIST_SIZE = 0x6,
};
// Is the settings parameter supported (so far that means it is in RFC 7540)?
inline bool IsSupportedHttp2SettingsParameter(uint32_t v) {
return 0 < v && v <= static_cast<uint32_t>(
Http2SettingsParameter::MAX_HEADER_LIST_SIZE);
}
inline bool IsSupportedHttp2SettingsParameter(Http2SettingsParameter v) {
return IsSupportedHttp2SettingsParameter(static_cast<uint32_t>(v));
}
// Format the specified settings parameter.
QUICHE_EXPORT_PRIVATE std::string Http2SettingsParameterToString(uint32_t v);
QUICHE_EXPORT_PRIVATE std::string Http2SettingsParameterToString(
Http2SettingsParameter v);
inline std::ostream& operator<<(std::ostream& out, Http2SettingsParameter v) {
return out << Http2SettingsParameterToString(v);
}
// Information about the initial, minimum and maximum value of settings (not
// applicable to all settings parameters).
class Http2SettingsInfo {
public:
// Default value for HEADER_TABLE_SIZE.
static constexpr uint32_t DefaultHeaderTableSize() { return 4096; }
// Default value for ENABLE_PUSH.
static constexpr bool DefaultEnablePush() { return true; }
// Default value for INITIAL_WINDOW_SIZE.
static constexpr uint32_t DefaultInitialWindowSize() { return 65535; }
// Maximum value for INITIAL_WINDOW_SIZE, and for the connection flow control
// window, and for each stream flow control window.
static constexpr uint32_t MaximumWindowSize() { return UInt31Mask(); }
// Default value for MAX_FRAME_SIZE.
static constexpr uint32_t DefaultMaxFrameSize() { return 16384; }
// Minimum value for MAX_FRAME_SIZE.
static constexpr uint32_t MinimumMaxFrameSize() { return 16384; }
// Maximum value for MAX_FRAME_SIZE.
static constexpr uint32_t MaximumMaxFrameSize() { return (1 << 24) - 1; }
};
} // namespace http2
#endif // QUICHE_HTTP2_HTTP2_CONSTANTS_H_