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/**
* @file llxmlrpclistener.cpp
* @author Nat Goodspeed
* @date 2009-03-18
* @brief Implementation for llxmlrpclistener.
*
* $LicenseInfo:firstyear=2009&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, 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
* $/LicenseInfo$
*/
// Precompiled header
#include "llviewerprecompiledheaders.h"
// associated header
#include "llxmlrpclistener.h"
// STL headers
#include <map>
#include <set>
// std headers
// external library headers
#include <boost/scoped_ptr.hpp>
#include <boost/range.hpp> // boost::begin(), boost::end()
#include <xmlrpc-epi/xmlrpc.h>
#include "curl/curl.h"
// other Linden headers
#include "llerror.h"
#include "stringize.h"
#include "llxmlrpctransaction.h"
#include "llsecapi.h"
#if LL_WINDOWS
#pragma warning (disable : 4355) // 'this' used in initializer list: yes, intentionally
#endif
template <typename STATUS>
class StatusMapperBase
{
typedef std::map<STATUS, std::string> MapType;
public:
StatusMapperBase(const std::string& desc):
mDesc(desc)
{}
std::string lookup(STATUS status) const
{
typename MapType::const_iterator found = mMap.find(status);
if (found != mMap.end())
{
return found->second;
}
return STRINGIZE("<unknown " << mDesc << " " << status << ">");
}
protected:
std::string mDesc;
MapType mMap;
};
class StatusMapper: public StatusMapperBase<LLXMLRPCTransaction::EStatus>
{
public:
StatusMapper(): StatusMapperBase<LLXMLRPCTransaction::EStatus>("Status")
{
mMap[LLXMLRPCTransaction::StatusNotStarted] = "NotStarted";
mMap[LLXMLRPCTransaction::StatusStarted] = "Started";
mMap[LLXMLRPCTransaction::StatusDownloading] = "Downloading";
mMap[LLXMLRPCTransaction::StatusComplete] = "Complete";
mMap[LLXMLRPCTransaction::StatusCURLError] = "CURLError";
mMap[LLXMLRPCTransaction::StatusXMLRPCError] = "XMLRPCError";
mMap[LLXMLRPCTransaction::StatusOtherError] = "OtherError";
}
};
static const StatusMapper sStatusMapper;
class CURLcodeMapper: public StatusMapperBase<CURLcode>
{
public:
CURLcodeMapper(): StatusMapperBase<CURLcode>("CURLcode")
{
// from curl.h
// skip the "CURLE_" prefix for each of these strings
#define def(sym) (mMap[sym] = &#sym[6])
def(CURLE_OK);
def(CURLE_UNSUPPORTED_PROTOCOL); /* 1 */
def(CURLE_FAILED_INIT); /* 2 */
def(CURLE_URL_MALFORMAT); /* 3 */
def(CURLE_COULDNT_RESOLVE_PROXY); /* 5 */
def(CURLE_COULDNT_RESOLVE_HOST); /* 6 */
def(CURLE_COULDNT_CONNECT); /* 7 */
def(CURLE_PARTIAL_FILE); /* 18 */
def(CURLE_HTTP_RETURNED_ERROR); /* 22 */
def(CURLE_WRITE_ERROR); /* 23 */
def(CURLE_UPLOAD_FAILED); /* 25 - failed upload "command" */
def(CURLE_READ_ERROR); /* 26 - could open/read from file */
def(CURLE_OUT_OF_MEMORY); /* 27 */
/* Note: CURLE_OUT_OF_MEMORY may sometimes indicate a conversion error
instead of a memory allocation error if CURL_DOES_CONVERSIONS
is defined
*/
def(CURLE_OPERATION_TIMEDOUT); /* 28 - the timeout time was reached */
def(CURLE_HTTP_RANGE_ERROR); /* 33 - RANGE "command" didn't work */
def(CURLE_HTTP_POST_ERROR); /* 34 */
def(CURLE_SSL_CONNECT_ERROR); /* 35 - wrong when connecting with SSL */
def(CURLE_BAD_DOWNLOAD_RESUME); /* 36 - couldn't resume download */
def(CURLE_FILE_COULDNT_READ_FILE); /* 37 */
def(CURLE_LIBRARY_NOT_FOUND); /* 40 */
def(CURLE_FUNCTION_NOT_FOUND); /* 41 */
def(CURLE_ABORTED_BY_CALLBACK); /* 42 */
def(CURLE_BAD_FUNCTION_ARGUMENT); /* 43 */
def(CURLE_INTERFACE_FAILED); /* 45 - CURLOPT_INTERFACE failed */
def(CURLE_TOO_MANY_REDIRECTS ); /* 47 - catch endless re-direct loops */
def(CURLE_SSL_PEER_CERTIFICATE); /* 51 - peer's certificate wasn't ok */
def(CURLE_GOT_NOTHING); /* 52 - when this is a specific error */
def(CURLE_SSL_ENGINE_NOTFOUND); /* 53 - SSL crypto engine not found */
def(CURLE_SSL_ENGINE_SETFAILED); /* 54 - can not set SSL crypto engine as
default */
def(CURLE_SEND_ERROR); /* 55 - failed sending network data */
def(CURLE_RECV_ERROR); /* 56 - failure in receiving network data */
def(CURLE_SSL_CERTPROBLEM); /* 58 - problem with the local certificate */
def(CURLE_SSL_CIPHER); /* 59 - couldn't use specified cipher */
def(CURLE_SSL_CACERT); /* 60 - problem with the CA cert (path?) */
def(CURLE_BAD_CONTENT_ENCODING); /* 61 - Unrecognized transfer encoding */
def(CURLE_FILESIZE_EXCEEDED); /* 63 - Maximum file size exceeded */
def(CURLE_SEND_FAIL_REWIND); /* 65 - Sending the data requires a rewind
that failed */
def(CURLE_SSL_ENGINE_INITFAILED); /* 66 - failed to initialise ENGINE */
def(CURLE_LOGIN_DENIED); /* 67 - user); password or similar was not
accepted and we failed to login */
def(CURLE_CONV_FAILED); /* 75 - conversion failed */
def(CURLE_CONV_REQD); /* 76 - caller must register conversion
callbacks using curl_easy_setopt options
CURLOPT_CONV_FROM_NETWORK_FUNCTION);
CURLOPT_CONV_TO_NETWORK_FUNCTION); and
CURLOPT_CONV_FROM_UTF8_FUNCTION */
def(CURLE_SSL_CACERT_BADFILE); /* 77 - could not load CACERT file); missing
or wrong format */
def(CURLE_REMOTE_FILE_NOT_FOUND); /* 78 - remote file not found */
def(CURLE_SSH); /* 79 - error from the SSH layer); somewhat
generic so the error message will be of
interest when this has happened */
def(CURLE_SSL_SHUTDOWN_FAILED); /* 80 - Failed to shut down the SSL
connection */
#undef def
}
};
static const CURLcodeMapper sCURLcodeMapper;
LLXMLRPCListener::LLXMLRPCListener(const std::string& pumpname):
mBoundListener(LLEventPumps::instance().
obtain(pumpname).
listen("LLXMLRPCListener", boost::bind(&LLXMLRPCListener::process, this, _1)))
{
}
/**
* Capture an outstanding LLXMLRPCTransaction and poll it periodically until
* done.
*
* The sequence is:
* # Instantiate Poller, which instantiates, populates and initiates an
* LLXMLRPCTransaction. Poller self-registers on the LLEventPump named
* "mainloop".
* # "mainloop" is conventionally pumped once per frame. On each such call,
* Poller checks its LLXMLRPCTransaction for completion.
* # When the LLXMLRPCTransaction completes, Poller collects results (if any)
* and sends notification.
* # The tricky part: Poller frees itself (and thus its LLXMLRPCTransaction)
* when done. The only external reference to it is the connection to the
* "mainloop" LLEventPump.
*/
class Poller
{
public:
/// Validate the passed request for required fields, then use it to
/// populate an XMLRPC_REQUEST and an associated LLXMLRPCTransaction. Send
/// the request.
Poller(const LLSD& command):
mReqID(command),
mUri(command["uri"]),
mMethod(command["method"]),
mReplyPump(command["reply"])
{
// LL_ERRS if any of these are missing
const char* required[] = { "uri", "method", "reply" };
// optional: "options" (array of string)
// Validate the request
std::set<std::string> missing;
for (const char** ri = boost::begin(required); ri != boost::end(required); ++ri)
{
// If the command does not contain this required entry, add it to 'missing'.
if (! command.has(*ri))
{
missing.insert(*ri);
}
}
if (! missing.empty())
{
LL_ERRS("LLXMLRPCListener") << mMethod << " request missing params: ";
const char* separator = "";
for (std::set<std::string>::const_iterator mi(missing.begin()), mend(missing.end());
mi != mend; ++mi)
{
LL_CONT << separator << *mi;
separator = ", ";
}
LL_CONT << LL_ENDL;
}
// Build the XMLRPC request.
XMLRPC_REQUEST request = XMLRPC_RequestNew();
XMLRPC_RequestSetMethodName(request, mMethod.c_str());
XMLRPC_RequestSetRequestType(request, xmlrpc_request_call);
XMLRPC_VALUE xparams = XMLRPC_CreateVector(NULL, xmlrpc_vector_struct);
LLSD params(command["params"]);
if (params.isMap())
{
for (LLSD::map_const_iterator pi(params.beginMap()), pend(params.endMap());
pi != pend; ++pi)
{
std::string name(pi->first);
LLSD param(pi->second);
if (param.isString())
{
XMLRPC_VectorAppendString(xparams, name.c_str(), param.asString().c_str(), 0);
}
else if (param.isInteger() || param.isBoolean())
{
XMLRPC_VectorAppendInt(xparams, name.c_str(), param.asInteger());
}
else if (param.isReal())
{
XMLRPC_VectorAppendDouble(xparams, name.c_str(), param.asReal());
}
else
{
LL_ERRS("LLXMLRPCListener") << mMethod << " request param "
<< name << " has unknown type: " << param << LL_ENDL;
}
}
}
LLSD options(command["options"]);
if (options.isArray())
{
XMLRPC_VALUE xoptions = XMLRPC_CreateVector("options", xmlrpc_vector_array);
for (LLSD::array_const_iterator oi(options.beginArray()), oend(options.endArray());
oi != oend; ++oi)
{
XMLRPC_VectorAppendString(xoptions, NULL, oi->asString().c_str(), 0);
}
XMLRPC_AddValueToVector(xparams, xoptions);
}
XMLRPC_RequestSetData(request, xparams);
mTransaction.reset(new LLXMLRPCTransaction(mUri, request, true, command.has("http_params")? LLSD(command["http_params"]) : LLSD()));
mPreviousStatus = mTransaction->status(NULL);
// Free the XMLRPC_REQUEST object and the attached data values.
XMLRPC_RequestFree(request, 1);
// Now ensure that we get regular callbacks to poll for completion.
mBoundListener =
LLEventPumps::instance().
obtain("mainloop").
listen(LLEventPump::ANONYMOUS, boost::bind(&Poller::poll, this, _1));
LL_INFOS("LLXMLRPCListener") << mMethod << " request sent to " << mUri << LL_ENDL;
}
/// called by "mainloop" LLEventPump
bool poll(const LLSD&)
{
bool done = mTransaction->process();
CURLcode curlcode;
LLXMLRPCTransaction::EStatus status;
{
// LLXMLRPCTransaction::status() is defined to accept int* rather
// than CURLcode*. I don't feel the urge to fix the signature, but
// we want a CURLcode rather than an int. So fetch it as a local
// int, but then assign to a CURLcode for the remainder of this
// method.
int curlint;
status = mTransaction->status(&curlint);
curlcode = CURLcode(curlint);
}
LLSD data(mReqID.makeResponse());
data["status"] = sStatusMapper.lookup(status);
data["errorcode"] = sCURLcodeMapper.lookup(curlcode);
data["error"] = "";
data["transfer_rate"] = 0.0;
LLEventPump& replyPump(LLEventPumps::instance().obtain(mReplyPump));
if (! done)
{
// Not done yet, carry on.
if (status == LLXMLRPCTransaction::StatusDownloading
&& status != mPreviousStatus)
{
// If a response has been received, send the
// 'downloading' status if it hasn't been sent.
replyPump.post(data);
}
mPreviousStatus = status;
return false;
}
// Here the transaction is complete. Check status.
data["error"] = mTransaction->statusMessage();
data["transfer_rate"] = mTransaction->transferRate();
LL_INFOS("LLXMLRPCListener") << mMethod << " result from " << mUri << ": status "
<< data["status"].asString() << ", errorcode "
<< data["errorcode"].asString()
<< " (" << data["error"].asString() << ")"
<< LL_ENDL;
switch (curlcode)
{
case CURLE_SSL_PEER_CERTIFICATE:
case CURLE_SSL_CACERT:
data["certificate"] = mTransaction->getErrorCertData();
break;
default:
break;
}
// values of 'curlcode':
// CURLE_COULDNT_RESOLVE_HOST,
// CURLE_SSL_PEER_CERTIFICATE,
// CURLE_SSL_CACERT,
// CURLE_SSL_CONNECT_ERROR.
// Given 'message', need we care?
if (status == LLXMLRPCTransaction::StatusComplete)
{
// Success! Parse data.
std::string status_string(data["status"]);
data["responses"] = parseResponse(status_string);
data["status"] = status_string;
}
// whether successful or not, send reply on requested LLEventPump
replyPump.post(data);
// Because mTransaction is a boost::scoped_ptr, deleting this object
// frees our LLXMLRPCTransaction object.
// Because mBoundListener is an LLTempBoundListener, deleting this
// object disconnects it from "mainloop".
// *** MUST BE LAST ***
delete this;
return false;
}
private:
/// Derived from LLUserAuth::parseResponse() and parseOptionInto()
LLSD parseResponse(std::string& status_string)
{
// Extract every member into data["responses"] (a map of string
// values).
XMLRPC_REQUEST response = mTransaction->response();
if (! response)
{
LL_DEBUGS("LLXMLRPCListener") << "No response" << LL_ENDL;
return LLSD();
}
XMLRPC_VALUE param = XMLRPC_RequestGetData(response);
if (! param)
{
LL_DEBUGS("LLXMLRPCListener") << "Response contains no data" << LL_ENDL;
return LLSD();
}
// Now, parse everything
return parseValues(status_string, "", param);
}
/**
* Parse key/value pairs from a given XMLRPC_VALUE into an LLSD map.
* @param key_pfx Used to describe a given key in log messages. At top
* level, pass "". When parsing an options array, pass the top-level key
* name of the array plus the index of the array entry; to this we'll
* append the subkey of interest.
* @param param XMLRPC_VALUE iterator. At top level, pass
* XMLRPC_RequestGetData(XMLRPC_REQUEST).
*/
LLSD parseValues(std::string& status_string, const std::string& key_pfx, XMLRPC_VALUE param)
{
LLSD responses;
for (XMLRPC_VALUE current = XMLRPC_VectorRewind(param); current;
current = XMLRPC_VectorNext(param))
{
std::string key(XMLRPC_GetValueID(current));
LL_DEBUGS("LLXMLRPCListener") << "key: " << key_pfx << key << LL_ENDL;
XMLRPC_VALUE_TYPE_EASY type = XMLRPC_GetValueTypeEasy(current);
if (xmlrpc_type_string == type)
{
LLSD::String val(XMLRPC_GetValueString(current));
LL_DEBUGS("LLXMLRPCListener") << "val: " << val << LL_ENDL;
responses.insert(key, val);
}
else if (xmlrpc_type_int == type)
{
LLSD::Integer val(XMLRPC_GetValueInt(current));
LL_DEBUGS("LLXMLRPCListener") << "val: " << val << LL_ENDL;
responses.insert(key, val);
}
else if (xmlrpc_type_double == type)
{
LLSD::Real val(XMLRPC_GetValueDouble(current));
LL_DEBUGS("LLXMLRPCListener") << "val: " << val << LL_ENDL;
responses.insert(key, val);
}
else if (xmlrpc_type_array == type)
{
// We expect this to be an array of submaps. Walk the array,
// recursively parsing each submap and collecting them.
LLSD array;
int i = 0; // for descriptive purposes
for (XMLRPC_VALUE row = XMLRPC_VectorRewind(current); row;
row = XMLRPC_VectorNext(current), ++i)
{
// Recursive call. For the lower-level key_pfx, if 'key'
// is "foo", pass "foo[0]:", then "foo[1]:", etc. In the
// nested call, a subkey "bar" will then be logged as
// "foo[0]:bar", and so forth.
// Parse the scalar subkey/value pairs from this array
// entry into a temp submap. Collect such submaps in 'array'.
array.append(parseValues(status_string,
STRINGIZE(key_pfx << key << '[' << i << "]:"),
row));
}
// Having collected an 'array' of 'submap's, insert that whole
// 'array' as the value of this 'key'.
responses.insert(key, array);
}
else if (xmlrpc_type_struct == type)
{
LLSD submap = parseValues(status_string,
STRINGIZE(key_pfx << key << ':'),
current);
responses.insert(key, submap);
}
else
{
// whoops - unrecognized type
LL_WARNS("LLXMLRPCListener") << "Unhandled xmlrpc type " << type << " for key "
<< key_pfx << key << LL_ENDL;
responses.insert(key, STRINGIZE("<bad XMLRPC type " << type << '>'));
status_string = "BadType";
}
}
return responses;
}
const LLReqID mReqID;
const std::string mUri;
const std::string mMethod;
const std::string mReplyPump;
LLTempBoundListener mBoundListener;
boost::scoped_ptr<LLXMLRPCTransaction> mTransaction;
LLXMLRPCTransaction::EStatus mPreviousStatus; // To detect state changes.
};
bool LLXMLRPCListener::process(const LLSD& command)
{
// Allocate a new heap Poller, but do not save a pointer to it. Poller
// will check its own status and free itself on completion of the request.
(new Poller(command));
// conventional event listener return
return false;
}
|