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udp.c
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udp.c
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/**
* \file src/plugins/input/udp/udp.c
* \author Lukas Hutak <[email protected]>
* \brief UDP input plugin for IPFIXcol 2
* \date 2018-2019
*/
/* Copyright (C) 2018-2019 CESNET, z.s.p.o.
*
* 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.
*
*/
#include <ipfixcol2.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/epoll.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include <sys/timerfd.h>
#include <unistd.h>
#include <stdlib.h>
#include <pthread.h>
#include <errno.h>
#include <inttypes.h>
#include <sys/ioctl.h>
#include "config.h"
/** Identification of an invalid socket descriptor */
#define INVALID_FD (-1)
/** Timeout for a getter operation - i.e. epoll_wait timeout [in milliseconds] */
#define GETTER_TIMEOUT (10)
/** Max sockets events processed in the getter - i.e. epoll_wait array size */
#define GETTER_MAX_EVENTS (16)
/** Number of seconds between timer events [seconds] */
#define TIMER_INTERVAL (2)
/** Required minimal size of receive buffer size [bytes] (otherwise produces a warning message) */
#define UDP_RMEM_REQ (1024*1024)
/** Plugin description */
IPX_API struct ipx_plugin_info ipx_plugin_info = {
// Plugin type
.type = IPX_PT_INPUT,
// Plugin identification name
.name = "udp",
// Brief description of plugin
.dsc = "Input plugins for IPFIX/NetFlow v5/v9 over User Datagram Protocol.",
// Configuration flags (reserved for future use)
.flags = 0,
// Plugin version string (like "1.2.3")
.version = "2.1.0",
// Minimal IPFIXcol version string (like "1.2.3")
.ipx_min = "2.1.0"
};
/**
* @struct nf5_msg_hdr
* @brief NetFlow v5 Packet Header structure
* @warning All values are stored in Network Byte Order!
*/
struct __attribute__((__packed__)) nf5_msg_hdr {
/// NetFlow export format version number
uint16_t version;
/// Number of flows exported in this packet (1 - 30)
uint16_t count;
/// Current time in milliseconds since the export device booted
uint32_t sys_uptime;
/// Current count of seconds since 0000 UTC 1970
uint32_t unix_sec;
/// Residual nanoseconds since 0000 UTC 1970
uint32_t unix_nsec;
/// Sequence counter of total flows seen
uint32_t flow_seq;
/// Type of flow-switching engine
uint8_t engine_type;
/// Slot number of the flow-switching engine
uint8_t engine_id;
/// First two bits hold the sampling mode. Remaining 14 bits hold value of sampling interval
uint16_t sampling_interval;
};
/** Version identification in NetFlow v5 header */
#define NF5_HDR_VERSION (5)
/** Length of NetFlow v5 header (in bytes) */
#define NF5_HDR_LEN (sizeof(struct nf5_msg_hdr))
/**
* @struct nf9_msg_hdr
* @brief NetFlow v9 Packet Header structure
* @warning All values are stored in Network Byte Order!
*/
struct __attribute__((__packed__)) nf9_msg_hdr {
/// Version of Flow Record format exported in this packet
uint16_t version;
/// The total number of records in the Export Packet
uint16_t count;
/// Time in milliseconds since this device was first booted
uint32_t sys_uptime;
/// Time in seconds since 0000 UTC 1970, at which the Export Packet leaves the Exporter
uint32_t unix_sec;
/// Incremental sequence counter of all Export Packets by the Exporter
uint32_t seq_number;
/// Exporter Observation Domain
uint32_t source_id;
};
/** Version identification in NetFlow v9 header */
#define NF9_HDR_VERSION (9)
/** Length of NetFlow v9 header (in bytes) */
#define NF9_HDR_LEN (sizeof(struct nf9_msg_hdr))
/** Description of a UDP Transport Session */
struct udp_source {
/** Identification of local socket (on which the data came) */
int local_fd;
/** Source (i.e. remote) IP address and port */
struct sockaddr_storage src_addr;
/** Description of the Transport Session */
struct ipx_session *session;
/** Timestamp of check when the source was last seen */
time_t last_seen;
/** Number of received messages since last check */
uint32_t msg_cnt;
/** No message has been received from the Session yet */
bool new_connection;
};
/** Instance data */
struct udp_data {
/** Parsed configuration parameters */
struct udp_config *config;
/** Instance context */
ipx_ctx_t *ctx;
struct {
/** Size of the array */
size_t cnt;
/** Array of sockets */
int *sockets;
/** New size of receive buffer (try to change only if not equal to zero) */
int rmem_size;
/** Epoll file descriptor (binded sockets and timer) */
int epoll_fd;
/** Timer file descriptor (#INVALID_FD if not valid) */
int timer_fd;
} listen; /**< Sockets to listen for data */
struct {
/** Size of the array */
size_t cnt;
/** Array of active sources (identification and corresponding Transport Session) */
struct udp_source **sources;
} active; /**< Active connections */
};
// -------------------------------------------------------------------------------------------------
/**
* \brief Create a new socket, bind it to a local address and enable listening for connections
*
* Local address and port is taken from \p addr description.
* \param[in] ctx Instance contest
* \param[in] addr Local IPv4/IPv6 address and port of the socket(sockaddr_in6 or sockaddr_in)
* \param[in] addrlen Size of the address
* \param[in] ipv6only Accept only IPv6 addresses (only for AF_INET6 and the wildcard address)
* \param[in] rbuffer Change the receive buffer size (ignored, if zero or negative)
* \return On failure returns #INVALID_FD. Otherwise returns valid socket descriptor.
*/
static int
address_bind(ipx_ctx_t *ctx, const struct sockaddr *addr, socklen_t addrlen, bool ipv6only,
int rbuffer)
{
sa_family_t family = addr->sa_family;
assert(family == AF_INET || family == AF_INET6);
int on = 1, off = 0;
const char *err_str;
// Create a socket
int sd = socket(family, SOCK_DGRAM, IPPROTO_UDP);
if (sd == INVALID_FD) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(ctx, "Failed to create a socket: %s", err_str);
return INVALID_FD;
}
// Reusable socket
if (setsockopt(sd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on)) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_WARNING(ctx, "Cannot turn on socket reuse option. It may take a while before "
"the port can be used again. (error: %s)", err_str);
}
// Make sure that IPv6 only is disabled
if (family == AF_INET6) {
if (!ipv6only && setsockopt(sd, IPPROTO_IPV6, IPV6_V6ONLY, &off, sizeof(off)) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_WARNING(ctx, "Cannot turn off socket option IPV6_V6ONLY. Plugin may not accept "
"IPv4 connections. (error: %s)", err_str);
}
if (ipv6only && setsockopt(sd, IPPROTO_IPV6, IPV6_V6ONLY, &on, sizeof(on)) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_WARNING(ctx, "Cannot turn on socket option IPV6_V6ONLY. Plugin may accept only "
"IPv6 connections. (error: %s)", err_str);
}
}
// Get the local IP address as a string and local port
char addr_str[INET6_ADDRSTRLEN] = {0};
uint16_t port;
if (family == AF_INET) { // IPv4
struct sockaddr_in *addr_v4 = (struct sockaddr_in *) addr;
assert(addr_v4->sin_family == family);
inet_ntop(family, &addr_v4->sin_addr, addr_str, INET6_ADDRSTRLEN);
port = ntohs(addr_v4->sin_port);
} else { // IPv6
struct sockaddr_in6 *addr_v6 = (struct sockaddr_in6 *) addr;
assert(addr_v6->sin6_family == family);
inet_ntop(family, &addr_v6->sin6_addr, addr_str, INET6_ADDRSTRLEN);
port = ntohs(addr_v6->sin6_port);
}
// Get default size of the receive buffer and try to increase it
int rmem_def = 0;
socklen_t rmem_size = sizeof(rmem_def);
if (getsockopt(sd, SOL_SOCKET, SO_RCVBUF, &rmem_def, &rmem_size) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_WARNING(ctx, "Unable get the default socket receive buffer size. getsockopt() "
"failed: %s", err_str);
}
rmem_def /= 2; // Get not doubled size
if (rbuffer > 0 && rmem_def < rbuffer) {
// Change the size of the buffer
if (setsockopt(sd, SOL_SOCKET, SO_RCVBUF, &rbuffer, sizeof(rbuffer)) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_WARNING(ctx, "Unable to expand the socket receive buffer size (from %d to "
"%d bytes). Some records may be lost under heavy traffic. setsockopt() failed %s",
rmem_def, rbuffer, err_str);
} else {
IPX_CTX_INFO(ctx, "The socket receive buffer size of a new socket (local IP %s) "
"enlarged (from %d to %d bytes).", addr_str, rmem_def, rbuffer);
}
}
// Bind
if (bind(sd, addr, addrlen) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(ctx, "Cannot bind to a socket (local IP: %s, port %" PRIu16 "): %s",
addr_str, port, err_str);
close(sd);
return INVALID_FD;
}
IPX_CTX_INFO(ctx, "Bind succeed on %s (port %" PRIu16 ")", addr_str, port);
return sd;
}
/**
* \brief Bind on all local IP address specified in parsed configuration
*
* If the no local IP address is defined, the function create one wildcard socket to listen on
* all local interfaces. Otherwise for each specified address create a separated socket.
* All sockets are stored into the array of the instance configuration and epoll with added
* socket is created.
*
* \param[in] instance Instance data
* \return #IPX_OK on success
* \return #IPX_ERR_DENIED on failure (typically failed to bind to a port)
*/
static int
listener_bind(struct udp_data *instance)
{
// Create a poll and new array of binded sockets
const char *err_str;
const size_t socket_cnt = instance->config->local_addrs.cnt;
int *sockets = malloc(sizeof(*sockets) * ((socket_cnt == 0) ? 1 : socket_cnt));
if (!sockets) {
IPX_CTX_ERROR(instance->ctx, "Memory allocation failed! (%s:%d)", __FILE__, __LINE__);
return IPX_ERR_DENIED;
}
if (socket_cnt == 0) {
// Wildcard (i.e. bind to all IPv4 and IPv6 addresses)
struct sockaddr_in6 addr;
memset(&addr, 0, sizeof(addr));
addr.sin6_family = AF_INET6;
addr.sin6_port = htons(instance->config->local_port);
addr.sin6_addr = in6addr_any;
int sd = address_bind(instance->ctx, (struct sockaddr *) &addr, sizeof(addr), false,
instance->listen.rmem_size);
if (sd == INVALID_FD) {
free(sockets);
return IPX_ERR_DENIED;
}
// Add the socket to the poll
struct epoll_event ev;
memset(&ev, 0, sizeof(ev));
ev.events = EPOLLIN;
ev.data.fd = sd;
if (epoll_ctl(instance->listen.epoll_fd, EPOLL_CTL_ADD, sd, &ev) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Failed to add a socket to epoll: %s", err_str);
close(sd);
free(sockets);
return IPX_ERR_DENIED;
}
sockets[0] = sd;
instance->listen.sockets = sockets;
instance->listen.cnt = 1; // Only this one
return IPX_OK;
}
// Bind to selected local addresses
size_t idx;
for (idx = 0; idx < socket_cnt; ++idx) {
// Create a container
union {
struct sockaddr_in v4;
struct sockaddr_in6 v6;
} addr_helper;
memset(&addr_helper, 0, sizeof(addr_helper));
socklen_t addrlen;
bool ipv6only;
const struct udp_ipaddr_rec *rec = &instance->config->local_addrs.addrs[idx];
if (rec->ip_ver == AF_INET) { // IPv4
addr_helper.v4.sin_family = AF_INET;
addr_helper.v4.sin_port = htons(instance->config->local_port);
addr_helper.v4.sin_addr = rec->ipv4;
addrlen = sizeof(addr_helper.v4);
ipv6only = false;
} else { // IPv6
addr_helper.v6.sin6_family = AF_INET6;
addr_helper.v6.sin6_port = htons(instance->config->local_port);
addr_helper.v6.sin6_addr = rec->ipv6;
addrlen = sizeof(addr_helper.v6);
ipv6only = true;
}
int sd = address_bind(instance->ctx, (struct sockaddr *) &addr_helper, addrlen, ipv6only,
instance->listen.rmem_size);
if (sd == INVALID_FD) {
// Failed
break;
}
// Add the socket to the poll
struct epoll_event ev;
memset(&ev, 0, sizeof(ev));
ev.events = EPOLLIN;
ev.data.fd = sd;
if (epoll_ctl(instance->listen.epoll_fd, EPOLL_CTL_ADD, sd, &ev) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Failed to add a socket to epoll: %s", err_str);
close(sd);
break;
}
sockets[idx] = sd;
}
if (idx != socket_cnt) {
// Something went wrong -> close already initialized sockets
for (size_t rev = 0; rev < idx; ++rev) {
close(sockets[rev]);
}
free(sockets);
return IPX_ERR_DENIED;
}
instance->listen.sockets = sockets;
instance->listen.cnt = socket_cnt;
return IPX_OK;
}
/**
* \brief Close all binded local IP addresses
*
* All binded sockets are deregistered from the epoll instance and closed.
* \param[in] instance Instance data
*/
static void
listener_unbind(struct udp_data *instance)
{
for (size_t i = 0; i < instance->listen.cnt; ++i) {
// Remove from epoll and close
int sd = instance->listen.sockets[i];
epoll_ctl(instance->listen.epoll_fd, EPOLL_CTL_DEL, sd, NULL);
close(sd);
}
free(instance->listen.sockets);
instance->listen.sockets = NULL;
instance->listen.cnt = 0;
}
/**
* \brief Initialize local IP addresses to listen on
*
* Based on parsed configuration, local IP addresses are binded and a timer that regularly checks
* inactive connections is armed.
* \param[in] instance Instance data
* \return #IPX_OK on success
* \return #IPX_ERR_DENIED on failure (typically failed to bind to a port)
*/
static int
listener_init(struct udp_data *instance)
{
const char *err_str;
// Get maximum socket receive buffer size (in bytes)
FILE *f;
int sock_rmax = 0;
static const char *sys_cfg = "/proc/sys/net/core/rmem_max";
if ((f = fopen(sys_cfg, "r")) == NULL || fscanf(f, "%d", &sock_rmax) != 1 || sock_rmax < 0) {
ipx_strerror(errno, err_str);
IPX_CTX_WARNING(instance->ctx, "Unable to get the maximum socket receive buffer size "
"from '%s' (%s). Due to potentially small buffers, some records may be lost!", sys_cfg,
err_str);
sock_rmax = 0;
}
instance->listen.rmem_size = sock_rmax;
if (f != NULL) {
fclose(f);
}
if (sock_rmax != 0 && sock_rmax < UDP_RMEM_REQ) {
IPX_CTX_WARNING(instance->ctx, "The maximum socket receive buffer size is too small "
"(%d bytes). Some records may be lost under heavy traffic. See documentation for "
"more details!", sock_rmax);
}
// Create epoll and bind all sockets
instance->listen.epoll_fd = epoll_create(1);
if (instance->listen.epoll_fd == INVALID_FD) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "epoll() failed: %s", err_str);
return IPX_ERR_DENIED;
}
if (listener_bind(instance) != IPX_OK) {
close(instance->listen.epoll_fd);
return IPX_ERR_DENIED;
}
// Create a timer and arms it
int timer_fd = timerfd_create(CLOCK_MONOTONIC, 0);
if (timer_fd == INVALID_FD) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Failed to create a timer. timerfd_create() failed: %s",
err_str);
listener_unbind(instance);
close(instance->listen.epoll_fd);
return EXIT_FAILURE;
}
struct itimerspec spec;
memset(&spec, 0, sizeof(spec));
spec.it_interval.tv_sec = TIMER_INTERVAL;
spec.it_interval.tv_nsec = 0;
spec.it_value.tv_sec = TIMER_INTERVAL;
spec.it_value.tv_nsec = 0;
if (timerfd_settime(timer_fd, 0, &spec, NULL) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Failed to arm a timer. timerfd_settime() failed: %s", err_str);
close(timer_fd);
listener_unbind(instance);
close(instance->listen.epoll_fd);
return EXIT_FAILURE;
}
// Add the timer on the epoll instance
struct epoll_event ev;
memset(&ev, 0, sizeof(ev));
ev.events = EPOLLIN;
ev.data.fd = timer_fd;
if (epoll_ctl(instance->listen.epoll_fd, EPOLL_CTL_ADD, timer_fd, &ev) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Failed to add a timer to epoll: %s", err_str);
close(timer_fd);
listener_unbind(instance);
close(instance->listen.epoll_fd);
return EXIT_FAILURE;
}
instance->listen.timer_fd = timer_fd;
return IPX_OK;
}
/**
* \brief Destroy the listener structure of the instance
*
* All acceptor sockets are closed and unregistered from epoll which is also destroyed. The timer
* is disarmed and destroyed too.
* \param[in] instance Instance data
*/
static void
listener_destroy(struct udp_data *instance)
{
// Close all sockets
listener_unbind(instance);
// Destroy the timer and epoll
close(instance->listen.epoll_fd);
close(instance->listen.timer_fd);
}
/**
* \brief Add a new record of a Transport Session
*
* New record is added into the list of active connections.
* \param[in] instance Instance data
* \param[in] src_fd Socket descriptor of local address on which the source data come
* \param[in] src_addr Remote IPv4/IPv6 address to add
* \return Pointer to the newly added record or NULL (memory allocation error)
*/
static struct udp_source *
active_add(struct udp_data *instance, int src_fd, const struct sockaddr *src_addr)
{
socklen_t src_addrlen;
// Get the description of the local address
struct sockaddr_storage dst_addr;
socklen_t dst_addrlen = sizeof(dst_addr);
memset(&dst_addr, 0, sizeof(dst_addr));
if (getsockname(src_fd, (struct sockaddr *) &dst_addr, &dst_addrlen) == -1) {
const char *err_str;
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Failed to get the local IP address. getsockname() failed: %s",
err_str);
return NULL;
}
if (src_addr->sa_family != dst_addr.ss_family) {
IPX_CTX_WARNING(instance->ctx, "New connection has different family of local and "
"remote IP addresses!", '\0');
}
// Create a new Transport Session
struct ipx_session_net net;
memset(&net, 0, sizeof(net));
net.l3_proto = src_addr->sa_family;
if (net.l3_proto == AF_INET) { // IPv4
src_addrlen = sizeof(struct sockaddr_in);
const struct sockaddr_in *src_v4 = (struct sockaddr_in *) src_addr;
const struct sockaddr_in *dst_v4 = (struct sockaddr_in *) &dst_addr;
net.port_src = ntohs(src_v4->sin_port);
net.port_dst = ntohs(dst_v4->sin_port);
net.addr_src.ipv4 = src_v4->sin_addr;
net.addr_dst.ipv4 = dst_v4->sin_addr;
} else if (net.l3_proto == AF_INET6) { // IPv6
src_addrlen = sizeof(struct sockaddr_in6);
const struct sockaddr_in6 *src_v6 = (struct sockaddr_in6 *) src_addr;
const struct sockaddr_in6 *dst_v6 = (struct sockaddr_in6 *) &dst_addr;
net.port_src = ntohs(src_v6->sin6_port);
net.port_dst = ntohs(dst_v6->sin6_port);
if (IN6_IS_ADDR_V4MAPPED(&src_v6->sin6_addr)) {
// IPv4 mapped into IPv6
net.l3_proto = AF_INET; // Overwrite family type!
net.addr_src.ipv4 = *(const struct in_addr *) (((uint8_t *) &src_v6->sin6_addr) + 12);
net.addr_dst.ipv4 = *(const struct in_addr *) (((uint8_t *) &dst_v6->sin6_addr) + 12);
} else {
net.addr_src.ipv6 = src_v6->sin6_addr;
net.addr_dst.ipv6 = dst_v6->sin6_addr;
}
} else {
// Unknown address type
IPX_CTX_ERROR(instance->ctx, "New connection has an unsupported IP address family "
"(family ID: %u)!", (unsigned) src_addr->sa_family);
return NULL;
}
char src_addr_str[INET6_ADDRSTRLEN] = {0};
inet_ntop(net.l3_proto, &net.addr_src, src_addr_str, INET6_ADDRSTRLEN);
const struct udp_config *cfg = instance->config;
struct ipx_session *session = ipx_session_new_udp(&net, cfg->lifetime_data, cfg->lifetime_opts);
if (!session) {
IPX_CTX_ERROR(instance->ctx, "Failed to create a Transport Session description of %s.",
src_addr_str);
return NULL;
}
// Create a new record
struct udp_source *rec2add = calloc(1, sizeof(*rec2add));
if (!rec2add) {
IPX_CTX_ERROR(instance->ctx, "Memory allocation failed! (%s:%d)", __FILE__, __LINE__);
ipx_session_destroy(session);
return NULL;
}
rec2add->local_fd = src_fd;
memcpy(&rec2add->src_addr, src_addr, src_addrlen);
rec2add->session = session;
rec2add->last_seen = time(NULL); // now!
rec2add->msg_cnt = 0;
rec2add->new_connection = true; // Session Message hasn't been send yet
// Append the list of active connections
const size_t new_size = (instance->active.cnt + 1) * sizeof(struct udp_source *);
struct udp_source **new_sources = realloc(instance->active.sources, new_size);
if (!new_sources) {
IPX_CTX_ERROR(instance->ctx, "Memory allocation failed! (%s:%d)", __FILE__, __LINE__);
free(rec2add);
ipx_session_destroy(session);
return NULL;
}
IPX_CTX_INFO(instance->ctx, "New exporter connected from '%s'.", src_addr_str);
new_sources[instance->active.cnt] = rec2add;
instance->active.sources = new_sources;
instance->active.cnt++;
return rec2add;
}
/**
* \brief Remove an active Transport Session with a given index
*
* Generate and pass a Session Message - connect event (if necessary) and remove the corresponding
* session (defined by an index) from the list.
* \note After removing of the Session the array of active Transport Sessions is not order by
* activity anymore.
* \param[in] instance Instance data
* \param[in] idx Index of the instance to remove
*/
static void
active_remove_by_id(struct udp_data *instance, size_t idx)
{
struct udp_source *src = instance->active.sources[idx];
IPX_CTX_INFO(instance->ctx, "Transport Session '%s' closed!", src->session->ident);
// Have we received at least one valid record?
if (src->new_connection) {
// No messages have been passed with a reference to this session -> destroy immediately
ipx_session_destroy(src->session);
} else {
// Generate a Session message (order of the messages MUST be preserved)
ipx_msg_session_t *msg_sess = ipx_msg_session_create(src->session, IPX_MSG_SESSION_CLOSE);
if (!msg_sess) {
IPX_CTX_WARNING(instance->ctx, "Failed to create a Session message! Instances of "
"plugins will not be informed about the closed Transport Session '%s' (%s:%d)",
src->session->ident, __FILE__, __LINE__);
/* Do not pass and definitely do NOT free the session structure because it still can be
* used by other plugins. Remove it only from the local table!
* NO RETURN HERE!
*/
} else {
// Pass the message and put the Session into the garbage
ipx_ctx_msg_pass(instance->ctx, ipx_msg_session2base(msg_sess));
ipx_msg_garbage_cb cb = (ipx_msg_garbage_cb) &ipx_session_destroy;
ipx_msg_garbage_t *msg_garbage = ipx_msg_garbage_create(src->session, cb);
if (!msg_garbage) {
IPX_CTX_ERROR(instance->ctx, "Memory allocation failed! (%s:%d)", __FILE__, __LINE__);
} else {
ipx_ctx_msg_pass(instance->ctx, ipx_msg_garbage2base(msg_garbage));
}
}
}
// Now we can free the wrapper
free(src);
if (idx == instance->active.cnt - 1) {
// The last element in the array
instance->active.cnt--;
} else {
// Replace it with the last one
instance->active.sources[idx] = instance->active.sources[instance->active.cnt - 1];
instance->active.cnt--;
}
}
/**
* \brief Find a record of an active Transport Session
*
* \param[in] instance Instance data
* \param[in] src_fd Socket descriptor of local address on which the source data come
* \param[in] addr Remote IPv4/IPv6 Address to find
* \return Pointer to the record or NULL (the record doesn't exist)
*/
static struct udp_source *
active_find(struct udp_data *instance, int src_fd, const struct sockaddr *addr)
{
size_t idx;
// The array is not sorted, we have to go through
for (idx = 0; idx < instance->active.cnt; ++idx) {
struct udp_source *src = instance->active.sources[idx];
if (src->local_fd != src_fd) {
continue; // Different local socket
}
if (src->src_addr.ss_family != addr->sa_family) {
continue; // Different IP address family (IPv4 vs IPv6)
}
if (addr->sa_family == AF_INET) {
// IPv4 addresses
const struct sockaddr_in *to_find = (const struct sockaddr_in *) addr;
const struct sockaddr_in *to_cmp = (const struct sockaddr_in *) &src->src_addr;
if (to_find->sin_port != to_cmp->sin_port) {
continue; // Different ports
}
if (memcmp(&to_find->sin_addr, &to_cmp->sin_addr, sizeof(struct in_addr)) != 0) {
continue;
}
// Found
break;
} else {
// IPv6 addresses
assert(addr->sa_family == AF_INET6);
const struct sockaddr_in6 *to_find = (const struct sockaddr_in6 *) addr;
const struct sockaddr_in6 *to_cmp = (const struct sockaddr_in6 *) &src->src_addr;
if (to_find->sin6_port != to_cmp->sin6_port) {
continue; // Different ports
}
if (memcmp(&to_find->sin6_addr, &to_cmp->sin6_addr, sizeof(struct in6_addr)) != 0) {
continue;
}
// Found
break;
}
}
if (idx == instance->active.cnt) {
// Not found
return NULL;
}
return instance->active.sources[idx];
}
/**
* \brief Get a reference to a Transport Session
*
* First, try to find in among already active Transport Sessions. If it is not present, create
* a new one and store it into the array of active Sessions.
* \param[in] instance Instance data
* \param[in] src_fd Socket descriptor to which is the Session connected
* \param[in] addr Remove IPv4/IPv6 address (and port) of the session
* \return Pointer to the Session or NULL (typically memory allocation error)
*/
static struct udp_source *
active_get(struct udp_data *instance, int src_fd, const struct sockaddr *addr)
{
// Try to find
struct udp_source *src = active_find(instance, src_fd, addr);
if (src != NULL) {
return src;
}
// Not found, add a new record
return active_add(instance, src_fd, addr);
}
/**
* \brief Compare 2 active Transport Session by activity
*
* \note The sessions are primary sorted by number of messages received since the last reset of
* counters. Secondary, if the both counters are zero, the sessions are sorted by the timestamp
* of their last occurrence.
* \param p1 First Transport Session
* \param p2 Second Transport Session
* \return
* The comparison function returns an integer less than, equal to, or greater than zero if the
* first Session is considered to be respectively more, equal to, or less active than the
* second.
*/
static int
active_cmp_activity(const void *p1, const void *p2)
{
const struct udp_source *left = *(const struct udp_source **) p1;
const struct udp_source *right = *(const struct udp_source **) p2;
// Primary, compare by number of messages since the last reset of counter
if (left->msg_cnt != right->msg_cnt) {
return (left->msg_cnt > right->msg_cnt) ? (-1) : 1; // Sort in descending order
}
if (left->msg_cnt != 0) {
// Both have the same non-zero value of counters,
return 0;
}
assert(left->msg_cnt == 0 && right->msg_cnt == 0);
// Secondary, compare by the last seen timestamps
if (left->last_seen == right->last_seen) {
return 0;
}
return (left->last_seen > right->last_seen) ? (-1) : 1;
}
/**
* \brief Sort all active Transport Session by activity and reset activity counters
*
* The most active Transport Session go to the front. Activity is compared by number of received
* IPFIX Messages since the last restart of counters.
* \param[in] instance Instance data
*/
static void
active_sort_and_reset(struct udp_data *instance)
{
const size_t rec_size = sizeof(*instance->active.sources);
qsort(instance->active.sources, instance->active.cnt, rec_size, &active_cmp_activity);
time_t now = time(NULL);
for (size_t i = 0; i < instance->active.cnt; ++i) {
struct udp_source *src = instance->active.sources[i];
if (src->msg_cnt == 0) {
// No new messages since the last check
continue;
}
src->last_seen = now;
src->msg_cnt = 0;
}
}
/**
* \brief Process a timer event
*
* Sort all sources by their activity (number of messages sent between timer events) and
* close inactive Transport Sessions.
* \param[in] instance Instance data
* \param[in] fd File descriptor of a timer
*/
static void
process_timer(struct udp_data *instance, int fd)
{
assert(fd == instance->listen.timer_fd);
// Read the event
uint64_t event_cnt;
ssize_t ret = read(fd, &event_cnt, sizeof(event_cnt));
if (ret == -1 || ((size_t) ret) != sizeof(event_cnt)) {
int error_code = (ret == -1) ? errno : EINTR;
const char *err_str;
ipx_strerror(error_code, err_str);
IPX_CTX_ERROR(instance->ctx, "Unable to get status of a timer, read() failed: %s", err_str);
return;
}
// The inactive Transport Sessions will be at the end of the (sorted) array
active_sort_and_reset(instance);
time_t now = time(NULL);
size_t idx;
for (idx = 0; idx < instance->active.cnt; ++idx) {
if (instance->active.sources[idx]->last_seen + instance->config->timeout_conn >= now) {
continue;
}
// Close this Session and all that follows
break;
}
while (idx < instance->active.cnt) {
// Remove and generate Session message - close event, if necessary
assert(instance->active.sources[idx]->last_seen + instance->config->timeout_conn < now);
active_remove_by_id(instance, idx);
}
IPX_CTX_DEBUG(instance->ctx, "The instance holds information about %zu active session(s).",
instance->active.cnt);
}
/**
* \brief Get an IPFIX/NetFlow message from a socket and pass it
* \param[in] instance Instance data
* \param[in] sd File descriptor of the socket
*/
static void
process_socket(struct udp_data *instance, int sd)
{
const char *err_str;
// Get size of the message
int msg_size;
if (ioctl(sd, FIONREAD, &msg_size) == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Unable to get size of a next datagram. ioctl() failed: %s",
err_str);
return;
}
if (msg_size < (int) sizeof(uint16_t) || msg_size > UINT16_MAX) {
// Remove the malformed message from the buffer
uint16_t mini_buffer;
ssize_t ret = recvfrom(sd, &mini_buffer, sizeof(mini_buffer), 0, NULL, NULL);
if (ret == -1) {
ipx_strerror(errno, err_str);
IPX_CTX_WARNING(instance->ctx, "An error has occurred during reading a malformed "
"message. recvfrom() failed: %s", err_str);
return;
}
IPX_CTX_WARNING(instance->ctx, "Received an invalid datagram (%d bytes long)", msg_size);
return;
}
// Allocate the buffer
uint8_t *buffer = malloc(msg_size * sizeof(uint8_t));
if (!buffer) {
IPX_CTX_ERROR(instance->ctx, "Memory allocation failed! (%s:%d)", __FILE__, __LINE__);
return;
}
// Get the message
struct sockaddr_storage addr;
socklen_t addr_len = sizeof(addr);
ssize_t ret = recvfrom(sd, buffer, (size_t) msg_size, 0, (struct sockaddr *) &addr, &addr_len);
if (ret == -1) {
// Failed
ipx_strerror(errno, err_str);
IPX_CTX_ERROR(instance->ctx, "Failed to read a datagram. recvfrom() failed %s", err_str);
free(buffer);
return;
}
if (ret != msg_size) {
IPX_CTX_ERROR(instance->ctx, "Read operation failed! Got %zu of %zu bytes!",
(size_t) ret, (size_t) msg_size);
free(buffer);
return;
}
// Find the source
struct udp_source *source = active_get(instance, sd, (struct sockaddr *) &addr);
if (!source) { // Memory allocation error!
free(buffer);
return;
}
// Check NetFlow/IPFIX header length and extract ODID/Source ID
const uint16_t msg_ver = ntohs(*(uint16_t *) buffer);
uint32_t msg_odid = 0;
bool is_len_ok = true;
switch (msg_ver) {
case FDS_IPFIX_VERSION: // IPFIX
if (msg_size < FDS_IPFIX_MSG_HDR_LEN) {
is_len_ok = false;
break;
}
msg_odid = ntohl(((const struct fds_ipfix_msg_hdr *) buffer)->odid);
break;
case NF9_HDR_VERSION: // NetFlow v9
if (msg_size < (int) NF9_HDR_LEN) {
is_len_ok = false;
break;
}
msg_odid = ntohl(((const struct nf9_msg_hdr *) buffer)->source_id);
break;
case NF5_HDR_VERSION: // NetFlow v5
if (msg_size < (int) NF5_HDR_LEN) {
is_len_ok = false;