net/http/http_request_headers.h - cobalt - Git at Google

 // Copyright 2012 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //
 // HttpRequestHeaders manages the request headers.
 // It maintains these in a vector of header key/value pairs, thereby maintaining
 // the order of the headers.  This means that any lookups are linear time
 // operations.

 #ifndef NET_HTTP_HTTP_REQUEST_HEADERS_H_
 #define NET_HTTP_HTTP_REQUEST_HEADERS_H_

 #include <memory>
 #include <string>
 #include <vector>

 #include "base/containers/flat_set.h"
 #include "base/strings/string_piece.h"
 #include "base/values.h"
 #include "net/base/net_export.h"
 #include "net/filter/source_stream.h"
 #include "net/log/net_log_capture_mode.h"
 #include "third_party/abseil-cpp/absl/types/optional.h"
 #include "url/gurl.h"

 namespace net {

 class NET_EXPORT HttpRequestHeaders {
  public:
   struct NET_EXPORT HeaderKeyValuePair {
     HeaderKeyValuePair();
     HeaderKeyValuePair(base::StringPiece key, base::StringPiece value);
     HeaderKeyValuePair(base::StringPiece key, std::string&& value);
     // Inline to take advantage of the base::StringPiece constructor being
     // constexpr.
     HeaderKeyValuePair(base::StringPiece key, const char* value)
         : HeaderKeyValuePair(key, base::StringPiece(value)) {}

     std::string key;
     std::string value;
   };

   typedef std::vector<HeaderKeyValuePair> HeaderVector;

   class NET_EXPORT Iterator {
    public:
     explicit Iterator(const HttpRequestHeaders& headers);

     Iterator(const Iterator&) = delete;
     Iterator& operator=(const Iterator&) = delete;

     ~Iterator();

     // Advances the iterator to the next header, if any.  Returns true if there
     // is a next header.  Use name() and value() methods to access the resultant
     // header name and value.
     bool GetNext();

     // These two accessors are only valid if GetNext() returned true.
     const std::string& name() const { return curr_->key; }
     const std::string& value() const { return curr_->value; }

    private:
     bool started_ = false;
     HttpRequestHeaders::HeaderVector::const_iterator curr_;
     const HttpRequestHeaders::HeaderVector::const_iterator end_;
   };

   static const char kConnectMethod[];
   static const char kDeleteMethod[];
   static const char kGetMethod[];
   static const char kHeadMethod[];
   static const char kOptionsMethod[];
   static const char kPatchMethod[];
   static const char kPostMethod[];
   static const char kPutMethod[];
   static const char kTraceMethod[];
   static const char kTrackMethod[];

   static const char kAccept[];
   static const char kAcceptCharset[];
   static const char kAcceptEncoding[];
   static const char kAcceptLanguage[];
   static const char kAuthorization[];
   static const char kCacheControl[];
   static const char kConnection[];
   static const char kContentType[];
   static const char kCookie[];
   static const char kContentLength[];
   static const char kHost[];
   static const char kIfMatch[];
   static const char kIfModifiedSince[];
   static const char kIfNoneMatch[];
   static const char kIfRange[];
   static const char kIfUnmodifiedSince[];
   static const char kOrigin[];
   static const char kPragma[];
   static const char kProxyAuthorization[];
   static const char kProxyConnection[];
   static const char kRange[];
   static const char kReferer[];
   static const char kTransferEncoding[];
   static const char kUserAgent[];

   HttpRequestHeaders();
   HttpRequestHeaders(const HttpRequestHeaders& other);
   HttpRequestHeaders(HttpRequestHeaders&& other);
   ~HttpRequestHeaders();

   HttpRequestHeaders& operator=(const HttpRequestHeaders& other);
   HttpRequestHeaders& operator=(HttpRequestHeaders&& other);

   bool IsEmpty() const { return headers_.empty(); }

   bool HasHeader(base::StringPiece key) const {
     return FindHeader(key) != headers_.end();
   }

   // Gets the first header that matches |key|.  If found, returns true and
   // writes the value to |out|.
   bool GetHeader(base::StringPiece key, std::string* out) const;

   // Clears all the headers.
   void Clear();

   // Sets the header value pair for |key| and |value|.  If |key| already exists,
   // then the header value is modified, but the key is untouched, and the order
   // in the vector remains the same.  When comparing |key|, case is ignored.
   // The caller must ensure that |key| passes HttpUtil::IsValidHeaderName() and
   // |value| passes HttpUtil::IsValidHeaderValue().
   void SetHeader(base::StringPiece key, base::StringPiece value);
   void SetHeader(base::StringPiece key, std::string&& value);
   // Inline to take advantage of the base::StringPiece constructor being
   // constexpr.
   void SetHeader(base::StringPiece key, const char* value) {
     SetHeader(key, base::StringPiece(value));
   }

   // Does the same as above but without internal DCHECKs for validations.
   void SetHeaderWithoutCheckForTesting(base::StringPiece key,
                                        base::StringPiece value);

   // Sets the header value pair for |key| and |value|, if |key| does not exist.
   // If |key| already exists, the call is a no-op.
   // When comparing |key|, case is ignored.
   //
   // The caller must ensure that |key| passes HttpUtil::IsValidHeaderName() and
   // |value| passes HttpUtil::IsValidHeaderValue().
   void SetHeaderIfMissing(base::StringPiece key, base::StringPiece value);

   // Removes the first header that matches (case insensitive) |key|.
   void RemoveHeader(base::StringPiece key);

   // Parses the header from a string and calls SetHeader() with it.  This string
   // should not contain any CRLF.  As per RFC7230 Section 3.2, the format is:
   //
   // header-field   = field-name ":" OWS field-value OWS
   //
   // field-name     = token
   // field-value    = *( field-content / obs-fold )
   // field-content  = field-vchar [ 1*( SP / HTAB ) field-vchar ]
   // field-vchar    = VCHAR / obs-text
   //
   // obs-fold       = CRLF 1*( SP / HTAB )
   //                ; obsolete line folding
   //                ; see Section 3.2.4
   //
   // AddHeaderFromString() will trim any LWS surrounding the
   // field-content.
   void AddHeaderFromString(base::StringPiece header_line);

   // Same thing as AddHeaderFromString() except that |headers| is a "\r\n"
   // delimited string of header lines.  It will split up the string by "\r\n"
   // and call AddHeaderFromString() on each.
   void AddHeadersFromString(base::StringPiece headers);

   // Calls SetHeader() on each header from |other|, maintaining order.
   void MergeFrom(const HttpRequestHeaders& other);

   // Copies from |other| to |this|.
   void CopyFrom(const HttpRequestHeaders& other) { *this = other; }

   void Swap(HttpRequestHeaders* other) { headers_.swap(other->headers_); }

   // Serializes HttpRequestHeaders to a string representation.  Joins all the
   // header keys and values with ": ", and inserts "\r\n" between each header
   // line, and adds the trailing "\r\n".
   std::string ToString() const;

   // Takes in the request line and returns a Value for use with the NetLog
   // containing both the request line and all headers fields.
   base::Value::Dict NetLogParams(const std::string& request_line,
                                  NetLogCaptureMode capture_mode) const;

   const HeaderVector& GetHeaderVector() const { return headers_; }

   // Sets Accept-Encoding header based on `url` and `accepted_stream_types`, if
   // it does not exist. "br" is appended only when `enable_brotli` is true.
   void SetAcceptEncodingIfMissing(
       const GURL& url,
       const absl::optional<base::flat_set<SourceStream::SourceType>>&
           accepted_stream_types,
       bool enable_brotli);

  private:
   HeaderVector::iterator FindHeader(base::StringPiece key);
   HeaderVector::const_iterator FindHeader(base::StringPiece key) const;

   void SetHeaderInternal(base::StringPiece key, std::string&& value);

   HeaderVector headers_;

   // Allow the copy construction and operator= to facilitate copying in
   // HttpRequestHeaders.
   // TODO(willchan): Investigate to see if we can remove the need to copy
   // HttpRequestHeaders.
   // DISALLOW_COPY_AND_ASSIGN(HttpRequestHeaders);
 };

 }  // namespace net

 #endif  // NET_HTTP_HTTP_REQUEST_HEADERS_H_
	// Copyright 2012 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//
	// HttpRequestHeaders manages the request headers.
	// It maintains these in a vector of header key/value pairs, thereby maintaining
	// the order of the headers. This means that any lookups are linear time
	// operations.

	#ifndef NET_HTTP_HTTP_REQUEST_HEADERS_H_
	#define NET_HTTP_HTTP_REQUEST_HEADERS_H_

	#include <memory>
	#include <string>
	#include <vector>

	#include "base/containers/flat_set.h"
	#include "base/strings/string_piece.h"
	#include "base/values.h"
	#include "net/base/net_export.h"
	#include "net/filter/source_stream.h"
	#include "net/log/net_log_capture_mode.h"
	#include "third_party/abseil-cpp/absl/types/optional.h"
	#include "url/gurl.h"

	namespace net {

	class NET_EXPORT HttpRequestHeaders {
	public:
	struct NET_EXPORT HeaderKeyValuePair {
	HeaderKeyValuePair();
	HeaderKeyValuePair(base::StringPiece key, base::StringPiece value);
	HeaderKeyValuePair(base::StringPiece key, std::string&& value);
	// Inline to take advantage of the base::StringPiece constructor being
	// constexpr.
	HeaderKeyValuePair(base::StringPiece key, const char* value)
	: HeaderKeyValuePair(key, base::StringPiece(value)) {}

	std::string key;
	std::string value;
	};

	typedef std::vector<HeaderKeyValuePair> HeaderVector;

	class NET_EXPORT Iterator {
	public:
	explicit Iterator(const HttpRequestHeaders& headers);

	Iterator(const Iterator&) = delete;
	Iterator& operator=(const Iterator&) = delete;

	~Iterator();

	// Advances the iterator to the next header, if any. Returns true if there
	// is a next header. Use name() and value() methods to access the resultant
	// header name and value.
	bool GetNext();

	// These two accessors are only valid if GetNext() returned true.
	const std::string& name() const { return curr_->key; }
	const std::string& value() const { return curr_->value; }

	private:
	bool started_ = false;
	HttpRequestHeaders::HeaderVector::const_iterator curr_;
	const HttpRequestHeaders::HeaderVector::const_iterator end_;
	};

	static const char kConnectMethod[];
	static const char kDeleteMethod[];
	static const char kGetMethod[];
	static const char kHeadMethod[];
	static const char kOptionsMethod[];
	static const char kPatchMethod[];
	static const char kPostMethod[];
	static const char kPutMethod[];
	static const char kTraceMethod[];
	static const char kTrackMethod[];

	static const char kAccept[];
	static const char kAcceptCharset[];
	static const char kAcceptEncoding[];
	static const char kAcceptLanguage[];
	static const char kAuthorization[];
	static const char kCacheControl[];
	static const char kConnection[];
	static const char kContentType[];
	static const char kCookie[];
	static const char kContentLength[];
	static const char kHost[];
	static const char kIfMatch[];
	static const char kIfModifiedSince[];
	static const char kIfNoneMatch[];
	static const char kIfRange[];
	static const char kIfUnmodifiedSince[];
	static const char kOrigin[];
	static const char kPragma[];
	static const char kProxyAuthorization[];
	static const char kProxyConnection[];
	static const char kRange[];
	static const char kReferer[];
	static const char kTransferEncoding[];
	static const char kUserAgent[];

	HttpRequestHeaders();
	HttpRequestHeaders(const HttpRequestHeaders& other);
	HttpRequestHeaders(HttpRequestHeaders&& other);
	~HttpRequestHeaders();

	HttpRequestHeaders& operator=(const HttpRequestHeaders& other);
	HttpRequestHeaders& operator=(HttpRequestHeaders&& other);

	bool IsEmpty() const { return headers_.empty(); }

	bool HasHeader(base::StringPiece key) const {
	return FindHeader(key) != headers_.end();
	}

	// Gets the first header that matches \|key\|. If found, returns true and
	// writes the value to \|out\|.
	bool GetHeader(base::StringPiece key, std::string* out) const;

	// Clears all the headers.
	void Clear();

	// Sets the header value pair for \|key\| and \|value\|. If \|key\| already exists,
	// then the header value is modified, but the key is untouched, and the order
	// in the vector remains the same. When comparing \|key\|, case is ignored.
	// The caller must ensure that \|key\| passes HttpUtil::IsValidHeaderName() and
	// \|value\| passes HttpUtil::IsValidHeaderValue().
	void SetHeader(base::StringPiece key, base::StringPiece value);
	void SetHeader(base::StringPiece key, std::string&& value);
	// Inline to take advantage of the base::StringPiece constructor being
	// constexpr.
	void SetHeader(base::StringPiece key, const char* value) {
	SetHeader(key, base::StringPiece(value));
	}

	// Does the same as above but without internal DCHECKs for validations.
	void SetHeaderWithoutCheckForTesting(base::StringPiece key,
	base::StringPiece value);

	// Sets the header value pair for \|key\| and \|value\|, if \|key\| does not exist.
	// If \|key\| already exists, the call is a no-op.
	// When comparing \|key\|, case is ignored.
	//
	// The caller must ensure that \|key\| passes HttpUtil::IsValidHeaderName() and
	// \|value\| passes HttpUtil::IsValidHeaderValue().
	void SetHeaderIfMissing(base::StringPiece key, base::StringPiece value);

	// Removes the first header that matches (case insensitive) \|key\|.
	void RemoveHeader(base::StringPiece key);

	// Parses the header from a string and calls SetHeader() with it. This string
	// should not contain any CRLF. As per RFC7230 Section 3.2, the format is:
	//
	// header-field = field-name ":" OWS field-value OWS
	//
	// field-name = token
	// field-value = *( field-content / obs-fold )
	// field-content = field-vchar [ 1*( SP / HTAB ) field-vchar ]
	// field-vchar = VCHAR / obs-text
	//
	// obs-fold = CRLF 1*( SP / HTAB )
	// ; obsolete line folding
	// ; see Section 3.2.4
	//
	// AddHeaderFromString() will trim any LWS surrounding the
	// field-content.
	void AddHeaderFromString(base::StringPiece header_line);

	// Same thing as AddHeaderFromString() except that \|headers\| is a "\r\n"
	// delimited string of header lines. It will split up the string by "\r\n"
	// and call AddHeaderFromString() on each.
	void AddHeadersFromString(base::StringPiece headers);

	// Calls SetHeader() on each header from \|other\|, maintaining order.
	void MergeFrom(const HttpRequestHeaders& other);

	// Copies from \|other\| to \|this\|.
	void CopyFrom(const HttpRequestHeaders& other) { *this = other; }

	void Swap(HttpRequestHeaders* other) { headers_.swap(other->headers_); }

	// Serializes HttpRequestHeaders to a string representation. Joins all the
	// header keys and values with ": ", and inserts "\r\n" between each header
	// line, and adds the trailing "\r\n".
	std::string ToString() const;

	// Takes in the request line and returns a Value for use with the NetLog
	// containing both the request line and all headers fields.
	base::Value::Dict NetLogParams(const std::string& request_line,
	NetLogCaptureMode capture_mode) const;

	const HeaderVector& GetHeaderVector() const { return headers_; }

	// Sets Accept-Encoding header based on `url` and `accepted_stream_types`, if
	// it does not exist. "br" is appended only when `enable_brotli` is true.
	void SetAcceptEncodingIfMissing(
	const GURL& url,
	const absl::optional<base::flat_set<SourceStream::SourceType>>&
	accepted_stream_types,
	bool enable_brotli);

	private:
	HeaderVector::iterator FindHeader(base::StringPiece key);
	HeaderVector::const_iterator FindHeader(base::StringPiece key) const;

	void SetHeaderInternal(base::StringPiece key, std::string&& value);

	HeaderVector headers_;

	// Allow the copy construction and operator= to facilitate copying in
	// HttpRequestHeaders.
	// TODO(willchan): Investigate to see if we can remove the need to copy
	// HttpRequestHeaders.
	// DISALLOW_COPY_AND_ASSIGN(HttpRequestHeaders);
	};

	} // namespace net

	#endif // NET_HTTP_HTTP_REQUEST_HEADERS_H_