Commit 06729cf0 authored by Tien Thinh NGUYEN's avatar Tien Thinh NGUYEN

Merge branch 'fix_develop_ue_rel16' into ue_triggered_pdu_session_release

parents 3d122038 89235dea
...@@ -21,6 +21,7 @@ ...@@ -21,6 +21,7 @@
#include "NFStatusNotifyApi.h" #include "NFStatusNotifyApi.h"
#include "Helpers.h" #include "Helpers.h"
#include "logger.hpp"
#include "smf_config.hpp" #include "smf_config.hpp"
extern smf::smf_config smf_cfg; extern smf::smf_config smf_cfg;
...@@ -56,6 +57,9 @@ void NFStatusNotifyApi::setupRoutes() { ...@@ -56,6 +57,9 @@ void NFStatusNotifyApi::setupRoutes() {
void NFStatusNotifyApi::notify_nf_status_handler( void NFStatusNotifyApi::notify_nf_status_handler(
const Pistache::Rest::Request& request, const Pistache::Rest::Request& request,
Pistache::Http::ResponseWriter response) { Pistache::Http::ResponseWriter response) {
Logger::smf_api_server().info("Received a NFStatusNotify message");
Logger::smf_api_server().debug("Message body: %s\n", request.body().c_str());
// Getting the body param // Getting the body param
NotificationData notificationData; NotificationData notificationData;
......
...@@ -1026,6 +1026,13 @@ struct node_id_s { ...@@ -1026,6 +1026,13 @@ struct node_id_s {
struct in6_addr ipv6_address; struct in6_addr ipv6_address;
} u1; } u1;
std::string fqdn; // should be in union but problem with virtual ~ std::string fqdn; // should be in union but problem with virtual ~
node_id_s() {
node_id_type = node_id_type_value_e::NODE_ID_TYPE_UNKNOWN;
u1.ipv4_address.s_addr = INADDR_ANY;
u1.ipv6_address = in6addr_any;
fqdn = {};
}
bool operator==(const struct node_id_s& i) const { bool operator==(const struct node_id_s& i) const {
if (i.node_id_type != this->node_id_type) return false; if (i.node_id_type != this->node_id_type) return false;
switch (i.node_id_type) { switch (i.node_id_type) {
......
...@@ -22,14 +22,15 @@ ...@@ -22,14 +22,15 @@
#ifndef FILE_SMF_SEEN #ifndef FILE_SMF_SEEN
#define FILE_SMF_SEEN #define FILE_SMF_SEEN
#include "3gpp_29.274.h" #include <boost/algorithm/string.hpp>
#include "3gpp_29.571.h"
#include "3gpp_24.501.h"
#include <nlohmann/json.hpp>
#include <map> #include <map>
#include <vector> #include <nlohmann/json.hpp>
#include <unordered_set> #include <unordered_set>
#include <vector>
#include "3gpp_24.501.h"
#include "3gpp_29.274.h"
#include "3gpp_29.571.h"
typedef uint64_t supi64_t; typedef uint64_t supi64_t;
#define SUPI_64_FMT "%" SCNu64 #define SUPI_64_FMT "%" SCNu64
...@@ -85,13 +86,21 @@ typedef struct s_nssai // section 28.4, TS23.003 ...@@ -85,13 +86,21 @@ typedef struct s_nssai // section 28.4, TS23.003
uint32_t sd; uint32_t sd;
s_nssai(const uint8_t& m_sst, const uint32_t m_sd) : sst(m_sst), sd(m_sd) {} s_nssai(const uint8_t& m_sst, const uint32_t m_sd) : sst(m_sst), sd(m_sd) {}
s_nssai(const uint8_t& m_sst, const std::string m_sd) : sst(m_sst) { s_nssai(const uint8_t& m_sst, const std::string m_sd) : sst(m_sst) {
sd = 0xFFFFFF; sd = SD_NO_VALUE;
if (m_sd.empty()) return;
uint8_t base = 10;
try { try {
sd = std::stoul(m_sd, nullptr, 10); if (m_sd.size() > 2) {
if (boost::iequals(m_sd.substr(0, 2), "0x")) {
base = 16;
}
}
sd = std::stoul(m_sd, nullptr, base);
} catch (const std::exception& e) { } catch (const std::exception& e) {
Logger::smf_app().warn( Logger::smf_app().error(
"Error when converting from string to int for snssai.SD, error: %s", "Error when converting from string to int for S-NSSAI SD, error: %s",
e.what()); e.what());
sd = SD_NO_VALUE;
} }
} }
s_nssai() : sst(), sd() {} s_nssai() : sst(), sd() {}
...@@ -212,8 +221,8 @@ enum class sm_context_status_e { ...@@ -212,8 +221,8 @@ enum class sm_context_status_e {
SM_CONTEXT_STATUS_RELEASED = 1 SM_CONTEXT_STATUS_RELEASED = 1
}; };
static const std::vector<std::string> sm_context_status_e2str = { static const std::vector<std::string> sm_context_status_e2str = {"ACTIVE",
"ACTIVE", "RELEASED"}; "RELEASED"};
typedef struct qos_profile_gbr_s { typedef struct qos_profile_gbr_s {
gfbr_t gfbr; // Guaranteed Flow Bit Rate gfbr_t gfbr; // Guaranteed Flow Bit Rate
...@@ -346,7 +355,7 @@ typedef struct nf_service_s { ...@@ -346,7 +355,7 @@ typedef struct nf_service_s {
s.append(service_instance_id); s.append(service_instance_id);
s.append(", Service name: "); s.append(", Service name: ");
s.append(service_name); s.append(service_name);
for (auto v : versions) { for (const auto& v : versions) {
s.append(v.to_string()); s.append(v.to_string());
} }
s.append(", Scheme: "); s.append(", Scheme: ");
...@@ -381,11 +390,38 @@ typedef struct dnn_upf_info_item_s { ...@@ -381,11 +390,38 @@ typedef struct dnn_upf_info_item_s {
return std::hash<std::string>()(dnn); return std::hash<std::string>()(dnn);
} }
} dnn_upf_info_item_t; std::string to_string() const {
std::string s = {};
s.append("DNN = ").append(dnn).append(", ");
if (dnai_list.size() > 0) {
s.append("DNAI list: {");
for (const auto& dnai : dnai_list) {
s.append("DNAI = ").append(dnai).append(", ");
}
s.append("}, ");
}
if (dnai_nw_instance_list.size() > 0) {
s.append("DNAI NW Instance list: {");
for (const auto& dnai_nw : dnai_nw_instance_list) {
s.append("(").append(dnai_nw.first).append(", ").append(dnai_nw.second).append("),");
}
s.append("}, ");
}
return s;
}
}
dnn_upf_info_item_t;
typedef struct snssai_upf_info_item_s { typedef struct snssai_upf_info_item_s {
snssai_t snssai; mutable snssai_t snssai;
std::unordered_set<dnn_upf_info_item_t, dnn_upf_info_item_t> mutable std::unordered_set<dnn_upf_info_item_t, dnn_upf_info_item_t>
dnn_upf_info_list; dnn_upf_info_list;
snssai_upf_info_item_s& operator=(const snssai_upf_info_item_s& s) { snssai_upf_info_item_s& operator=(const snssai_upf_info_item_s& s) {
...@@ -395,13 +431,29 @@ typedef struct snssai_upf_info_item_s { ...@@ -395,13 +431,29 @@ typedef struct snssai_upf_info_item_s {
} }
bool operator==(const snssai_upf_info_item_s& s) const { bool operator==(const snssai_upf_info_item_s& s) const {
return snssai == s.snssai; return (snssai == s.snssai) and (dnn_upf_info_list == s.dnn_upf_info_list);
} }
size_t operator()(const snssai_upf_info_item_s&) const { size_t operator()(const snssai_upf_info_item_s&) const {
return snssai.operator()(snssai); return snssai.operator()(snssai);
} }
std::string to_string() const {
std::string s = {};
s.append("SNSSAI Info: " + snssai.toString() + ", ");
if (dnn_upf_info_list.size() > 0) {
s.append("DNN UPF Info list: {");
for (auto dnn_upf : dnn_upf_info_list) {
s.append(dnn_upf.to_string());
}
s.append("}, ");
}
return s;
}
} snssai_upf_info_item_t; } snssai_upf_info_item_t;
typedef struct interface_upf_info_item_s { typedef struct interface_upf_info_item_s {
......
...@@ -181,10 +181,14 @@ void conv::plmnToMccMnc( ...@@ -181,10 +181,14 @@ void conv::plmnToMccMnc(
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
struct in_addr conv::fromString(const std::string addr4) { struct in_addr conv::fromString(const std::string addr4) {
unsigned char buf[sizeof(struct in6_addr)] = {}; unsigned char buf[sizeof(struct in6_addr)] = {};
int s = inet_pton(AF_INET, addr4.c_str(), buf); struct in_addr ipv4_addr;
struct in_addr* ia = (struct in_addr*) buf; ipv4_addr.s_addr = INADDR_ANY;
return *ia; if (inet_pton(AF_INET, addr4.c_str(), buf) == 1) {
memcpy(&ipv4_addr, buf, sizeof(struct in_addr));
}
return ipv4_addr;
} }
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
std::string conv::toString(const struct in_addr& inaddr) { std::string conv::toString(const struct in_addr& inaddr) {
std::string s = {}; std::string s = {};
......
...@@ -21,6 +21,7 @@ ...@@ -21,6 +21,7 @@
#include "fqdn.hpp" #include "fqdn.hpp"
#include "logger.hpp" #include "logger.hpp"
#include "string.hpp"
#include <boost/asio.hpp> #include <boost/asio.hpp>
#include <iostream> #include <iostream>
#include <chrono> #include <chrono>
...@@ -37,7 +38,7 @@ bool fqdn::resolve( ...@@ -37,7 +38,7 @@ bool fqdn::resolve(
while (tries < MAX_NB_RESOLVE_TRIES) { while (tries < MAX_NB_RESOLVE_TRIES) {
try { try {
boost::asio::io_context io_context = {}; boost::asio::io_context io_context = {};
Logger::smf_app().debug("Resolving DNS Try #%u", tries); Logger::smf_app().debug("Resolving DNS Try #%u", tries + 1);
boost::asio::ip::tcp::resolver resolver{io_context}; boost::asio::ip::tcp::resolver resolver{io_context};
boost::asio::ip::tcp::resolver::results_type endpoints = boost::asio::ip::tcp::resolver::results_type endpoints =
...@@ -73,6 +74,77 @@ bool fqdn::resolve( ...@@ -73,6 +74,77 @@ bool fqdn::resolve(
return false; return false;
} }
bool fqdn::resolve(pfcp::node_id_t& node_id) {
Logger::smf_app().debug("Resolving an FQDN/IP Addr for an UPF node");
// Resolve IP addr from FQDN
if (node_id.node_id_type == pfcp::NODE_ID_TYPE_FQDN) {
// Don't need to do if IP addr already available
if (node_id.u1.ipv4_address.s_addr != INADDR_ANY) return true;
// Resolve if FQDN available
if (!node_id.fqdn.empty()) {
Logger::smf_app().debug("FQDN %s", node_id.fqdn.c_str());
std::string ip_addr_str = {};
uint32_t port = {0};
uint8_t addr_type = {0};
struct in_addr ipv4_addr = {};
if (!fqdn::resolve(node_id.fqdn, ip_addr_str, port, addr_type)) {
Logger::smf_app().warn(
"Resolve FQDN %s: cannot resolve the hostname!",
node_id.fqdn.c_str());
return false;
}
switch (addr_type) {
case 0: {
node_id.u1.ipv4_address.s_addr = conv::fromString(ip_addr_str).s_addr;
Logger::smf_app().debug(
"Resolve FQDN %s, IP Addr %s", node_id.fqdn.c_str(),
ip_addr_str.c_str());
} break;
case 1: {
// TODO
Logger::smf_app().warn(
"Resolve FQDN: %s. IPv6 Addr, this mode has not been "
"supported yet!",
node_id.fqdn.c_str());
return false;
} break;
default:
Logger::smf_app().warn("Unknown Address type");
return false;
}
} else {
return false; // No FQDN available
}
// Resolve hostname from an IP Addr
} else if (node_id.node_id_type == pfcp::NODE_ID_TYPE_IPV4_ADDRESS) {
// Don't need to do reserve_resolve if FQDN is already available
if (!node_id.fqdn.empty()) {
return true;
} else {
std::string hostname = {};
std::string ip_str = conv::toString(node_id.u1.ipv4_address);
if (!fqdn::reverse_resolve(ip_str, hostname)) {
Logger::smf_app().warn(
"Could not resolve hostname for IP address %s", ip_str.c_str());
return false;
} else {
node_id.fqdn = hostname;
Logger::smf_app().debug(
"Resolve IP Addr %s, FQDN %s", ip_str.c_str(),
node_id.fqdn.c_str());
}
return true;
}
} else {
// Don't support IPv6 for the moment
return false;
}
return true;
}
bool fqdn::reverse_resolve(const std::string& ip_addr, std::string& host_name) { bool fqdn::reverse_resolve(const std::string& ip_addr, std::string& host_name) {
Logger::smf_app().debug("Resolving an IP address (name %s)", ip_addr.c_str()); Logger::smf_app().debug("Resolving an IP address (name %s)", ip_addr.c_str());
int tries = 0; int tries = 0;
......
...@@ -28,6 +28,7 @@ ...@@ -28,6 +28,7 @@
#ifndef FILE_FQDN_HPP_SEEN #ifndef FILE_FQDN_HPP_SEEN
#define FILE_FQDN_HPP_SEEN #define FILE_FQDN_HPP_SEEN
#include <string> #include <string>
#include "3gpp_29.244.h"
class fqdn { class fqdn {
public: public:
/* /*
...@@ -41,6 +42,7 @@ class fqdn { ...@@ -41,6 +42,7 @@ class fqdn {
const std::string& host_name, std::string& address, uint32_t& port, const std::string& host_name, std::string& address, uint32_t& port,
uint8_t& addr_type, const std::string& protocol = "http"); uint8_t& addr_type, const std::string& protocol = "http");
static bool resolve(pfcp::node_id_t& node_id);
/** /**
* @brief Resolves an IP address to get the hostname * @brief Resolves an IP address to get the hostname
* @param ip_address to resolve * @param ip_address to resolve
......
...@@ -399,10 +399,13 @@ void smf_app::start_nf_registration_discovery() { ...@@ -399,10 +399,13 @@ void smf_app::start_nf_registration_discovery() {
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
void smf_app::start_upf_association(const pfcp::node_id_t& node_id) { void smf_app::start_upf_association(const pfcp::node_id_t& node_id) {
Logger::smf_app().debug("Start a PFCP Association procedure with an UPF");
std::time_t time_epoch = std::time(nullptr); std::time_t time_epoch = std::time(nullptr);
uint64_t tv_ntp = time_epoch + SECONDS_SINCE_FIRST_EPOCH; uint64_t tv_ntp = time_epoch + SECONDS_SINCE_FIRST_EPOCH;
pfcp_associations::get_instance().add_peer_candidate_node(node_id); pfcp::node_id_t node_id_tmp = node_id;
fqdn::resolve(node_id_tmp); // Resolve FQDN/IP addr if necessary
pfcp_associations::get_instance().add_peer_candidate_node(node_id_tmp);
std::shared_ptr<itti_n4_association_setup_request> n4_asc = std::shared_ptr<itti_n4_association_setup_request> n4_asc =
std::shared_ptr<itti_n4_association_setup_request>( std::shared_ptr<itti_n4_association_setup_request>(
new itti_n4_association_setup_request(TASK_SMF_APP, TASK_SMF_N4)); new itti_n4_association_setup_request(TASK_SMF_APP, TASK_SMF_N4));
...@@ -438,9 +441,12 @@ void smf_app::start_upf_association(const pfcp::node_id_t& node_id) { ...@@ -438,9 +441,12 @@ void smf_app::start_upf_association(const pfcp::node_id_t& node_id) {
//------------------------------------------------------------------------------ //------------------------------------------------------------------------------
void smf_app::start_upf_association( void smf_app::start_upf_association(
const pfcp::node_id_t& node_id, const upf_profile& profile) { const pfcp::node_id_t& node_id, const upf_profile& profile) {
Logger::smf_app().debug("Start a PFCP Association procedure with an UPF");
std::time_t time_epoch = std::time(nullptr); std::time_t time_epoch = std::time(nullptr);
uint64_t tv_ntp = time_epoch + SECONDS_SINCE_FIRST_EPOCH; uint64_t tv_ntp = time_epoch + SECONDS_SINCE_FIRST_EPOCH;
pfcp::node_id_t node_id_tmp = node_id;
fqdn::resolve(node_id_tmp); // Resolve FQDN/IP addr if necessary
pfcp_associations::get_instance().add_peer_candidate_node(node_id, profile); pfcp_associations::get_instance().add_peer_candidate_node(node_id, profile);
std::shared_ptr<itti_n4_association_setup_request> n4_asc = std::shared_ptr<itti_n4_association_setup_request> n4_asc =
std::shared_ptr<itti_n4_association_setup_request>( std::shared_ptr<itti_n4_association_setup_request>(
...@@ -690,6 +696,11 @@ void smf_app::handle_itti_msg( ...@@ -690,6 +696,11 @@ void smf_app::handle_itti_msg(
graph->start_asynch_dfs_procedure(true, empty_flow); graph->start_asynch_dfs_procedure(true, empty_flow);
graph->dfs_next_upf(dl_edges, ul_edges, current_upf); graph->dfs_next_upf(dl_edges, ul_edges, current_upf);
if (!current_upf) {
Logger::smf_app().warn("Could not select UPF in graph!");
return;
}
up_node_id = current_upf->node_id; up_node_id = current_upf->node_id;
std::shared_ptr<itti_n4_session_failure_indication> std::shared_ptr<itti_n4_session_failure_indication>
...@@ -1450,15 +1461,21 @@ bool smf_app::handle_nf_status_notification( ...@@ -1450,15 +1461,21 @@ bool smf_app::handle_nf_status_notification(
// Add a new UPF node // Add a new UPF node
Logger::smf_app().debug( Logger::smf_app().debug(
"Add a new UPF node, Ipv4 Addr %s", inet_ntoa(ipv4_addrs[0])); "Add a new UPF node, Ipv4 Addr %s", inet_ntoa(ipv4_addrs[0]));
// pfcp::node_id_t n = {};
if (n.node_id_type == pfcp::NODE_ID_TYPE_UNKNOWN) if (n.node_id_type == pfcp::NODE_ID_TYPE_UNKNOWN)
n.node_id_type = pfcp::NODE_ID_TYPE_IPV4_ADDRESS; n.node_id_type = pfcp::NODE_ID_TYPE_IPV4_ADDRESS;
n.u1.ipv4_address.s_addr = ipv4_addrs[0].s_addr; n.u1.ipv4_address.s_addr = ipv4_addrs[0].s_addr;
/*smf_cfg.upfs.push_back(n); // Do reserve_resolve to find FQDN if not available
upf_profile* upf_node_profile = if (n.fqdn.empty()) {
dynamic_cast<upf_profile*>(profile.get()); std::string hostname = {};
start_upf_association(n, std::ref(*upf_node_profile)); std::string ip_str = conv::toString(n.u1.ipv4_address);
*/ if (!fqdn::reverse_resolve(ip_str, hostname)) {
Logger::smf_app().debug(
"Could not resolve hostname for IP address %s",
ip_str.c_str());
} else {
n.fqdn = hostname;
}
}
} else { } else {
Logger::smf_app().debug( Logger::smf_app().debug(
"UPF node already exist (%s)", inet_ntoa(ipv4_addrs[0])); "UPF node already exist (%s)", inet_ntoa(ipv4_addrs[0]));
...@@ -1473,7 +1490,7 @@ bool smf_app::handle_nf_status_notification( ...@@ -1473,7 +1490,7 @@ bool smf_app::handle_nf_status_notification(
// Trigger N4 association request with retry if needed // Trigger N4 association request with retry if needed
std::shared_ptr<itti_n4_association_retry> itti_msg = std::shared_ptr<itti_n4_association_retry> itti_msg =
std::make_shared<itti_n4_association_retry>( std::make_shared<itti_n4_association_retry>(
TASK_SMF_N4, TASK_SMF_APP); TASK_SMF_APP, TASK_SMF_APP);
itti_msg->node_id = n; itti_msg->node_id = n;
itti_msg->profile = std::ref(*upf_node_profile); itti_msg->profile = std::ref(*upf_node_profile);
int ret = itti_inst->send_msg(itti_msg); int ret = itti_inst->send_msg(itti_msg);
...@@ -1483,7 +1500,8 @@ bool smf_app::handle_nf_status_notification( ...@@ -1483,7 +1500,8 @@ bool smf_app::handle_nf_status_notification(
itti_msg->get_msg_name()); itti_msg->get_msg_name());
} }
} else { } else {
Logger::smf_app().debug("No IP Addr/FQDN found"); Logger::smf_app().debug(
"No IP Addr/FQDN found or UPF node already exist");
return false; return false;
} }
} }
......
...@@ -400,6 +400,9 @@ std::string smf_pdu_session::toString() const { ...@@ -400,6 +400,9 @@ std::string smf_pdu_session::toString() const {
if (!is_released) { if (!is_released) {
s.append("\tSEID:\t\t\t").append(std::to_string(seid)).append("\n"); s.append("\tSEID:\t\t\t").append(std::to_string(seid)).append("\n");
} }
/*
// TODO as FTEID is not updated here, it is confusing to have null output
We need a complete QoS handling refactor
if (default_qfi.qfi) { if (default_qfi.qfi) {
s.append("\tDefault "); s.append("\tDefault ");
for (auto it : qos_flows) { for (auto it : qos_flows) {
...@@ -407,7 +410,9 @@ std::string smf_pdu_session::toString() const { ...@@ -407,7 +410,9 @@ std::string smf_pdu_session::toString() const {
s.append(it.second.toString()); s.append(it.second.toString());
} }
} }
} }
*/
if (policy_ptr) { if (policy_ptr) {
s.append("\t Policy Decision:").append("\n"); s.append("\t Policy Decision:").append("\n");
...@@ -3782,8 +3787,9 @@ bool smf_context::find_dnn_subscription( ...@@ -3782,8 +3787,9 @@ bool smf_context::find_dnn_subscription(
Logger::smf_app().info( Logger::smf_app().info(
"Find a DNN Subscription with key: %ld (SST %d, SD %ld (0x%x)), map size " "Find a DNN Subscription with key: %ld (SST %d, SD %ld (0x%x)), map size "
"%d", "%ld",
(uint8_t) snssai.sst, snssai.sd, snssai.sd, dnn_subscriptions.size()); key, (uint8_t) snssai.sst, snssai.sd, snssai.sd,
dnn_subscriptions.size());
std::unique_lock<std::recursive_mutex> lock(m_context); std::unique_lock<std::recursive_mutex> lock(m_context);
if (dnn_subscriptions.count(key) > 0) { if (dnn_subscriptions.count(key) > 0) {
......
This diff is collapsed.
...@@ -92,6 +92,7 @@ class pfcp_association { ...@@ -92,6 +92,7 @@ class pfcp_association {
timer_association = ITTI_INVALID_TIMER_ID; timer_association = ITTI_INVALID_TIMER_ID;
timer_graceful_release = ITTI_INVALID_TIMER_ID; timer_graceful_release = ITTI_INVALID_TIMER_ID;
} }
pfcp_association( pfcp_association(
const pfcp::node_id_t& node_id, const pfcp::node_id_t& node_id,
pfcp::recovery_time_stamp_t& recovery_time_stamp) pfcp::recovery_time_stamp_t& recovery_time_stamp)
...@@ -129,6 +130,7 @@ class pfcp_association { ...@@ -129,6 +130,7 @@ class pfcp_association {
timer_association = ITTI_INVALID_TIMER_ID; timer_association = ITTI_INVALID_TIMER_ID;
timer_graceful_release = ITTI_INVALID_TIMER_ID; timer_graceful_release = ITTI_INVALID_TIMER_ID;
} }
pfcp_association(pfcp_association const& p) pfcp_association(pfcp_association const& p)
: node_id(p.node_id), : node_id(p.node_id),
hash_node_id(p.hash_node_id), hash_node_id(p.hash_node_id),
...@@ -190,8 +192,21 @@ class pfcp_association { ...@@ -190,8 +192,21 @@ class pfcp_association {
bool find_upf_edge( bool find_upf_edge(
const std::shared_ptr<pfcp_association>& other_upf, edge& out_edge); const std::shared_ptr<pfcp_association>& other_upf, edge& out_edge);
/**
* @brief Get the readble name of the UPF associated with this association
* @param void
* @return string representing the name of the UPF associated with this
* association
*/
std::string get_printable_name(); std::string get_printable_name();
/*
* Print related-information for this association
* @param void
* @return void:
*/
void display();
private: private:
bool find_interface_edge( bool find_interface_edge(
const iface_type& type_match, std::vector<edge>& edges); const iface_type& type_match, std::vector<edge>& edges);
...@@ -313,6 +328,13 @@ struct edge { ...@@ -313,6 +328,13 @@ struct edge {
if (association && nw_instance.empty()) { if (association && nw_instance.empty()) {
output.append("(").append(association->get_printable_name()).append(")"); output.append("(").append(association->get_printable_name()).append(")");
} }
if (!snssai_dnns.empty()) {
output.append("S-NSSAI UPF info list: { ");
for (const auto& s : snssai_dnns) {
output.append(" ").append(s.to_string()).append(", ");
}
output.append("}");
}
return output; return output;
} }
}; };
...@@ -615,8 +637,7 @@ class pfcp_associations { ...@@ -615,8 +637,7 @@ class pfcp_associations {
pfcp::node_id_t& node_id, pfcp::node_id_t& node_id,
pfcp::up_function_features_s& function_features); pfcp::up_function_features_s& function_features);
bool get_association( bool get_association(
const pfcp::node_id_t& node_id, const pfcp::node_id_t& node_id, std::shared_ptr<pfcp_association>& sa);
std::shared_ptr<pfcp_association>& sa) const;
bool get_association( bool get_association(
const pfcp::fseid_t& cp_fseid, const pfcp::fseid_t& cp_fseid,
std::shared_ptr<pfcp_association>& sa) const; std::shared_ptr<pfcp_association>& sa) const;
......
...@@ -27,11 +27,12 @@ ...@@ -27,11 +27,12 @@
\email: Tien-Thinh.Nguyen@eurecom.fr \email: Tien-Thinh.Nguyen@eurecom.fr
*/ */
#include "smf_profile.hpp"
#include "3gpp_conversions.hpp"
#include <boost/algorithm/string/classification.hpp> #include <boost/algorithm/string/classification.hpp>
#include <boost/algorithm/string/split.hpp> #include <boost/algorithm/string/split.hpp>
#include "logger.hpp" #include "logger.hpp"
#include "smf_profile.hpp"
#include "string.hpp" #include "string.hpp"
using namespace std; using namespace std;
...@@ -282,17 +283,11 @@ void nf_profile::from_json(const nlohmann::json& data) { ...@@ -282,17 +283,11 @@ void nf_profile::from_json(const nlohmann::json& data) {
if (data.find("sNssais") != data.end()) { if (data.find("sNssais") != data.end()) {
for (auto it : data["sNssais"]) { for (auto it : data["sNssais"]) {
snssai_t s = {}; snssai_t s = {};
s.sst = it["sst"].get<int>(); s.sd = SD_NO_VALUE;
s.sd = 0xFFFFFF; if (it.find("sst") != it.end()) s.sst = it["sst"].get<int>();
try { if (it.find("sd") != it.end()) {
s.sd = std::stoul(it["sd"].get<std::string>(), nullptr, 10); xgpp_conv::sd_string_to_int(it["sd"].get<std::string>(), s.sd);
} catch (const std::exception& e) {
Logger::smf_app().warn(
"Error when converting from string to int for snssai.SD, error: %s",
e.what());
} }
// s.sD = it["sd"].get<std::string>();
snssais.push_back(s); snssais.push_back(s);
} }
} }
...@@ -472,20 +467,13 @@ void smf_profile::from_json(const nlohmann::json& data) { ...@@ -472,20 +467,13 @@ void smf_profile::from_json(const nlohmann::json& data) {
for (auto it : snssai_smf_info_list) { for (auto it : snssai_smf_info_list) {
snssai_smf_info_item_t smf_info_item = {}; snssai_smf_info_item_t smf_info_item = {};
smf_info_item.snssai.sd = SD_NO_VALUE;
if (it.find("sNssai") != it.end()) { if (it.find("sNssai") != it.end()) {
if (it["sNssai"].find("sst") != it["sNssai"].end()) if (it["sNssai"].find("sst") != it["sNssai"].end())
smf_info_item.snssai.sst = it["sNssai"]["sst"].get<int>(); smf_info_item.snssai.sst = it["sNssai"]["sst"].get<int>();
if (it["sNssai"].find("sd") != it["sNssai"].end()) { if (it["sNssai"].find("sd") != it["sNssai"].end()) {
smf_info_item.snssai.sd = 0xFFFFFF; xgpp_conv::sd_string_to_int(
try { it["sNssai"]["sd"].get<std::string>(), smf_info_item.snssai.sd);
smf_info_item.snssai.sd = std::stoul(
it["sNssai"]["sd"].get<std::string>(), nullptr, 10);
} catch (const std::exception& e) {
Logger::smf_app().warn(
"Error when converting from string to int for snssai.SD, "
"error: %s",
e.what());
}
} }
} }
if (it.find("dnnSmfInfoList") != it.end()) { if (it.find("dnnSmfInfoList") != it.end()) {
...@@ -629,20 +617,13 @@ void upf_profile::from_json(const nlohmann::json& data) { ...@@ -629,20 +617,13 @@ void upf_profile::from_json(const nlohmann::json& data) {
for (auto it : snssai_upf_info_list) { for (auto it : snssai_upf_info_list) {
snssai_upf_info_item_t upf_info_item = {}; snssai_upf_info_item_t upf_info_item = {};
upf_info_item.snssai.sd = SD_NO_VALUE;
if (it.find("sNssai") != it.end()) { if (it.find("sNssai") != it.end()) {
if (it["sNssai"].find("sst") != it["sNssai"].end()) if (it["sNssai"].find("sst") != it["sNssai"].end())
upf_info_item.snssai.sst = it["sNssai"]["sst"].get<int>(); upf_info_item.snssai.sst = it["sNssai"]["sst"].get<int>();
if (it["sNssai"].find("sd") != it["sNssai"].end()) { if (it["sNssai"].find("sd") != it["sNssai"].end()) {
upf_info_item.snssai.sd = 0xFFFFFF; xgpp_conv::sd_string_to_int(
try { it["sNssai"]["sd"].get<std::string>(), upf_info_item.snssai.sd);
upf_info_item.snssai.sd = std::stoul(
it["sNssai"]["sd"].get<std::string>(), nullptr, 10);
} catch (const std::exception& e) {
Logger::smf_app().warn(
"Error when converting from string to int for snssai.SD, "
"error: %s",
e.what());
}
} }
} }
if (it.find("dnnUpfInfoList") != it.end()) { if (it.find("dnnUpfInfoList") != it.end()) {
......
...@@ -927,7 +927,7 @@ bool smf_sbi::get_sm_data( ...@@ -927,7 +927,7 @@ bool smf_sbi::get_sm_data(
} }
if (jsonData["singleNssai"].find("sd") != jsonData["singleNssai"].end()) { if (jsonData["singleNssai"].find("sd") != jsonData["singleNssai"].end()) {
std::string sd_str = jsonData["singleNssai"]["sd"]; std::string sd_str = jsonData["singleNssai"]["sd"];
uint32_t sd = 0xFFFFFF; uint32_t sd = SD_NO_VALUE;
xgpp_conv::sd_string_to_int( xgpp_conv::sd_string_to_int(
jsonData["singleNssai"]["sd"].get<std::string>(), sd); jsonData["singleNssai"]["sd"].get<std::string>(), sd);
if (sd != snssai.sd) { if (sd != snssai.sd) {
......
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