SystemC-Components-Test/tests/sim_performance/pkt_switch.cpp

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/*
* blocks.cpp
*
* Created on: 04.05.2020
* Author: eyck
*/
#ifndef SC_INCLUDE_DYNAMIC_PROCESSES // needed for sc_spawn
#define SC_INCLUDE_DYNAMIC_PROCESSES
#endif
#include "pkt_switch.h"
#include "types.h"
#include <scc/report.h>
using namespace sc_core;
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pkt_switch::pkt_switch(const sc_core::sc_module_name& nm)
: sc_module(nm) {
SC_HAS_PROCESS(pkt_switch);
auto index = 0U;
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for(auto& s : isck) {
s.register_nb_transport_bw([this](unsigned id, tlm::tlm_generic_payload& gp, tlm::tlm_phase& phase,
sc_core::sc_time& delay) -> tlm::tlm_sync_enum { return this->nb_bw(id, gp, phase, delay); },
index++);
}
index = 0U;
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for(auto& s : tsck) {
s.register_nb_transport_fw([this](unsigned id, tlm::tlm_generic_payload& gp, tlm::tlm_phase& phase,
sc_core::sc_time& delay) -> tlm::tlm_sync_enum { return this->nb_fw(id, gp, phase, delay); },
index++);
}
SC_METHOD(clock_cb);
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sensitive << clk_i.pos();
dont_initialize();
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for(auto i = 0U; i < SIDES; ++i) {
sc_core::sc_spawn_options opts;
opts.spawn_method();
opts.set_sensitivity(&out_fifo[i].data_written_event());
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sc_core::sc_spawn([this, i]() -> void { this->output_cb(i); }, sc_core::sc_gen_unique_name("out_peq"), &opts);
}
}
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tlm::tlm_sync_enum pkt_switch::nb_fw(unsigned id, tlm::tlm_generic_payload& gp, tlm::tlm_phase& phase, sc_core::sc_time& delay) {
in_tx[id].write(&gp);
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if(phase == tlm::BEGIN_REQ)
phase = tlm::END_REQ;
else
SCCERR(SCMOD) << "WTF!?!";
return tlm::TLM_UPDATED;
}
void pkt_switch::clock_cb() {
std::array<std::vector<unsigned>, SIDES> routing{};
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bool nothing_todo = true;
for(auto i = 0U; i < SIDES; ++i) {
if(auto gp = in_tx[i].read()) {
auto ext = gp->get_extension<packet_ext>();
sc_assert(ext);
routing[ext->routing.back()].push_back(i);
nothing_todo = false;
}
}
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if(nothing_todo)
return;
for(auto i = 0U; i < SIDES; ++i) {
if(routing[i].size()) {
auto selected_input = routing[i].front();
auto* gp = in_tx[selected_input].read();
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if(out_fifo[i].nb_write(gp)) {
auto ext = gp->get_extension<packet_ext>();
ext->routing.pop_back();
gp->acquire();
tlm::tlm_phase phase{tlm::BEGIN_RESP};
sc_core::sc_time delay;
auto res = tsck[selected_input]->nb_transport_bw(*gp, phase, delay);
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if(res != tlm::TLM_COMPLETED && !(res == tlm::TLM_UPDATED && phase == tlm::END_RESP))
SCCERR(SCMOD) << "WTF!?!";
in_tx[selected_input].clear();
}
}
}
}
void pkt_switch::output_cb(unsigned id) {
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if(out_fifo[id].num_available()) {
auto* gp = out_fifo[id].read();
tlm::tlm_phase phase{tlm::BEGIN_REQ};
sc_time delay;
auto sync = isck[id]->nb_transport_fw(*gp, phase, delay);
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sc_assert(sync == tlm::TLM_UPDATED && phase == tlm::END_REQ);
}
}
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tlm::tlm_sync_enum pkt_switch::nb_bw(unsigned id, tlm::tlm_generic_payload& gp, tlm::tlm_phase& phase, sc_core::sc_time& delay) {
gp.release();
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sc_assert(phase == tlm::BEGIN_RESP);
phase = tlm::END_RESP;
return tlm::TLM_COMPLETED;
}