b5045005de
The current TLM bridge only provides a Slave Port that allows the gem5 world to send request to the SystemC world. This patch series refractors and cleans up the existing code, and adds a Master Port that allows the SystemC world to send requests to the gem5 world. This patch: * Implement 'pipe through' for gem5 Packets (see explanation below) Basically, this patch ensures that all transactions that originated in the gem5 world are converted back to the original packet when entering the gem5 world. So far, this only worked for packets that are responded to by a SyctemC component (e.g. when a gem5 CPU sends a request to a SystemC memory). By implementing the 'pipe through' this patch ensures, that packets that are responded to by a gem5 component (e.g. when a gem5 CPU sends a request to a gem5 memory via a SystemC interconnect) are handled properly. Reviewed at http://reviews.gem5.org/r/3796/ Signed-off-by: Jason Lowe-Power <jason@lowepower.com>
375 lines
11 KiB
C++
375 lines
11 KiB
C++
/*
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* Copyright (c) 2015, University of Kaiserslautern
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* Copyright (c) 2016, Dresden University of Technology (TU Dresden)
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are
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* met:
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*
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* 1. Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the following disclaimer.
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*
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* 3. Neither the name of the copyright holder nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
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* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER
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* OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* Authors: Matthias Jung
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* Abdul Mutaal Ahmad
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* Christian Menard
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*/
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#include "sc_ext.hh"
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#include "sc_mm.hh"
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#include "sc_slave_port.hh"
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#include "slave_transactor.hh"
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namespace Gem5SystemC
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{
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/**
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* Instantiate a tlm memory manager that takes care about all the
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* tlm transactions in the system
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*/
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MemoryManager mm;
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/**
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* Convert a gem5 packet to a TLM payload by copying all the relevant
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* information to a previously allocated tlm payload
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*/
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void
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packet2payload(PacketPtr packet, tlm::tlm_generic_payload &trans)
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{
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trans.set_address(packet->getAddr());
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/* Check if this transaction was allocated by mm */
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sc_assert(trans.has_mm());
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unsigned int size = packet->getSize();
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unsigned char *data = packet->getPtr<unsigned char>();
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trans.set_data_length(size);
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trans.set_streaming_width(size);
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trans.set_data_ptr(data);
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if (packet->isRead()) {
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trans.set_command(tlm::TLM_READ_COMMAND);
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}
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else if (packet->isInvalidate()) {
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/* Do nothing */
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} else if (packet->isWrite()) {
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trans.set_command(tlm::TLM_WRITE_COMMAND);
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} else {
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SC_REPORT_FATAL("SCSlavePort", "No R/W packet");
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}
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}
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/**
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* Similar to TLM's blocking transport (LT)
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*/
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Tick
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SCSlavePort::recvAtomic(PacketPtr packet)
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{
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CAUGHT_UP;
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SC_REPORT_INFO("SCSlavePort", "recvAtomic hasn't been tested much");
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panic_if(packet->cacheResponding(), "Should not see packets where cache "
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"is responding");
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panic_if(!(packet->isRead() || packet->isWrite()),
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"Should only see read and writes at TLM memory\n");
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sc_core::sc_time delay = sc_core::SC_ZERO_TIME;
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/* Prepare the transaction */
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tlm::tlm_generic_payload * trans = mm.allocate();
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trans->acquire();
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packet2payload(packet, *trans);
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/* Attach the packet pointer to the TLM transaction to keep track */
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Gem5Extension* extension = new Gem5Extension(packet);
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trans->set_auto_extension(extension);
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/* Execute b_transport: */
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if (packet->cmd == MemCmd::SwapReq) {
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SC_REPORT_FATAL("SCSlavePort", "SwapReq not supported");
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} else if (packet->isRead()) {
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transactor->socket->b_transport(*trans, delay);
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} else if (packet->isInvalidate()) {
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// do nothing
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} else if (packet->isWrite()) {
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transactor->socket->b_transport(*trans, delay);
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} else {
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SC_REPORT_FATAL("SCSlavePort", "Typo of request not supported");
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}
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if (packet->needsResponse()) {
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packet->makeResponse();
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}
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trans->release();
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return delay.value();
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}
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/**
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* Similar to TLM's debug transport
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*/
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void
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SCSlavePort::recvFunctional(PacketPtr packet)
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{
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/* Prepare the transaction */
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tlm::tlm_generic_payload * trans = mm.allocate();
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trans->acquire();
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packet2payload(packet, *trans);
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/* Attach the packet pointer to the TLM transaction to keep track */
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Gem5Extension* extension = new Gem5Extension(packet);
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trans->set_auto_extension(extension);
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/* Execute Debug Transport: */
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unsigned int bytes = transactor->socket->transport_dbg(*trans);
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if (bytes != trans->get_data_length()) {
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SC_REPORT_FATAL("SCSlavePort","debug transport was not completed");
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}
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trans->release();
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}
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bool
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SCSlavePort::recvTimingSnoopResp(PacketPtr packet)
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{
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/* Snooping should be implemented with tlm_dbg_transport */
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SC_REPORT_FATAL("SCSlavePort","unimplemented func.: recvTimingSnoopResp");
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return false;
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}
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void
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SCSlavePort::recvFunctionalSnoop(PacketPtr packet)
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{
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/* Snooping should be implemented with tlm_dbg_transport */
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SC_REPORT_FATAL("SCSlavePort","unimplemented func.: recvFunctionalSnoop");
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}
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/**
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* Similar to TLM's non-blocking transport (AT)
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*/
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bool
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SCSlavePort::recvTimingReq(PacketPtr packet)
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{
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CAUGHT_UP;
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panic_if(packet->cacheResponding(), "Should not see packets where cache "
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"is responding");
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panic_if(!(packet->isRead() || packet->isWrite()),
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"Should only see read and writes at TLM memory\n");
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/* We should never get a second request after noting that a retry is
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* required */
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sc_assert(!needToSendRequestRetry);
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/* Remember if a request comes in while we're blocked so that a retry
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* can be sent to gem5 */
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if (blockingRequest) {
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needToSendRequestRetry = true;
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return false;
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}
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/* NOTE: normal tlm is blocking here. But in our case we return false
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* and tell gem5 when a retry can be done. This is the main difference
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* in the protocol:
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* if (requestInProgress)
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* {
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* wait(endRequestEvent);
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* }
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* requestInProgress = trans;
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*/
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/* Prepare the transaction */
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tlm::tlm_generic_payload * trans = mm.allocate();
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trans->acquire();
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packet2payload(packet, *trans);
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/* Attach the packet pointer to the TLM transaction to keep track */
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Gem5Extension* extension = new Gem5Extension(packet);
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trans->set_auto_extension(extension);
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/* Starting TLM non-blocking sequence (AT) Refer to IEEE1666-2011 SystemC
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* Standard Page 507 for a visualisation of the procedure */
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sc_core::sc_time delay = sc_core::SC_ZERO_TIME;
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tlm::tlm_phase phase = tlm::BEGIN_REQ;
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tlm::tlm_sync_enum status;
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status = transactor->socket->nb_transport_fw(*trans, phase, delay);
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/* Check returned value: */
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if (status == tlm::TLM_ACCEPTED) {
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sc_assert(phase == tlm::BEGIN_REQ);
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/* Accepted but is now blocking until END_REQ (exclusion rule)*/
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blockingRequest = trans;
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} else if (status == tlm::TLM_UPDATED) {
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/* The Timing annotation must be honored: */
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sc_assert(phase == tlm::END_REQ || phase == tlm::BEGIN_RESP);
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PayloadEvent<SCSlavePort> * pe;
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pe = new PayloadEvent<SCSlavePort>(*this,
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&SCSlavePort::pec, "PEQ");
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pe->notify(*trans, phase, delay);
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} else if (status == tlm::TLM_COMPLETED) {
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/* Transaction is over nothing has do be done. */
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sc_assert(phase == tlm::END_RESP);
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trans->release();
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}
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return true;
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}
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void
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SCSlavePort::pec(
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PayloadEvent<SCSlavePort> * pe,
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tlm::tlm_generic_payload& trans,
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const tlm::tlm_phase& phase)
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{
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sc_time delay;
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if (phase == tlm::END_REQ ||
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&trans == blockingRequest && phase == tlm::BEGIN_RESP) {
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sc_assert(&trans == blockingRequest);
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blockingRequest = NULL;
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/* Did another request arrive while blocked, schedule a retry */
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if (needToSendRequestRetry) {
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needToSendRequestRetry = false;
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sendRetryReq();
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}
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}
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else if (phase == tlm::BEGIN_RESP)
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{
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CAUGHT_UP;
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auto& extension = Gem5Extension::getExtension(trans);
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auto packet = extension.getPacket();
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sc_assert(!blockingResponse);
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bool need_retry = false;
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/*
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* If the packet was piped through and needs a response, we don't need
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* to touch the packet and can forward it directly as a response.
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* Otherwise, we need to make a response and send the transformed
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* packet.
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*/
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if (extension.isPipeThrough()) {
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if (packet->isResponse()) {
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need_retry = !sendTimingResp(packet);
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}
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} else if (packet->needsResponse()) {
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packet->makeResponse();
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need_retry = !sendTimingResp(packet);
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}
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if (need_retry) {
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blockingResponse = &trans;
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} else {
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if (phase == tlm::BEGIN_RESP) {
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/* Send END_RESP and we're finished: */
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tlm::tlm_phase fw_phase = tlm::END_RESP;
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sc_time delay = SC_ZERO_TIME;
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transactor->socket->nb_transport_fw(trans, fw_phase, delay);
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/* Release the transaction with all the extensions */
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trans.release();
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}
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}
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}
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delete pe;
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}
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void
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SCSlavePort::recvRespRetry()
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{
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CAUGHT_UP;
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/* Retry a response */
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sc_assert(blockingResponse);
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tlm::tlm_generic_payload *trans = blockingResponse;
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blockingResponse = NULL;
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PacketPtr packet = Gem5Extension::getExtension(trans).getPacket();
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bool need_retry = !sendTimingResp(packet);
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sc_assert(!need_retry);
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sc_core::sc_time delay = sc_core::SC_ZERO_TIME;
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tlm::tlm_phase phase = tlm::END_RESP;
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transactor->socket->nb_transport_fw(*trans, phase, delay);
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// Release transaction with all the extensions
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trans->release();
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}
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tlm::tlm_sync_enum
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SCSlavePort::nb_transport_bw(tlm::tlm_generic_payload& trans,
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tlm::tlm_phase& phase,
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sc_core::sc_time& delay)
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{
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PayloadEvent<SCSlavePort> * pe;
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pe = new PayloadEvent<SCSlavePort>(*this, &SCSlavePort::pec, "PE");
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pe->notify(trans, phase, delay);
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return tlm::TLM_ACCEPTED;
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}
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SCSlavePort::SCSlavePort(const std::string &name_,
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const std::string &systemc_name,
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ExternalSlave &owner_) :
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ExternalSlave::Port(name_, owner_),
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blockingRequest(NULL),
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needToSendRequestRetry(false),
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blockingResponse(NULL),
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transactor(nullptr)
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{
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}
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void
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SCSlavePort::bindToTransactor(Gem5SlaveTransactor* transactor)
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{
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sc_assert(this->transactor == nullptr);
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this->transactor = transactor;
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transactor->socket.register_nb_transport_bw(this,
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&SCSlavePort::nb_transport_bw);
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}
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ExternalSlave::Port*
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SCSlavePortHandler::getExternalPort(const std::string &name,
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ExternalSlave &owner,
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const std::string &port_data)
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{
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// Create and register a new SystemC slave port
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auto* port = new SCSlavePort(name, port_data, owner);
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control.registerSlavePort(port_data, port);
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return port;
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}
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}
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