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/*****************************************************************************
Licensed to Accellera Systems Initiative Inc. (Accellera) under one or
more contributor license agreements. See the NOTICE file distributed
with this work for additional information regarding copyright ownership.
Accellera licenses this file to you under the Apache License, Version 2.0
(the "License"); you may not use this file except in compliance with the
License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
implied. See the License for the specific language governing
permissions and limitations under the License.
*****************************************************************************/
#ifndef __SIMPLEBUSLT_H__
#define __SIMPLEBUSLT_H__
//#include <systemc>
#include "tlm.h"
#include "tlm_utils/simple_target_socket.h"
#include "tlm_utils/simple_initiator_socket.h"
template <int NR_OF_INITIATORS, int NR_OF_TARGETS>
class SimpleBusLT : public sc_core::sc_module
{
public:
typedef tlm::tlm_generic_payload transaction_type;
typedef tlm::tlm_phase phase_type;
typedef tlm::tlm_sync_enum sync_enum_type;
typedef tlm_utils::simple_target_socket_tagged<SimpleBusLT> target_socket_type;
typedef tlm_utils::simple_initiator_socket_tagged<SimpleBusLT> initiator_socket_type;
public:
target_socket_type target_socket[NR_OF_INITIATORS];
initiator_socket_type initiator_socket[NR_OF_TARGETS];
public:
SC_HAS_PROCESS(SimpleBusLT);
SimpleBusLT(sc_core::sc_module_name name) :
sc_core::sc_module(name)
{
for (unsigned int i = 0; i < NR_OF_INITIATORS; ++i) {
target_socket[i].register_b_transport(this, &SimpleBusLT::initiatorBTransport, i);
target_socket[i].register_transport_dbg(this, &SimpleBusLT::transportDebug, i);
target_socket[i].register_get_direct_mem_ptr(this, &SimpleBusLT::getDMIPointer, i);
}
for (unsigned int i = 0; i < NR_OF_TARGETS; ++i) {
initiator_socket[i].register_invalidate_direct_mem_ptr(this, &SimpleBusLT::invalidateDMIPointers, i);
}
}
//
// Dummy decoder:
// - address[31-28]: portId
// - address[27-0]: masked address
//
unsigned int getPortId(const sc_dt::uint64& address)
{
return (unsigned int)address >> 28;
}
sc_dt::uint64 getAddressOffset(unsigned int portId)
{
return portId << 28;
}
sc_dt::uint64 getAddressMask(unsigned int portId)
{
return 0xfffffff;
}
unsigned int decode(const sc_dt::uint64& address)
{
// decode address:
// - return initiator socket id
return getPortId(address);
}
//
// interface methods
//
//
// LT protocol
// - forward each call to the target/initiator
//
void initiatorBTransport(int SocketId,
transaction_type& trans,
sc_core::sc_time& t)
{
initiator_socket_type* decodeSocket;
unsigned int portId = decode(trans.get_address());
assert(portId < NR_OF_TARGETS);
decodeSocket = &initiator_socket[portId];
trans.set_address(trans.get_address() & getAddressMask(portId));
(*decodeSocket)->b_transport(trans, t);
}
unsigned int transportDebug(int SocketId,
transaction_type& trans)
{
unsigned int portId = decode(trans.get_address());
assert(portId < NR_OF_TARGETS);
initiator_socket_type* decodeSocket = &initiator_socket[portId];
trans.set_address( trans.get_address() & getAddressMask(portId) );
return (*decodeSocket)->transport_dbg(trans);
}
bool limitRange(unsigned int portId, sc_dt::uint64& low, sc_dt::uint64& high)
{
sc_dt::uint64 addressOffset = getAddressOffset(portId);
sc_dt::uint64 addressMask = getAddressMask(portId);
if (low > addressMask) {
// Range does not overlap with addressrange for this target
return false;
}
low += addressOffset;
if (high > addressMask) {
high = addressOffset + addressMask;
} else {
high += addressOffset;
}
return true;
}
bool getDMIPointer(int SocketId,
transaction_type& trans,
tlm::tlm_dmi& dmi_data)
{
sc_dt::uint64 address = trans.get_address();
unsigned int portId = decode(address);
assert(portId < NR_OF_TARGETS);
initiator_socket_type* decodeSocket = &initiator_socket[portId];
sc_dt::uint64 maskedAddress = address & getAddressMask(portId);
trans.set_address(maskedAddress);
bool result =
(*decodeSocket)->get_direct_mem_ptr(trans, dmi_data);
if (result)
{
// Range must contain address
assert(dmi_data.get_start_address() <= maskedAddress);
assert(dmi_data.get_end_address() >= maskedAddress);
}
// Should always succeed
sc_dt::uint64 start, end;
start = dmi_data.get_start_address();
end = dmi_data.get_end_address();
limitRange(portId, start, end);
dmi_data.set_start_address(start);
dmi_data.set_end_address(end);
return result;
}
void invalidateDMIPointers(int port_id,
sc_dt::uint64 start_range,
sc_dt::uint64 end_range)
{
// FIXME: probably faster to always invalidate everything?
if (!limitRange(port_id, start_range, end_range)) {
// Range does not fall into address range of target
return;
}
for (unsigned int i = 0; i < NR_OF_INITIATORS; ++i) {
(target_socket[i])->invalidate_direct_mem_ptr(start_range, end_range);
}
}
};
#endif
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