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470 lines
16 KiB
C++
470 lines
16 KiB
C++
/*
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* Copyright 2013-2020 Software Radio Systems Limited
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*
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* This file is part of srsLTE.
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*
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* srsLTE is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as
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* published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version.
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*
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* srsLTE is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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*
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* A copy of the GNU Affero General Public License can be found in
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* the LICENSE file in the top-level directory of this distribution
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* and at http://www.gnu.org/licenses/.
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*
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*/
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#include "srslte/common/fsm.h"
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#include "srslte/common/test_common.h"
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/////////////////////////////
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// Events
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struct ev1 {};
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struct ev2 {};
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class fsm1 : public srslte::fsm_t<fsm1>
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{
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public:
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uint32_t idle_enter_counter = 0, state1_enter_counter = 0, inner_enter_counter = 0;
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uint32_t foo_counter = 0;
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// states
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struct idle_st {
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void enter(fsm1* f);
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};
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struct state1 {
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void enter(fsm1* f);
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void exit(fsm1* f);
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};
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explicit fsm1(srslte::log_ref log_) : srslte::fsm_t<fsm1>(log_) {}
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// this state is another FSM
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class fsm2 : public subfsm_t<fsm2>
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{
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public:
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// states
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struct state_inner {
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void enter(fsm2* f)
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{
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f->log_h->info("fsm1::%s::enter called\n", srslte::get_type_name(*this).c_str());
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f->parent_fsm()->inner_enter_counter++;
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}
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};
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struct state_inner2 {
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void enter(fsm2* f) { f->log_h->info("fsm1::%s::enter called\n", srslte::get_type_name(*this).c_str()); }
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void exit(fsm2* f) { f->log_h->info("fsm1::%s::exit called\n", srslte::get_type_name(*this).c_str()); }
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};
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explicit fsm2(fsm1* f_) : nested_fsm_t(f_) {}
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~fsm2() { log_h->info("%s being destroyed!", get_type_name(*this).c_str()); }
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private:
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void inner_action1(state_inner& s, state_inner& d, const ev1& e);
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void inner_action2(state_inner& s, state_inner2& d, const ev2& e);
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void inner_action3(state_inner2& s, state1& d, const ev2& e);
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protected:
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// list of states
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state_list<state_inner, state_inner2> states{this};
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// clang-format off
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using transitions = transition_table<
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// Start Target Event Action
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// +------------+-------------+----+----------------------+
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row<state_inner, state_inner, ev1, &fsm2::inner_action1 >,
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row<state_inner, state_inner2, ev2, &fsm2::inner_action2 >,
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row<state_inner2, state1, ev2, &fsm2::inner_action3 >
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// +------------+-------------+----+----------------------+
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>;
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// clang-format on
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};
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private:
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void action1(idle_st& s, state1& d, const ev1& e);
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void action2(state1& s, fsm2& d, const ev1& e);
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void action3(state1& s, idle_st& d, const ev2& e);
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protected:
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void foo(ev1 e) { foo_counter++; }
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// list of states + transitions
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state_list<idle_st, state1, fsm2> states = {this, idle_st{}, state1{}, fsm2{this}};
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// clang-format off
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using transitions = transition_table<
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// Start Target Event Action
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// +------------+-------------+----+------------------+
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row< idle_st, state1, ev1, &fsm1::action1>,
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row< state1, fsm2, ev1, &fsm1::action2>,
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row< state1, idle_st, ev2, &fsm1::action3>
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// +------------+-------------+----+--------------------+
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>;
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// clang-format on
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};
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void fsm1::idle_st::enter(fsm1* f)
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{
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f->log_h->info("%s::enter custom called\n", srslte::get_type_name(*this).c_str());
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f->idle_enter_counter++;
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}
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void fsm1::state1::enter(fsm1* f)
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{
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f->log_h->info("%s::enter custom called\n", srslte::get_type_name(*this).c_str());
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f->state1_enter_counter++;
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}
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void fsm1::state1::exit(fsm1* f)
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{
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f->log_h->info("%s::exit custom called\n", srslte::get_type_name(*this).c_str());
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}
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// FSM event handlers
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void fsm1::fsm2::inner_action1(state_inner& s, state_inner& d, const ev1& e)
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{
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log_h->info("fsm2::state_inner::react called\n");
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}
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void fsm1::fsm2::inner_action2(state_inner& s, state_inner2& d, const ev2& e)
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{
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log_h->info("fsm2::state_inner::react called\n");
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}
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void fsm1::fsm2::inner_action3(state_inner2& s, state1& d, const ev2& e)
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{
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log_h->info("fsm2::state_inner2::react called\n");
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}
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void fsm1::action1(idle_st& s, state1& d, const ev1& e)
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{
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log_h->info("%s::react called\n", srslte::get_type_name(s).c_str());
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foo(e);
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}
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void fsm1::action2(state1& s, fsm2& d, const ev1& ev)
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{
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log_h->info("%s::react called\n", srslte::get_type_name(s).c_str());
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}
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void fsm1::action3(state1& s, idle_st& d, const ev2& ev)
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{
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log_h->info("%s::react called\n", srslte::get_type_name(s).c_str());
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}
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// Static Checks
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namespace srslte {
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namespace fsm_details {
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static_assert(is_fsm<fsm1>(), "invalid metafunction\n");
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static_assert(is_subfsm<fsm1::fsm2>(), "invalid metafunction\n");
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static_assert(type_list_size(typename filter_transition_type<ev1, fsm1::idle_st, fsm_transitions<fsm1> >::type{}) > 0,
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"invalid filter metafunction\n");
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static_assert(
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std::is_same<fsm_state_list_type<fsm1>, fsm1::state_list<fsm1::idle_st, fsm1::state1, fsm1::fsm2> >::value,
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"get state list failed\n");
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static_assert(fsm1::can_hold_state<fsm1::state1>(), "failed can_hold_state check\n");
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static_assert(std::is_same<enable_if_fsm_state<fsm1, fsm1::idle_st>, void>::value, "get state list failed\n");
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static_assert(std::is_same<disable_if_fsm_state<fsm1, fsm1::fsm2::state_inner>, void>::value,
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"get state list failed\n");
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static_assert(fsm_details::state_traits<fsm1, fsm1::idle_st>::has_enter::value, "Failed detection of enter method\n");
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static_assert(fsm_details::state_traits<fsm1, fsm1::idle_st>::has_exit::value == false,
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"Failed detection of exit method\n");
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} // namespace fsm_details
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} // namespace srslte
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// Runtime checks
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int test_hsm()
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{
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srslte::log_ref log_h{"HSM"};
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log_h->set_level(srslte::LOG_LEVEL_INFO);
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fsm1 f{log_h};
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TESTASSERT(f.idle_enter_counter == 1);
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TESTASSERT(get_type_name(f) == "fsm1");
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TESTASSERT(f.current_state_name() == "idle_st");
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TESTASSERT(f.is_in_state<fsm1::idle_st>());
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TESTASSERT(f.foo_counter == 0);
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// Moving Idle -> State1
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ev1 e;
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f.trigger(e);
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TESTASSERT(f.current_state_name() == "state1");
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TESTASSERT(f.is_in_state<fsm1::state1>());
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// Moving State1 -> fsm2
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f.trigger(e);
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TESTASSERT(f.current_state_name() == "fsm2");
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TESTASSERT(f.is_in_state<fsm1::fsm2>());
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TESTASSERT(f.get_if_current_state<fsm1::fsm2>()->current_state_name() == "state_inner");
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TESTASSERT(f.inner_enter_counter == 1);
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// Fsm2 does not listen to ev1
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f.trigger(e);
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TESTASSERT(f.current_state_name() == "fsm2");
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TESTASSERT(f.is_in_state<fsm1::fsm2>());
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TESTASSERT(f.get_if_current_state<fsm1::fsm2>()->current_state_name() == "state_inner");
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// Fsm2 state_inner -> state_inner2
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f.trigger(ev2{});
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TESTASSERT(f.current_state_name() == "fsm2");
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TESTASSERT(f.is_in_state<fsm1::fsm2>());
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TESTASSERT(f.get_if_current_state<fsm1::fsm2>()->current_state_name() == "state_inner2");
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// Moving fsm2 -> state1
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f.trigger(ev2{});
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TESTASSERT(f.current_state_name() == "state1");
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TESTASSERT(f.is_in_state<fsm1::state1>());
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TESTASSERT(f.state1_enter_counter == 2);
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// Moving state1 -> idle
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f.trigger(ev2{});
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TESTASSERT(std::string{f.current_state_name()} == "idle_st");
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TESTASSERT(f.is_in_state<fsm1::idle_st>());
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TESTASSERT(f.foo_counter == 1);
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TESTASSERT(f.idle_enter_counter == 2);
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// Call unhandled event
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f.trigger(ev2{});
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TESTASSERT(f.current_state_name() == "idle_st");
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// Enter fsm2 again
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f.trigger(ev1{});
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f.trigger(ev1{});
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TESTASSERT(f.current_state_name() == "fsm2");
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TESTASSERT(f.is_in_state<fsm1::fsm2>());
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TESTASSERT(f.get_if_current_state<fsm1::fsm2>()->current_state_name() == "state_inner");
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return SRSLTE_SUCCESS;
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}
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/////////////////////////////
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struct procevent1 {
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bool is_success;
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};
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struct proc1 : public srslte::proc_fsm_t<proc1, int> {
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public:
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struct procstate1 {};
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proc1(srslte::log_ref log_) : base_t(log_) {}
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protected:
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// Transitions
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void init(idle_st& s, procstate1& d, const srslte::proc_launch_ev<int*>& ev);
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void handle_success(procstate1& s, idle_st& d, const procevent1& ev);
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void handle_failure(procstate1& s, idle_st& d, const procevent1& ev);
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bool is_success(procstate1& s, const procevent1& ev) const { return ev.is_success; }
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bool is_failure(procstate1& s, const procevent1& ev) const { return not ev.is_success; }
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state_list<idle_st, procstate1> states{this, idle_st{}, procstate1{}};
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// clang-format off
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using transitions = transition_table<
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// Start Target Event Action Guard (optional)
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// +------------+-------------+----------------------------+------------------------+--------------------+
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row< idle_st, procstate1, srslte::proc_launch_ev<int*>, &proc1::init >,
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row< procstate1, idle_st, procevent1, &proc1::handle_success, &proc1::is_success >,
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row< procstate1, idle_st, procevent1, &proc1::handle_failure, &proc1::is_failure >
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// +------------+-------------+----------------------------+------------------------+--------------------+
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>;
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// clang-format on
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};
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void proc1::init(idle_st& s, procstate1& d, const srslte::proc_launch_ev<int*>& ev)
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{
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log_h->info("started!\n");
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}
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void proc1::handle_success(procstate1& s, idle_st& d, const procevent1& ev)
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{
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log_h->info("success!\n");
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d = {true, 5};
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}
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void proc1::handle_failure(procstate1& s, idle_st& d, const procevent1& ev)
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{
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log_h->info("failure!\n");
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d = {false, 3};
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}
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int test_fsm_proc()
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{
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proc1 proc{srslte::logmap::get("PROC")};
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proc.get_log()->set_level(srslte::LOG_LEVEL_INFO);
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proc.set_fsm_event_log_level(srslte::LOG_LEVEL_INFO);
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int v = 2;
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TESTASSERT(proc.current_state_name() == "idle_st");
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proc.launch(&v);
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TESTASSERT(proc.current_state_name() == "procstate1");
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proc.launch(&v);
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TESTASSERT(proc.current_state_name() == "procstate1");
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proc.trigger(5);
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TESTASSERT(proc.current_state_name() == "procstate1");
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proc.trigger(procevent1{true});
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TESTASSERT(proc.current_state_name() == "idle_st");
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TESTASSERT(proc.get_state<proc1::idle_st>()->is_success());
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proc.launch(&v);
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TESTASSERT(proc.current_state_name() == "procstate1");
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proc.trigger(procevent1{false});
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TESTASSERT(proc.current_state_name() == "idle_st");
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TESTASSERT(not proc.get_state<proc1::idle_st>()->is_success());
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return SRSLTE_SUCCESS;
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}
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///////////////////////////
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class nas_fsm : public srslte::fsm_t<nas_fsm>
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{
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public:
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// states
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struct emm_null_st {};
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struct emm_deregistered {};
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struct emm_deregistered_initiated {};
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struct emm_ta_updating_initiated {};
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struct emm_registered {};
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struct emm_service_req_initiated {};
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struct emm_registered_initiated {};
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// events
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struct enable_s1_ev {};
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struct disable_s1_ev {};
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struct attach_request_ev {};
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struct emm_registr_fail_ev {}; ///< attach rejected, network init DETACH request, lower layer failure
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struct attach_accept_ev {}; ///< attach accept and default EPS bearer context activated
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struct sr_initiated_ev {};
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struct sr_outcome_ev {};
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struct tau_request_ev {};
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struct tau_outcome_ev {};
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struct tau_reject_other_cause_ev {};
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struct power_off_ev {};
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struct detach_request_ev {};
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struct detach_accept_ev {};
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nas_fsm(srslte::log_ref log_) : fsm_t<nas_fsm>(log_) {}
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protected:
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state_list<emm_null_st,
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emm_deregistered,
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emm_registered_initiated,
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emm_registered,
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emm_service_req_initiated,
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emm_ta_updating_initiated,
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emm_deregistered_initiated>
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states{nullptr};
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// clang-format off
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using transitions = transition_table<
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// Start Target Event
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// +-----------------------------+-------------------------+-----------------------------+
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row< emm_null_st, emm_deregistered, enable_s1_ev >,
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row< emm_deregistered, emm_null_st, disable_s1_ev >,
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row< emm_deregistered, emm_registered_initiated, attach_request_ev >,
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row< emm_registered_initiated, emm_deregistered, emm_registr_fail_ev >,
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row< emm_registered_initiated, emm_registered, attach_accept_ev >,
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row< emm_registered, emm_service_req_initiated, sr_initiated_ev >,
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row< emm_service_req_initiated, emm_registered, sr_outcome_ev >,
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row< emm_registered, emm_ta_updating_initiated, tau_request_ev >,
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row< emm_registered, emm_deregistered_initiated, detach_request_ev >,
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row< emm_ta_updating_initiated, emm_registered, tau_outcome_ev >,
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row< emm_ta_updating_initiated, emm_deregistered, tau_reject_other_cause_ev >,
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row< emm_deregistered_initiated, emm_deregistered, detach_accept_ev >,
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from_any_state<emm_deregistered, power_off_ev>
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>;
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// clang-format on
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};
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int test_nas_fsm()
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{
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srslte::log_ref log_h{"NAS"};
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log_h->set_level(srslte::LOG_LEVEL_INFO);
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nas_fsm fsm{log_h};
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_null_st>());
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// NULL -> EMM-DEREGISTERED
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fsm.trigger(nas_fsm::enable_s1_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_deregistered>());
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// EMM-DEREGISTERED -> EMM-NULL -> EMM-DEREGISTERED
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fsm.trigger(nas_fsm::disable_s1_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_null_st>());
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fsm.trigger(nas_fsm::enable_s1_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_deregistered>());
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// EMM-DEREGISTERED -> EMM-REGISTERED-INITIATED -> EMM-DEREGISTERED
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fsm.trigger(nas_fsm::attach_request_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_registered_initiated>());
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fsm.trigger(nas_fsm::emm_registr_fail_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_deregistered>());
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// EMM-DEREGISTERED -> EMM-REGISTERED-INITIATED -> EMM-REGISTERED
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fsm.trigger(nas_fsm::attach_request_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_registered_initiated>());
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fsm.trigger(nas_fsm::attach_accept_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_registered>());
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// EMM-REGISTERED -> EMM-SERVICE-REQUEST-INITIATED -> EMM-REGISTERED
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fsm.trigger(nas_fsm::sr_initiated_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_service_req_initiated>());
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fsm.trigger(nas_fsm::sr_outcome_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_registered>());
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// EMM-REGISTERED -> EMM-TRACKING-AREA-UPDATING-INITIATED -> EMM-REGISTERED
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fsm.trigger(nas_fsm::tau_request_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_ta_updating_initiated>());
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fsm.trigger(nas_fsm::tau_outcome_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_registered>());
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|
|
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// EMM-REGISTERED -> EMM-DEREGISTED-INITIATED -> EMM-DEREGISTERED
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fsm.trigger(nas_fsm::detach_request_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_deregistered_initiated>());
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fsm.trigger(nas_fsm::detach_accept_ev{});
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TESTASSERT(fsm.is_in_state<nas_fsm::emm_deregistered>());
|
|
|
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// EMM-DEREGISTERED -> EMM-REGISTERED-INITIATED -> EMM-REGISTERED -> EMM-TRACKING-AREA-UPDATING-INITIATED ->
|
|
// EMM-DEREGISTERED
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|
fsm.trigger(nas_fsm::attach_request_ev{});
|
|
TESTASSERT(fsm.is_in_state<nas_fsm::emm_registered_initiated>());
|
|
fsm.trigger(nas_fsm::attach_accept_ev{});
|
|
TESTASSERT(fsm.is_in_state<nas_fsm::emm_registered>());
|
|
fsm.trigger(nas_fsm::tau_request_ev{});
|
|
fsm.trigger(nas_fsm::tau_reject_other_cause_ev{});
|
|
TESTASSERT(fsm.is_in_state<nas_fsm::emm_deregistered>());
|
|
|
|
// EMM-DEREGISTERED -> EMM-REGISTERED-INITIATED -> EMM-REGISTERED -> EMM-SERVICE-REQUEST-INITIATED -> EMM-DEREGISTERED
|
|
// (power-off)
|
|
fsm.trigger(nas_fsm::attach_request_ev{});
|
|
fsm.trigger(nas_fsm::attach_accept_ev{});
|
|
fsm.trigger(nas_fsm::sr_initiated_ev{});
|
|
TESTASSERT(fsm.is_in_state<nas_fsm::emm_service_req_initiated>());
|
|
fsm.trigger(nas_fsm::power_off_ev{});
|
|
TESTASSERT(fsm.is_in_state<nas_fsm::emm_deregistered>());
|
|
|
|
return SRSLTE_SUCCESS;
|
|
}
|
|
|
|
int main()
|
|
{
|
|
srslte::log_ref testlog{"TEST"};
|
|
testlog->set_level(srslte::LOG_LEVEL_INFO);
|
|
TESTASSERT(test_hsm() == SRSLTE_SUCCESS);
|
|
testlog->info("TEST \"hsm\" finished successfully\n\n");
|
|
TESTASSERT(test_fsm_proc() == SRSLTE_SUCCESS);
|
|
testlog->info("TEST \"proc\" finished successfully\n\n");
|
|
TESTASSERT(test_nas_fsm() == SRSLTE_SUCCESS);
|
|
testlog->info("TEST \"nas fsm\" finished successfully\n\n");
|
|
|
|
return SRSLTE_SUCCESS;
|
|
}
|