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gerrit.cesnet.cz / github / CESNET / netopeerguid / d02e69fdde5198b1e114bb06fd6f88d855c68e04 / . / src / netopeerguid.c
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/*!
* \file netopeerguid.c
* \brief NetopeerGUI daemon
* \author Tomas Cejka <cejkat@cesnet.cz>
* \author Radek Krejci <rkrejci@cesnet.cz>
* \author Michal Vasko <mvasko@cesnet.cz>
* \date 2011
* \date 2012
* \date 2013
* \date 2015
*/
/*
* Copyright (C) 2011-2015 CESNET
*
* LICENSE TERMS
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name of the Company nor the names of its contributors
* may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* ALTERNATIVELY, provided that this notice is retained in full, this
* product may be distributed under the terms of the GNU General Public
* License (GPL) version 2 or later, in which case the provisions
* of the GPL apply INSTEAD OF those given above.
*
* This software is provided ``as is'', and any express or implied
* warranties, including, but not limited to, the implied warranties of
* merchantability and fitness for a particular purpose are disclaimed.
* In no event shall the company or contributors be liable for any
* direct, indirect, incidental, special, exemplary, or consequential
* damages (including, but not limited to, procurement of substitute
* goods or services; loss of use, data, or profits; or business
* interruption) however caused and on any theory of liability, whether
* in contract, strict liability, or tort (including negligence or
* otherwise) arising in any way out of the use of this software, even
* if advised of the possibility of such damage.
*
*/
#define _GNU_SOURCE
#include <unistd.h>
#include <poll.h>
#include <time.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/stat.h>
#include <pwd.h>
#include <errno.h>
#include <limits.h>
#include <grp.h>
#include <signal.h>
#include <pthread.h>
#include <ctype.h>
#include <nc_client.h>
#include "../config.h"
#ifdef WITH_NOTIFICATIONS
#include "notification_server.h"
#endif
#include "message_type.h"
#include "netopeerguid.h"
#define SCHEMA_DIR "/tmp/yang_models"
#define MAX_PROCS 5
#define SOCKET_FILENAME "/var/run/netopeerguid.sock"
#define MAX_SOCKET_CL 10
#define BUFFER_SIZE 4096
#define ACTIVITY_CHECK_INTERVAL 10 /**< timeout in seconds, how often activity is checked */
#define ACTIVITY_TIMEOUT (60*60) /**< timeout in seconds, after this time, session is automaticaly closed. */
/* sleep in master process for non-blocking socket reading, in msec */
#define SLEEP_TIME 200
#ifndef offsetof
#define offsetof(type, member) ((size_t) ((type *) 0)->member)
#endif
/* timeout in msec */
struct timeval timeout = { 1, 0 };
#define NCWITHDEFAULTS NCWD_MODE_NOTSET
#define MSG_OK 0
#define MSG_OPEN 1
#define MSG_DATA 2
#define MSG_CLOSE 3
#define MSG_ERROR 4
#define MSG_UNKNOWN 5
pthread_rwlock_t session_lock; /**< mutex protecting netconf_sessions_list from multiple access errors */
pthread_mutex_t ntf_history_lock; /**< mutex protecting notification history list */
pthread_mutex_t ntf_hist_clbc_mutex; /**< mutex protecting notification history list */
pthread_mutex_t json_lock; /**< mutex for protecting json-c calls */
unsigned int session_key_generator = 1;
struct session_with_mutex *netconf_sessions_list = NULL;
static const char *sockname;
static pthread_key_t notif_history_key;
pthread_key_t err_reply_key;
volatile int isterminated = 0;
static char* password;
json_object *create_ok_reply(void);
json_object *create_data_reply(const char *data);
static char *netconf_getschema(unsigned int session_key, const char *identifier, const char *version,
const char *format, json_object **err);
static void node_add_metadata_recursive(struct lyd_node *data_tree, const struct lys_module *module,
json_object *data_json_parent);
static void node_metadata_typedef(struct lys_tpdf *tpdf, json_object *parent);
static void
signal_handler(int sign)
{
switch (sign) {
case SIGINT:
case SIGTERM:
isterminated = 1;
break;
}
}
int
netconf_callback_ssh_hostkey_check(const char* UNUSED(hostname), ssh_session UNUSED(session))
{
/* always approve */
return (EXIT_SUCCESS);
}
char *
netconf_callback_sshauth_passphrase(const char *UNUSED(priv_key_file))
{
char *buf;
buf = strdup(password);
return (buf);
}
char *
netconf_callback_sshauth_password(const char *UNUSED(username), const char *UNUSED(hostname))
{
char *buf;
buf = strdup(password);
return (buf);
}
char *
netconf_callback_sshauth_interactive(const char *UNUSED(name), const char *UNUSED(instruction),
const char *UNUSED(prompt), int UNUSED(echo))
{
char *buf;
buf = strdup(password);
return (buf);
}
void
netconf_callback_error_process(const char *UNUSED(tag),
const char *UNUSED(type),
const char *UNUSED(severity),
const char *UNUSED(apptag),
const char *UNUSED(path),
const char *message,
const char *UNUSED(attribute),
const char *UNUSED(element),
const char *UNUSED(ns),
const char *UNUSED(sid))
{
json_object **err_reply_p = (json_object **) pthread_getspecific(err_reply_key);
if (err_reply_p == NULL) {
ERROR("Error message was not allocated. %s", __func__);
return;
}
json_object *err_reply = *err_reply_p;
json_object *array = NULL;
if (err_reply == NULL) {
ERROR("error calback: empty error list");
pthread_mutex_lock(&json_lock);
err_reply = json_object_new_object();
array = json_object_new_array();
json_object_object_add(err_reply, "type", json_object_new_int(REPLY_ERROR));
json_object_object_add(err_reply, "errors", array);
if (message != NULL) {
json_object_array_add(array, json_object_new_string(message));
}
pthread_mutex_unlock(&json_lock);
(*err_reply_p) = err_reply;
} else {
ERROR("error calback: nonempty error list");
pthread_mutex_lock(&json_lock);
if (json_object_object_get_ex(err_reply, "errors", &array) == TRUE) {
if (message != NULL) {
json_object_array_add(array, json_object_new_string(message));
}
}
pthread_mutex_unlock(&json_lock);
}
pthread_setspecific(err_reply_key, err_reply_p);
return;
}
/**
* should be used in locked area
*/
void
prepare_status_message(struct session_with_mutex *s, struct nc_session *session)
{
int i;
json_object *json_obj = NULL;
json_object *js_tmp = NULL;
char *old_sid = NULL;
const char *j_old_sid = NULL;
char str_port[6];
const char **cpblts;
struct lyd_node *yanglib, *module, *node;
if (s == NULL) {
ERROR("No session given.");
return;
}
pthread_mutex_lock(&json_lock);
if (s->hello_message != NULL) {
ERROR("clean previous hello message");
if (json_object_object_get_ex(s->hello_message, "sid", &js_tmp) == TRUE) {
j_old_sid = json_object_get_string(js_tmp);
if (j_old_sid != NULL) {
old_sid = strdup(j_old_sid);
}
}
json_object_put(s->hello_message);
s->hello_message = NULL;
}
s->hello_message = json_object_new_object();
if (session != NULL) {
if (!old_sid) {
/* we don't have old sid */
asprintf(&old_sid, "%u", nc_session_get_id(session));
}
json_object_object_add(s->hello_message, "sid", json_object_new_string(old_sid));
free(old_sid);
old_sid = NULL;
json_object_object_add(s->hello_message, "version", json_object_new_string((nc_session_get_version(session) ? "1.1":"1.0")));
json_object_object_add(s->hello_message, "host", json_object_new_string(nc_session_get_host(session)));
sprintf(str_port, "%u", nc_session_get_port(session));
json_object_object_add(s->hello_message, "port", json_object_new_string(str_port));
json_object_object_add(s->hello_message, "user", json_object_new_string(nc_session_get_username(session)));
cpblts = nc_session_get_cpblts(session);
if (cpblts) {
json_obj = json_object_new_array();
for (i = 0; cpblts[i]; ++i) {
json_object_array_add(json_obj, json_object_new_string(cpblts[i]));
}
json_object_object_add(s->hello_message, "capabilities", json_obj);
}
yanglib = ly_ctx_info(nc_session_get_ctx(session));
if (yanglib) {
json_obj = json_object_new_array();
LY_TREE_FOR(yanglib->child, module) {
if (!strcmp(module->schema->name, "module")) {
LY_TREE_FOR(module->child, node) {
if (!strcmp(node->schema->name, "name")) {
json_object_array_add(json_obj, json_object_new_string(((struct lyd_node_leaf_list *)node)->value_str));
break;
}
}
}
}
json_object_object_add(s->hello_message, "models", json_obj);
lyd_free(yanglib);
}
DEBUG("%s", json_object_to_json_string(s->hello_message));
} else {
ERROR("Session was not given.");
json_object_object_add(s->hello_message, "type", json_object_new_int(REPLY_ERROR));
json_object_object_add(s->hello_message, "error-message", json_object_new_string("Invalid session identifier."));
}
DEBUG("Status info from hello message prepared");
pthread_mutex_unlock(&json_lock);
}
void
create_err_reply_p()
{
json_object **err_reply = calloc(1, sizeof(json_object **));
if (err_reply == NULL) {
ERROR("Allocation of err_reply storage failed!");
return;
}
if (pthread_setspecific(err_reply_key, err_reply) != 0) {
ERROR("cannot set thread-specific value.");
}
}
void
clean_err_reply()
{
json_object **err_reply = (json_object **) pthread_getspecific(err_reply_key);
if (err_reply != NULL) {
if (*err_reply != NULL) {
pthread_mutex_lock(&json_lock);
json_object_put(*err_reply);
pthread_mutex_unlock(&json_lock);
}
if (pthread_setspecific(err_reply_key, err_reply) != 0) {
ERROR("Cannot set thread-specific hash value.");
}
}
}
void
free_err_reply()
{
json_object **err_reply = (json_object **) pthread_getspecific(err_reply_key);
if (err_reply != NULL) {
if (*err_reply != NULL) {
pthread_mutex_lock(&json_lock);
json_object_put(*err_reply);
pthread_mutex_unlock(&json_lock);
}
free(err_reply);
err_reply = NULL;
if (pthread_setspecific(err_reply_key, err_reply) != 0) {
ERROR("Cannot set thread-specific hash value.");
}
}
}
static struct session_with_mutex *
session_get_locked(unsigned int session_key, json_object **err)
{
struct session_with_mutex *locked_session;
/* get non-exclusive (read) access to sessions_list (conns) */
DEBUG("LOCK wrlock %s", __func__);
if (pthread_rwlock_rdlock(&session_lock) != 0) {
if (*err) {
*err = create_error_reply("Locking failed.");
}
return NULL;
}
/* get session where send the RPC */
for (locked_session = netconf_sessions_list;
locked_session && (locked_session->session_key != session_key);
locked_session = locked_session->next);
if (!locked_session) {
if (*err) {
*err = create_error_reply("Session not found.");
}
return NULL;
}
/* get exclusive access to session */
DEBUG("LOCK mutex %s", __func__);
if (pthread_mutex_lock(&locked_session->lock) != 0) {
if (*err) {
*err = create_error_reply("Locking failed.");
}
goto wrlock_fail;
}
return locked_session;
wrlock_fail:
DEBUG("UNLOCK wrlock %s", __func__);
pthread_rwlock_unlock(&session_lock);
return NULL;
}
static void
session_user_activity(const char *username)
{
struct session_with_mutex *sess;
for (sess = netconf_sessions_list; sess; sess = sess->next) {
if (!strcmp(nc_session_get_username(sess->session), username)) {
sess->last_activity = time(NULL);
}
}
}
static void
session_unlock(struct session_with_mutex *locked_session)
{
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&locked_session->lock);
DEBUG("UNLOCK wrlock %s", __func__);
pthread_rwlock_unlock(&session_lock);
}
static void
node_metadata_text(const char *text, const char *name, json_object *parent)
{
json_object *obj;
if (!text) {
return;
}
obj = json_object_new_string(text);
json_object_object_add(parent, name, obj);
}
static void
node_metadata_restr(struct lys_restr *restr, const char *name, json_object *parent)
{
json_object *obj;
if (!restr) {
return;
}
obj = json_object_new_string(restr->expr);
json_object_object_add(parent, name, obj);
}
static void
node_metadata_must(uint8_t must_size, struct lys_restr *must, json_object *parent)
{
uint8_t i;
json_object *array, *obj;
if (!must_size || !must) {
return;
}
array = json_object_new_array();
for (i = 0; i < must_size; ++i) {
obj = json_object_new_string(must[i].expr);
json_object_array_add(array, obj);
}
json_object_object_add(parent, "must", array);
}
static void
node_metadata_basic(struct lys_node *node, json_object *parent)
{
json_object *obj;
/* description */
node_metadata_text(node->dsc, "description", parent);
/* reference */
node_metadata_text(node->ref, "reference", parent);
/* config */
if (node->flags & LYS_CONFIG_R) {
obj = json_object_new_boolean(0);
} else {
obj = json_object_new_boolean(1);
}
json_object_object_add(parent, "config", obj);
/* status */
if (node->flags & LYS_STATUS_DEPRC) {
obj = json_object_new_string("deprecated");
} else if (node->flags & LYS_STATUS_OBSLT) {
obj = json_object_new_string("obsolete");
} else {
obj = json_object_new_string("current");
}
json_object_object_add(parent, "status", obj);
/* mandatory */
if (node->flags & LYS_MAND_TRUE) {
obj = json_object_new_boolean(1);
} else {
obj = json_object_new_boolean(0);
}
json_object_object_add(parent, "mandatory", obj);
/* NACM extensions */
if (node->nacm) {
if (node->nacm & LYS_NACM_DENYW) {
obj = json_object_new_string("default-deny-write");
} else {
obj = json_object_new_string("default-deny-all");
}
json_object_object_add(parent, "ext", obj);
}
}
static void
node_metadata_when(struct lys_when *when, json_object *parent)
{
json_object *obj;
if (!when) {
return;
}
obj = json_object_new_string(when->cond);
json_object_object_add(parent, "when", obj);
}
static void
node_metadata_children_recursive(struct lys_node *node, json_object **child_array, json_object **choice_array)
{
json_object *obj;
struct lys_node *child;
if (!node->child) {
return;
}
LY_TREE_FOR(node->child, child) {
if (child->nodetype == LYS_USES) {
node_metadata_children_recursive(child, child_array, choice_array);
} else if (child->nodetype & (LYS_CONTAINER | LYS_LEAF | LYS_LEAFLIST | LYS_LIST | LYS_ANYXML)) {
obj = json_object_new_string(child->name);
if (!*child_array) {
*child_array = json_object_new_array();
}
json_object_array_add(*child_array, obj);
} else if (child->nodetype == LYS_CHOICE) {
obj = json_object_new_string(child->name);
if (!*choice_array) {
*choice_array = json_object_new_array();
}
json_object_array_add(*choice_array, obj);
}
}
}
static void
node_metadata_cases_recursive(struct lys_node_choice *choice, json_object *array)
{
json_object *obj;
struct lys_node *child;
if (!choice->child) {
return;
}
LY_TREE_FOR(choice->child, child) {
if (child->nodetype == LYS_USES) {
node_metadata_cases_recursive((struct lys_node_choice *)child, array);
} else if (child->nodetype & (LYS_CONTAINER | LYS_LEAF | LYS_LEAFLIST | LYS_LIST | LYS_ANYXML | LYS_CASE)) {
obj = json_object_new_string(child->name);
json_object_array_add(array, obj);
}
}
}
static void
node_metadata_min_max(uint32_t min, uint32_t max, json_object *parent)
{
json_object *obj;
if (min) {
obj = json_object_new_int(min);
json_object_object_add(parent, "min-elements", obj);
}
if (max) {
obj = json_object_new_int(max);
json_object_object_add(parent, "max-elements", obj);
}
}
static void
node_metadata_ident_recursive(struct lys_ident *ident, json_object *array)
{
struct lys_ident_der *cur;
json_object *obj;
if (!ident) {
return;
}
obj = json_object_new_string(ident->name);
json_object_array_add(array, obj);
for (cur = ident->der; cur; cur = cur->next) {
node_metadata_ident_recursive(cur->ident, array);
}
}
static void
node_metadata_type(struct lys_type *type, struct lys_module *module, json_object *parent)
{
json_object *obj, *array, *item;
char *str;
int i;
/* built-in YANG type */
if (!type->der->module) {
switch (type->base) {
case LY_TYPE_BINARY:
node_metadata_text("binary", "type", parent);
node_metadata_restr(type->info.binary.length, "length", parent);
break;
case LY_TYPE_BITS:
node_metadata_text("bits", "type", parent);
array = json_object_new_array();
for (i = 0; i < type->info.bits.count; ++i) {
item = json_object_new_object();
obj = json_object_new_string(type->info.bits.bit[i].name);
json_object_object_add(item, "name", obj);
obj = json_object_new_int(type->info.bits.bit[i].pos);
json_object_object_add(item, "position", obj);
json_object_array_add(array, item);
}
json_object_object_add(parent, "bits", array);
break;
case LY_TYPE_BOOL:
node_metadata_text("bool", "type", parent);
break;
case LY_TYPE_DEC64:
node_metadata_text("decimal64", "type", parent);
node_metadata_restr(type->info.dec64.range, "range", parent);
obj = json_object_new_int(type->info.dec64.dig);
json_object_object_add(parent, "fraction-digits", obj);
break;
case LY_TYPE_EMPTY:
node_metadata_text("empty", "type", parent);
break;
case LY_TYPE_ENUM:
node_metadata_text("enumeration", "type", parent);
array = json_object_new_array();
for (i = 0; i < type->info.enums.count; ++i) {
obj = json_object_new_string(type->info.enums.enm[i].name);
json_object_array_add(array, obj);
}
json_object_object_add(parent, "enumval", array);
break;
case LY_TYPE_IDENT:
node_metadata_text("identityref", "type", parent);
array = json_object_new_array();
node_metadata_ident_recursive(type->info.ident.ref, array);
json_object_object_add(parent, "identityval", array);
break;
case LY_TYPE_INST:
node_metadata_text("instance-identifier", "type", parent);
if (type->info.inst.req == -1) {
obj = json_object_new_boolean(0);
} else {
obj = json_object_new_boolean(1);
}
json_object_object_add(parent, "require-instance", obj);
break;
case LY_TYPE_LEAFREF:
node_metadata_text("leafref", "type", parent);
node_metadata_text(type->info.lref.path, "path", parent);
break;
case LY_TYPE_STRING:
node_metadata_text("string", "type", parent);
node_metadata_restr(type->info.str.length, "length", parent);
if (type->info.str.pat_count) {
array = json_object_new_array();
for (i = 0; i < type->info.str.pat_count; ++i) {
obj = json_object_new_string(type->info.str.patterns[i].expr);
json_object_array_add(array, obj);
}
json_object_object_add(parent, "pattern", array);
}
break;
case LY_TYPE_UNION:
node_metadata_text("union", "type", parent);
array = json_object_new_array();
for (i = 0; i < type->info.uni.count; ++i) {
obj = json_object_new_object();
node_metadata_type(&type->info.uni.types[i], module, obj);
json_object_array_add(array, obj);
}
json_object_object_add(parent, "types", array);
break;
case LY_TYPE_INT8:
node_metadata_text("int8", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
case LY_TYPE_UINT8:
node_metadata_text("uint8", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
case LY_TYPE_INT16:
node_metadata_text("int16", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
case LY_TYPE_UINT16:
node_metadata_text("uint16", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
case LY_TYPE_INT32:
node_metadata_text("int32", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
case LY_TYPE_UINT32:
node_metadata_text("uint32", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
case LY_TYPE_INT64:
node_metadata_text("int64", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
case LY_TYPE_UINT64:
node_metadata_text("uint64", "type", parent);
node_metadata_restr(type->info.num.range, "range", parent);
break;
default:
ERROR("Internal: unknown type (%s:%d)", __FILE__, __LINE__);
break;
}
/* typedef */
} else {
if (!module || !type->module_name || !strcmp(type->module_name, module->name)) {
node_metadata_text(type->der->name, "type", parent);
} else {
asprintf(&str, "%s:%s", type->module_name, type->der->name);
node_metadata_text(str, "type", parent);
free(str);
}
obj = json_object_new_object();
node_metadata_typedef(type->der, obj);
json_object_object_add(parent, "typedef", obj);
}
}
static void
node_metadata_typedef(struct lys_tpdf *tpdf, json_object *parent)
{
json_object *obj;
/* description */
node_metadata_text(tpdf->dsc, "description", parent);
/* reference */
node_metadata_text(tpdf->ref, "reference", parent);
/* status */
if (tpdf->flags & LYS_STATUS_DEPRC) {
obj = json_object_new_string("deprecated");
} else if (tpdf->flags & LYS_STATUS_OBSLT) {
obj = json_object_new_string("obsolete");
} else {
obj = json_object_new_string("current");
}
json_object_object_add(parent, "status", obj);
/* type */
node_metadata_type(&tpdf->type, tpdf->module, parent);
/* units */
node_metadata_text(tpdf->units, "units", parent);
/* default */
node_metadata_text(tpdf->dflt, "default", parent);
}
static void
node_metadata_container(struct lys_node_container *cont, json_object *parent)
{
json_object *obj, *child_array = NULL, *choice_array = NULL;
/* element type */
obj = json_object_new_string("container");
json_object_object_add(parent, "eltype", obj);
/* shared info */
node_metadata_basic((struct lys_node *)cont, parent);
/* must */
node_metadata_must(cont->must_size, cont->must, parent);
/* presence */
node_metadata_text(cont->presence, "presence", parent);
/* when */
node_metadata_when(cont->when, parent);
/* children & choice */
node_metadata_children_recursive((struct lys_node *)cont, &child_array, &choice_array);
if (child_array) {
json_object_object_add(parent, "children", child_array);
}
if (choice_array) {
json_object_object_add(parent, "choice", choice_array);
}
}
static void
node_metadata_choice(struct lys_node_choice *choice, json_object *parent)
{
json_object *obj, *array;
/* element type */
obj = json_object_new_string("choice");
json_object_object_add(parent, "eltype", obj);
/* shared info */
node_metadata_basic((struct lys_node *)choice, parent);
/* default */
if (choice->dflt) {
node_metadata_text(choice->dflt->name, "default", parent);
}
/* when */
node_metadata_when(choice->when, parent);
/* cases */
if (choice->child) {
array = json_object_new_array();
node_metadata_cases_recursive(choice, array);
json_object_object_add(parent, "cases", array);
}
}
static void
node_metadata_leaf(struct lys_node_leaf *leaf, json_object *parent)
{
json_object *obj;
struct lys_node_list *list;
int is_key, i;
/* element type */
obj = json_object_new_string("leaf");
json_object_object_add(parent, "eltype", obj);
/* shared info */
node_metadata_basic((struct lys_node *)leaf, parent);
/* type */
node_metadata_type(&leaf->type, leaf->module, parent);
/* units */
node_metadata_text(leaf->units, "units", parent);
/* default */
node_metadata_text(leaf->dflt, "default", parent);
/* must */
node_metadata_must(leaf->must_size, leaf->must, parent);
/* when */
node_metadata_when(leaf->when, parent);
/* iskey */
is_key = 0;
list = (struct lys_node_list *)lys_parent((struct lys_node *)leaf);
if (list && (list->nodetype == LYS_LIST)) {
for (i = 0; i < list->keys_size; ++i) {
if (list->keys[i] == leaf) {
is_key = 1;
break;
}
}
}
obj = json_object_new_boolean(is_key);
json_object_object_add(parent, "iskey", obj);
}
static void
node_metadata_leaflist(struct lys_node_leaflist *llist, json_object *parent)
{
json_object *obj;
/* element type */
obj = json_object_new_string("leaf-list");
json_object_object_add(parent, "eltype", obj);
/* shared info */
node_metadata_basic((struct lys_node *)llist, parent);
/* type */
node_metadata_type(&llist->type, llist->module, parent);
/* units */
node_metadata_text(llist->units, "units", parent);
/* must */
node_metadata_must(llist->must_size, llist->must, parent);
/* when */
node_metadata_when(llist->when, parent);
/* min/max-elements */
node_metadata_min_max(llist->min, llist->max, parent);
}
static void
node_metadata_list(struct lys_node_list *list, json_object *parent)
{
json_object *obj, *array, *child_array = NULL, *choice_array = NULL;;
int i;
unsigned int j;
/* element type */
obj = json_object_new_string("list");
json_object_object_add(parent, "eltype", obj);
/* shared info */
node_metadata_basic((struct lys_node *)list, parent);
/* must */
node_metadata_must(list->must_size, list->must, parent);
/* when */
node_metadata_when(list->when, parent);
/* min/max-elements */
node_metadata_min_max(list->min, list->max, parent);
/* keys */
if (list->keys_size) {
array = json_object_new_array();
for (i = 0; i < list->keys_size; ++i) {
obj = json_object_new_string(list->keys[i]->name);
json_object_array_add(array, obj);
}
json_object_object_add(parent, "keys", array);
}
/* unique */
if (list->unique_size) {
array = json_object_new_array();
for (i = 0; i < list->unique_size; ++i) {
for (j = 0; j < list->unique[i].expr_size; ++j) {
obj = json_object_new_string(list->unique[i].expr[j]);
json_object_array_add(array, obj);
}
}
json_object_object_add(parent, "unique", array);
}
/* children & choice */
node_metadata_children_recursive((struct lys_node *)list, &child_array, &choice_array);
if (child_array) {
json_object_object_add(parent, "children", child_array);
}
if (choice_array) {
json_object_object_add(parent, "choice", choice_array);
}
}
static void
node_metadata_anyxml(struct lys_node_anyxml *anyxml, json_object *parent)
{
json_object *obj;
/* element type */
obj = json_object_new_string("anyxml");
json_object_object_add(parent, "eltype", obj);
/* shared info */
node_metadata_basic((struct lys_node *)anyxml, parent);
/* must */
node_metadata_must(anyxml->must_size, anyxml->must, parent);
/* when */
node_metadata_when(anyxml->when, parent);
}
static void
node_metadata_case(struct lys_node_case *cas, json_object *parent)
{
json_object *obj;
/* element type */
obj = json_object_new_string("case");
json_object_object_add(parent, "eltype", obj);
/* shared info */
node_metadata_basic((struct lys_node *)cas, parent);
/* when */
node_metadata_when(cas->when, parent);
}
static void
node_metadata_rpc(struct lys_node_rpc *rpc, json_object *parent)
{
json_object *obj;
/* element type */
obj = json_object_new_string("rpc");
json_object_object_add(parent, "eltype", obj);
/* description */
node_metadata_text(rpc->dsc, "description", parent);
/* reference */
node_metadata_text(rpc->ref, "reference", parent);
/* status */
if (rpc->flags & LYS_STATUS_DEPRC) {
obj = json_object_new_string("deprecated");
} else if (rpc->flags & LYS_STATUS_OBSLT) {
obj = json_object_new_string("obsolete");
} else {
obj = json_object_new_string("current");
}
json_object_object_add(parent, "status", obj);
}
static void
node_metadata_model(const struct lys_module *module, json_object *parent)
{
json_object *obj, *array, *item;
const struct lys_node *node;
int i;
/* yang-version */
if (module->version == 2) {
obj = json_object_new_string("1.1");
} else {
obj = json_object_new_string("1.0");
}
json_object_object_add(parent, "yang-version", obj);
/* namespace */
node_metadata_text(module->ns, "namespace", parent);
/* prefix */
node_metadata_text(module->prefix, "prefix", parent);
/* contact */
node_metadata_text(module->contact, "contact", parent);
/* organization */
node_metadata_text(module->org, "organization", parent);
/* revision */
if (module->rev_size) {
node_metadata_text(module->rev[0].date, "revision", parent);
}
/* description */
node_metadata_text(module->dsc, "description", parent);
/* import */
if (module->imp_size) {
array = json_object_new_array();
for (i = 0; i < module->imp_size; ++i) {
item = json_object_new_object();
node_metadata_text(module->imp[i].module->name, "name", item);
node_metadata_text(module->imp[i].prefix, "prefix", item);
if (module->imp[i].rev && module->imp[i].rev[0]) {
node_metadata_text(module->imp[i].rev, "revision", item);
}
json_object_array_add(array, item);
}
json_object_object_add(parent, "imports", array);
}
/* include */
if (module->inc_size) {
array = json_object_new_array();
for (i = 0; i < module->inc_size; ++i) {
item = json_object_new_object();
node_metadata_text(module->inc[i].submodule->name, "name", item);
if (module->inc[i].rev && module->inc[i].rev[0]) {
node_metadata_text(module->inc[i].rev, "revision", item);
}
json_object_array_add(array, item);
}
json_object_object_add(parent, "includes", array);
}
/* top-nodes */
node = NULL;
array = NULL;
while ((node = lys_getnext(node, NULL, module, LYS_GETNEXT_WITHCHOICE))) {
if (node->nodetype & (LYS_RPC | LYS_NOTIF)) {
continue;
}
if (!array) {
array = json_object_new_array();
}
item = json_object_new_string(node->name);
json_object_array_add(array, item);
}
if (array) {
json_object_object_add(parent, "top-nodes", array);
}
}
/**
* \defgroup netconf_operations NETCONF operations
* The list of NETCONF operations that mod_netconf supports.
* @{
*/
/**
* \brief Send RPC and wait for reply with timeout.
*
* \param[in] session libnetconf session
* \param[in] rpc prepared RPC message
* \param[in] timeout timeout in miliseconds, -1 for blocking, 0 for non-blocking
* \param[out] reply reply from the server
* \return NC_MSG_WOULDBLOCK or NC_MSG_ERROR.
* On success, it returns NC_MSG_REPLY.
*/
NC_MSG_TYPE
netconf_send_recv_timed(struct nc_session *session, struct nc_rpc *rpc, int timeout, int strict, struct nc_reply **reply)
{
uint64_t msgid;
NC_MSG_TYPE ret;
ret = nc_send_rpc(session, rpc, timeout, &msgid);
if (ret != NC_MSG_RPC) {
return ret;
}
while ((ret = nc_recv_reply(session, rpc, msgid, timeout, (strict ? LYD_OPT_STRICT : 0), reply)) == NC_MSG_NOTIF);
return ret;
}
/**
* \brief Connect to NETCONF server
*
* \warning Session_key hash is not bound with caller identification. This could be potential security risk.
*/
static unsigned int
netconf_connect(const char *host, const char *port, const char *user, const char *pass, const char *privkey)
{
struct nc_session* session = NULL;
struct session_with_mutex *locked_session, *last_session;
char *pubkey;
/* connect to the requested NETCONF server */
password = (char*)pass;
if (privkey) {
nc_client_ssh_set_auth_pref(NC_SSH_AUTH_PUBLICKEY, 3);
asprintf(&pubkey, "%s.pub", privkey);
nc_client_ssh_add_keypair(pubkey, privkey);
free(pubkey);
}
nc_client_ssh_set_username(user);
DEBUG("prepare to connect %s@%s:%s", user, host, port);
session = nc_connect_ssh(host, (unsigned short)atoi(port), NULL);
DEBUG("nc_session_connect done");
/* if connected successful, add session to the list */
if (session != NULL) {
if ((locked_session = calloc(1, sizeof(struct session_with_mutex))) == NULL || pthread_mutex_init (&locked_session->lock, NULL) != 0) {
nc_session_free(session, NULL);
session = NULL;
free(locked_session);
locked_session = NULL;
ERROR("Creating structure session_with_mutex failed %d (%s)", errno, strerror(errno));
return 0;
}
locked_session->session = session;
locked_session->hello_message = NULL;
locked_session->closed = 0;
pthread_mutex_init(&locked_session->lock, NULL);
DEBUG("Before session_lock");
/* get exclusive access to sessions_list (conns) */
DEBUG("LOCK wrlock %s", __func__);
if (pthread_rwlock_wrlock(&session_lock) != 0) {
nc_session_free(session, NULL);
free(locked_session);
ERROR("Error while locking rwlock: %d (%s)", errno, strerror(errno));
return 0;
}
locked_session->ntfc_subscribed = 0;
DEBUG("Add connection to the list");
if (!netconf_sessions_list) {
netconf_sessions_list = locked_session;
} else {
for (last_session = netconf_sessions_list; last_session->next; last_session = last_session->next);
last_session->next = locked_session;
locked_session->prev = last_session;
}
session_user_activity(nc_session_get_username(locked_session->session));
/* no need to lock session, noone can read it while we have wrlock */
/* store information about session from hello message for future usage */
prepare_status_message(locked_session, session);
DEBUG("NETCONF session established");
locked_session->session_key = session_key_generator;
++session_key_generator;
if (session_key_generator == UINT_MAX) {
session_key_generator = 1;
}
DEBUG("Before session_unlock");
/* unlock session list */
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
return locked_session->session_key;
}
ERROR("Connection could not be established");
return 0;
}
static int
close_and_free_session(struct session_with_mutex *locked_session)
{
int i;
DEBUG("lock private lock.");
DEBUG("LOCK mutex %s", __func__);
if (pthread_mutex_lock(&locked_session->lock) != 0) {
ERROR("Error while locking rwlock");
}
locked_session->ntfc_subscribed = 0;
locked_session->closed = 1;
if (locked_session->session != NULL) {
nc_session_free(locked_session->session, NULL);
locked_session->session = NULL;
}
DEBUG("session closed.");
DEBUG("unlock private lock.");
DEBUG("UNLOCK mutex %s", __func__);
if (pthread_mutex_unlock(&locked_session->lock) != 0) {
ERROR("Error while locking rwlock");
}
DEBUG("unlock session lock.");
DEBUG("closed session, disabled notif(?), wait 0.5s");
usleep(500000); /* let notification thread stop */
/* session shouldn't be used by now */
for (i = 0; i < locked_session->notif_count; ++i) {
free(locked_session->notifications[i].content);
}
free(locked_session->notifications);
pthread_mutex_destroy(&locked_session->lock);
if (locked_session->hello_message != NULL) {
json_object_put(locked_session->hello_message);
locked_session->hello_message = NULL;
}
locked_session->session = NULL;
free(locked_session);
locked_session = NULL;
DEBUG("NETCONF session closed, everything cleared.");
return (EXIT_SUCCESS);
}
static int
netconf_close(unsigned int session_key, json_object **reply)
{
struct session_with_mutex *locked_session;
DEBUG("Session to close: %u", session_key);
/* get exclusive (write) access to sessions_list (conns) */
DEBUG("lock session lock.");
DEBUG("LOCK wrlock %s", __func__);
if (pthread_rwlock_wrlock (&session_lock) != 0) {
ERROR("Error while locking rwlock");
(*reply) = create_error_reply("Internal: Error while locking.");
return EXIT_FAILURE;
}
/* remove session from the active sessions list -> nobody new can now work with session */
for (locked_session = netconf_sessions_list;
locked_session && (locked_session->session_key != session_key);
locked_session = locked_session->next);
if (!locked_session) {
pthread_rwlock_unlock(&session_lock);
ERROR("Could not find the session %u to close.", session_key);
(*reply) = create_error_reply("Internal: Error while finding a session.");
return EXIT_FAILURE;
}
if (!locked_session->prev) {
netconf_sessions_list = netconf_sessions_list->next;
if (netconf_sessions_list) {
netconf_sessions_list->prev = NULL;
}
} else {
locked_session->prev->next = locked_session->next;
if (locked_session->next) {
locked_session->next->prev = locked_session->prev;
}
}
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock (&session_lock) != 0) {
ERROR("Error while unlocking rwlock");
(*reply) = create_error_reply("Internal: Error while unlocking.");
}
if ((locked_session != NULL) && (locked_session->session != NULL)) {
return close_and_free_session(locked_session);
} else {
ERROR("Unknown session to close");
(*reply) = create_error_reply("Internal: Unkown session to close.");
return (EXIT_FAILURE);
}
(*reply) = NULL;
}
/**
* Test reply message type and return error message.
*
* \param[in] session nc_session internal struct
* \param[in] session_key session ID, 0 to disable disconnect on error
* \param[in] msgt RPC-REPLY message type
* \param[out] data
* \return NULL on success
*/
json_object *
netconf_test_reply(struct nc_session *session, unsigned int session_key, NC_MSG_TYPE msgt, struct nc_reply *reply, struct lyd_node **data)
{
json_object *err = NULL;
/* process the result of the operation */
switch (msgt) {
case NC_MSG_ERROR:
if (nc_session_get_status(session) != NC_STATUS_RUNNING) {
ERROR("mod_netconf: receiving rpc-reply failed");
if (session_key) {
netconf_close(session_key, &err);
}
if (err != NULL) {
return err;
}
return create_error_reply("Internal: Receiving RPC-REPLY failed.");
}
case NC_MSG_NONE:
/* there is error handled by callback */
if (data != NULL) {
free(*data);
(*data) = NULL;
}
return NULL;
case NC_MSG_REPLY:
switch (reply->type) {
case NC_RPL_OK:
if ((data != NULL) && (*data != NULL)) {
free(*data);
(*data) = NULL;
}
return create_ok_reply();
case NC_RPL_DATA:
if (((*data) = ((struct nc_reply_data *)reply)->data) == NULL) {
ERROR("mod_netconf: no data from reply");
return create_error_reply("Internal: No data from reply received.");
} else {
((struct nc_reply_data *)reply)->data = NULL;
return NULL;
}
break;
case NC_RPL_ERROR:
ERROR("mod_netconf: unexpected rpc-reply (%d)", reply->type);
if (data != NULL) {
free(*data);
(*data) = NULL;
}
return create_error_reply(((struct nc_reply_error *)reply)->err[0].message);
default:
ERROR("mod_netconf: unexpected rpc-reply (%d)", reply->type);
if (data != NULL) {
free(*data);
(*data) = NULL;
}
return create_error_reply("Unknown type of NETCONF reply.");
}
break;
default:
ERROR("mod_netconf: unexpected reply message received (%d)", msgt);
if (data != NULL) {
free(*data);
(*data) = NULL;
}
return create_error_reply("Internal: Unexpected RPC-REPLY message type.");
}
}
json_object *
netconf_unlocked_op(struct nc_session *session, struct nc_rpc *rpc)
{
struct nc_reply* reply = NULL;
NC_MSG_TYPE msgt;
/* check requests */
if (rpc == NULL) {
ERROR("mod_netconf: rpc is not created");
return create_error_reply("Internal error: RPC is not created");
}
if (session != NULL) {
/* send the request and get the reply */
msgt = netconf_send_recv_timed(session, rpc, 50000, 0, &reply);
/* process the result of the operation */
return netconf_test_reply(session, 0, msgt, reply, NULL);
} else {
ERROR("Unknown session to process.");
return create_error_reply("Internal error: Unknown session to process.");
}
}
/**
* Perform RPC method that returns data.
*
* \param[in] session_id session identifier
* \param[in] rpc RPC message to perform
* \param[out] received_data received data string, can be NULL when no data expected, value can be set to NULL if no data received
* \return NULL on success, json object with error otherwise
*/
static json_object *
netconf_op(unsigned int session_key, struct nc_rpc *rpc, int strict, struct lyd_node **received_data)
{
struct session_with_mutex * locked_session;
struct nc_reply* reply = NULL;
json_object *res = NULL;
struct lyd_node *data = NULL;
NC_MSG_TYPE msgt;
/* check requests */
if (rpc == NULL) {
ERROR("mod_netconf: rpc is not created");
res = create_error_reply("Internal: RPC could not be created.");
data = NULL;
goto finished;
}
locked_session = session_get_locked(session_key, &res);
if (!locked_session) {
ERROR("Unknown session or locking failed.");
goto finished;
}
session_user_activity(nc_session_get_username(locked_session->session));
/* send the request and get the reply */
msgt = netconf_send_recv_timed(locked_session->session, rpc, 2000000, strict, &reply);
session_unlock(locked_session);
res = netconf_test_reply(locked_session->session, session_key, msgt, reply, &data);
finished:
nc_reply_free(reply);
if (received_data != NULL) {
(*received_data) = data;
} else {
if (data != NULL) {
free(data);
data = NULL;
}
}
return res;
}
static char *
netconf_getconfig(unsigned int session_key, NC_DATASTORE source, const char *filter, int strict, json_object **err)
{
struct nc_rpc* rpc;
struct session_with_mutex *locked_session;
json_object *res = NULL, *data_cjson;
enum json_tokener_error tok_err;
char *data_json = NULL;
struct lyd_node *data, *sibling, *next;
/* tell server to show all elements even if they have default values */
#ifdef HAVE_WITHDEFAULTS_TAGGED
rpc = nc_rpc_getconfig(source, filter, NC_WD_MODE_ALL_TAG, NC_PARAMTYPE_CONST);
#else
rpc = nc_rpc_getconfig(source, filter, 0, NC_PARAMTYPE_CONST);
#endif
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return (NULL);
}
res = netconf_op(session_key, rpc, strict, &data);
nc_rpc_free(rpc);
if (res != NULL) {
(*err) = res;
} else {
(*err) = NULL;
}
if (data) {
for (locked_session = netconf_sessions_list;
locked_session && (locked_session->session_key != session_key);
locked_session = locked_session->next);
/* won't fail */
/* print data into JSON */
if (lyd_print_mem(&data_json, data, LYD_JSON, LYP_WITHSIBLINGS)) {
ERROR("Printing JSON <get-config> data failed.");
lyd_free_withsiblings(data);
return NULL;
}
/* parse JSON data into cjson */
pthread_mutex_lock(&json_lock);
data_cjson = json_tokener_parse_verbose(data_json, &tok_err);
if (!data_cjson) {
ERROR("Parsing JSON config failed (%s).", json_tokener_error_desc(tok_err));
pthread_mutex_unlock(&json_lock);
lyd_free_withsiblings(data);
free(data_json);
return NULL;
}
free(data_json);
/* go simultaneously through both trees and add metadata */
LY_TREE_FOR_SAFE(data, next, sibling) {
node_add_metadata_recursive(sibling, NULL, data_cjson);
lyd_free(sibling);
}
data_json = strdup(json_object_to_json_string_ext(data_cjson, 0));
json_object_put(data_cjson);
pthread_mutex_unlock(&json_lock);
}
return (data_json);
}
static char *
netconf_getschema(unsigned int session_key, const char *identifier, const char *version, const char *format, json_object **err)
{
struct nc_rpc *rpc;
struct lyd_node *data = NULL;
json_object *res = NULL;
char *model_data = NULL, *anyxml, *ptr, *ptr2;
/* create requests */
rpc = nc_rpc_getschema(identifier, version, format, NC_PARAMTYPE_CONST);
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return (NULL);
}
res = netconf_op(session_key, rpc, 0, &data);
nc_rpc_free(rpc);
if (res != NULL) {
(*err) = res;
} else {
(*err) = NULL;
if (data) {
lyxml_print_mem(&anyxml, ((struct lyd_node_anyxml *)data)->value, 0);
/* it's with the data root node, remove it */
if (anyxml) {
ptr = strchr(anyxml, '>');
++ptr;
ptr2 = strrchr(anyxml, '<');
model_data = strndup(ptr, strlen(ptr) - strlen(ptr2));
free(anyxml);
}
}
}
return (model_data);
}
static char *
netconf_get(unsigned int session_key, const char* filter, int strict, json_object **err)
{
struct nc_rpc* rpc;
char* data_json = NULL;
json_object *res = NULL, *data_cjson;
enum json_tokener_error tok_err;
struct session_with_mutex *locked_session;
struct lyd_node *data, *sibling, *next;
/* create requests */
rpc = nc_rpc_get(filter, 0, NC_PARAMTYPE_CONST);
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return (NULL);
}
res = netconf_op(session_key, rpc, strict, &data);
nc_rpc_free(rpc);
if (res != NULL) {
(*err) = res;
} else {
(*err) = NULL;
}
if (data) {
for (locked_session = netconf_sessions_list;
locked_session && (locked_session->session_key != session_key);
locked_session = locked_session->next);
/* won't fail */
/* print JSON data */
if (lyd_print_mem(&data_json, data, LYD_JSON, LYP_WITHSIBLINGS)) {
ERROR("Printing JSON <get> data failed.");
lyd_free_withsiblings(data);
return NULL;
}
/* parse JSON data into cjson */
pthread_mutex_lock(&json_lock);
data_cjson = json_tokener_parse_verbose(data_json, &tok_err);
if (!data_cjson) {
ERROR("Parsing JSON config failed (%s).", json_tokener_error_desc(tok_err));
pthread_mutex_unlock(&json_lock);
lyd_free_withsiblings(data);
free(data_json);
return NULL;
}
free(data_json);
/* go simultaneously through both trees and add metadata */
LY_TREE_FOR_SAFE(data, next, sibling) {
node_add_metadata_recursive(sibling, NULL, data_cjson);
lyd_free(sibling);
}
data_json = strdup(json_object_to_json_string_ext(data_cjson, 0));
json_object_put(data_cjson);
pthread_mutex_unlock(&json_lock);
}
return data_json;
}
static json_object *
netconf_copyconfig(unsigned int session_key, NC_DATASTORE source, NC_DATASTORE target, const char *config,
const char *uri_src, const char *uri_trg)
{
struct nc_rpc* rpc;
json_object *res = NULL;
/* create requests */
rpc = nc_rpc_copy(target, uri_trg, source, (config ? config : uri_src), 0, NC_PARAMTYPE_CONST);
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return create_error_reply("Internal: Creating rpc request failed");
}
res = netconf_op(session_key, rpc, 0, NULL);
nc_rpc_free(rpc);
return res;
}
static json_object *
netconf_editconfig(unsigned int session_key, NC_DATASTORE target, NC_RPC_EDIT_DFLTOP defop,
NC_RPC_EDIT_ERROPT erropt, NC_RPC_EDIT_TESTOPT testopt, const char *config_or_url)
{
struct nc_rpc* rpc;
json_object *res = NULL;
/* create requests */
rpc = nc_rpc_edit(target, defop, testopt, erropt, config_or_url, NC_PARAMTYPE_CONST);
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return create_error_reply("Internal: Creating rpc request failed");
}
res = netconf_op(session_key, rpc, 0, NULL);
nc_rpc_free (rpc);
return res;
}
static json_object *
netconf_killsession(unsigned int session_key, const char *sid)
{
struct nc_rpc *rpc;
json_object *res = NULL;
/* create requests */
rpc = nc_rpc_kill(atoi(sid));
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return create_error_reply("Internal: Creating rpc request failed");
}
res = netconf_op(session_key, rpc, 0, NULL);
nc_rpc_free(rpc);
return res;
}
static json_object *
netconf_onlytargetop(unsigned int session_key, NC_DATASTORE target, struct nc_rpc *(*op_func)(NC_DATASTORE))
{
struct nc_rpc* rpc;
json_object *res = NULL;
/* create requests */
rpc = op_func(target);
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return create_error_reply("Internal: Creating rpc request failed");
}
res = netconf_op(session_key, rpc, 0, NULL);
nc_rpc_free (rpc);
return res;
}
static json_object *
netconf_deleteconfig(unsigned int session_key, NC_DATASTORE target, const char *url)
{
struct nc_rpc *rpc = NULL;
json_object *res = NULL;
rpc = nc_rpc_delete(target, url, NC_PARAMTYPE_CONST);
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return create_error_reply("Internal: Creating rpc request failed");
}
res = netconf_op(session_key, rpc, 0, NULL);
nc_rpc_free (rpc);
return res;
}
static json_object *
netconf_lock(unsigned int session_key, NC_DATASTORE target)
{
return (netconf_onlytargetop(session_key, target, nc_rpc_lock));
}
static json_object *
netconf_unlock(unsigned int session_key, NC_DATASTORE target)
{
return (netconf_onlytargetop(session_key, target, nc_rpc_unlock));
}
static json_object *
netconf_generic(unsigned int session_key, const char *xml_content, struct lyd_node **data)
{
struct nc_rpc* rpc = NULL;
json_object *res = NULL;
/* create requests */
rpc = nc_rpc_generic_xml(xml_content, NC_PARAMTYPE_CONST);
if (rpc == NULL) {
ERROR("mod_netconf: creating rpc request failed");
return create_error_reply("Internal: Creating rpc request failed");
}
/* get session where send the RPC */
res = netconf_op(session_key, rpc, 0, data);
nc_rpc_free(rpc);
return res;
}
static int
node_add_metadata(const struct lys_node *node, const struct lys_module *module, json_object *parent)
{
struct lys_module *cur_module;
json_object *meta_obj;
char *obj_name;
if (node->nodetype == LYS_INPUT) {
/* silently skipped */
return 0;
}
cur_module = node->module;
if (cur_module->type) {
cur_module = ((struct lys_submodule *)cur_module)->belongsto;
}
if (cur_module == module) {
asprintf(&obj_name, "$@%s", node->name);
} else {
asprintf(&obj_name, "$@%s:%s", cur_module->name, node->name);
}
/* in (leaf-)lists the metadata could have already been added */
if ((node->nodetype & (LYS_LEAFLIST | LYS_LIST)) && (json_object_object_get_ex(parent, obj_name, NULL) == TRUE)) {
free(obj_name);
return 1;
}
meta_obj = json_object_new_object();
switch (node->nodetype) {
case LYS_CONTAINER:
node_metadata_container((struct lys_node_container *)node, meta_obj);
break;
case LYS_CHOICE:
node_metadata_choice((struct lys_node_choice *)node, meta_obj);
break;
case LYS_LEAF:
node_metadata_leaf((struct lys_node_leaf *)node, meta_obj);
break;
case LYS_LEAFLIST:
node_metadata_leaflist((struct lys_node_leaflist *)node, meta_obj);
break;
case LYS_LIST:
node_metadata_list((struct lys_node_list *)node, meta_obj);
break;
case LYS_ANYXML:
node_metadata_anyxml((struct lys_node_anyxml *)node, meta_obj);
break;
case LYS_CASE:
node_metadata_case((struct lys_node_case *)node, meta_obj);
break;
case LYS_RPC:
node_metadata_rpc((struct lys_node_rpc *)node, meta_obj);
break;
default: /* LYS_OUTPUT */
ERROR("Internal: unuxpected nodetype (%s:%d)", __FILE__, __LINE__);
break;
}
/* just a precaution */
if (json_object_get_type(parent) != json_type_object) {
ERROR("Internal: wrong JSON type (%s:%d)", __FILE__, __LINE__);
free(obj_name);
return 1;
}
json_object_object_add(parent, obj_name, meta_obj);
free(obj_name);
return 0;
}
static void
node_add_metadata_recursive(struct lyd_node *data_tree, const struct lys_module *module, json_object *data_json_parent)
{
struct lys_module *cur_module;
struct lys_node *list_schema;
struct lyd_node *child, *list_item;
json_object *child_json, *list_child_json;
char *child_name;
int list_idx;
if (data_tree->schema->nodetype & (LYS_OUTPUT | LYS_GROUPING)) {
return;
}
/* add data_tree metadata */
if (node_add_metadata(data_tree->schema, module, data_json_parent)) {
return;
}
/* get data_tree module */
cur_module = data_tree->schema->module;
if (cur_module->type) {
cur_module = ((struct lys_submodule *)cur_module)->belongsto;
}
if (!(data_tree->schema->nodetype & (LYS_LEAF | LYS_LEAFLIST | LYS_ANYXML))) {
/* print correct data_tree JSON name */
if (cur_module == module) {
asprintf(&child_name, "%s", data_tree->schema->name);
} else {
asprintf(&child_name, "%s:%s", cur_module->name, data_tree->schema->name);
}
/* go down in JSON object */
if (json_object_object_get_ex(data_json_parent, child_name, &child_json) == FALSE) {
ERROR("Internal: failed to get JSON object \"%s\".", child_name);
free(child_name);
return;
}
free(child_name);
if (data_tree->schema->nodetype == LYS_LIST) {
if (json_object_get_type(child_json) != json_type_array) {
ERROR("Internal: type mismatch (%s:%d)", __FILE__, __LINE__);
return;
}
/* go down in data tree for every item, we process them all now, skip later
* (metadata duplicate will be detected at the beginning of this function) */
list_idx = 0;
list_schema = data_tree->schema;
LY_TREE_FOR(data_tree, list_item) {
/* another list member */
if (list_item->schema == list_schema) {
list_child_json = json_object_array_get_idx(child_json, list_idx);
if (!list_child_json) {
ERROR("Internal: list \"%s\" idx out-of-bounds", list_schema->name);
return;
}
LY_TREE_FOR(list_item->child, child) {
node_add_metadata_recursive(child, cur_module, list_child_json);
}
++list_idx;
}
}
} else {
if (json_object_get_type(child_json) != json_type_object) {
ERROR("Internal: type mismatch (%s:%d)", __FILE__, __LINE__);
return;
}
/* go down in data tree */
LY_TREE_FOR(data_tree->child, child) {
node_add_metadata_recursive(child, cur_module, child_json);
}
}
}
}
static void
node_add_model_metadata(const struct lys_module *module, json_object *parent)
{
json_object *obj;
char *str;
obj = json_object_new_object();
node_metadata_model(module, obj);
asprintf(&str, "$@@%s", module->name);
json_object_object_add(parent, str, obj);
free(str);
}
static void
node_add_children_with_metadata_recursive(const struct lys_node *node, const struct lys_module *module, json_object *parent)
{
const struct lys_module *cur_module;
struct lys_node *child;
json_object *node_json;
char *json_name;
if (node->nodetype & (LYS_OUTPUT | LYS_GROUPING)) {
return;
}
if (node->nodetype & LYS_USES) {
cur_module = module;
node_json = parent;
goto children;
}
/* add node metadata */
if (node_add_metadata(node, module, parent)) {
ERROR("Internal: metadata duplicate for \"%s\".", node->name);
return;
}
/* no other metadata */
if (!node->child) {
return;
}
/* get node module */
cur_module = node->module;
if (cur_module->type) {
cur_module = ((struct lys_submodule *)cur_module)->belongsto;
}
/* create JSON object for child metadata */
node_json = json_object_new_object();
if (cur_module == module) {
json_object_object_add(parent, node->name, node_json);
} else {
asprintf(&json_name, "%s:%s", cur_module->name, node->name);
json_object_object_add(parent, json_name, node_json);
free(json_name);
}
children:
if (!(node->nodetype & (LYS_LEAF | LYS_LEAFLIST | LYS_ANYXML))) {
LY_TREE_FOR(node->child, child) {
node_add_children_with_metadata_recursive(child, cur_module, node_json);
}
}
}
static json_object *
libyang_query(unsigned int session_key, const char *filter, int load_children)
{
const struct lys_node *node;
const struct lys_module *module = NULL;
struct session_with_mutex *locked_session;
json_object *ret = NULL, *data;
locked_session = session_get_locked(session_key, &ret);
if (!locked_session) {
ERROR("Locking failed or session not found.");
goto finish;
}
session_user_activity(nc_session_get_username(locked_session->session));
if (filter[0] == '/') {
node = ly_ctx_get_node(nc_session_get_ctx(locked_session->session), filter);
if (!node) {
ret = create_error_reply("Failed to resolve XPath filter node.");
goto finish;
}
} else {
module = ly_ctx_get_module(nc_session_get_ctx(locked_session->session), filter, NULL);
if (!module) {
ret = create_error_reply("Failed to find model.");
goto finish;
}
}
pthread_mutex_lock(&json_lock);
data = json_object_new_object();
if (module) {
node_add_model_metadata(module, data);
if (load_children) {
LY_TREE_FOR(module->data, node) {
node_add_children_with_metadata_recursive(node, NULL, data);
}
}
} else {
if (load_children) {
node_add_children_with_metadata_recursive(node, NULL, data);
} else {
node_add_metadata(node, NULL, data);
}
}
pthread_mutex_unlock(&json_lock);
ret = create_data_reply(json_object_to_json_string(data));
json_object_put(data);
finish:
session_unlock(locked_session);
return ret;
}
static json_object *
libyang_merge(unsigned int session_key, const char *config)
{
struct lyd_node *data_tree = NULL, *sibling;
struct session_with_mutex *locked_session;
json_object *ret = NULL, *data_json = NULL;
enum json_tokener_error err = 0;
locked_session = session_get_locked(session_key, &ret);
if (!locked_session) {
ERROR("Locking failed or session not found.");
goto finish;
}
session_user_activity(nc_session_get_username(locked_session->session));
data_tree = lyd_parse_mem(nc_session_get_ctx(locked_session->session), config, LYD_JSON, LYD_OPT_STRICT);
if (!data_tree) {
ERROR("Creating data tree failed.");
ret = create_error_reply("Failed to create data tree from JSON config.");
session_unlock(locked_session);
goto finish;
}
session_unlock(locked_session);
pthread_mutex_lock(&json_lock);
data_json = json_tokener_parse_verbose(config, &err);
if (!data_json) {
ERROR("Parsing JSON config failed (%s).", json_tokener_error_desc(err));
pthread_mutex_unlock(&json_lock);
ret = create_error_reply(json_tokener_error_desc(err));
goto finish;
}
/* go simultaneously through both trees and add metadata */
LY_TREE_FOR(data_tree, sibling) {
node_add_metadata_recursive(sibling, NULL, data_json);
}
pthread_mutex_unlock(&json_lock);
ret = create_data_reply(json_object_to_json_string(data_json));
finish:
LY_TREE_FOR(data_tree, sibling) {
lyd_free(sibling);
}
json_object_put(data_json);
return ret;
}
/**
* @}
*//* netconf_operations */
void
clb_print(NC_VERB_LEVEL level, const char *msg)
{
#define FOREACH(I) \
I(NC_VERB_ERROR) I(NC_VERB_WARNING)
#define CASE(VAL) case VAL: ERROR("%s: %s", #VAL, msg); \
break;
switch (level) {
FOREACH(CASE);
case NC_VERB_VERBOSE:
case NC_VERB_DEBUG:
DEBUG("DEBUG: %s", msg);
break;
}
if (level == NC_VERB_ERROR) {
/* return global error */
netconf_callback_error_process(NULL /* tag */, NULL /* type */,
NULL /* severity */, NULL /* apptag */,
NULL /* path */, msg, NULL /* attribute */,
NULL /* element */, NULL /* ns */, NULL /* sid */);
}
}
/**
* Receive message from client over UNIX socket and return pointer to it.
* Caller should free message memory.
* \param[in] client socket descriptor of client
* \return pointer to message
*/
char *
get_framed_message(int client)
{
/* read json in chunked framing */
unsigned int buffer_size = 0;
ssize_t buffer_len = 0;
char *buffer = NULL;
char c;
ssize_t ret;
int i, chunk_len;
char chunk_len_str[12];
while (1) {
/* read chunk length */
if ((ret = recv (client, &c, 1, 0)) != 1 || c != '\n') {
if (buffer != NULL) {
free (buffer);
buffer = NULL;
}
break;
}
if ((ret = recv (client, &c, 1, 0)) != 1 || c != '#') {
if (buffer != NULL) {
free (buffer);
buffer = NULL;
}
break;
}
i=0;
memset (chunk_len_str, 0, 12);
while ((ret = recv (client, &c, 1, 0) == 1 && (isdigit(c) || c == '#'))) {
if (i==0 && c == '#') {
if (recv (client, &c, 1, 0) != 1 || c != '\n') {
/* end but invalid */
if (buffer != NULL) {
free (buffer);
buffer = NULL;
}
}
/* end of message, double-loop break */
goto msg_complete;
}
chunk_len_str[i++] = c;
if (i==11) {
ERROR("Message is too long, buffer for length is not big enought!!!!");
break;
}
}
if (c != '\n') {
if (buffer != NULL) {
free (buffer);
buffer = NULL;
}
break;
}
chunk_len_str[i] = 0;
if ((chunk_len = atoi (chunk_len_str)) == 0) {
if (buffer != NULL) {
free (buffer);
buffer = NULL;
}
break;
}
buffer_size += chunk_len+1;
buffer = realloc (buffer, sizeof(char)*buffer_size);
memset(buffer + (buffer_size-chunk_len-1), 0, chunk_len+1);
if ((ret = recv (client, buffer+buffer_len, chunk_len, 0)) == -1 || ret != chunk_len) {
if (buffer != NULL) {
free (buffer);
buffer = NULL;
}
break;
}
buffer_len += ret;
}
msg_complete:
return buffer;
}
NC_DATASTORE
parse_datastore(const char *ds)
{
if (strcmp(ds, "running") == 0) {
return NC_DATASTORE_RUNNING;
} else if (strcmp(ds, "startup") == 0) {
return NC_DATASTORE_STARTUP;
} else if (strcmp(ds, "candidate") == 0) {
return NC_DATASTORE_CANDIDATE;
} else if (strcmp(ds, "url") == 0) {
return NC_DATASTORE_URL;
} else if (strcmp(ds, "config") == 0) {
return NC_DATASTORE_CONFIG;
}
return -1;
}
NC_RPC_EDIT_TESTOPT
parse_testopt(const char *t)
{
if (strcmp(t, "notset") == 0) {
return NC_RPC_EDIT_TESTOPT_UNKNOWN;
} else if (strcmp(t, "testset") == 0) {
return NC_RPC_EDIT_TESTOPT_TESTSET;
} else if (strcmp(t, "set") == 0) {
return NC_RPC_EDIT_TESTOPT_SET;
} else if (strcmp(t, "test") == 0) {
return NC_RPC_EDIT_TESTOPT_TEST;
}
return NC_RPC_EDIT_TESTOPT_UNKNOWN;
}
json_object *
create_error_reply(const char *errmess)
{
json_object *reply, *array;
pthread_mutex_lock(&json_lock);
reply = json_object_new_object();
array = json_object_new_array();
json_object_object_add(reply, "type", json_object_new_int(REPLY_ERROR));
json_object_array_add(array, json_object_new_string(errmess));
json_object_object_add(reply, "errors", array);
pthread_mutex_unlock(&json_lock);
return reply;
}
json_object *
create_data_reply(const char *data)
{
pthread_mutex_lock(&json_lock);
json_object *reply = json_object_new_object();
json_object_object_add(reply, "type", json_object_new_int(REPLY_DATA));
json_object_object_add(reply, "data", json_object_new_string(data));
pthread_mutex_unlock(&json_lock);
return reply;
}
json_object *
create_ok_reply(void)
{
json_object *reply;
pthread_mutex_lock(&json_lock);
reply = json_object_new_object();
json_object_object_add(reply, "type", json_object_new_int(REPLY_OK));
pthread_mutex_unlock(&json_lock);
return reply;
}
json_object *
create_replies(void)
{
json_object *replies;
pthread_mutex_lock(&json_lock);
replies = json_object_new_object();
pthread_mutex_unlock(&json_lock);
return replies;
}
void
add_reply(json_object *replies, json_object *reply, unsigned int session_key)
{
char *str;
asprintf(&str, "%u", session_key);
pthread_mutex_lock(&json_lock);
json_object_object_add(replies, str, reply);
pthread_mutex_unlock(&json_lock);
free(str);
}
char *
get_param_string(json_object *data, const char *name)
{
json_object *js_tmp = NULL;
char *res = NULL;
if (json_object_object_get_ex(data, name, &js_tmp) == TRUE) {
res = strdup(json_object_get_string(js_tmp));
}
return res;
}
json_object *
handle_op_connect(json_object *request)
{
char *host = NULL;
char *port = NULL;
char *user = NULL;
char *pass = NULL;
char *privkey = NULL;
json_object *reply = NULL;
unsigned int session_key = 0;
DEBUG("Request: connect");
pthread_mutex_lock(&json_lock);
host = get_param_string(request, "host");
port = get_param_string(request, "port");
user = get_param_string(request, "user");
pass = get_param_string(request, "pass");
privkey = get_param_string(request, "privatekey");
pthread_mutex_unlock(&json_lock);
if (host == NULL) {
host = "localhost";
}
DEBUG("host: %s, port: %s, user: %s", host, port, user);
if (user == NULL) {
ERROR("Cannot connect - insufficient input.");
session_key = 0;
} else {
session_key = netconf_connect(host, port, user, pass, privkey);
DEBUG("Session key: %u", session_key);
}
GETSPEC_ERR_REPLY
pthread_mutex_lock(&json_lock);
if (session_key == 0) {
/* negative reply */
if (err_reply == NULL) {
reply = json_object_new_object();
json_object_object_add(reply, "type", json_object_new_int(REPLY_ERROR));
json_object_object_add(reply, "error-message", json_object_new_string("Connecting NETCONF server failed."));
ERROR("Connection failed.");
} else {
/* use filled err_reply from libnetconf's callback */
reply = err_reply;
ERROR("Connect - error from libnetconf's callback.");
}
} else {
/* positive reply */
reply = json_object_new_object();
json_object_object_add(reply, "type", json_object_new_int(REPLY_OK));
json_object_object_add(reply, "session", json_object_new_int(session_key));
}
memset(pass, 0, strlen(pass));
pthread_mutex_unlock(&json_lock);
CHECK_AND_FREE(host);
CHECK_AND_FREE(user);
CHECK_AND_FREE(port);
CHECK_AND_FREE(pass);
CHECK_AND_FREE(privkey);
return reply;
}
json_object *
handle_op_disconnect(json_object *UNUSED(request), unsigned int session_key)
{
json_object *reply;
DEBUG("Request: disconnect (session %u)", session_key);
if (netconf_close(session_key, &reply) != EXIT_SUCCESS) {
CHECK_ERR_SET_REPLY_ERR("Get configuration information from device failed.")
} else {
reply = create_ok_reply();
}
return reply;
}
json_object *
handle_op_get(json_object *request, unsigned int session_key)
{
char *filter = NULL;
char *data = NULL;
json_object *reply = NULL, *obj;
int strict;
DEBUG("Request: get (session %u)", session_key);
pthread_mutex_lock(&json_lock);
filter = get_param_string(request, "filter");
if (json_object_object_get_ex(request, "strict", &obj) == FALSE) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Missing strict parameter.");
return reply;
}
strict = json_object_get_boolean(obj);
pthread_mutex_unlock(&json_lock);
if ((data = netconf_get(session_key, filter, strict, &reply)) == NULL) {
CHECK_ERR_SET_REPLY_ERR("Get information failed.")
} else {
reply = create_data_reply(data);
free(data);
}
return reply;
}
json_object *
handle_op_getconfig(json_object *request, unsigned int session_key)
{
NC_DATASTORE ds_type_s = -1;
char *filter = NULL;
char *data = NULL;
char *source = NULL;
json_object *reply = NULL, *obj;
int strict;
DEBUG("Request: get-config (session %u)", session_key);
pthread_mutex_lock(&json_lock);
filter = get_param_string(request, "filter");
source = get_param_string(request, "source");
if (source != NULL) {
ds_type_s = parse_datastore(source);
}
if (json_object_object_get_ex(request, "strict", &obj) == FALSE) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Missing strict parameter.");
return reply;
}
strict = json_object_get_boolean(obj);
pthread_mutex_unlock(&json_lock);
if ((int)ds_type_s == -1) {
reply = create_error_reply("Invalid source repository type requested.");
goto finalize;
}
if ((data = netconf_getconfig(session_key, ds_type_s, filter, strict, &reply)) == NULL) {
CHECK_ERR_SET_REPLY_ERR("Get configuration operation failed.")
} else {
reply = create_data_reply(data);
free(data);
}
finalize:
CHECK_AND_FREE(filter);
CHECK_AND_FREE(source);
return reply;
}
json_object *
handle_op_editconfig(json_object *request, unsigned int session_key, int idx)
{
NC_DATASTORE ds_type_t = -1;
NC_RPC_EDIT_DFLTOP defop_type = 0;
NC_RPC_EDIT_ERROPT erropt_type = 0;
NC_RPC_EDIT_TESTOPT testopt_type = NC_RPC_EDIT_TESTOPT_TESTSET;
char *defop = NULL;
char *erropt = NULL;
char *config = NULL;
char *target = NULL;
char *testopt = NULL;
char *urisource = NULL;
json_object *reply = NULL, *configs, *obj;
struct lyd_node *content;
struct session_with_mutex *locked_session;
DEBUG("Request: edit-config (session %u)", session_key);
pthread_mutex_lock(&json_lock);
/* get parameters */
if (json_object_object_get_ex(request, "configs", &configs) == FALSE) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Missing configs parameter.");
goto finalize;
}
obj = json_object_array_get_idx(configs, idx);
config = strdup(json_object_get_string(obj));
target = get_param_string(request, "target");
defop = get_param_string(request, "default-operation");
erropt = get_param_string(request, "error-option");
urisource = get_param_string(request, "uri-source");
testopt = get_param_string(request, "test-option");
pthread_mutex_unlock(&json_lock);
if (target != NULL) {
ds_type_t = parse_datastore(target);
}
if (defop != NULL) {
if (strcmp(defop, "merge") == 0) {
defop_type = NC_RPC_EDIT_DFLTOP_MERGE;
} else if (strcmp(defop, "replace") == 0) {
defop_type = NC_RPC_EDIT_DFLTOP_REPLACE;
} else if (strcmp(defop, "none") == 0) {
defop_type = NC_RPC_EDIT_DFLTOP_NONE;
} else {
reply = create_error_reply("Invalid default-operation parameter.");
goto finalize;
}
} else {
defop_type = NC_RPC_EDIT_DFLTOP_UNKNOWN;
}
if (erropt != NULL) {
if (strcmp(erropt, "continue-on-error") == 0) {
erropt_type = NC_RPC_EDIT_ERROPT_CONTINUE;
} else if (strcmp(erropt, "stop-on-error") == 0) {
erropt_type = NC_RPC_EDIT_ERROPT_STOP;
} else if (strcmp(erropt, "rollback-on-error") == 0) {
erropt_type = NC_RPC_EDIT_ERROPT_ROLLBACK;
} else {
reply = create_error_reply("Invalid error-option parameter.");
goto finalize;
}
} else {
erropt_type = 0;
}
if ((config && urisource) || (!config && !urisource)) {
reply = create_error_reply("Invalid config and uri-source data parameters.");
goto finalize;
}
if (config) {
locked_session = session_get_locked(session_key, NULL);
if (!locked_session) {
ERROR("Unknown session or locking failed.");
goto finalize;
}
content = lyd_parse_mem(nc_session_get_ctx(locked_session->session), config, LYD_JSON, LYD_OPT_EDIT);
session_unlock(locked_session);
free(config);
lyd_print_mem(&config, content, LYD_XML, LYP_WITHSIBLINGS);
lyd_free_withsiblings(content);
} else {
config = urisource;
}
if (testopt != NULL) {
testopt_type = parse_testopt(testopt);
} else {
testopt_type = NC_RPC_EDIT_TESTOPT_TESTSET;
}
reply = netconf_editconfig(session_key, ds_type_t, defop_type, erropt_type, testopt_type, config);
CHECK_ERR_SET_REPLY
finalize:
CHECK_AND_FREE(defop);
CHECK_AND_FREE(erropt);
CHECK_AND_FREE(config);
CHECK_AND_FREE(urisource);
CHECK_AND_FREE(target);
CHECK_AND_FREE(testopt);
return reply;
}
json_object *
handle_op_copyconfig(json_object *request, unsigned int session_key, int idx)
{
NC_DATASTORE ds_type_s = -1;
NC_DATASTORE ds_type_t = -1;
char *config = NULL;
char *target = NULL;
char *source = NULL;
char *uri_src = NULL;
char *uri_trg = NULL;
json_object *reply = NULL, *configs, *obj;
struct lyd_node *content;
struct session_with_mutex *locked_session;
DEBUG("Request: copy-config (session %u)", session_key);
/* get parameters */
pthread_mutex_lock(&json_lock);
target = get_param_string(request, "target");
source = get_param_string(request, "source");
uri_src = get_param_string(request, "uri-source");
uri_trg = get_param_string(request, "uri-target");
if (!strcmp(source, "config")) {
if (json_object_object_get_ex(request, "configs", &configs) == FALSE) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Missing configs parameter.");
goto finalize;
}
obj = json_object_array_get_idx(configs, idx);
if (!obj) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Configs array parameter shorter than sessions.");
goto finalize;
}
config = strdup(json_object_get_string(obj));
}
pthread_mutex_unlock(&json_lock);
if (target != NULL) {
ds_type_t = parse_datastore(target);
}
if (source != NULL) {
ds_type_s = parse_datastore(source);
}
if ((int)ds_type_s == -1) {
/* invalid source datastore specified */
reply = create_error_reply("Invalid source repository type requested.");
goto finalize;
}
if ((int)ds_type_t == -1) {
/* invalid target datastore specified */
reply = create_error_reply("Invalid target repository type requested.");
goto finalize;
}
if (ds_type_s == NC_DATASTORE_URL) {
if (uri_src == NULL) {
uri_src = "";
}
}
if (ds_type_t == NC_DATASTORE_URL) {
if (uri_trg == NULL) {
uri_trg = "";
}
}
if (config) {
locked_session = session_get_locked(session_key, NULL);
if (!locked_session) {
ERROR("Unknown session or locking failed.");
goto finalize;
}
content = lyd_parse_mem(nc_session_get_ctx(locked_session->session), config, LYD_JSON, LYD_OPT_CONFIG);
session_unlock(locked_session);
free(config);
lyd_print_mem(&config, content, LYD_XML, LYP_WITHSIBLINGS);
lyd_free_withsiblings(content);
}
reply = netconf_copyconfig(session_key, ds_type_s, ds_type_t, config, uri_src, uri_trg);
CHECK_ERR_SET_REPLY
finalize:
CHECK_AND_FREE(config);
CHECK_AND_FREE(target);
CHECK_AND_FREE(source);
CHECK_AND_FREE(uri_src);
CHECK_AND_FREE(uri_trg);
return reply;
}
json_object *
handle_op_deleteconfig(json_object *request, unsigned int session_key)
{
json_object *reply;
NC_DATASTORE ds_type = -1;
char *target, *url;
DEBUG("Request: delete-config (session %u)", session_key);
pthread_mutex_lock(&json_lock);
target = get_param_string(request, "target");
url = get_param_string(request, "url");
pthread_mutex_unlock(&json_lock);
if (target != NULL) {
ds_type = parse_datastore(target);
}
if ((int)ds_type == -1) {
reply = create_error_reply("Invalid target repository type requested.");
goto finalize;
}
if (ds_type == NC_DATASTORE_URL) {
if (!url) {
url = "";
}
}
reply = netconf_deleteconfig(session_key, ds_type, url);
CHECK_ERR_SET_REPLY
if (reply == NULL) {
reply = create_ok_reply();
}
finalize:
CHECK_AND_FREE(target);
CHECK_AND_FREE(url);
return reply;
}
json_object *
handle_op_lock(json_object *request, unsigned int session_key)
{
json_object *reply;
NC_DATASTORE ds_type = -1;
char *target;
DEBUG("Request: lock (session %u)", session_key);
pthread_mutex_lock(&json_lock);
target = get_param_string(request, "target");
pthread_mutex_unlock(&json_lock);
if (target != NULL) {
ds_type = parse_datastore(target);
}
if ((int)ds_type == -1) {
reply = create_error_reply("Invalid target repository type requested.");
goto finalize;
}
reply = netconf_lock(session_key, ds_type);
CHECK_ERR_SET_REPLY
if (reply == NULL) {
reply = create_ok_reply();
}
finalize:
CHECK_AND_FREE(target);
return reply;
}
json_object *
handle_op_unlock(json_object *request, unsigned int session_key)
{
json_object *reply;
NC_DATASTORE ds_type = -1;
char *target;
DEBUG("Request: unlock (session %u)", session_key);
pthread_mutex_lock(&json_lock);
target = get_param_string(request, "target");
pthread_mutex_unlock(&json_lock);
if (target != NULL) {
ds_type = parse_datastore(target);
}
if ((int)ds_type == -1) {
reply = create_error_reply("Invalid target repository type requested.");
goto finalize;
}
reply = netconf_unlock(session_key, ds_type);
CHECK_ERR_SET_REPLY
if (reply == NULL) {
reply = create_ok_reply();
}
finalize:
CHECK_AND_FREE(target);
return reply;
}
json_object *
handle_op_kill(json_object *request, unsigned int session_key)
{
json_object *reply = NULL;
char *sid = NULL;
DEBUG("Request: kill-session (session %u)", session_key);
pthread_mutex_lock(&json_lock);
sid = get_param_string(request, "session-id");
pthread_mutex_unlock(&json_lock);
if (sid == NULL) {
reply = create_error_reply("Missing session-id parameter.");
goto finalize;
}
reply = netconf_killsession(session_key, sid);
CHECK_ERR_SET_REPLY
finalize:
CHECK_AND_FREE(sid);
return reply;
}
json_object *
handle_op_info(json_object *UNUSED(request), unsigned int session_key)
{
json_object *reply = NULL;
struct session_with_mutex *locked_session = NULL;
DEBUG("Request: get info about session %u", session_key);
DEBUG("LOCK wrlock %s", __func__);
if (pthread_rwlock_rdlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
for (locked_session = netconf_sessions_list;
locked_session && (locked_session->session_key != session_key);
locked_session = locked_session->next);
if (locked_session != NULL) {
DEBUG("LOCK mutex %s", __func__);
pthread_mutex_lock(&locked_session->lock);
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
if (locked_session->hello_message != NULL) {
reply = locked_session->hello_message;
} else {
reply = create_error_reply("Invalid session identifier.");
}
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&locked_session->lock);
} else {
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
reply = create_error_reply("Invalid session identifier.");
}
return reply;
}
json_object *
handle_op_generic(json_object *request, unsigned int session_key, int idx)
{
json_object *reply = NULL, *contents, *obj;
char *content = NULL, *str;
struct lyd_node *data = NULL, *node_content;
struct session_with_mutex *locked_session;
DEBUG("Request: generic request (session %u)", session_key);
pthread_mutex_lock(&json_lock);
if (json_object_object_get_ex(request, "contents", &contents) == FALSE) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Missing contents parameter.");
goto finalize;
}
obj = json_object_array_get_idx(contents, idx);
if (!obj) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Contents array parameter shorter than sessions.");
goto finalize;
}
content = strdup(json_object_get_string(obj));
pthread_mutex_unlock(&json_lock);
locked_session = session_get_locked(session_key, NULL);
if (!locked_session) {
ERROR("Unknown session or locking failed.");
goto finalize;
}
node_content = lyd_parse_mem(nc_session_get_ctx(locked_session->session), content, LYD_JSON, LYD_OPT_RPC);
session_unlock(locked_session);
free(content);
lyd_print_mem(&content, node_content, LYD_XML, LYP_WITHSIBLINGS);
lyd_free_withsiblings(node_content);
reply = netconf_generic(session_key, content, &data);
if (reply == NULL) {
GETSPEC_ERR_REPLY
if (err_reply != NULL) {
/* use filled err_reply from libnetconf's callback */
reply = err_reply;
}
} else {
if (data == NULL) {
pthread_mutex_lock(&json_lock);
reply = json_object_new_object();
json_object_object_add(reply, "type", json_object_new_int(REPLY_OK));
pthread_mutex_unlock(&json_lock);
} else {
lyd_print_mem(&str, data, LYD_JSON, LYP_WITHSIBLINGS);
lyd_free_withsiblings(data);
reply = create_data_reply(str);
free(str);
}
}
finalize:
CHECK_AND_FREE(content);
return reply;
}
json_object *
handle_op_getschema(json_object *request, unsigned int session_key)
{
char *data = NULL;
char *identifier = NULL;
char *version = NULL;
char *format = NULL;
json_object *reply = NULL;
DEBUG("Request: get-schema (session %u)", session_key);
pthread_mutex_lock(&json_lock);
identifier = get_param_string(request, "identifier");
version = get_param_string(request, "version");
format = get_param_string(request, "format");
pthread_mutex_unlock(&json_lock);
if (identifier == NULL) {
reply = create_error_reply("No identifier for get-schema supplied.");
goto finalize;
}
DEBUG("get-schema(version: %s, format: %s)", version, format);
if ((data = netconf_getschema(session_key, identifier, version, format, &reply)) == NULL) {
CHECK_ERR_SET_REPLY_ERR("Get models operation failed.")
} else {
reply = create_data_reply(data);
free(data);
}
finalize:
CHECK_AND_FREE(identifier);
CHECK_AND_FREE(version);
CHECK_AND_FREE(format);
return reply;
}
json_object *
handle_op_reloadhello(json_object *UNUSED(request), unsigned int session_key)
{
struct nc_session *temp_session = NULL;
struct session_with_mutex * locked_session = NULL;
json_object *reply = NULL;
DEBUG("Request: reload hello (session %u)", session_key);
DEBUG("LOCK wrlock %s", __func__);
if (pthread_rwlock_wrlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
return NULL;
}
for (locked_session = netconf_sessions_list;
locked_session && (locked_session->session_key != session_key);
locked_session = locked_session->next);
if ((locked_session != NULL) && (locked_session->hello_message != NULL)) {
DEBUG("LOCK mutex %s", __func__);
pthread_mutex_lock(&locked_session->lock);
DEBUG("creating temporary NC session.");
temp_session = nc_connect_ssh_channel(locked_session->session, NULL);
if (temp_session != NULL) {
prepare_status_message(locked_session, temp_session);
DEBUG("closing temporal NC session.");
nc_session_free(temp_session, NULL);
temp_session = NULL;
} else {
DEBUG("Reload hello failed due to channel establishment");
reply = create_error_reply("Reload was unsuccessful, connection failed.");
}
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&locked_session->lock);
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
} else {
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
reply = create_error_reply("Invalid session identifier.");
}
if ((reply == NULL) && (locked_session->hello_message != NULL)) {
reply = locked_session->hello_message;
}
return reply;
}
void
notification_history(struct nc_session *session, const struct nc_notif *notif)
{
time_t eventtime;
char *content;
(void)session;
eventtime = nc_datetime2time(notif->datetime);
json_object *notif_history_array = (json_object *)pthread_getspecific(notif_history_key);
if (notif_history_array == NULL) {
ERROR("No list of notification history found.");
return;
}
DEBUG("Got notification from history %lu.", (long unsigned)eventtime);
pthread_mutex_lock(&json_lock);
json_object *notif_obj = json_object_new_object();
if (notif_obj == NULL) {
ERROR("Could not allocate memory for notification (json).");
goto failed;
}
lyd_print_mem(&content, notif->tree, LYD_JSON, 0);
json_object_object_add(notif_obj, "eventtime", json_object_new_int64(eventtime));
json_object_object_add(notif_obj, "content", json_object_new_string(content));
free(content);
json_object_array_add(notif_history_array, notif_obj);
failed:
pthread_mutex_unlock(&json_lock);
}
json_object *
handle_op_ntfgethistory(json_object *request, unsigned int session_key)
{
json_object *reply = NULL;
json_object *js_tmp = NULL;
struct session_with_mutex *locked_session = NULL;
struct nc_session *temp_session = NULL;
struct nc_rpc *rpc = NULL;
time_t start = 0;
time_t stop = 0;
int64_t from = 0, to = 0;
DEBUG("Request: get notification history (session %u)", session_key);
pthread_mutex_lock(&json_lock);
if (json_object_object_get_ex(request, "from", &js_tmp) == TRUE) {
from = json_object_get_int64(js_tmp);
}
if (json_object_object_get_ex(request, "to", &js_tmp) == TRUE) {
to = json_object_get_int64(js_tmp);
}
pthread_mutex_unlock(&json_lock);
start = time(NULL) + from;
stop = time(NULL) + to;
DEBUG("notification history interval %li %li", (long int)from, (long int)to);
DEBUG("LOCK wrlock %s", __func__);
if (pthread_rwlock_rdlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
reply = create_error_reply("Internal lock failed.");
goto finalize;
}
for (locked_session = netconf_sessions_list;
locked_session && (locked_session->session_key != session_key);
locked_session = locked_session->next);
if (locked_session != NULL) {
DEBUG("LOCK mutex %s", __func__);
pthread_mutex_lock(&locked_session->lock);
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
DEBUG("creating temporal NC session.");
temp_session = nc_connect_ssh_channel(locked_session->session, NULL);
if (temp_session != NULL) {
rpc = nc_rpc_subscribe(NULL, NULL, nc_time2datetime(start, NULL), nc_time2datetime(stop, NULL), NC_PARAMTYPE_CONST);
if (rpc == NULL) {
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&locked_session->lock);
DEBUG("notifications: creating an rpc request failed.");
reply = create_error_reply("notifications: creating an rpc request failed.");
goto finalize;
}
DEBUG("Send NC subscribe.");
/** \todo replace with sth like netconf_op(http_server, session_hash, rpc) */
json_object *res = netconf_unlocked_op(temp_session, rpc);
if (res != NULL) {
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&locked_session->lock);
DEBUG("Subscription RPC failed.");
reply = res;
goto finalize;
}
rpc = NULL; /* just note that rpc is already freed by send_recv_process() */
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&locked_session->lock);
DEBUG("LOCK mutex %s", __func__);
pthread_mutex_lock(&ntf_history_lock);
pthread_mutex_lock(&json_lock);
json_object *notif_history_array = json_object_new_array();
pthread_mutex_unlock(&json_lock);
if (pthread_setspecific(notif_history_key, notif_history_array) != 0) {
ERROR("notif_history: cannot set thread-specific hash value.");
}
nc_recv_notif_dispatch(temp_session, notification_history);
pthread_mutex_lock(&json_lock);
reply = json_object_new_object();
json_object_object_add(reply, "notifications", notif_history_array);
//json_object_put(notif_history_array);
pthread_mutex_unlock(&json_lock);
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&ntf_history_lock);
DEBUG("closing temporal NC session.");
nc_session_free(temp_session, NULL);
temp_session = NULL;
} else {
DEBUG("UNLOCK mutex %s", __func__);
pthread_mutex_unlock(&locked_session->lock);
DEBUG("Get history of notification failed due to channel establishment");
reply = create_error_reply("Get history of notification was unsuccessful, connection failed.");
}
} else {
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
reply = create_error_reply("Invalid session identifier.");
}
finalize:
return reply;
}
json_object *
handle_op_validate(json_object *request, unsigned int session_key)
{
json_object *reply = NULL;
char *target = NULL;
char *url = NULL;
struct nc_rpc *rpc = NULL;
NC_DATASTORE target_ds;
DEBUG("Request: validate datastore (session %u)", session_key);
pthread_mutex_lock(&json_lock);
target = get_param_string(request, "target");
url = get_param_string(request, "url");
pthread_mutex_unlock(&json_lock);
if (target == NULL) {
reply = create_error_reply("Missing target parameter.");
goto finalize;
}
/* validation */
target_ds = parse_datastore(target);
rpc = nc_rpc_validate(target_ds, url, NC_PARAMTYPE_CONST);
if (rpc == NULL) {
DEBUG("mod_netconf: creating rpc request failed");
reply = create_error_reply("Creation of RPC request failed.");
goto finalize;
}
if ((reply = netconf_op(session_key, rpc, 0, NULL)) == NULL) {
CHECK_ERR_SET_REPLY
if (reply == NULL) {
DEBUG("Request: validation ok.");
reply = create_ok_reply();
}
}
nc_rpc_free (rpc);
finalize:
CHECK_AND_FREE(target);
CHECK_AND_FREE(url);
return reply;
}
json_object *
handle_op_query(json_object *request, unsigned int session_key, int idx)
{
json_object *reply = NULL, *filters, *obj;
char *filter = NULL;
int load_children = 0;
DEBUG("Request: query (session %u)", session_key);
pthread_mutex_lock(&json_lock);
if (json_object_object_get_ex(request, "filters", &filters) == FALSE) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Missing filters parameter.");
goto finalize;
}
obj = json_object_array_get_idx(filters, idx);
if (!obj) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Filters array parameter shorter than sessions.");
goto finalize;
}
filter = strdup(json_object_get_string(obj));
if (json_object_object_get_ex(request, "load_children", &obj) == TRUE) {
load_children = json_object_get_boolean(obj);
}
pthread_mutex_unlock(&json_lock);
reply = libyang_query(session_key, filter, load_children);
CHECK_ERR_SET_REPLY
if (!reply) {
reply = create_error_reply("Query failed.");
}
finalize:
CHECK_AND_FREE(filter);
return reply;
}
json_object *
handle_op_merge(json_object *request, unsigned int session_key, int idx)
{
json_object *reply = NULL, *configs, *obj;
char *config = NULL;
struct lyd_node *content;
struct session_with_mutex *locked_session;
DEBUG("Request: merge (session %u)", session_key);
pthread_mutex_lock(&json_lock);
if (json_object_object_get_ex(request, "configurations", &configs) == FALSE) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Missing configurations parameter.");
goto finalize;
}
obj = json_object_array_get_idx(configs, idx);
if (!obj) {
pthread_mutex_unlock(&json_lock);
reply = create_error_reply("Filters array parameter shorter than sessions.");
goto finalize;
}
config = strdup(json_object_get_string(obj));
pthread_mutex_unlock(&json_lock);
locked_session = session_get_locked(session_key, NULL);
if (!locked_session) {
ERROR("Unknown session or locking failed.");
goto finalize;
}
content = lyd_parse_mem(nc_session_get_ctx(locked_session->session), config, LYD_JSON, LYD_OPT_DATA);
session_unlock(locked_session);
free(config);
lyd_print_mem(&config, content, LYD_XML, LYP_WITHSIBLINGS);
lyd_free_withsiblings(content);
reply = libyang_merge(session_key, config);
CHECK_ERR_SET_REPLY
if (!reply) {
reply = create_error_reply("Merge failed.");
}
finalize:
CHECK_AND_FREE(config);
return reply;
}
void *
thread_routine(void *arg)
{
void *retval = NULL;
struct pollfd fds;
json_object *request = NULL, *replies = NULL, *reply, *sessions = NULL;
json_object *js_tmp = NULL;
int operation = (-1), count, i, sent;
int status = 0;
const char *msgtext;
unsigned int session_key = 0;
char *chunked_out_msg = NULL;
int client = ((struct pass_to_thread *)arg)->client;
char *buffer = NULL;
/* init thread specific err_reply memory */
create_err_reply_p();
while (!isterminated) {
fds.fd = client;
fds.events = POLLIN;
fds.revents = 0;
status = poll(&fds, 1, 1000);
if (status == 0 || (status == -1 && (errno == EAGAIN || (errno == EINTR && isterminated == 0)))) {
/* poll was interrupted - check if the isterminated is set and if not, try poll again */
continue;
} else if (status < 0) {
/* 0: poll time outed
* close socket and ignore this request from the client, it can try it again
* -1: poll failed
* something wrong happend, close this socket and wait for another request
*/
close(client);
break;
}
/* status > 0 */
/* check the status of the socket */
/* if nothing to read and POLLHUP (EOF) or POLLERR set */
if ((fds.revents & POLLHUP) || (fds.revents & POLLERR)) {
/* close client's socket (it's probably already closed by client */
close(client);
break;
}
DEBUG("Get framed message...");
buffer = get_framed_message(client);
DEBUG("Check read buffer.");
if (buffer != NULL) {
enum json_tokener_error jerr;
pthread_mutex_lock(&json_lock);
request = json_tokener_parse_verbose(buffer, &jerr);
if (jerr != json_tokener_success) {
ERROR("JSON parsing error");
pthread_mutex_unlock(&json_lock);
continue;
}
if (json_object_object_get_ex(request, "type", &js_tmp) == TRUE) {
operation = json_object_get_int(js_tmp);
}
pthread_mutex_unlock(&json_lock);
if (operation == -1) {
replies = create_replies();
add_reply(replies, create_error_reply("Missing operation type from frontend."), 0);
goto send_reply;
}
if ((operation < 4) || ((operation > 19) && (operation < 100)) || (operation > 101)) {
DEBUG("Unknown mod_netconf operation requested (%d)", operation);
replies = create_replies();
add_reply(replies, create_error_reply("Operation not supported."), 0);
goto send_reply;
}
DEBUG("operation %d", operation);
/* null global JSON error-reply */
clean_err_reply();
/* clean replies envelope */
if (replies != NULL) {
pthread_mutex_lock(&json_lock);
json_object_put(replies);
pthread_mutex_unlock(&json_lock);
}
replies = create_replies();
if (operation == MSG_CONNECT) {
count = 1;
} else {
pthread_mutex_lock(&json_lock);
if (json_object_object_get_ex(request, "sessions", &sessions) == FALSE) {
pthread_mutex_unlock(&json_lock);
add_reply(replies, create_error_reply("Operation missing \"sessions\" arg"), 0);
goto send_reply;
}
count = json_object_array_length(sessions);
pthread_mutex_unlock(&json_lock);
}
for (i = 0; i < count; ++i) {
if (operation != MSG_CONNECT) {
js_tmp = json_object_array_get_idx(sessions, i);
session_key = json_object_get_int(js_tmp);
}
/* process required operation */
reply = NULL;
switch (operation) {
case MSG_CONNECT:
reply = handle_op_connect(request);
break;
case MSG_DISCONNECT:
reply = handle_op_disconnect(request, session_key);
break;
case MSG_GET:
reply = handle_op_get(request, session_key);
break;
case MSG_GETCONFIG:
reply = handle_op_getconfig(request, session_key);
break;
case MSG_EDITCONFIG:
reply = handle_op_editconfig(request, session_key, i);
break;
case MSG_COPYCONFIG:
reply = handle_op_copyconfig(request, session_key, i);
break;
case MSG_DELETECONFIG:
reply = handle_op_deleteconfig(request, session_key);
break;
case MSG_LOCK:
reply = handle_op_lock(request, session_key);
break;
case MSG_UNLOCK:
reply = handle_op_unlock(request, session_key);
break;
case MSG_KILL:
reply = handle_op_kill(request, session_key);
break;
case MSG_INFO:
reply = handle_op_info(request, session_key);
break;
case MSG_GENERIC:
reply = handle_op_generic(request, session_key, i);
break;
case MSG_GETSCHEMA:
reply = handle_op_getschema(request, session_key);
break;
case MSG_RELOADHELLO:
reply = handle_op_reloadhello(request, session_key);
break;
case MSG_NTF_GETHISTORY:
reply = handle_op_ntfgethistory(request, session_key);
break;
case MSG_VALIDATE:
reply = handle_op_validate(request, session_key);
break;
case SCH_QUERY:
reply = handle_op_query(request, session_key, i);
break;
case SCH_MERGE:
reply = handle_op_merge(request, session_key, i);
break;
}
add_reply(replies, reply, session_key);
}
/* free parameters */
operation = (-1);
DEBUG("Clean request json object.");
if (request != NULL) {
pthread_mutex_lock(&json_lock);
json_object_put(request);
pthread_mutex_unlock(&json_lock);
request = NULL;
}
DEBUG("Send reply json object.");
send_reply:
/* send reply to caller */
if (replies) {
pthread_mutex_lock(&json_lock);
msgtext = json_object_to_json_string(replies);
pthread_mutex_unlock(&json_lock);
if (asprintf(&chunked_out_msg, "\n#%d\n%s\n##\n", (int)strlen(msgtext), msgtext) == -1) {
if (buffer != NULL) {
free(buffer);
buffer = NULL;
}
break;
}
DEBUG("Send framed reply json object.");
i = 0;
sent = 0;
count = strlen(chunked_out_msg) + 1;
while (count && ((i = send(client, chunked_out_msg + sent, count, 0)) != -1)) {
sent += i;
count -= i;
}
if (i == -1) {
ERROR("Sending message failed (%s).", strerror(errno));
}
DEBUG("Clean reply json object.");
pthread_mutex_lock(&json_lock);
json_object_put(replies);
pthread_mutex_unlock(&json_lock);
replies = NULL;
DEBUG("Clean message buffer.");
CHECK_AND_FREE(chunked_out_msg);
chunked_out_msg = NULL;
if (buffer) {
free(buffer);
buffer = NULL;
}
clean_err_reply();
} else {
ERROR("Reply is NULL, shouldn't be...");
continue;
}
}
}
free(arg);
free_err_reply();
nc_thread_destroy();
return retval;
}
/**
* \brief Close all open NETCONF sessions.
*
* During termination of mod_netconf, it is useful to close all remaining
* sessions. This function iterates over the list of sessions and close them
* all.
*/
static void
close_all_nc_sessions(void)
{
struct session_with_mutex *locked_session, *next_session;
int ret;
/* get exclusive access to sessions_list (conns) */
DEBUG("LOCK wrlock %s", __func__);
if ((ret = pthread_rwlock_wrlock (&session_lock)) != 0) {
ERROR("Error while locking rwlock: %d (%s)", ret, strerror(ret));
return;
}
for (next_session = netconf_sessions_list; next_session;) {
locked_session = next_session;
next_session = locked_session->next;
/* close_and_free_session handles locking on its own */
DEBUG("Closing NETCONF session %u (SID %u).", locked_session->session_key, nc_session_get_id(locked_session->session));
close_and_free_session(locked_session);
}
netconf_sessions_list = NULL;
/* get exclusive access to sessions_list (conns) */
DEBUG("UNLOCK wrlock %s", __func__);
if (pthread_rwlock_unlock (&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
}
static void
check_timeout_and_close(void)
{
struct nc_session *ns = NULL;
struct session_with_mutex *locked_session = NULL;
time_t current_time = time(NULL);
int ret;
/* get exclusive access to sessions_list (conns) */
if ((ret = pthread_rwlock_wrlock(&session_lock)) != 0) {
DEBUG("Error while locking rwlock: %d (%s)", ret, strerror(ret));
return;
}
for (locked_session = netconf_sessions_list; locked_session; locked_session = locked_session->next) {
ns = locked_session->session;
if (ns == NULL) {
continue;
}
pthread_mutex_lock(&locked_session->lock);
if ((current_time - locked_session->last_activity) > ACTIVITY_TIMEOUT) {
DEBUG("Closing NETCONF session %u (SID %u).", locked_session->session_key, nc_session_get_id(locked_session->session));
/* close_and_free_session handles locking on its own */
close_and_free_session(locked_session);
} else {
pthread_mutex_unlock(&locked_session->lock);
}
}
/* get exclusive access to sessions_list (conns) */
if (pthread_rwlock_unlock(&session_lock) != 0) {
ERROR("Error while unlocking rwlock: %d (%s)", errno, strerror(errno));
}
}
/**
* This is actually implementation of NETCONF client
* - requests are received from UNIX socket in the predefined format
* - results are replied through the same way
* - the daemon run as a separate process
*
*/
static void
forked_proc(void)
{
struct timeval tv;
struct sockaddr_un local, remote;
int lsock, client, ret, i, pthread_count = 0;
unsigned int olds = 0, timediff = 0;
socklen_t len;
struct pass_to_thread *arg;
pthread_t *ptids = calloc(1, sizeof(pthread_t));
struct timespec maxtime;
pthread_rwlockattr_t lock_attrs;
#ifdef WITH_NOTIFICATIONS
char use_notifications = 0;
#endif
/* wait at most 5 seconds for every thread to terminate */
maxtime.tv_sec = 5;
maxtime.tv_nsec = 0;
#ifdef HAVE_UNIXD_SETUP_CHILD
/* change uid and gid of process for security reasons */
unixd_setup_child();
#else
# ifdef SU_GROUP
if (strlen(SU_GROUP) > 0) {
struct group *g = getgrnam(SU_GROUP);
if (g == NULL) {
ERROR("GID (%s) was not found.", SU_GROUP);
return;
}
if (setgid(g->gr_gid) != 0) {
ERROR("Switching to %s GID failed. (%s)", SU_GROUP, strerror(errno));
return;
}
}
# else
DEBUG("no SU_GROUP");
# endif
# ifdef SU_USER
if (strlen(SU_USER) > 0) {
struct passwd *p = getpwnam(SU_USER);
if (p == NULL) {
ERROR("UID (%s) was not found.", SU_USER);
return;
}
if (setuid(p->pw_uid) != 0) {
ERROR("Switching to UID %s failed. (%s)", SU_USER, strerror(errno));
return;
}
}
# else
DEBUG("no SU_USER");
# endif
#endif
/* try to remove if exists */
unlink(sockname);
/* create listening UNIX socket to accept incoming connections */
if ((lsock = socket(PF_UNIX, SOCK_STREAM, 0)) == -1) {
ERROR("Creating socket failed (%s)", strerror(errno));
goto error_exit;
}
local.sun_family = AF_UNIX;
strncpy(local.sun_path, sockname, sizeof(local.sun_path));
len = offsetof(struct sockaddr_un, sun_path) + strlen(local.sun_path);
if (bind(lsock, (struct sockaddr *)&local, len) == -1) {
if (errno == EADDRINUSE) {
ERROR("mod_netconf socket address already in use");
goto error_exit;
}
ERROR("Binding socket failed (%s)", strerror(errno));
goto error_exit;
}
if (listen(lsock, MAX_SOCKET_CL) == -1) {
ERROR("Setting up listen socket failed (%s)", strerror(errno));
goto error_exit;
}
chmod(sockname, S_IWUSR | S_IWGRP | S_IWOTH | S_IRUSR | S_IRGRP | S_IROTH);
uid_t user = -1;
if (strlen(CHOWN_USER) > 0) {
struct passwd *p = getpwnam(CHOWN_USER);
if (p != NULL) {
user = p->pw_uid;
}
}
gid_t group = -1;
if (strlen(CHOWN_GROUP) > 0) {
struct group *g = getgrnam(CHOWN_GROUP);
if (g != NULL) {
group = g->gr_gid;
}
}
if (chown(sockname, user, group) == -1) {
ERROR("Chown on socket file failed (%s).", strerror(errno));
}
/* prepare internal lists */
#ifdef WITH_NOTIFICATIONS
if (notification_init() == -1) {
ERROR("libwebsockets initialization failed");
use_notifications = 0;
} else {
use_notifications = 1;
}
#endif
/* setup libnetconf's callbacks */
nc_client_init();
nc_verbosity(NC_VERB_DEBUG);
nc_set_print_clb(clb_print);
nc_client_ssh_set_auth_hostkey_check_clb(netconf_callback_ssh_hostkey_check);
nc_client_ssh_set_auth_interactive_clb(netconf_callback_sshauth_interactive);
nc_client_ssh_set_auth_password_clb(netconf_callback_sshauth_password);
nc_client_ssh_set_auth_privkey_passphrase_clb(netconf_callback_sshauth_passphrase);
/* disable publickey authentication */
nc_client_ssh_set_auth_pref(NC_SSH_AUTH_PUBLICKEY, -1);
/* create mutex protecting session list */
pthread_rwlockattr_init(&lock_attrs);
/* rwlock is shared only with threads in this process */
pthread_rwlockattr_setpshared(&lock_attrs, PTHREAD_PROCESS_PRIVATE);
/* create rw lock */
if (pthread_rwlock_init(&session_lock, &lock_attrs) != 0) {
ERROR("Initialization of mutex failed: %d (%s)", errno, strerror(errno));
goto error_exit;
}
pthread_mutex_init(&ntf_history_lock, NULL);
pthread_mutex_init(&json_lock, NULL);
DEBUG("Initialization of notification history.");
if (pthread_key_create(&notif_history_key, NULL) != 0) {
ERROR("Initialization of notification history failed.");
}
if (pthread_key_create(&err_reply_key, NULL) != 0) {
ERROR("Initialization of reply key failed.");
}
fcntl(lsock, F_SETFL, fcntl(lsock, F_GETFL, 0) | O_NONBLOCK);
while (isterminated == 0) {
gettimeofday(&tv, NULL);
timediff = (unsigned int)tv.tv_sec - olds;
#ifdef WITH_NOTIFICATIONS
if (use_notifications == 1) {
notification_handle();
}
#endif
if (timediff > ACTIVITY_CHECK_INTERVAL) {
check_timeout_and_close();
}
/* open incoming connection if any */
len = sizeof(remote);
client = accept(lsock, (struct sockaddr *) &remote, &len);
if (client == -1 && (errno == EAGAIN || errno == EWOULDBLOCK)) {
usleep(SLEEP_TIME * 1000);
continue;
} else if (client == -1 && (errno == EINTR)) {
continue;
} else if (client == -1) {
ERROR("Accepting mod_netconf client connection failed (%s)", strerror(errno));
continue;
}
/* set client's socket as non-blocking */
//fcntl(client, F_SETFL, fcntl(client, F_GETFL, 0) | O_NONBLOCK);
arg = malloc(sizeof(struct pass_to_thread));
arg->client = client;
arg->netconf_sessions_list = netconf_sessions_list;
/* start new thread. It will serve this particular request and then terminate */
if ((ret = pthread_create (&ptids[pthread_count], NULL, thread_routine, (void *)arg)) != 0) {
ERROR("Creating POSIX thread failed: %d\n", ret);
} else {
DEBUG("Thread %lu created", ptids[pthread_count]);
pthread_count++;
ptids = realloc (ptids, sizeof(pthread_t) * (pthread_count+1));
ptids[pthread_count] = 0;
}
/* check if some thread already terminated, free some resources by joining it */
for (i = 0; i < pthread_count; i++) {
if (pthread_tryjoin_np(ptids[i], (void **)&arg) == 0) {
DEBUG("Thread %lu joined with retval %p", ptids[i], arg);
pthread_count--;
if (pthread_count > 0) {
/* place last Thread ID on the place of joined one */
ptids[i] = ptids[pthread_count];
}
}
}
DEBUG("Running %d threads", pthread_count);
}
DEBUG("mod_netconf terminating...");
/* join all threads */
for (i = 0; i < pthread_count; i++) {
pthread_timedjoin_np(ptids[i], (void **)&arg, &maxtime);
}
#ifdef WITH_NOTIFICATIONS
notification_close();
#endif
/* close all NETCONF sessions */
close_all_nc_sessions();
/* destroy rwlock */
pthread_rwlock_destroy(&session_lock);
pthread_rwlockattr_destroy(&lock_attrs);
DEBUG("Exiting from the mod_netconf daemon");
nc_client_destroy();
free(ptids);
close(lsock);
exit(0);
return;
error_exit:
nc_client_destroy();
close(lsock);
free(ptids);
return;
}
int
main(int argc, char **argv)
{
struct sigaction action;
sigset_t block_mask;
int daemonize = 0, i;
if (argc > 3) {
printf("Usage: [--(h)elp] [--(d)aemon] [socket-path]\n");
return 1;
}
sockname = SOCKET_FILENAME;
for (i = 1; i < argc; ++i) {
if (!strcmp(argv[i], "-h") || !strcmp(argv[i], "--help")) {
printf("Usage: [--(h)elp] [--(d)aemon] [socket-path]\n");
return 0;
} else if (!strcmp(argv[i], "-d") || !strcmp(argv[i], "--daemon")) {
daemonize = 1;
} else {
sockname = argv[i];
}
}
if (daemonize && (daemon(0, 0) == -1)) {
ERROR("daemon() failed (%s)", strerror(errno));
return 1;
}
sigfillset(&block_mask);
action.sa_handler = signal_handler;
action.sa_mask = block_mask;
action.sa_flags = 0;
sigaction(SIGINT, &action, NULL);
sigaction(SIGTERM, &action, NULL);
forked_proc();
DEBUG("Terminated");
return 0;
}