nr,gnb,sched: refactored sched nr common event handling to use accumulated event handling logging

master
Francisco 3 years ago committed by Francisco Paisana
parent e5e047bc63
commit 7c146c5198

@ -60,8 +60,8 @@ public:
void get_metrics(mac_metrics_t& metrics);
private:
void ue_cfg_impl(uint16_t rnti, const ue_cfg_t& cfg);
bool add_ue_impl(uint16_t rnti, std::unique_ptr<sched_nr_impl::ue> u);
int ue_cfg_impl(uint16_t rnti, const ue_cfg_t& cfg);
int add_ue_impl(uint16_t rnti, std::unique_ptr<sched_nr_impl::ue> u);
// args
sched_nr_impl::sched_params cfg;
@ -81,8 +81,8 @@ private:
std::unique_ptr<ul_sched_result_buffer> pending_results;
// Feedback management
class common_event_manager;
std::unique_ptr<common_event_manager> pending_events;
class event_manager;
std::unique_ptr<event_manager> pending_events;
// metrics extraction
class ue_metrics_manager;

@ -69,50 +69,70 @@ private:
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/// Class that stores events that are not specific to a CC (e.g. SRs, removal of UEs, buffer state updates)
class sched_nr::common_event_manager
class sched_nr::event_manager
{
struct event_t {
uint16_t rnti;
const char* event_name;
srsran::move_callback<void()> callback;
event_t(uint16_t rnti_, const char* event_name_, srsran::move_callback<void()> c) :
rnti(rnti_), event_name(event_name_), callback(std::move(c))
public:
/// class used to accummulate all processed event messages of a single {slot,cc} and print them in a single log line
struct logger {
explicit logger(int cc_, srslog::basic_logger& logger_) :
log_enabled(logger_.debug.enabled()), cc(cc_), sched_logger(logger_)
{}
};
struct ue_event_t {
uint16_t rnti;
srsran::move_callback<void(bool, void*)> callback;
ue_event_t(uint16_t rnti_, srsran::move_callback<void(bool, void*)> c) : rnti(rnti_), callback(std::move(c)) {}
logger(const logger&) = delete;
logger(logger&&) = delete;
logger& operator=(const logger&) = delete;
logger& operator=(logger&&) = delete;
~logger()
{
if (log_enabled and event_fmtbuf.size() > 0) {
if (cc < 0) {
sched_logger.debug("SCHED: Processed slot events: [%s]", srsran::to_c_str(event_fmtbuf));
} else {
sched_logger.debug("SCHED: Processed slot events, cc=%d: [%s]", cc, srsran::to_c_str(event_fmtbuf));
}
}
}
template <typename... Args>
void push(const char* fmt, Args&&... args)
{
if (log_enabled) {
if (event_fmtbuf.size() > 0) {
fmt::format_to(event_fmtbuf, ", ");
}
fmt::format_to(event_fmtbuf, fmt, std::forward<Args>(args)...);
}
}
template <typename... Args>
void push_warning(const char* fmt, Args&&... args)
{
fmt::memory_buffer fmtbuf;
fmt::format_to(fmtbuf, fmt, std::forward<Args>(args)...);
sched_logger.warning("SCHED: %s", srsran::to_c_str(fmtbuf));
}
private:
bool log_enabled;
int cc;
srslog::basic_logger& sched_logger;
fmt::memory_buffer event_fmtbuf;
};
public:
explicit common_event_manager(srslog::basic_logger& logger_) : logger(logger_) {}
explicit event_manager(srslog::basic_logger& logger_) : sched_logger(logger_) {}
/// Enqueue an event that does not map into a ue method (e.g. rem_user, add_user)
void enqueue_event(const char* event_name, srsran::move_callback<void()> ev, uint16_t rnti = SRSRAN_INVALID_RNTI)
void enqueue_event(const char* event_name, srsran::move_callback<void(logger&)> ev)
{
std::lock_guard<std::mutex> lock(event_mutex);
next_slot_events.emplace_back(rnti, event_name, std::move(ev));
next_slot_events.emplace_back(event_name, std::move(ev));
}
/// Enqueue an event that directly maps into a ue method (e.g. ul_sr_info, ul_bsr, etc.)
/// Note: these events can be processed sequentially or in parallel, depending on whether the UE supports CA
template <typename R, typename... FmtArgs>
void enqueue_ue_event(uint16_t rnti, R (ue::*ue_action)(FmtArgs...), const char* fmt_str, FmtArgs... args)
void enqueue_ue_event(const char* event_name, uint16_t rnti, srsran::move_callback<void(ue&, logger&)> callback)
{
srsran_assert(rnti != SRSRAN_INVALID_RNTI, "Invalid rnti=0x%x passed to common event manager", rnti);
auto callback = [fmt_str, ue_action, args...](bool call_or_fmt, void* a) {
if (call_or_fmt) {
ue* u = static_cast<ue*>(a);
(u->*ue_action)(args...);
} else {
fmt::memory_buffer* fmtbuf = static_cast<fmt::memory_buffer*>(a);
fmt::format_to(*fmtbuf, fmt_str, args...);
}
};
std::lock_guard<std::mutex> lock(event_mutex);
next_slot_ue_events.emplace_back(rnti, std::move(callback));
next_slot_ue_events.emplace_back(rnti, event_name, std::move(callback));
}
/// Process all events that are directed at CA-enabled UEs
@ -127,23 +147,22 @@ public:
next_slot_ue_events.swap(current_slot_ue_events);
next_slot_events.swap(current_slot_events);
}
log_slot_events();
logger evlogger(-1, sched_logger);
// non-UE specific events
for (event_t& ev : current_slot_events) {
ev.callback();
ev.callback(evlogger);
}
for (ue_event_t& ev : current_slot_ue_events) {
auto ue_it = ues.find(ev.rnti);
if (ue_it == ues.end()) {
fmt::memory_buffer fmtbuf;
ev.callback(false, &fmtbuf);
logger.warning("SCHED: \"%s\" called for inexistent rnti=0x%x.", srsran::to_c_str(fmtbuf), ev.rnti);
sched_logger.warning("SCHED: \"%s\" called for inexistent rnti=0x%x.", ev.event_name, ev.rnti);
ev.rnti = SRSRAN_INVALID_RNTI;
} else if (ue_it->second->has_ca()) {
// events specific to existing UEs with CA
ev.callback(true, ue_it->second.get());
ev.callback(*ue_it->second, evlogger);
ev.rnti = SRSRAN_INVALID_RNTI;
}
}
@ -152,6 +171,7 @@ public:
/// Process events synchronized during slot_indication() that are directed at non CA-enabled UEs
void process_single_cc_ue_events(ue_map_t& ues, uint32_t cc)
{
logger evlogger(cc, sched_logger);
for (ue_event_t& ev : current_slot_ue_events) {
if (ev.rnti == SRSRAN_INVALID_RNTI) {
// events already processed
@ -159,47 +179,33 @@ public:
}
auto ue_it = ues.find(ev.rnti);
if (ue_it == ues.end()) {
fmt::memory_buffer fmtbuf;
ev.callback(false, &fmtbuf);
logger.warning("SCHED: \"%s\" called for inexistent rnti=0x%x.", srsran::to_c_str(fmtbuf), ev.rnti);
sched_logger.warning("SCHED: \"%s\" called for inexistent rnti=0x%x.", ev.event_name, ev.rnti);
ev.rnti = SRSRAN_INVALID_RNTI;
} else if (not ue_it->second->has_ca() and ue_it->second->carriers[cc] != nullptr) {
ev.callback(true, ue_it->second.get());
ev.callback(*ue_it->second, evlogger);
ev.rnti = SRSRAN_INVALID_RNTI;
}
}
}
private:
/// logs events to be processed in the current slot
void log_slot_events()
{
if (not logger.debug.enabled()) {
return;
}
fmt::memory_buffer common_fmtbuf;
fmt::memory_buffer fmtbuf;
const char* prefix = "";
for (event_t& ev : current_slot_events) {
if (ev.rnti != SRSRAN_INVALID_RNTI) {
fmt::format_to(common_fmtbuf, "{}{{0x{:x}: {}}}", prefix, ev.rnti, ev.event_name);
} else {
fmt::format_to(common_fmtbuf, "{}{{{}}}", prefix, ev.event_name);
}
prefix = ", ";
}
for (ue_event_t& ev : current_slot_ue_events) {
fmt::format_to(fmtbuf, "{}{{0x{:x}: ", prefix, ev.rnti);
ev.callback(false, &fmtbuf);
fmt::format_to(fmtbuf, "}}");
prefix = ", ";
}
if (common_fmtbuf.size() > 0 or fmtbuf.size() > 0) {
logger.debug("SCHED: Pending slot events: [%s%s]", srsran::to_c_str(common_fmtbuf), srsran::to_c_str(fmtbuf));
}
}
struct event_t {
const char* event_name;
srsran::move_callback<void(logger&)> callback;
event_t(const char* event_name_, srsran::move_callback<void(logger&)> c) :
event_name(event_name_), callback(std::move(c))
{}
};
struct ue_event_t {
uint16_t rnti;
const char* event_name;
srsran::move_callback<void(ue&, logger&)> callback;
ue_event_t(uint16_t rnti_, const char* event_name_, srsran::move_callback<void(ue&, logger&)> c) :
rnti(rnti_), event_name(event_name_), callback(std::move(c))
{}
};
srslog::basic_logger& logger;
srslog::basic_logger& sched_logger;
std::mutex event_mutex;
srsran::deque<ue_event_t> next_slot_ue_events, current_slot_ue_events;
@ -298,7 +304,7 @@ int sched_nr::config(const sched_args_t& sched_cfg, srsran::const_span<cell_cfg_
pending_results.reset(new ul_sched_result_buffer(cell_list.size()));
pending_events.reset(new common_event_manager{*logger});
pending_events.reset(new event_manager{*logger});
// Initiate cell-specific schedulers
cc_workers.resize(cfg.cells.size());
@ -313,33 +319,36 @@ void sched_nr::ue_cfg(uint16_t rnti, const ue_cfg_t& uecfg)
{
srsran_assert(assert_ue_cfg_valid(rnti, uecfg) == SRSRAN_SUCCESS, "Invalid UE configuration");
logger->info("SCHED: New user rnti=0x%x, cc=%d", rnti, cfg.cells[0].cc);
pending_events->enqueue_event(
"ue_cfg", [this, rnti, uecfg]() { ue_cfg_impl(rnti, uecfg); }, rnti);
pending_events->enqueue_event("ue_cfg", [this, rnti, uecfg](event_manager::logger& ev_logger) {
if (ue_cfg_impl(rnti, uecfg) == SRSRAN_SUCCESS) {
ev_logger.push("ue_cfg(0x{:x})", rnti);
} else {
ev_logger.push_warning("Failed to create UE object for rnti=0x{:x}", rnti);
}
});
}
void sched_nr::ue_rem(uint16_t rnti)
{
pending_events->enqueue_event(
"ue_rem", [this, rnti]() { ue_db.erase(rnti); }, rnti);
pending_events->enqueue_event("ue_rem", [this, rnti](event_manager::logger& ev_logger) {
ue_db.erase(rnti);
ev_logger.push("ue_rem(0x{:x})", rnti);
});
}
bool sched_nr::add_ue_impl(uint16_t rnti, std::unique_ptr<sched_nr_impl::ue> u)
int sched_nr::add_ue_impl(uint16_t rnti, std::unique_ptr<sched_nr_impl::ue> u)
{
auto ret = ue_db.insert(rnti, std::move(u));
if (not ret.has_value()) {
logger->error("SCHED: Failed to create new user rnti=0x%x", rnti);
return false;
}
return true;
return ue_db.insert(rnti, std::move(u)).has_value() ? SRSRAN_SUCCESS : SRSRAN_ERROR;
}
void sched_nr::ue_cfg_impl(uint16_t rnti, const ue_cfg_t& uecfg)
int sched_nr::ue_cfg_impl(uint16_t rnti, const ue_cfg_t& uecfg)
{
if (not ue_db.contains(rnti)) {
add_ue_impl(rnti, std::unique_ptr<ue>(new ue{rnti, uecfg, cfg}));
} else {
ue_db[rnti]->set_cfg(uecfg);
return add_ue_impl(rnti, std::unique_ptr<ue>(new ue{rnti, uecfg, cfg}));
}
ue_db[rnti]->set_cfg(uecfg);
return SRSRAN_SUCCESS;
}
// NOTE: there is no parallelism in these operations
@ -421,18 +430,21 @@ void sched_nr::get_metrics(mac_metrics_t& metrics)
int sched_nr::dl_rach_info(const rar_info_t& rar_info, const ue_cfg_t& uecfg)
{
// enqueue UE creation event + RACH handling
auto add_ue = [this, uecfg, rar_info]() {
auto add_ue = [this, uecfg, rar_info](event_manager::logger& ev_logger) {
// create user
// Note: UEs being created in sched main thread, which has higher priority
logger->info("SCHED: New user rnti=0x%x, cc=%d", rar_info.temp_crnti, uecfg.carriers[0].cc);
std::unique_ptr<ue> u{new ue{rar_info.temp_crnti, uecfg, cfg}};
uint16_t rnti = rar_info.temp_crnti;
if (add_ue_impl(rnti, std::move(u))) {
if (add_ue_impl(rnti, std::move(u)) == SRSRAN_SUCCESS) {
ev_logger.push("dl_rach_info(temp c-rnti=0x{:x})", rar_info.temp_crnti);
// RACH is handled in cc worker, once the UE object is created and inserted in the ue_db
uint32_t cc = uecfg.carriers[0].cc;
cc_workers[cc]->pending_feedback.enqueue_common_event(
[this, cc, rar_info]() { cc_workers[cc]->dl_rach_info(rar_info); });
} else {
ev_logger.push_warning("Failed to create UE object with rnti=0x%x", rar_info.temp_crnti);
}
};
pending_events->enqueue_event("dl_rach_info", add_ue);
@ -467,18 +479,27 @@ void sched_nr::ul_crc_info(uint16_t rnti, uint32_t cc, uint32_t pid, bool crc)
void sched_nr::ul_sr_info(uint16_t rnti)
{
pending_events->enqueue_ue_event(rnti, &ue::ul_sr_info, "ul_sr_info");
pending_events->enqueue_ue_event("ul_sr_info", rnti, [](ue& u, event_manager::logger& evlogger) {
u.ul_sr_info();
evlogger.push("0x{:x}: ul_sr_info()", u.rnti);
});
}
void sched_nr::ul_bsr(uint16_t rnti, uint32_t lcg_id, uint32_t bsr)
{
pending_events->enqueue_ue_event(rnti, &ue::ul_bsr, "ul_bsr(lcg_id={}, bsr={})", lcg_id, bsr);
pending_events->enqueue_ue_event("ul_bsr", rnti, [lcg_id, bsr](ue& u, event_manager::logger& evlogger) {
u.ul_bsr(lcg_id, bsr);
evlogger.push("0x{:x}: ul_bsr(lcg={}, bsr={})", u.rnti, lcg_id, bsr);
});
}
void sched_nr::dl_buffer_state(uint16_t rnti, uint32_t lcid, uint32_t newtx, uint32_t retx)
{
pending_events->enqueue_ue_event(
rnti, &ue::rlc_buffer_state, "dl_buffer_state(lcid={}, newtx={}, retx={})", lcid, newtx, retx);
"dl_buffer_state", rnti, [lcid, newtx, retx](ue& u, event_manager::logger& event_logger) {
u.rlc_buffer_state(lcid, newtx, retx);
event_logger.push("0x{:x}: dl_buffer_state(lcid={}, newtx={}, retx={})", u.rnti, lcid, newtx, retx);
});
}
#define VERIFY_INPUT(cond, msg, ...) \

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