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/**
* @file httpcommon.h
* @brief Public-facing declarations and definitions of common types
*
* $LicenseInfo:firstyear=2012&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2012-2013, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#ifndef _LLCORE_HTTP_COMMON_H_
#define _LLCORE_HTTP_COMMON_H_
/// @package LLCore::HTTP
///
/// This library implements a high-level, Indra-code-free (somewhat) client
/// interface to HTTP services based on actual patterns found in the viewer
/// and simulator. Interfaces are similar to those supplied by the legacy classes
/// LLCurlRequest and LLHTTPClient. To that is added a policy scheme that
/// allows an application to specify connection behaviors: limits on
/// connections, HTTP keepalive, HTTP pipelining, retry-on-error limits, etc.
///
/// Features of the library include:
/// - Single, private working thread where all transport and processing occurs.
/// - Support for multiple consumers running in multiple threads.
/// - Scatter/gather (a.k.a. buffer array) model for bulk data movement.
/// - Reference counting used for many object instance lifetimes.
/// - Minimal data sharing across threads for correctness and low latency.
///
/// The public interface is declared in a few key header files:
/// - "llcorehttp/bufferarray.h"
/// - "llcorehttp/httpcommon.h"
/// - "llcorehttp/httphandler.h"
/// - "llcorehttp/httpheaders.h"
/// - "llcorehttp/httpoptions.h"
/// - "llcorehttp/httprequest.h"
/// - "llcorehttp/httpresponse.h"
///
/// The library is still under development and particular users
/// may need access to internal implementation details that are found
/// in the _*.h header files. But this is a crutch to be avoided if at
/// all possible and probably indicates some interface work is neeeded.
///
/// Using the library is fairly easy. Global setup needs a few
/// steps:
///
/// - libcurl initialization including thread-safely callbacks for SSL:
/// . curl_global_init(...)
/// . CRYPTO_set_locking_callback(...)
/// . CRYPTO_set_id_callback(...)
/// - HttpRequest::createService() called to instantiate singletons
/// and support objects.
/// - HttpRequest::startThread() to kick off the worker thread and
/// begin servicing requests.
///
/// An HTTP consumer in an application, and an application may have many
/// consumers, does a few things:
///
/// - Instantiate and retain an object based on HttpRequest. This
/// object becomes the portal into runtime services for the consumer.
/// - Derive or mixin the HttpHandler class if you want notification
/// when requests succeed or fail. This object's onCompleted()
/// method is invoked and an instance can be shared across
/// requests.
///
/// Issuing a request is straightforward:
/// - Construct a suitable URL.
/// - Configure HTTP options for the request. (optional)
/// - Build a list of additional headers. (optional)
/// - Invoke one of the requestXXXX() methods (requestGetByteRange,
/// requestPost, etc.) on the HttpRequest instance supplying the
/// above along with a policy class, a priority and an optional
/// pointer to an HttpHandler instance. Work is then queued to
/// the worker thread and occurs asynchronously.
/// - Periodically invoke the update() method on the HttpRequest
/// instance which performs completion notification to HttpHandler
/// objects.
/// - Do completion processing in your onCompletion() method.
///
/// Code fragments.
///
/// Initialization. Rather than a poorly-maintained example in
/// comments, look in the example subdirectory which is a minimal
/// yet functional tool to do GET request performance testing.
/// With four calls:
///
/// init_curl();
/// LLCore::HttpRequest::createService();
/// LLCore::HttpRequest::startThread();
/// LLCore::HttpRequest * hr = new LLCore::HttpRequest();
///
/// the program is basically ready to issue requests.
///
/// HttpHandler. Having started life as a non-indra library,
/// this code broke away from the classic Responder model and
/// introduced a handler class to represent an interface for
/// request responses. This is a non-reference-counted entity
/// which can be used as a base class or a mixin. An instance
/// of a handler can be used for each request or can be shared
/// among any number of requests. Your choice but expect to
/// code something like the following:
///
/// class AppHandler : public LLCore::HttpHandler
/// {
/// public:
/// virtual void onCompleted(HttpHandle handle,
/// HttpResponse * response)
/// {
/// ...
/// }
/// ...
/// };
/// ...
/// handler = new handler(...);
///
///
/// Issuing requests. Using 'hr' above,
///
/// hr->requestGet(HttpRequest::DEFAULT_POLICY_ID,
/// 0, // Priority, not used yet
/// url,
/// NULL, // options
/// NULL, // additional headers
/// handler);
///
/// If that returns a value other than LLCORE_HTTP_HANDLE_INVALID,
/// the request was successfully issued and there will eventally
/// be a status delivered to the handler. If invalid is returnedd,
/// the actual status can be retrieved by calling hr->getStatus().
///
/// Completing requests and delivering notifications. Operations
/// are all performed by the worker thread and will be driven to
/// completion regardless of caller actions. Notification of
/// completion (success or failure) is done by calls to
/// HttpRequest::update() which will invoke handlers for completed
/// requests:
///
/// hr->update(0);
/// // Callbacks into handler->onCompleted()
///
///
/// Threads.
///
/// Threads are supported and used by this library. The various
/// classes, methods and members are documented with thread
/// constraints which programmers must follow and which are
/// defined as follows:
///
/// consumer Any thread that has instanced HttpRequest and is
/// issuing requests. A particular instance can only
/// be used by one consumer thread but a consumer may
/// have many instances available to it.
/// init Special consumer thread, usually the main thread,
/// involved in setting up the library at startup.
/// worker Thread used internally by the library to perform
/// HTTP operations. Consumers will not have to deal
/// with this thread directly but some APIs are reserved
/// to it.
/// any Consumer or worker thread.
///
/// For the most part, API users will not have to do much in the
/// way of ensuring thread safely. However, there is a tremendous
/// amount of sharing between threads of read-only data. So when
/// documentation declares that an option or header instance
/// becomes shared between consumer and worker, the consumer must
/// not modify the shared object.
///
/// Internally, there is almost no thread synchronization. During
/// normal operations (non-init, non-term), only the request queue
/// and the multiple reply queues are shared between threads and
/// only here are mutexes used.
///
#include "linden_common.h" // Modifies curl/curl.h interfaces
#include "boost/intrusive_ptr.hpp"
#include "boost/shared_ptr.hpp"
#include <string>
namespace LLCore
{
/// All queued requests are represented by an HttpHandle value.
/// The invalid value is returned when a request failed to queue.
/// The actual status for these failures is then fetched with
/// HttpRequest::getStatus().
///
/// The handle is valid only for the life of a request. On
/// return from any HttpHandler notification, the handle immediately
/// becomes invalid and may be recycled for other queued requests.
typedef void * HttpHandle;
#define LLCORE_HTTP_HANDLE_INVALID (NULL)
/// For internal scheduling and metrics, we use a microsecond
/// timebase compatible with the environment.
typedef U64 HttpTime;
/// Error codes defined by the library itself as distinct from
/// libcurl (or any other transport provider).
enum HttpError
{
// Successful value compatible with the libcurl codes.
HE_SUCCESS = 0,
// Intended for HTTP reply codes 100-999, indicates that
// the reply should be considered an error by the application.
HE_REPLY_ERROR = 1,
// Service is shutting down and requested operation will
// not be queued or performed.
HE_SHUTTING_DOWN = 2,
// Operation was canceled by request.
HE_OP_CANCELED = 3,
// Invalid content range header received.
HE_INV_CONTENT_RANGE_HDR = 4,
// Request handle not found
HE_HANDLE_NOT_FOUND = 5,
// Invalid datatype for option/setting
HE_INVALID_ARG = 6,
// Option hasn't been explicitly set
HE_OPT_NOT_SET = 7,
// Option not dynamic, must be set during init phase
HE_OPT_NOT_DYNAMIC = 8,
// Invalid HTTP status code returned by server
HE_INVALID_HTTP_STATUS = 9,
// Couldn't allocate resource, typically libcurl handle
HE_BAD_ALLOC = 10
}; // end enum HttpError
/// HttpStatus encapsulates errors from libcurl (easy, multi), HTTP
/// reply status codes and internal errors as well. The encapsulation
/// isn't expected to completely isolate the caller from libcurl but
/// basic operational tests (success or failure) are provided.
///
/// Non-HTTP status are encoded as (type, status) with type being
/// one of: EXT_CURL_EASY, EXT_CURL_MULTI or LLCORE and status
/// being the success/error code from that domain. HTTP status
/// is encoded as (status, error_flag). Status should be in the
/// range [100, 999] and error_flag is either HE_SUCCESS or
/// HE_REPLY_ERROR to indicate whether this should be treated as
/// a successful status or an error. The application is responsible
/// for making that determination and a range like [200, 299] isn't
/// automatically assumed to be definitive.
///
/// Examples:
///
/// 1. Construct a default, successful status code:
/// HttpStatus();
///
/// 2. Construct a successful, HTTP 200 status code:
/// HttpStatus(200);
///
/// 3. Construct a failed, HTTP 404 not-found status code:
/// HttpStatus(404);
///
/// 4. Construct a failed libcurl couldn't connect status code:
/// HttpStatus(HttpStatus::EXT_CURL_EASY, CURLE_COULDNT_CONNECT);
///
/// 5. Construct an HTTP 301 status code to be treated as success:
/// HttpStatus(301, HE_SUCCESS);
///
/// 6. Construct a failed status of HTTP Status 499 with a custom error message
/// HttpStatus(499, "Failed LLSD Response");
struct HttpStatus
{
typedef unsigned short type_enum_t;
HttpStatus()
{
mDetails = new Details(LLCORE, HE_SUCCESS);
}
HttpStatus(type_enum_t type, short status)
{
mDetails = new Details(type, status);
}
HttpStatus(int http_status)
{
mDetails = new Details(http_status,
(http_status >= 200 && http_status <= 299) ? HE_SUCCESS : HE_REPLY_ERROR);
llassert(http_status >= 100 && http_status <= 999);
}
HttpStatus(int http_status, const std::string &message)
{
mDetails = new Details(http_status,
(http_status >= 200 && http_status <= 299) ? HE_SUCCESS : HE_REPLY_ERROR);
llassert(http_status >= 100 && http_status <= 999);
mDetails->mMessage = message;
}
HttpStatus(const HttpStatus & rhs)
{
mDetails = new Details(*rhs.mDetails);
}
~HttpStatus()
{
delete mDetails;
}
HttpStatus & operator=(const HttpStatus & rhs)
{
// Don't care if lhs & rhs are the same object
mDetails->mType = rhs.mDetails->mType;
mDetails->mStatus = rhs.mDetails->mStatus;
mDetails->mMessage = rhs.mDetails->mMessage;
mDetails->mErrorData = rhs.mDetails->mErrorData;
return *this;
}
static const type_enum_t EXT_CURL_EASY = 0; ///< mStatus is an error from a curl_easy_*() call
static const type_enum_t EXT_CURL_MULTI = 1; ///< mStatus is an error from a curl_multi_*() call
static const type_enum_t LLCORE = 2; ///< mStatus is an HE_* error code
///< 100-999 directly represent HTTP status codes
/// Test for successful status in the code regardless
/// of error source (internal, libcurl).
///
/// @return 'true' when status is successful.
///
operator bool() const
{
return 0 == mDetails->mStatus;
}
/// Inverse of previous operator.
///
/// @return 'true' on any error condition
bool operator !() const
{
return 0 != mDetails->mStatus;
}
/// Equality and inequality tests to bypass bool conversion
/// which will do the wrong thing in conditional expressions.
bool operator==(const HttpStatus & rhs) const
{
return (mDetails->mType == rhs.mDetails->mType) &&
(mDetails->mStatus == rhs.mDetails->mStatus);
}
bool operator!=(const HttpStatus & rhs) const
{
return ! operator==(rhs);
}
/// Convert to single numeric representation. Mainly
/// for logging or other informal purposes. Also
/// creates an ambiguous second path to integer conversion
/// which tends to find programming errors such as formatting
/// the status to a stream (operator<<).
operator unsigned long() const;
unsigned long toULong() const
{
return operator unsigned long();
}
/// And to convert to a hex string.
std::string toHex() const;
/// Convert status to a string representation. For
/// success, returns an empty string. For failure
/// statuses, a string as appropriate for the source of
/// the error code (libcurl easy, libcurl multi, or
/// LLCore itself).
std::string toString() const;
/// Convert status to a compact string representation
/// of the form: "<type>_<value>". The <type> will be
/// one of: Core, Http, Easy, Multi, Unknown. And
/// <value> will be an unsigned integer. More easily
/// interpreted than the hex representation, it's still
/// compact and easily searched.
std::string toTerseString() const;
/// Returns true if the status value represents an
/// HTTP response status (100 - 999).
bool isHttpStatus() const
{
return mDetails->mType >= type_enum_t(100) && mDetails->mType <= type_enum_t(999);
}
/// Returns true if the status is one that will be retried
/// internally. Provided for external consumption for cases
/// where that logic needs to be replicated. Only applies
/// to failed statuses, successful statuses will return false.
bool isRetryable() const;
/// Returns the currently set status code as a raw number
///
short getStatus() const
{
return mDetails->mStatus;
}
/// Returns the currently set status type
///
type_enum_t getType() const
{
return mDetails->mType;
}
/// Returns an optional error message if one has been set.
///
std::string getMessage() const
{
return mDetails->mMessage;
}
/// Sets an optional error message
///
void setMessage(const std::string &message)
{
mDetails->mMessage = message;
}
/// Retrieves an optionally recorded SSL certificate.
void * getErrorData() const
{
return mDetails->mErrorData;
}
/// Optionally sets an SSL certificate on this status.
void setErrorData(void *data)
{
mDetails->mErrorData = data;
}
private:
struct Details
{
Details(type_enum_t type, short status):
mType(type),
mStatus(status),
mMessage(),
mErrorData(NULL)
{}
Details(const Details &rhs) :
mType(rhs.mType),
mStatus(rhs.mStatus),
mMessage(rhs.mMessage),
mErrorData(rhs.mErrorData)
{}
type_enum_t mType;
short mStatus;
std::string mMessage;
void * mErrorData;
};
//boost::unique_ptr<Details> mDetails;
Details * mDetails;
}; // end struct HttpStatus
} // end namespace LLCore
#endif // _LLCORE_HTTP_COMMON_H_
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