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gerrit.named-data.net / ChronoShare / 17ae9e346bbe38d0a0dbb3987665648304b88ea7 / . / ccnx / ccnx-wrapper.cpp
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/* -*- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2013 University of California, Los Angeles
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation;
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author: Zhenkai Zhu <zhenkai@cs.ucla.edu>
* Alexander Afanasyev <alexander.afanasyev@ucla.edu>
*/
#include "ccnx-wrapper.h"
extern "C" {
#include <ccn/fetch.h>
}
#include <poll.h>
#include <boost/throw_exception.hpp>
#include <boost/date_time/posix_time/posix_time.hpp>
#include <boost/random.hpp>
#include <boost/make_shared.hpp>
#include <boost/algorithm/string.hpp>
#include <sstream>
#include "logging.h"
INIT_LOGGER ("Ccnx.Wrapper");
typedef boost::error_info<struct tag_errmsg, std::string> errmsg_info_str;
typedef boost::error_info<struct tag_errmsg, int> errmsg_info_int;
using namespace std;
using namespace boost;
namespace Ccnx {
// hack to enable fake signatures
// min length for signature field is 16, as defined in ccn_buf_decoder.c:728
const int DEFAULT_SIGNATURE_SIZE = 16;
// Although ccn_buf_decoder.c:745 defines minimum length 16, something else is checking and only 32-byte fake value is accepted by ccnd
const int PUBLISHER_KEY_SIZE = 32;
static int
ccn_encode_garbage_Signature(struct ccn_charbuf *buf)
{
int res = 0;
res |= ccn_charbuf_append_tt(buf, CCN_DTAG_Signature, CCN_DTAG);
// Let's cheat more. Default signing algorithm in ccnd is SHA256, so we just need add 32 bytes of garbage
static char garbage [DEFAULT_SIGNATURE_SIZE];
// digest and witness fields are optional, so use default ones
res |= ccn_charbuf_append_tt(buf, CCN_DTAG_SignatureBits, CCN_DTAG);
res |= ccn_charbuf_append_tt(buf, DEFAULT_SIGNATURE_SIZE, CCN_BLOB);
res |= ccn_charbuf_append(buf, garbage, DEFAULT_SIGNATURE_SIZE);
res |= ccn_charbuf_append_closer(buf);
res |= ccn_charbuf_append_closer(buf);
return(res == 0 ? 0 : -1);
}
static int
ccn_pack_unsigned_ContentObject(struct ccn_charbuf *buf,
const struct ccn_charbuf *Name,
const struct ccn_charbuf *SignedInfo,
const void *data,
size_t size)
{
int res = 0;
struct ccn_charbuf *content_header;
size_t closer_start;
content_header = ccn_charbuf_create();
res |= ccn_charbuf_append_tt(content_header, CCN_DTAG_Content, CCN_DTAG);
if (size != 0)
res |= ccn_charbuf_append_tt(content_header, size, CCN_BLOB);
closer_start = content_header->length;
res |= ccn_charbuf_append_closer(content_header);
if (res < 0)
return(-1);
res |= ccn_charbuf_append_tt(buf, CCN_DTAG_ContentObject, CCN_DTAG);
res |= ccn_encode_garbage_Signature(buf);
res |= ccn_charbuf_append_charbuf(buf, Name);
res |= ccn_charbuf_append_charbuf(buf, SignedInfo);
res |= ccnb_append_tagged_blob(buf, CCN_DTAG_Content, data, size);
res |= ccn_charbuf_append_closer(buf);
ccn_charbuf_destroy(&content_header);
return(res == 0 ? 0 : -1);
}
CcnxWrapper::CcnxWrapper()
: m_handle (0)
, m_running (true)
, m_connected (false)
, m_executor (new Executor(1))
{
start ();
}
void
CcnxWrapper::connectCcnd()
{
if (m_handle != 0) {
ccn_disconnect (m_handle);
//ccn_destroy (&m_handle);
}
else
{
m_handle = ccn_create ();
}
UniqueRecLock lock(m_mutex);
if (ccn_connect(m_handle, NULL) < 0)
{
BOOST_THROW_EXCEPTION (CcnxOperationException() << errmsg_info_str("connection to ccnd failed"));
}
m_connected = true;
if (!m_registeredInterests.empty())
{
for (map<Name, InterestCallback>::const_iterator it = m_registeredInterests.begin(); it != m_registeredInterests.end(); ++it)
{
clearInterestFilter(it->first, false);
setInterestFilter(it->first, it->second, false);
}
}
}
CcnxWrapper::~CcnxWrapper()
{
shutdown ();
}
void
CcnxWrapper::start () // called automatically in constructor
{
connectCcnd();
m_thread = thread (&CcnxWrapper::ccnLoop, this);
m_executor->start();
}
void
CcnxWrapper::shutdown () // called in destructor, but can called manually
{
m_executor->shutdown();
{
UniqueRecLock lock(m_mutex);
m_running = false;
}
_LOG_DEBUG ("+++++++++SHUTDOWN+++++++");
if (m_connected)
{
m_thread.join ();
ccn_disconnect (m_handle);
//ccn_destroy (&m_handle);
m_connected = false;
}
}
void
CcnxWrapper::ccnLoop ()
{
static boost::mt19937 randomGenerator (static_cast<unsigned int> (std::time (0)));
static boost::variate_generator<boost::mt19937&, boost::uniform_int<> > rangeUniformRandom (randomGenerator, uniform_int<> (0,1000));
while (m_running)
{
try
{
int res = 0;
{
UniqueRecLock lock(m_mutex);
res = ccn_run (m_handle, 0);
}
if (!m_running) break;
if (res < 0) {
_LOG_ERROR ("ccn_run returned negative status: " << res);
BOOST_THROW_EXCEPTION (CcnxOperationException()
<< errmsg_info_str("ccn_run returned error"));
}
pollfd pfds[1];
{
UniqueRecLock lock(m_mutex);
pfds[0].fd = ccn_get_connection_fd (m_handle);
pfds[0].events = POLLIN;
if (ccn_output_is_pending (m_handle))
pfds[0].events |= POLLOUT;
}
int ret = poll (pfds, 1, 1);
if (ret < 0)
{
BOOST_THROW_EXCEPTION (CcnxOperationException() << errmsg_info_str("ccnd socket failed (probably ccnd got stopped)"));
}
}
catch (CcnxOperationException &e)
{
m_connected = false;
// probably ccnd has been stopped
// try reconnect with sleep
int interval = 1;
int maxInterval = 32;
while (m_running)
{
try
{
this_thread::sleep (boost::get_system_time () + boost::posix_time::seconds (interval) + boost::posix_time::milliseconds (rangeUniformRandom ()));
connectCcnd ();
_LOG_DEBUG("reconnect to ccnd succeeded");
break;
}
catch (CcnxOperationException &e)
{
this_thread::sleep (boost::get_system_time () + boost::posix_time::seconds (interval) + boost::posix_time::milliseconds (rangeUniformRandom ()));
// do exponential backup for reconnect interval
if (interval < maxInterval)
{
interval *= 2;
}
}
}
}
catch (const std::exception &exc)
{
// catch anything thrown within try block that derives from std::exception
std::cerr << exc.what();
}
catch (...)
{
cout << "UNKNOWN EXCEPTION !!!" << endl;
}
}
}
Bytes
CcnxWrapper::createContentObject(const Name &name, const void *buf, size_t len, int freshness)
{
{
UniqueRecLock lock(m_mutex);
if (!m_running || !m_connected)
{
_LOG_TRACE ("<< not running or connected");
return Bytes ();
}
}
CcnxCharbufPtr ptr = name.toCcnxCharbuf();
ccn_charbuf *pname = ptr->getBuf();
ccn_charbuf *content = ccn_charbuf_create();
struct ccn_signing_params sp = CCN_SIGNING_PARAMS_INIT;
sp.freshness = freshness;
if (ccn_sign_content(m_handle, content, pname, &sp, buf, len) != 0)
{
BOOST_THROW_EXCEPTION(CcnxOperationException() << errmsg_info_str("sign content failed"));
}
Bytes bytes;
readRaw(bytes, content->buf, content->length);
ccn_charbuf_destroy (&content);
return bytes;
}
int
CcnxWrapper::putToCcnd (const Bytes &contentObject)
{
_LOG_TRACE (">> putToCcnd");
UniqueRecLock lock(m_mutex);
if (!m_running || !m_connected)
{
_LOG_TRACE ("<< not running or connected");
return -1;
}
if (ccn_put(m_handle, head(contentObject), contentObject.size()) < 0)
{
_LOG_ERROR ("ccn_put failed");
// BOOST_THROW_EXCEPTION(CcnxOperationException() << errmsg_info_str("ccnput failed"));
}
else
{
_LOG_DEBUG ("<< putToCcnd");
}
return 0;
}
int
CcnxWrapper::publishData (const Name &name, const unsigned char *buf, size_t len, int freshness)
{
Bytes co = createContentObject(name, buf, len, freshness);
return putToCcnd(co);
}
int
CcnxWrapper::publishData (const Name &name, const Bytes &content, int freshness)
{
return publishData(name, head(content), content.size(), freshness);
}
int
CcnxWrapper::publishUnsignedData(const Name &name, const Bytes &content, int freshness)
{
return publishUnsignedData(name, head(content), content.size(), freshness);
}
int
CcnxWrapper::publishUnsignedData(const Name &name, const unsigned char *buf, size_t len, int freshness)
{
{
UniqueRecLock lock(m_mutex);
if (!m_running || !m_connected)
{
_LOG_TRACE ("<< not running or connected");
return -1;
}
}
CcnxCharbufPtr ptr = name.toCcnxCharbuf();
ccn_charbuf *pname = ptr->getBuf();
ccn_charbuf *content = ccn_charbuf_create();
ccn_charbuf *signed_info = ccn_charbuf_create();
static char fakeKey[PUBLISHER_KEY_SIZE];
int res = ccn_signed_info_create(signed_info,
fakeKey, PUBLISHER_KEY_SIZE,
NULL,
CCN_CONTENT_DATA,
freshness,
NULL,
NULL // ccnd is happy with absent key locator and key itself... ha ha
);
ccn_pack_unsigned_ContentObject(content, pname, signed_info, buf, len);
Bytes bytes;
readRaw(bytes, content->buf, content->length);
ccn_charbuf_destroy (&content);
ccn_charbuf_destroy (&signed_info);
return putToCcnd (bytes);
}
static void
deleterInInterestTuple (tuple<CcnxWrapper::InterestCallback *, ExecutorPtr> *tuple)
{
delete tuple->get<0> ();
delete tuple;
}
static ccn_upcall_res
incomingInterest(ccn_closure *selfp,
ccn_upcall_kind kind,
ccn_upcall_info *info)
{
CcnxWrapper::InterestCallback *f;
ExecutorPtr executor;
tuple<CcnxWrapper::InterestCallback *, ExecutorPtr> *realData = reinterpret_cast< tuple<CcnxWrapper::InterestCallback *, ExecutorPtr>* > (selfp->data);
tie (f, executor) = *realData;
switch (kind)
{
case CCN_UPCALL_FINAL: // effective in unit tests
// delete closure;
executor->execute (bind (deleterInInterestTuple, realData));
delete selfp;
_LOG_TRACE ("<< incomingInterest with CCN_UPCALL_FINAL");
return CCN_UPCALL_RESULT_OK;
case CCN_UPCALL_INTEREST:
_LOG_TRACE (">> incomingInterest upcall: " << Name(info->interest_ccnb, info->interest_comps));
break;
default:
_LOG_TRACE ("<< incomingInterest with CCN_UPCALL_RESULT_OK: " << Name(info->interest_ccnb, info->interest_comps));
return CCN_UPCALL_RESULT_OK;
}
Name interest(info->interest_ccnb, info->interest_comps);
Selectors selectors(info->pi);
executor->execute (bind (*f, interest, selectors));
// this will be run in executor
// (*f) (interest);
// closure->runInterestCallback(interest);
return CCN_UPCALL_RESULT_OK;
}
static void
deleterInDataTuple (tuple<Closure *, ExecutorPtr, Selectors> *tuple)
{
delete tuple->get<0> ();
delete tuple;
}
static ccn_upcall_res
incomingData(ccn_closure *selfp,
ccn_upcall_kind kind,
ccn_upcall_info *info)
{
// Closure *cp = static_cast<Closure *> (selfp->data);
Closure *cp;
ExecutorPtr executor;
Selectors selectors;
tuple<Closure *, ExecutorPtr, Selectors> *realData = reinterpret_cast< tuple<Closure*, ExecutorPtr, Selectors>* > (selfp->data);
tie (cp, executor, selectors) = *realData;
bool verified = false;
switch (kind)
{
case CCN_UPCALL_FINAL: // effecitve in unit tests
executor->execute (bind (deleterInDataTuple, realData));
cp = NULL;
delete selfp;
_LOG_TRACE ("<< incomingData with CCN_UPCALL_FINAL");
return CCN_UPCALL_RESULT_OK;
case CCN_UPCALL_CONTENT:
verified = true;
_LOG_TRACE (">> incomingData content upcall: " << Name (info->content_ccnb, info->content_comps));
break;
case CCN_UPCALL_CONTENT_UNVERIFIED:
_LOG_TRACE (">> incomingData content unverified upcall: " << Name (info->content_ccnb, info->content_comps));
break;
case CCN_UPCALL_INTEREST_TIMED_OUT: {
if (cp != NULL)
{
Name interest(info->interest_ccnb, info->interest_comps);
_LOG_TRACE ("<< incomingData timeout: " << Name (info->interest_ccnb, info->interest_comps));
executor->execute (bind (&Closure::runTimeoutCallback, cp, interest, *cp, selectors));
}
else
{
_LOG_TRACE ("<< incomingData timeout, but callback is not set...: " << Name (info->interest_ccnb, info->interest_comps));
}
return CCN_UPCALL_RESULT_OK;
}
default:
_LOG_TRACE(">> unknown upcall type");
return CCN_UPCALL_RESULT_OK;
}
PcoPtr pco = make_shared<ParsedContentObject> (info->content_ccnb, info->pco->offset[CCN_PCO_E], verified);
// this will be run in executor
executor->execute (bind (&Closure::runDataCallback, cp, pco->name (), pco));
_LOG_TRACE (">> incomingData");
return CCN_UPCALL_RESULT_OK;
}
int CcnxWrapper::sendInterest (const Name &interest, const Closure &closure, const Selectors &selectors)
{
_LOG_TRACE (">> sendInterest: " << interest);
{
UniqueRecLock lock(m_mutex);
if (!m_running || !m_connected)
{
_LOG_ERROR ("<< sendInterest: not running or connected");
return -1;
}
}
CcnxCharbufPtr namePtr = interest.toCcnxCharbuf();
ccn_charbuf *pname = namePtr->getBuf();
ccn_closure *dataClosure = new ccn_closure;
// Closure *myClosure = new ExecutorClosure(closure, m_executor);
Closure *myClosure = closure.dup ();
dataClosure->data = new tuple<Closure*, ExecutorPtr, Selectors> (myClosure, m_executor, selectors);
dataClosure->p = &incomingData;
CcnxCharbufPtr selectorsPtr = selectors.toCcnxCharbuf();
ccn_charbuf *templ = NULL;
if (selectorsPtr)
{
templ = selectorsPtr->getBuf();
}
UniqueRecLock lock(m_mutex);
if (ccn_express_interest (m_handle, pname, dataClosure, templ) < 0)
{
_LOG_ERROR ("<< sendInterest: ccn_express_interest FAILED!!!");
}
return 0;
}
int CcnxWrapper::setInterestFilter (const Name &prefix, const InterestCallback &interestCallback, bool record/* = true*/)
{
_LOG_TRACE (">> setInterestFilter");
UniqueRecLock lock(m_mutex);
if (!m_running || !m_connected)
{
return -1;
}
CcnxCharbufPtr ptr = prefix.toCcnxCharbuf();
ccn_charbuf *pname = ptr->getBuf();
ccn_closure *interestClosure = new ccn_closure;
// interestClosure->data = new ExecutorInterestClosure(interestCallback, m_executor);
interestClosure->data = new tuple<CcnxWrapper::InterestCallback *, ExecutorPtr> (new InterestCallback (interestCallback), m_executor); // should be removed when closure is removed
interestClosure->p = &incomingInterest;
int ret = ccn_set_interest_filter (m_handle, pname, interestClosure);
if (ret < 0)
{
_LOG_ERROR ("<< setInterestFilter: ccn_set_interest_filter FAILED");
}
if (record)
{
m_registeredInterests.insert(pair<Name, InterestCallback>(prefix, interestCallback));
}
_LOG_TRACE ("<< setInterestFilter");
return ret;
}
void
CcnxWrapper::clearInterestFilter (const Name &prefix, bool record/* = true*/)
{
_LOG_TRACE (">> clearInterestFilter");
UniqueRecLock lock(m_mutex);
if (!m_running || !m_connected)
return;
CcnxCharbufPtr ptr = prefix.toCcnxCharbuf();
ccn_charbuf *pname = ptr->getBuf();
int ret = ccn_set_interest_filter (m_handle, pname, 0);
if (ret < 0)
{
}
if (record)
{
m_registeredInterests.erase(prefix);
}
_LOG_TRACE ("<< clearInterestFilter");
}
Name
CcnxWrapper::getLocalPrefix ()
{
struct ccn * tmp_handle = ccn_create ();
int res = ccn_connect (tmp_handle, NULL);
if (res < 0)
{
return Name();
}
string retval = "";
struct ccn_charbuf *templ = ccn_charbuf_create();
ccn_charbuf_append_tt(templ, CCN_DTAG_Interest, CCN_DTAG);
ccn_charbuf_append_tt(templ, CCN_DTAG_Name, CCN_DTAG);
ccn_charbuf_append_closer(templ); /* </Name> */
// XXX - use pubid if possible
ccn_charbuf_append_tt(templ, CCN_DTAG_MaxSuffixComponents, CCN_DTAG);
ccnb_append_number(templ, 1);
ccn_charbuf_append_closer(templ); /* </MaxSuffixComponents> */
ccnb_tagged_putf(templ, CCN_DTAG_Scope, "%d", 2);
ccn_charbuf_append_closer(templ); /* </Interest> */
struct ccn_charbuf *name = ccn_charbuf_create ();
res = ccn_name_from_uri (name, "/local/ndn/prefix");
if (res < 0) {
}
else
{
struct ccn_fetch *fetch = ccn_fetch_new (tmp_handle);
struct ccn_fetch_stream *stream = ccn_fetch_open (fetch, name, "/local/ndn/prefix",
NULL, 4, CCN_V_HIGHEST, 0);
if (stream == NULL) {
}
else
{
ostringstream os;
int counter = 0;
char buf[256];
while (true) {
res = ccn_fetch_read (stream, buf, sizeof(buf));
if (res == 0) {
break;
}
if (res > 0) {
os << string(buf, res);
} else if (res == CCN_FETCH_READ_NONE) {
if (counter < 2)
{
ccn_run(tmp_handle, 1000);
counter ++;
}
else
{
break;
}
} else if (res == CCN_FETCH_READ_END) {
break;
} else if (res == CCN_FETCH_READ_TIMEOUT) {
break;
} else {
break;
}
}
retval = os.str ();
stream = ccn_fetch_close(stream);
}
fetch = ccn_fetch_destroy(fetch);
}
ccn_charbuf_destroy (&name);
ccn_disconnect (tmp_handle);
ccn_destroy (&tmp_handle);
boost::algorithm::trim(retval);
return Name(retval);
}
bool
CcnxWrapper::verifyPco(PcoPtr &pco)
{
bool verified = (ccn_verify_content(m_handle, pco->msg(), (ccn_parsed_ContentObject *)pco->pco()) == 0);
pco->setVerified(verified);
return verified;
}
}