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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,
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#ifndef __SIMPLE_LT_TARGET2_H__
#define __SIMPLE_LT_TARGET2_H__
#include "tlm.h"
#include "tlm_utils/passthrough_target_socket.h"
#include <cassert>
#include <vector>
class SimpleLTTarget2 : 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::passthrough_target_socket<SimpleLTTarget2> target_socket_type;
public:
target_socket_type socket;
public:
SimpleLTTarget2(sc_core::sc_module_name name) :
sc_core::sc_module(name),
socket("socket")
{
// register nb_transport method
socket.register_b_transport(this, &SimpleLTTarget2::myBTransport);
socket.register_nb_transport_fw(this, &SimpleLTTarget2::myNBTransport);
socket.register_get_direct_mem_ptr(this, &SimpleLTTarget2::myGetDMIPtr);
// TODO: we don't register the transport_dbg callback here, so we
// can test if something bad happens
// REGISTER_DEBUGTRANSPORT(socket, transport_dbg, 0);
}
void myBTransport(transaction_type& trans,
sc_core::sc_time& t)
{
sc_dt::uint64 address = trans.get_address();
assert(address < 400);
unsigned int& data = *reinterpret_cast<unsigned int*>(trans.get_data_ptr());
if (trans.get_command() == tlm::TLM_WRITE_COMMAND) {
std::cout << name() << ": Received write request: A = 0x"
<< std::hex << (unsigned int)address
<< ", D = 0x" << data << std::dec
<< " @ " << sc_core::sc_time_stamp() << std::endl;
*reinterpret_cast<unsigned int*>(&mMem[address]) = data;
t += sc_core::sc_time(10, sc_core::SC_NS);
} else {
std::cout << name() << ": Received read request: A = 0x"
<< std::hex << (unsigned int)address << std::dec
<< " @ " << sc_core::sc_time_stamp() << std::endl;
data = *reinterpret_cast<unsigned int*>(&mMem[address]);
t += sc_core::sc_time(100, sc_core::SC_NS);
}
trans.set_response_status(tlm::TLM_OK_RESPONSE);
trans.set_dmi_allowed(true);
}
sync_enum_type myNBTransport(transaction_type& trans,
phase_type& phase,
sc_core::sc_time& t)
{
assert(phase == tlm::BEGIN_REQ);
// Never blocks, so call b_transport implementation
myBTransport(trans, t);
// LT target
// - always return TLM_COMPLETED
// - not necessary to update phase (if TLM_COMPLETED is returned)
return tlm::TLM_COMPLETED;
}
unsigned int transport_dbg(transaction_type& r)
{
if (r.get_address() >= 400) return 0;
unsigned int tmp = (int)r.get_address();
unsigned int num_bytes;
if (tmp + r.get_data_length() >= 400) {
num_bytes = 400 - tmp;
} else {
num_bytes = r.get_data_length();
}
if (r.is_read()) {
for (unsigned int i = 0; i < num_bytes; ++i) {
r.get_data_ptr()[i] = mMem[i + tmp];
}
} else {
for (unsigned int i = 0; i < num_bytes; ++i) {
mMem[i + tmp] = r.get_data_ptr()[i];
}
}
return num_bytes;
}
bool myGetDMIPtr(transaction_type& trans,
tlm::tlm_dmi& dmi_data)
{
sc_dt::uint64 address = trans.get_address();
if (address < 400) {
dmi_data.allow_read_write();
dmi_data.set_start_address(0x0);
dmi_data.set_end_address(399);
dmi_data.set_dmi_ptr(mMem);
dmi_data.set_read_latency(sc_core::sc_time(100, sc_core::SC_NS));
dmi_data.set_write_latency(sc_core::sc_time(10, sc_core::SC_NS));
return true;
} else {
// should not happen
dmi_data.set_start_address(address);
dmi_data.set_end_address(address);
return false;
}
}
private:
unsigned char mMem[400];
};
#endif