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|
// QoS_Session_Impl.cpp
// $Id$
#include "ace/OS_NS_arpa_inet.h"
#include "ace/SOCK.h"
#include "QoS_Manager.h"
#include "QoS_Session_Impl.h"
#include "ace/Log_Msg.h"
#if !defined (__ACE_INLINE__)
#include "QoS_Session_Impl.inl"
#endif /* __ACE_INLINE__ */
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
ACE_ALLOC_HOOK_DEFINE(ACE_QoS_Session_Impl)
ACE_END_VERSIONED_NAMESPACE_DECL
#if defined (ACE_HAS_RAPI)
#include "rapi_err.h"
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
int ACE_RAPI_Session::rsvp_error = 0;
// Call back function used by RAPI to report RSVP events. This
// function translates the RAPI QoS parameters into the more generic
// ACE_QoS parameters for the underlying RAPI session.
int
rsvp_callback (rapi_sid_t /* sid */,
rapi_eventinfo_t eventype,
int /* style_id */,
int errcode,
int errvalue,
sockaddr * errnode,
u_char /* errflags */,
int /* filter_spec_no */,
rapi_filter_t * /* filter_spec_list */,
int flow_spec_no,
rapi_flowspec_t *flow_spec_list,
int /* ad_spec_no */,
rapi_adspec_t * /* ad_spec_list */,
void *args
)
{
if (args == 0)
ACE_DEBUG ((LM_DEBUG,
"Argument in the call back function is null\n\n"));
ACE_QoS_Session *qos_session = (ACE_QoS_Session *) args;
qos_flowspecx_t *csxp = 0;
if (!flow_spec_list)
{
ACE_DEBUG ((LM_DEBUG,
"(%N|%l) Null flow_spec_list\n"));
}
else
{
// Extended Legacy format.
csxp = &flow_spec_list->specbody_qosx;
if(!csxp)
{
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l) Null csxp\n"),
-1);
}
}
ACE_QoS ace_qos = qos_session->qos ();
switch(eventype)
{
case RAPI_PATH_EVENT:
{
ACE_DEBUG ((LM_DEBUG,
"RSVP PATH Event received\n"
"No. of TSpecs received : %d %d\n",
flow_spec_no, &flow_spec_list->len));
ACE_Flow_Spec *receiving_fs = 0;
if (flow_spec_no != 0)
{
ACE_NEW_RETURN (receiving_fs,
ACE_Flow_Spec,
-1);
ACE_NEW_RETURN (receiving_fs,
ACE_Flow_Spec ((u_long)csxp->xspec_r,
(u_long)csxp->xspec_b,
(u_long)csxp->xspec_p,
0,
csxp->xspec_S,
1,
csxp->xspec_M,
csxp->xspec_m,
25,
0),
-1);
ACE_DEBUG ((LM_DEBUG,
"\nTSpec :\n"
"\t Spec Type = %d\n"
"\t Rate = %f\n"
"\t Bucket = %f\n"
"\t Peak = %f\n"
"\t MPU = %d\n"
"\t MDU = %d\n"
"\t TTL = %d\n",
csxp->spec_type,
csxp->xspec_r,
csxp->xspec_b,
csxp->xspec_p,
csxp->xspec_m,
csxp->xspec_M,
25));
}
// Set the sending flowspec QoS of the given session.
ace_qos.receiving_flowspec (receiving_fs);
qos_session->rsvp_event_type (ACE_QoS_Session::RSVP_PATH_EVENT);
}
break;
case RAPI_RESV_EVENT:
{
ACE_DEBUG ((LM_DEBUG,
"RSVP RESV Event received\n"
"No. of FlowSpecs received : %d\n",
flow_spec_no));
ACE_Flow_Spec *sending_flow = 0;
if (flow_spec_no != 0)
{
ACE_NEW_RETURN (sending_flow,
ACE_Flow_Spec,
-1);
// Choose based on the service type : [QOS_GUARANTEEDX/QOS_CNTR_LOAD].
switch (csxp->spec_type)
{
case QOS_GUARANTEEDX:
// Slack term in MICROSECONDS
sending_flow->delay_variation (csxp->xspec_S);
// @@How does the guaranteed rate parameter map to the ACE_Flow_Spec.
// Note there is no break !!
case QOS_CNTR_LOAD:
// qos_service_type.
sending_flow->service_type (csxp->spec_type);
// Token Bucket Average Rate (B/s)
sending_flow->token_rate ((u_long)csxp->xspec_r);
// Token Bucket Rate (B)
sending_flow->token_bucket_size ((u_long)csxp->xspec_b);
// Peak Data Rate (B/s)
sending_flow->peak_bandwidth ((u_long)csxp->xspec_p);
// Minimum Policed Unit (B)
sending_flow->minimum_policed_size (csxp->xspec_m);
// Max Packet Size (B)
sending_flow->max_sdu_size (csxp->xspec_M);
break;
default:
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l) Unknown flowspec type: %u.\n", csxp->spec_type),
-1);
}
}
ace_qos.sending_flowspec (sending_flow);
qos_session->rsvp_event_type (ACE_QoS_Session::RSVP_RESV_EVENT);
}
break;
case RAPI_PATH_ERROR:
{
ACE_DEBUG ((LM_DEBUG,
"PATH ERROR Event received\n"
"Code=%d Val=%d Node= %s\n",
errcode,
errvalue,
ACE_OS::inet_ntoa(((sockaddr_in *)errnode)->sin_addr)));
qos_session->rsvp_event_type (ACE_QoS_Session::RSVP_PATH_ERROR);
}
break;
case RAPI_RESV_ERROR:
{
ACE_DEBUG ((LM_DEBUG,
"RESV ERROR Event received\n"
"Code=%d Val=%d Node= %s\n",
errcode,
errvalue,
ACE_OS::inet_ntoa(((sockaddr_in *)errnode)->sin_addr)));
qos_session->rsvp_event_type (ACE_QoS_Session::RSVP_RESV_ERROR);
}
break;
case RAPI_RESV_CONFIRM:
{
ACE_DEBUG ((LM_DEBUG,
"RESV CONFIRM Event received\n"));
qos_session->rsvp_event_type (ACE_QoS_Session::RSVP_RESV_CONFIRM);
}
break;
default:
ACE_DEBUG ((LM_DEBUG,
"Unknown RSVP Event Received\n"));
break;
}
// Set the updated ACE_QoS for the RSVP callback argument(QoS session).
qos_session->qos (ace_qos);
// @@ what is the meaning of the return value. RAPI docs don't say anything!
return 0;
}
// Constructor.
ACE_RAPI_Session::ACE_RAPI_Session (void)
{
ACE_TRACE ("ACE_RAPI_Session::ACE_RAPI_Session");
//this->source_port (DEFAULT_SOURCE_SENDER_PORT);
ACE_NEW (this->src_addr_,
ACE_INET_Addr ("0"));
}
// Open a RAPI QoS session [dest IP, dest port, Protocol ID].
int
ACE_RAPI_Session::open (ACE_INET_Addr dest_addr,
ACE_Protocol_ID protocol_id)
{
char buf [BUFSIZ];
dest_addr.addr_to_string (buf,
BUFSIZ);
ACE_DEBUG ((LM_DEBUG,
"In RAPI SESSION OPEN %s\n",
buf));
this->dest_addr_ = dest_addr;
this->protocol_id_ = protocol_id;
// Open a RAPI session. Note "this" is being passed as an argument to
// the callback function. The callback function uses this argument to
// update the QoS of this session based on the RSVP event it receives.
if ((this->session_id_ = rapi_session((struct sockaddr *) dest_addr.get_addr (),
protocol_id,
0,
rsvp_callback,
(void *) this,
&rsvp_error)) == NULL_SID)
ACE_ERROR_RETURN ((LM_ERROR,
"rapi_session () call fails. Error\n"),
-1);
else
ACE_DEBUG ((LM_DEBUG,
"rapi_session () call succeeds. "
"Session ID = %d\n",
this->session_id_));
return 0;
}
// Close the RAPI QoS Session.
int
ACE_RAPI_Session::close (void)
{
this->rsvp_error = rapi_release(this->session_id_);
if (rsvp_error == 0)
ACE_ERROR_RETURN ((LM_ERROR,
"Can't release RSVP session:\n\t%s\n",
rapi_errlist[rsvp_error]),
-1);
else
ACE_DEBUG ((LM_DEBUG,
"rapi session with id %d released successfully.\n",
this->session_id_));
return 0;
}
//Get the most recent RSVP event that occured
ACE_QoS_Session::RSVP_Event_Type
ACE_RAPI_Session::rsvp_event_type (void)
{
return this->rsvp_event_type_;
}
//Set the most recent RSVP event that occured
void
ACE_RAPI_Session::rsvp_event_type (ACE_QoS_Session::RSVP_Event_Type event_type)
{
this->rsvp_event_type_ = event_type;
}
int
ACE_RAPI_Session::qos (ACE_SOCK * /* socket */,
ACE_QoS_Manager * /* qos_manager */,
const ACE_QoS &ace_qos)
{
// If sender : call sending_qos ()
// If receiver : call receiving_qos ()
// If both : call sending_qos () and receiving_qos ()
if (this->flags_ != ACE_QOS_RECEIVER)
return this->sending_qos (ace_qos);
if (this->flags_ != ACE_QOS_SENDER)
return this->receiving_qos (ace_qos);
return 0;
}
// Set sending QoS for this RAPI session.
int
ACE_RAPI_Session::sending_qos (const ACE_QoS &ace_qos)
{
ACE_Flow_Spec *sending_flowspec = ace_qos.sending_flowspec ();
if (sending_flowspec == 0)
{
int result = rapi_sender (this->session_id_,
0,
0,
0,
0,
0,
0,
25);
if (result != 0)
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l) rapi_sender error %d:\n\tPATH Generation can't be started\n",
result),
-1);
else
ACE_DEBUG ((LM_DEBUG,
"rapi_sender () call succeeds with PATH Tear!\n"));
return 0;
}
rapi_tspec_t *t_spec = this->init_tspec_simplified (*sending_flowspec);
if (t_spec == 0)
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l) Error in translating from ACE Flow Spec to"
" RAPI TSpec\n"),
-1);
char buffer[BUFSIZ];
// This formats the t_spec in a visually intuitive char * that can
// be printed.
(void) rapi_fmt_tspec(t_spec, buffer, sizeof(buffer));
ACE_DEBUG ((LM_DEBUG,
"\nSender TSpec : %s\n",
buffer));
// Print out all the fields separately.
ACE_DEBUG ((LM_DEBUG,
"\nTSpec :\n"
"\t Spec Type = %d\n"
"\t Rate = %f\n"
"\t Bucket = %f\n"
"\t Peak = %f\n"
"\t MPU = %d\n"
"\t MDU = %d\n"
"\t TTL = %d\n",
t_spec->tspecbody_qosx.spec_type,
t_spec->tspecbody_qosx.xtspec_r,
t_spec->tspecbody_qosx.xtspec_b,
t_spec->tspecbody_qosx.xtspec_p,
t_spec->tspecbody_qosx.xtspec_m,
t_spec->tspecbody_qosx.xtspec_M,
sending_flowspec->ttl ()));
// This the source sender port.
// ACE_INET_Addr sender_addr (this->source_port ());
ACE_DEBUG ((LM_DEBUG,
"Making the rapi_sender () call\n"));
// Set the Sender TSpec for this QoS session.
int result = rapi_sender(this->session_id_,
0,
(sockaddr *) this->src_addr_->get_addr (),
0,
t_spec,
0,
0,
sending_flowspec->ttl ()) ;
/*
int result = rapi_sender(this->session_id_,
0,
(sockaddr *) sender_addr.get_addr (),
0,
t_spec,
0,
0,
sending_flowspec->ttl ()) ;
*/
if(result!= 0)
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l) rapi_sender error %d:\n\tPATH Generation can't be started\n",
result),
-1);
else
ACE_DEBUG ((LM_DEBUG,
"rapi_sender () call succeeds !\n"));
return 0;
}
// Set receiving QoS for this RAPI session.
int
ACE_RAPI_Session::receiving_qos (const ACE_QoS &ace_qos)
{
ACE_Flow_Spec *receiving_flowspec = ace_qos.receiving_flowspec ();
if (receiving_flowspec == 0)
{
if (rapi_reserve(this->session_id_,
0,
// Setting the RAPI_REQ_CONFIRM flag requests confirmation
// of the resevation, by means of a confirmation upcall of
// type RAPI_RESV_CONFIRM.
// (sockaddr *)receiver_addr.get_addr (),
0,
RAPI_RSTYLE_WILDCARD,
// This applies the flowspec to all the senders. Given this,
// @@I am passing the filter_spec to be null, hoping this will work.
0,
0,
0,
0,
// The filter spec is NULL. This should work since the RSTYLE is
// WILDCARD.
0,
0) == -1)
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l)rapi_reserve () error:\n\tRESV Generation can't be started\n"),
-1);
else
ACE_DEBUG ((LM_DEBUG,
"rapi_reserve () for RESV Tear call succeeds\n"));
return 0;
}
rapi_flowspec_t *flow_spec = init_flowspec_simplified (*receiving_flowspec);
if (flow_spec == 0)
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l) Error in translating from ACE Flow Spec to"
" RAPI FlowSpec\n"),
-1);
char buffer[BUFSIZ];
// This formats the flow_spec in a visually intuitive char * that can
// be printed.
(void)rapi_fmt_flowspec(flow_spec, buffer, sizeof(buffer));
ACE_DEBUG ((LM_DEBUG,
"\nReceiver FlowSpec : %s\n",
buffer));
// Print out all the fields separately.
ACE_DEBUG ((LM_DEBUG,
"\nFlowSpec :\n"
"\t Spec Type = %d\n"
"\t Rate = %f\n"
"\t Bucket = %f\n"
"\t Peak = %f\n"
"\t MPU = %d\n"
"\t MDU = %d\n",
flow_spec->specbody_qosx.spec_type,
flow_spec->specbody_qosx.xspec_r,
flow_spec->specbody_qosx.xspec_b,
flow_spec->specbody_qosx.xspec_p,
flow_spec->specbody_qosx.xspec_m,
flow_spec->specbody_qosx.xspec_M));
sockaddr_in Receiver_host;
Receiver_host.sin_addr.s_addr = INADDR_ANY;
// Set the Receiver FlowSpec for this QoS session.
// @@The filter style is hardcoded to WildCard. This can be changed later.
if (rapi_reserve(this->session_id_,
RAPI_REQ_CONFIRM,
// Setting the RAPI_REQ_CONFIRM flag requests confirmation
// of the resevation, by means of a confirmation upcall of
// type RAPI_RESV_CONFIRM.
// (sockaddr *)receiver_addr.get_addr (),
(sockaddr *)&Receiver_host,
RAPI_RSTYLE_WILDCARD,
// This applies the flowspec to all the senders. Given this,
// @@I am passing the filter_spec to be null, hoping this will work.
0,
0,
0,
0,
// The filter spec is NULL. This should work since the RSTYLE is
// WILDCARD.
1,
flow_spec) == -1)
ACE_ERROR_RETURN ((LM_ERROR,
"rapi_reserve () error:\n\tRESV Generation can't be started\n"),
-1);
else
ACE_DEBUG ((LM_DEBUG,
"rapi_reserve () call succeeds\n"));
return 0;
}
int
ACE_RAPI_Session::update_qos (void)
{
// Update the session QoS Parameters based on the RSVP Event Received.
if ((rsvp_error = rapi_dispatch ()) != 0)
ACE_ERROR_RETURN ((LM_ERROR,
"Error in rapi_dispatch () : %s\n",
rapi_errlist[rsvp_error]),
-1);
return 0;
}
// Construct a simplified RAPI Sender TSpec object
// from an ACE_Flow_Spec. Note the form of the TSpec is
// simplified as against the full bodied IntServ version.
rapi_tspec_t *
ACE_RAPI_Session::init_tspec_simplified (const ACE_Flow_Spec &flow_spec)
{
rapi_tspec_t *t_spec;
ACE_NEW_RETURN (t_spec,
rapi_tspec_t,
0);
qos_tspecx_t *ctxp = &(t_spec->tspecbody_qosx);
// There may be some type incompatibility here.
// Note the types of the LHS are float32_t, uint32_t etc.
ctxp->spec_type = flow_spec.service_type ();//QOS_TSPEC;
ctxp->xtspec_r = flow_spec.token_rate (); // Token Rate (B/s)
ctxp->xtspec_b = flow_spec.token_bucket_size (); // Token Bucket Depth (B)
ctxp->xtspec_p = flow_spec.peak_bandwidth (); // Peak Data Rate (B/s)
ctxp->xtspec_m = flow_spec.minimum_policed_size (); // Minimum policed unit.
ctxp->xtspec_M = flow_spec.max_sdu_size(); // Maximum SDU size.
t_spec->len = sizeof(rapi_hdr_t) + sizeof(qos_tspecx_t);
t_spec->form = RAPI_TSPECTYPE_Simplified;
return (t_spec);
}
// Construct a simplified RAPI flowspec object from ACE_Flow_Spec.
// Note the form of the FlowSpec is simplified as against the
// full bodied IntServ version.
rapi_flowspec_t *
ACE_RAPI_Session::init_flowspec_simplified(const ACE_Flow_Spec &flow_spec)
{
rapi_flowspec_t *flowsp;
ACE_NEW_RETURN (flowsp,
rapi_flowspec_t,
0);
// Extended Legacy format.
qos_flowspecx_t *csxp = &flowsp->specbody_qosx;
// Choose based on the service type : [QOS_GUARANTEEDX/QOS_CNTR_LOAD].
switch (flow_spec.service_type ())
{
case QOS_GUARANTEEDX:
csxp->xspec_R = 0 ; // Guaranteed Rate B/s. @@How does this map to the
// ACE Flow Spec Parameters.
csxp->xspec_S = flow_spec.delay_variation () ; // Slack term in MICROSECONDS
// Note there is no break !!
case QOS_CNTR_LOAD:
csxp->spec_type = flow_spec.service_type (); // qos_service_type
csxp->xspec_r = flow_spec.token_rate (); // Token Bucket Average Rate (B/s)
csxp->xspec_b = flow_spec.token_bucket_size (); // Token Bucket Rate (B)
csxp->xspec_p = flow_spec.peak_bandwidth (); // Peak Data Rate (B/s)
csxp->xspec_m = flow_spec.minimum_policed_size (); // Minimum Policed Unit (B)
csxp->xspec_M = flow_spec.max_sdu_size(); // Max Packet Size (B)
flowsp->form = RAPI_FLOWSTYPE_Simplified;
break;
default:
ACE_ERROR_RETURN ((LM_ERROR,
"(%N|%l) Unknown flowspec type: %u\n",flow_spec.service_type () ),
0);
}
flowsp->len = sizeof(rapi_flowspec_t);
return flowsp;
}
ACE_END_VERSIONED_NAMESPACE_DECL
#endif /* ACE_HAS_RAPI */
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
// This is a GQoS session ID generator.
int ACE_GQoS_Session::GQoS_session_id = 0;
// Constructor.
ACE_GQoS_Session::ACE_GQoS_Session (void)
{
ACE_TRACE ("ACE_GQoS_Session::ACE_GQoS_Session");
}
// Open a GQoS session [dest IP, dest port, Protocol ID].
int
ACE_GQoS_Session::open (ACE_INET_Addr dest_addr,
ACE_Protocol_ID protocol_id)
{
this->dest_addr_ = dest_addr;
this->protocol_id_ = protocol_id;
this->session_id_ = GQoS_session_id++;
return 0;
}
// Close the GQoS Session.
int
ACE_GQoS_Session::close (void)
{
// TBD.
return 0;
}
// Set the QoS for this GQoS session.
int
ACE_GQoS_Session::qos (ACE_SOCK *socket,
ACE_QoS_Manager *qos_manager,
const ACE_QoS &ace_qos)
{
// Confirm if the current session is one of the QoS sessions
// subscribed to by the given socket.
if (qos_manager->qos_session_set ().find (this) == -1)
ACE_ERROR_RETURN ((LM_ERROR,
ACE_TEXT ("This QoS session was not subscribed to")
ACE_TEXT (" by the socket\n")),
-1);
// Set the QOS according to the supplied ACE_QoS. The I/O control
// code used under the hood is SIO_SET_QOS.
u_long ret_bytes = 0;
ACE_QoS qos = ace_qos;
if (ACE_OS::ioctl (socket->get_handle (),
ACE_SIO_SET_QOS,
qos,
&ret_bytes) == -1)
ACE_ERROR_RETURN ((LM_ERROR,
ACE_TEXT ("Error in Qos set ACE_OS::ioctl() %d\n"),
ret_bytes),
-1);
else
ACE_DEBUG ((LM_DEBUG,
ACE_TEXT ("Setting QoS with ACE_OS::ioctl () succeeds\n")));
return 0;
}
int
ACE_GQoS_Session::update_qos (void)
{
// WSAIoctl (GET_QOS) call goes here...
return 0;
}
//Get the most recent RSVP event that occured
ACE_QoS_Session::RSVP_Event_Type
ACE_GQoS_Session::rsvp_event_type (void)
{
return this->rsvp_event_type_;
}
//Set the most recent RSVP event that occured
void
ACE_GQoS_Session::rsvp_event_type (ACE_QoS_Session::RSVP_Event_Type event_type)
{
this->rsvp_event_type_ = event_type;
}
ACE_END_VERSIONED_NAMESPACE_DECL
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