numam-dpdk/examples/ip_pipeline/app.h

/*-
 *   BSD LICENSE
 *
 *   Copyright(c) 2010-2016 Intel Corporation. All rights reserved.
 *   All rights reserved.
 *
 *   Redistribution and use in source and binary forms, with or without
 *   modification, are permitted provided that the following conditions
 *   are met:
 *
 *     * Redistributions of source code must retain the above copyright
 *       notice, this list of conditions and the following disclaimer.
 *     * 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.
 *     * Neither the name of Intel Corporation nor the names of its
 *       contributors may be used to endorse or promote products derived
 *       from this software without specific prior written permission.
 *
 *   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 *   "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 COPYRIGHT
 *   OWNER 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.
 */

#ifndef __INCLUDE_APP_H__
#define __INCLUDE_APP_H__

#include <stdint.h>
#include <string.h>

#include <rte_common.h>
#include <rte_mempool.h>
#include <rte_ring.h>
#include <rte_sched.h>
#include <cmdline_parse.h>

#include <rte_ethdev.h>
#ifdef RTE_LIBRTE_KNI
#include <rte_kni.h>
#endif

#include "cpu_core_map.h"
#include "pipeline.h"

#define APP_PARAM_NAME_SIZE                      PIPELINE_NAME_SIZE
#define APP_LINK_PCI_BDF_SIZE                    16

#ifndef APP_LINK_MAX_HWQ_IN
#define APP_LINK_MAX_HWQ_IN                      128
#endif

#ifndef APP_LINK_MAX_HWQ_OUT
#define APP_LINK_MAX_HWQ_OUT                     128
#endif

struct app_mempool_params {
	char *name;
	uint32_t parsed;
	uint32_t buffer_size;
	uint32_t pool_size;
	uint32_t cache_size;
	uint32_t cpu_socket_id;
};

struct app_link_params {
	char *name;
	uint32_t parsed;
	uint32_t pmd_id; /* Generated based on port mask */
	uint32_t arp_q; /* 0 = Disabled (packets go to default queue 0) */
	uint32_t tcp_syn_q; /* 0 = Disabled (pkts go to default queue) */
	uint32_t ip_local_q; /* 0 = Disabled (pkts go to default queue 0) */
	uint32_t tcp_local_q; /* 0 = Disabled (pkts go to default queue 0) */
	uint32_t udp_local_q; /* 0 = Disabled (pkts go to default queue 0) */
	uint32_t sctp_local_q; /* 0 = Disabled (pkts go to default queue 0) */
	uint32_t rss_qs[APP_LINK_MAX_HWQ_IN];
	uint32_t n_rss_qs;
	uint64_t rss_proto_ipv4;
	uint64_t rss_proto_ipv6;
	uint64_t rss_proto_l2;
	uint32_t promisc;
	uint32_t state; /* DOWN = 0, UP = 1 */
	uint32_t ip; /* 0 = Invalid */
	uint32_t depth; /* Valid only when IP is valid */
	uint64_t mac_addr; /* Read from HW */
	char pci_bdf[APP_LINK_PCI_BDF_SIZE];

	struct rte_eth_conf conf;
};

struct app_pktq_hwq_in_params {
	char *name;
	uint32_t parsed;
	uint32_t mempool_id; /* Position in the app->mempool_params */
	uint32_t size;
	uint32_t burst;

	struct rte_eth_rxconf conf;
};

struct app_pktq_hwq_out_params {
	char *name;
	uint32_t parsed;
	uint32_t size;
	uint32_t burst;
	uint32_t dropless;
	uint64_t n_retries;
	struct rte_eth_txconf conf;
};

struct app_pktq_swq_params {
	char *name;
	uint32_t parsed;
	uint32_t size;
	uint32_t burst_read;
	uint32_t burst_write;
	uint32_t dropless;
	uint64_t n_retries;
	uint32_t cpu_socket_id;
	uint32_t ipv4_frag;
	uint32_t ipv6_frag;
	uint32_t ipv4_ras;
	uint32_t ipv6_ras;
	uint32_t mtu;
	uint32_t metadata_size;
	uint32_t mempool_direct_id;
	uint32_t mempool_indirect_id;
};

struct app_pktq_kni_params {
	char *name;
	uint32_t parsed;

	uint32_t socket_id;
	uint32_t core_id;
	uint32_t hyper_th_id;
	uint32_t force_bind;

	uint32_t mempool_id; /* Position in the app->mempool_params */
	uint32_t burst_read;
	uint32_t burst_write;
	uint32_t dropless;
	uint64_t n_retries;
};

#ifndef APP_FILE_NAME_SIZE
#define APP_FILE_NAME_SIZE                       256
#endif

#ifndef APP_MAX_SCHED_SUBPORTS
#define APP_MAX_SCHED_SUBPORTS                   8
#endif

#ifndef APP_MAX_SCHED_PIPES
#define APP_MAX_SCHED_PIPES                      4096
#endif

struct app_pktq_tm_params {
	char *name;
	uint32_t parsed;
	const char *file_name;
	struct rte_sched_port_params sched_port_params;
	struct rte_sched_subport_params
		sched_subport_params[APP_MAX_SCHED_SUBPORTS];
	struct rte_sched_pipe_params
		sched_pipe_profiles[RTE_SCHED_PIPE_PROFILES_PER_PORT];
	int sched_pipe_to_profile[APP_MAX_SCHED_SUBPORTS * APP_MAX_SCHED_PIPES];
	uint32_t burst_read;
	uint32_t burst_write;
};

struct app_pktq_tap_params {
	char *name;
	uint32_t parsed;
	uint32_t burst_read;
	uint32_t burst_write;
	uint32_t dropless;
	uint64_t n_retries;
	uint32_t mempool_id; /* Position in the app->mempool_params */
};

struct app_pktq_source_params {
	char *name;
	uint32_t parsed;
	uint32_t mempool_id; /* Position in the app->mempool_params array */
	uint32_t burst;
	const char *file_name; /* Full path of PCAP file to be copied to mbufs */
	uint32_t n_bytes_per_pkt;
};

struct app_pktq_sink_params {
	char *name;
	uint8_t parsed;
	const char *file_name; /* Full path of PCAP file to be copied to mbufs */
	uint32_t n_pkts_to_dump;
};

struct app_msgq_params {
	char *name;
	uint32_t parsed;
	uint32_t size;
	uint32_t cpu_socket_id;
};

enum app_pktq_in_type {
	APP_PKTQ_IN_HWQ,
	APP_PKTQ_IN_SWQ,
	APP_PKTQ_IN_TM,
	APP_PKTQ_IN_TAP,
	APP_PKTQ_IN_KNI,
	APP_PKTQ_IN_SOURCE,
};

struct app_pktq_in_params {
	enum app_pktq_in_type type;
	uint32_t id; /* Position in the appropriate app array */
};

enum app_pktq_out_type {
	APP_PKTQ_OUT_HWQ,
	APP_PKTQ_OUT_SWQ,
	APP_PKTQ_OUT_TM,
	APP_PKTQ_OUT_TAP,
	APP_PKTQ_OUT_KNI,
	APP_PKTQ_OUT_SINK,
};

struct app_pktq_out_params {
	enum app_pktq_out_type type;
	uint32_t id; /* Position in the appropriate app array */
};

#define APP_PIPELINE_TYPE_SIZE                   PIPELINE_TYPE_SIZE

#define APP_MAX_PIPELINE_PKTQ_IN                 PIPELINE_MAX_PORT_IN
#define APP_MAX_PIPELINE_PKTQ_OUT                PIPELINE_MAX_PORT_OUT
#define APP_MAX_PIPELINE_MSGQ_IN                 PIPELINE_MAX_MSGQ_IN
#define APP_MAX_PIPELINE_MSGQ_OUT                PIPELINE_MAX_MSGQ_OUT

#define APP_MAX_PIPELINE_ARGS                    PIPELINE_MAX_ARGS

struct app_pipeline_params {
	char *name;
	uint8_t parsed;

	char type[APP_PIPELINE_TYPE_SIZE];

	uint32_t socket_id;
	uint32_t core_id;
	uint32_t hyper_th_id;

	struct app_pktq_in_params pktq_in[APP_MAX_PIPELINE_PKTQ_IN];
	struct app_pktq_out_params pktq_out[APP_MAX_PIPELINE_PKTQ_OUT];
	uint32_t msgq_in[APP_MAX_PIPELINE_MSGQ_IN];
	uint32_t msgq_out[APP_MAX_PIPELINE_MSGQ_OUT];

	uint32_t n_pktq_in;
	uint32_t n_pktq_out;
	uint32_t n_msgq_in;
	uint32_t n_msgq_out;

	uint32_t timer_period;

	char *args_name[APP_MAX_PIPELINE_ARGS];
	char *args_value[APP_MAX_PIPELINE_ARGS];
	uint32_t n_args;
};

struct app_params;

typedef void (*app_link_op)(struct app_params *app,
	uint32_t link_id,
	uint32_t up,
	void *arg);

#ifndef APP_MAX_PIPELINES
#define APP_MAX_PIPELINES                        64
#endif

struct app_link_data {
	app_link_op f_link[APP_MAX_PIPELINES];
	void *arg[APP_MAX_PIPELINES];
};

struct app_pipeline_data {
	void *be;
	void *fe;
	struct pipeline_type *ptype;
	uint64_t timer_period;
	uint32_t enabled;
};

struct app_thread_pipeline_data {
	uint32_t pipeline_id;
	void *be;
	pipeline_be_op_run f_run;
	pipeline_be_op_timer f_timer;
	uint64_t timer_period;
	uint64_t deadline;
};

#ifndef APP_MAX_THREAD_PIPELINES
#define APP_MAX_THREAD_PIPELINES                 64
#endif

#ifndef APP_THREAD_TIMER_PERIOD
#define APP_THREAD_TIMER_PERIOD                  1
#endif

struct app_thread_data {
	struct app_thread_pipeline_data regular[APP_MAX_THREAD_PIPELINES];
	struct app_thread_pipeline_data custom[APP_MAX_THREAD_PIPELINES];

	uint32_t n_regular;
	uint32_t n_custom;

	uint64_t timer_period;
	uint64_t thread_req_deadline;

	uint64_t deadline;

	struct rte_ring *msgq_in;
	struct rte_ring *msgq_out;

	uint64_t headroom_time;
	uint64_t headroom_cycles;
	double headroom_ratio;
} __rte_cache_aligned;

#ifndef APP_MAX_LINKS
#define APP_MAX_LINKS                            16
#endif

struct app_eal_params {
	/* Map lcore set to physical cpu set */
	char *coremap;

	/* Core ID that is used as master */
	uint32_t master_lcore_present;
	uint32_t master_lcore;

	/* Number of memory channels */
	uint32_t channels_present;
	uint32_t channels;

	/* Memory to allocate (see also --socket-mem) */
	uint32_t memory_present;
	uint32_t memory;

	/* Force number of memory ranks (don't detect) */
	uint32_t ranks_present;
	uint32_t ranks;

	/* Add a PCI device in black list. */
	char *pci_blacklist[APP_MAX_LINKS];

	/* Add a PCI device in white list. */
	char *pci_whitelist[APP_MAX_LINKS];

	/* Add a virtual device. */
	char *vdev[APP_MAX_LINKS];

	 /* Use VMware TSC map instead of native RDTSC */
	uint32_t vmware_tsc_map_present;
	int vmware_tsc_map;

	 /* Type of this process (primary|secondary|auto) */
	char *proc_type;

	 /* Set syslog facility */
	char *syslog;

	/* Set default log level */
	uint32_t log_level_present;
	uint32_t log_level;

	/* Display version information on startup */
	uint32_t version_present;
	int version;

	/* This help */
	uint32_t help_present;
	int help;

	 /* Use malloc instead of hugetlbfs */
	uint32_t no_huge_present;
	int no_huge;

	/* Disable PCI */
	uint32_t no_pci_present;
	int no_pci;

	/* Disable HPET */
	uint32_t no_hpet_present;
	int no_hpet;

	/* No shared config (mmap'd files) */
	uint32_t no_shconf_present;
	int no_shconf;

	/* Add driver */
	char *add_driver;

	/*  Memory to allocate on sockets (comma separated values)*/
	char *socket_mem;

	/* Directory where hugetlbfs is mounted */
	char *huge_dir;

	/* Prefix for hugepage filenames */
	char *file_prefix;

	/* Base virtual address */
	char *base_virtaddr;

	/* Create /dev/uioX (usually done by hotplug) */
	uint32_t create_uio_dev_present;
	int create_uio_dev;

	/* Interrupt mode for VFIO (legacy|msi|msix) */
	char *vfio_intr;

	uint32_t parsed;
};

#ifndef APP_APPNAME_SIZE
#define APP_APPNAME_SIZE                         256
#endif

#ifndef APP_MAX_MEMPOOLS
#define APP_MAX_MEMPOOLS                         8
#endif

#define APP_MAX_HWQ_IN                  (APP_MAX_LINKS * APP_LINK_MAX_HWQ_IN)

#define APP_MAX_HWQ_OUT                 (APP_MAX_LINKS * APP_LINK_MAX_HWQ_OUT)

#ifndef APP_MAX_PKTQ_SWQ
#define APP_MAX_PKTQ_SWQ                         256
#endif

#define APP_MAX_PKTQ_TM                          APP_MAX_LINKS

#ifndef APP_MAX_PKTQ_TAP
#define APP_MAX_PKTQ_TAP                         APP_MAX_LINKS
#endif

#define APP_MAX_PKTQ_KNI                         APP_MAX_LINKS

#ifndef APP_MAX_PKTQ_SOURCE
#define APP_MAX_PKTQ_SOURCE                      64
#endif

#ifndef APP_MAX_PKTQ_SINK
#define APP_MAX_PKTQ_SINK                        64
#endif

#ifndef APP_MAX_MSGQ
#define APP_MAX_MSGQ                             256
#endif

#ifndef APP_EAL_ARGC
#define APP_EAL_ARGC                             64
#endif

#ifndef APP_MAX_PIPELINE_TYPES
#define APP_MAX_PIPELINE_TYPES                   64
#endif

#ifndef APP_MAX_THREADS
#define APP_MAX_THREADS                          RTE_MAX_LCORE
#endif

#ifndef APP_MAX_CMDS
#define APP_MAX_CMDS                             64
#endif

#ifndef APP_THREAD_HEADROOM_STATS_COLLECT
#define APP_THREAD_HEADROOM_STATS_COLLECT        1
#endif

#define APP_CORE_MASK_SIZE					\
	(RTE_MAX_LCORE / 64 + ((RTE_MAX_LCORE % 64) ? 1 : 0))

struct app_params {
	/* Config */
	char app_name[APP_APPNAME_SIZE];
	const char *config_file;
	const char *script_file;
	const char *parser_file;
	const char *output_file;
	const char *preproc;
	const char *preproc_args;
	uint64_t port_mask;
	uint32_t log_level;

	struct app_eal_params eal_params;
	struct app_mempool_params mempool_params[APP_MAX_MEMPOOLS];
	struct app_link_params link_params[APP_MAX_LINKS];
	struct app_pktq_hwq_in_params hwq_in_params[APP_MAX_HWQ_IN];
	struct app_pktq_hwq_out_params hwq_out_params[APP_MAX_HWQ_OUT];
	struct app_pktq_swq_params swq_params[APP_MAX_PKTQ_SWQ];
	struct app_pktq_tm_params tm_params[APP_MAX_PKTQ_TM];
	struct app_pktq_tap_params tap_params[APP_MAX_PKTQ_TAP];
	struct app_pktq_kni_params kni_params[APP_MAX_PKTQ_KNI];
	struct app_pktq_source_params source_params[APP_MAX_PKTQ_SOURCE];
	struct app_pktq_sink_params sink_params[APP_MAX_PKTQ_SINK];
	struct app_msgq_params msgq_params[APP_MAX_MSGQ];
	struct app_pipeline_params pipeline_params[APP_MAX_PIPELINES];

	uint32_t n_mempools;
	uint32_t n_links;
	uint32_t n_pktq_hwq_in;
	uint32_t n_pktq_hwq_out;
	uint32_t n_pktq_swq;
	uint32_t n_pktq_tm;
	uint32_t n_pktq_tap;
	uint32_t n_pktq_kni;
	uint32_t n_pktq_source;
	uint32_t n_pktq_sink;
	uint32_t n_msgq;
	uint32_t n_pipelines;

	/* Init */
	char *eal_argv[1 + APP_EAL_ARGC];
	struct cpu_core_map *core_map;
	uint64_t core_mask[APP_CORE_MASK_SIZE];
	struct rte_mempool *mempool[APP_MAX_MEMPOOLS];
	struct app_link_data link_data[APP_MAX_LINKS];
	struct rte_ring *swq[APP_MAX_PKTQ_SWQ];
	struct rte_sched_port *tm[APP_MAX_PKTQ_TM];
	int tap[APP_MAX_PKTQ_TAP];
#ifdef RTE_LIBRTE_KNI
	struct rte_kni *kni[APP_MAX_PKTQ_KNI];
#endif /* RTE_LIBRTE_KNI */
	struct rte_ring *msgq[APP_MAX_MSGQ];
	struct pipeline_type pipeline_type[APP_MAX_PIPELINE_TYPES];
	struct app_pipeline_data pipeline_data[APP_MAX_PIPELINES];
	struct app_thread_data thread_data[APP_MAX_THREADS];
	cmdline_parse_ctx_t cmds[APP_MAX_CMDS + 1];

	int eal_argc;
	uint32_t n_pipeline_types;
	uint32_t n_cmds;
};

#define APP_PARAM_VALID(obj) ((obj)->name != NULL)

#define APP_PARAM_COUNT(obj_array, n_objs)				\
{									\
	size_t i;							\
									\
	n_objs = 0;							\
	for (i = 0; i < RTE_DIM(obj_array); i++)			\
		if (APP_PARAM_VALID(&((obj_array)[i])))			\
			n_objs++;					\
}

#define APP_PARAM_FIND(obj_array, key)					\
({									\
	ssize_t obj_idx;						\
	const ssize_t obj_count = RTE_DIM(obj_array);			\
									\
	for (obj_idx = 0; obj_idx < obj_count; obj_idx++) {		\
		if (!APP_PARAM_VALID(&((obj_array)[obj_idx])))		\
			continue;					\
									\
		if (strcmp(key, (obj_array)[obj_idx].name) == 0)	\
			break;						\
	}								\
	obj_idx < obj_count ? obj_idx : -ENOENT;			\
})

#define APP_PARAM_FIND_BY_ID(obj_array, prefix, id, obj)		\
do {									\
	char name[APP_PARAM_NAME_SIZE];					\
	ssize_t pos;							\
									\
	sprintf(name, prefix "%" PRIu32, id);				\
	pos = APP_PARAM_FIND(obj_array, name);				\
	obj = (pos < 0) ? NULL : &((obj_array)[pos]);			\
} while (0)

#define APP_PARAM_GET_ID(obj, prefix, id)				\
do									\
	sscanf(obj->name, prefix "%" SCNu32, &id);				\
while (0)								\

#define	APP_CHECK(exp, fmt, ...)					\
do {									\
	if (!(exp)) {							\
		fprintf(stderr, fmt "\n", ## __VA_ARGS__);		\
		abort();						\
	}								\
} while (0)

enum app_log_level {
	APP_LOG_LEVEL_HIGH = 1,
	APP_LOG_LEVEL_LOW,
	APP_LOG_LEVELS
};

#define APP_LOG(app, level, fmt, ...)					\
do {									\
	if (app->log_level >= APP_LOG_LEVEL_ ## level)			\
		fprintf(stdout, "[APP] " fmt "\n", ## __VA_ARGS__);	\
} while (0)

static inline uint32_t
app_link_get_n_rxq(struct app_params *app, struct app_link_params *link)
{
	uint32_t n_rxq = 0, link_id, i;
	uint32_t n_pktq_hwq_in = RTE_MIN(app->n_pktq_hwq_in,
		RTE_DIM(app->hwq_in_params));

	APP_PARAM_GET_ID(link, "LINK", link_id);

	for (i = 0; i < n_pktq_hwq_in; i++) {
		struct app_pktq_hwq_in_params *p = &app->hwq_in_params[i];
		uint32_t rxq_link_id, rxq_queue_id;

		sscanf(p->name, "RXQ%" SCNu32 ".%" SCNu32,
			&rxq_link_id, &rxq_queue_id);
		if (rxq_link_id == link_id)
			n_rxq++;
	}

	return n_rxq;
}

static inline uint32_t
app_link_get_n_txq(struct app_params *app, struct app_link_params *link)
{
	uint32_t n_txq = 0, link_id, i;
	uint32_t n_pktq_hwq_out = RTE_MIN(app->n_pktq_hwq_out,
		RTE_DIM(app->hwq_out_params));

	APP_PARAM_GET_ID(link, "LINK", link_id);

	for (i = 0; i < n_pktq_hwq_out; i++) {
		struct app_pktq_hwq_out_params *p = &app->hwq_out_params[i];
		uint32_t txq_link_id, txq_queue_id;

		sscanf(p->name, "TXQ%" SCNu32 ".%" SCNu32,
			&txq_link_id, &txq_queue_id);
		if (txq_link_id == link_id)
			n_txq++;
	}

	return n_txq;
}

static inline uint32_t
app_rxq_get_readers(struct app_params *app, struct app_pktq_hwq_in_params *rxq)
{
	uint32_t pos = rxq - app->hwq_in_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_HWQ) &&
				(pktq->id == pos))
				n_readers++;
		}
	}

	return n_readers;
}

static inline uint32_t
app_swq_get_readers(struct app_params *app, struct app_pktq_swq_params *swq)
{
	uint32_t pos = swq - app->swq_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_SWQ) &&
				(pktq->id == pos))
				n_readers++;
		}
	}

	return n_readers;
}

static inline struct app_pipeline_params *
app_swq_get_reader(struct app_params *app,
	struct app_pktq_swq_params *swq,
	uint32_t *pktq_in_id)
{
	struct app_pipeline_params *reader = NULL;
	uint32_t pos = swq - app->swq_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_SWQ) &&
				(pktq->id == pos)) {
				n_readers++;
				reader = p;
				id = j;
			}
		}
	}

	if (n_readers != 1)
		return NULL;

	*pktq_in_id = id;
	return reader;
}

static inline uint32_t
app_tm_get_readers(struct app_params *app, struct app_pktq_tm_params *tm)
{
	uint32_t pos = tm - app->tm_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_TM) &&
				(pktq->id == pos))
				n_readers++;
		}
	}

	return n_readers;
}

static inline struct app_pipeline_params *
app_tm_get_reader(struct app_params *app,
	struct app_pktq_tm_params *tm,
	uint32_t *pktq_in_id)
{
	struct app_pipeline_params *reader = NULL;
	uint32_t pos = tm - app->tm_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_TM) &&
				(pktq->id == pos)) {
				n_readers++;
				reader = p;
				id = j;
			}
		}
	}

	if (n_readers != 1)
		return NULL;

	*pktq_in_id = id;
	return reader;
}

static inline uint32_t
app_tap_get_readers(struct app_params *app, struct app_pktq_tap_params *tap)
{
	uint32_t pos = tap - app->tap_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_TAP) &&
				(pktq->id == pos))
				n_readers++;
		}
	}

	return n_readers;
}

static inline struct app_pipeline_params *
app_tap_get_reader(struct app_params *app,
	struct app_pktq_tap_params *tap,
	uint32_t *pktq_in_id)
{
	struct app_pipeline_params *reader = NULL;
	uint32_t pos = tap - app->tap_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_TAP) &&
				(pktq->id == pos)) {
				n_readers++;
				reader = p;
				id = j;
			}
		}
	}

	if (n_readers != 1)
		return NULL;

	*pktq_in_id = id;
	return reader;
}

static inline uint32_t
app_kni_get_readers(struct app_params *app, struct app_pktq_kni_params *kni)
{
	uint32_t pos = kni - app->kni_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_KNI) &&
				(pktq->id == pos))
				n_readers++;
		}
	}

	return n_readers;
}

static inline struct app_pipeline_params *
app_kni_get_reader(struct app_params *app,
				  struct app_pktq_kni_params *kni,
				  uint32_t *pktq_in_id)
{
	struct app_pipeline_params *reader = NULL;
	uint32_t pos = kni - app->kni_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_KNI) &&
				(pktq->id == pos)) {
				n_readers++;
				reader = p;
				id = j;
			}
		}
	}

	if (n_readers != 1)
		return NULL;

	*pktq_in_id = id;
	return reader;
}

static inline uint32_t
app_source_get_readers(struct app_params *app,
struct app_pktq_source_params *source)
{
	uint32_t pos = source - app->source_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_in = RTE_MIN(p->n_pktq_in, RTE_DIM(p->pktq_in));
		uint32_t j;

		for (j = 0; j < n_pktq_in; j++) {
			struct app_pktq_in_params *pktq = &p->pktq_in[j];

			if ((pktq->type == APP_PKTQ_IN_SOURCE) &&
				(pktq->id == pos))
				n_readers++;
		}
	}

	return n_readers;
}

static inline uint32_t
app_msgq_get_readers(struct app_params *app, struct app_msgq_params *msgq)
{
	uint32_t pos = msgq - app->msgq_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_readers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_msgq_in = RTE_MIN(p->n_msgq_in, RTE_DIM(p->msgq_in));
		uint32_t j;

		for (j = 0; j < n_msgq_in; j++)
			if (p->msgq_in[j] == pos)
				n_readers++;
	}

	return n_readers;
}

static inline uint32_t
app_txq_get_writers(struct app_params *app, struct app_pktq_hwq_out_params *txq)
{
	uint32_t pos = txq - app->hwq_out_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_HWQ) &&
				(pktq->id == pos))
				n_writers++;
		}
	}

	return n_writers;
}

static inline uint32_t
app_swq_get_writers(struct app_params *app, struct app_pktq_swq_params *swq)
{
	uint32_t pos = swq - app->swq_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_SWQ) &&
				(pktq->id == pos))
				n_writers++;
		}
	}

	return n_writers;
}

static inline struct app_pipeline_params *
app_swq_get_writer(struct app_params *app,
	struct app_pktq_swq_params *swq,
	uint32_t *pktq_out_id)
{
	struct app_pipeline_params *writer = NULL;
	uint32_t pos = swq - app->swq_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_SWQ) &&
				(pktq->id == pos)) {
				n_writers++;
				writer = p;
				id = j;
			}
		}
	}

	if (n_writers != 1)
		return NULL;

	*pktq_out_id = id;
	return writer;
}

static inline uint32_t
app_tm_get_writers(struct app_params *app, struct app_pktq_tm_params *tm)
{
	uint32_t pos = tm - app->tm_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_TM) &&
				(pktq->id == pos))
				n_writers++;
		}
	}

	return n_writers;
}

static inline struct app_pipeline_params *
app_tm_get_writer(struct app_params *app,
	struct app_pktq_tm_params *tm,
	uint32_t *pktq_out_id)
{
	struct app_pipeline_params *writer = NULL;
	uint32_t pos = tm - app->tm_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_TM) &&
				(pktq->id == pos)) {
				n_writers++;
				writer = p;
				id = j;
			}
		}
	}

	if (n_writers != 1)
		return NULL;

	*pktq_out_id = id;
	return writer;
}

static inline uint32_t
app_tap_get_writers(struct app_params *app, struct app_pktq_tap_params *tap)
{
	uint32_t pos = tap - app->tap_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

		if ((pktq->type == APP_PKTQ_OUT_TAP) &&
			(pktq->id == pos))
			n_writers++;
		}
	}

	return n_writers;
}

static inline struct app_pipeline_params *
app_tap_get_writer(struct app_params *app,
	struct app_pktq_tap_params *tap,
	uint32_t *pktq_out_id)
{
	struct app_pipeline_params *writer = NULL;
	uint32_t pos = tap - app->tap_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_TAP) &&
				(pktq->id == pos)) {
				n_writers++;
				writer = p;
				id = j;
			}
		}
	}

	if (n_writers != 1)
		return NULL;

	*pktq_out_id = id;
	return writer;
}

static inline uint32_t
app_kni_get_writers(struct app_params *app, struct app_pktq_kni_params *kni)
{
	uint32_t pos = kni - app->kni_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_KNI) &&
				(pktq->id == pos))
				n_writers++;
		}
	}

	return n_writers;
}

static inline struct app_pipeline_params *
app_kni_get_writer(struct app_params *app,
				  struct app_pktq_kni_params *kni,
				  uint32_t *pktq_out_id)
{
	struct app_pipeline_params *writer = NULL;
	uint32_t pos = kni - app->kni_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, id = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_KNI) &&
				(pktq->id == pos)) {
				n_writers++;
				writer = p;
				id = j;
			}
		}
	}

	if (n_writers != 1)
		return NULL;

	*pktq_out_id = id;
	return writer;
}

static inline uint32_t
app_sink_get_writers(struct app_params *app, struct app_pktq_sink_params *sink)
{
	uint32_t pos = sink - app->sink_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_pktq_out = RTE_MIN(p->n_pktq_out,
			RTE_DIM(p->pktq_out));
		uint32_t j;

		for (j = 0; j < n_pktq_out; j++) {
			struct app_pktq_out_params *pktq = &p->pktq_out[j];

			if ((pktq->type == APP_PKTQ_OUT_SINK) &&
				(pktq->id == pos))
				n_writers++;
		}
	}

	return n_writers;
}

static inline uint32_t
app_msgq_get_writers(struct app_params *app, struct app_msgq_params *msgq)
{
	uint32_t pos = msgq - app->msgq_params;
	uint32_t n_pipelines = RTE_MIN(app->n_pipelines,
		RTE_DIM(app->pipeline_params));
	uint32_t n_writers = 0, i;

	for (i = 0; i < n_pipelines; i++) {
		struct app_pipeline_params *p = &app->pipeline_params[i];
		uint32_t n_msgq_out = RTE_MIN(p->n_msgq_out,
			RTE_DIM(p->msgq_out));
		uint32_t j;

		for (j = 0; j < n_msgq_out; j++)
			if (p->msgq_out[j] == pos)
				n_writers++;
	}

	return n_writers;
}

static inline struct app_link_params *
app_get_link_for_rxq(struct app_params *app, struct app_pktq_hwq_in_params *p)
{
	char link_name[APP_PARAM_NAME_SIZE];
	ssize_t link_param_idx;
	uint32_t rxq_link_id, rxq_queue_id;

	sscanf(p->name, "RXQ%" SCNu32 ".%" SCNu32,
		&rxq_link_id, &rxq_queue_id);
	sprintf(link_name, "LINK%" PRIu32, rxq_link_id);
	link_param_idx = APP_PARAM_FIND(app->link_params, link_name);
	APP_CHECK((link_param_idx >= 0),
		"Cannot find %s for %s", link_name, p->name);

	return &app->link_params[link_param_idx];
}

static inline struct app_link_params *
app_get_link_for_txq(struct app_params *app, struct app_pktq_hwq_out_params *p)
{
	char link_name[APP_PARAM_NAME_SIZE];
	ssize_t link_param_idx;
	uint32_t txq_link_id, txq_queue_id;

	sscanf(p->name, "TXQ%" SCNu32 ".%" SCNu32,
		&txq_link_id, &txq_queue_id);
	sprintf(link_name, "LINK%" PRIu32, txq_link_id);
	link_param_idx = APP_PARAM_FIND(app->link_params, link_name);
	APP_CHECK((link_param_idx >= 0),
		"Cannot find %s for %s", link_name, p->name);

	return &app->link_params[link_param_idx];
}

static inline struct app_link_params *
app_get_link_for_tm(struct app_params *app, struct app_pktq_tm_params *p_tm)
{
	char link_name[APP_PARAM_NAME_SIZE];
	uint32_t link_id;
	ssize_t link_param_idx;

	sscanf(p_tm->name, "TM%" PRIu32, &link_id);
	sprintf(link_name, "LINK%" PRIu32, link_id);
	link_param_idx = APP_PARAM_FIND(app->link_params, link_name);
	APP_CHECK((link_param_idx >= 0),
		"Cannot find %s for %s", link_name, p_tm->name);

	return &app->link_params[link_param_idx];
}

static inline struct app_link_params *
app_get_link_for_kni(struct app_params *app, struct app_pktq_kni_params *p_kni)
{
	char link_name[APP_PARAM_NAME_SIZE];
	uint32_t link_id;
	ssize_t link_param_idx;

	sscanf(p_kni->name, "KNI%" PRIu32, &link_id);
	sprintf(link_name, "LINK%" PRIu32, link_id);
	link_param_idx = APP_PARAM_FIND(app->link_params, link_name);
	APP_CHECK((link_param_idx >= 0),
			  "Cannot find %s for %s", link_name, p_kni->name);

	return &app->link_params[link_param_idx];
}

static inline uint32_t
app_core_is_enabled(struct app_params *app, uint32_t lcore_id)
{
	return(app->core_mask[lcore_id / 64] &
		(1LLU << (lcore_id % 64)));
}

static inline void
app_core_enable_in_core_mask(struct app_params *app, int lcore_id)
{
	app->core_mask[lcore_id / 64] |= 1LLU << (lcore_id % 64);

}

static inline void
app_core_build_core_mask_string(struct app_params *app, char *mask_buffer)
{
	int i;

	mask_buffer[0] = '\0';
	for (i = (int)RTE_DIM(app->core_mask); i > 0; i--) {
		/* For Hex representation of bits in uint64_t */
		char buffer[(64 / 8) * 2 + 1];
		memset(buffer, 0, sizeof(buffer));
		snprintf(buffer, sizeof(buffer), "%016" PRIx64,
			 app->core_mask[i-1]);
		strcat(mask_buffer, buffer);
	}
}

void app_pipeline_params_get(struct app_params *app,
	struct app_pipeline_params *p_in,
	struct pipeline_params *p_out);

int app_config_init(struct app_params *app);

int app_config_args(struct app_params *app,
	int argc, char **argv);

int app_config_preproc(struct app_params *app);

int app_config_parse(struct app_params *app,
	const char *file_name);

int app_config_parse_tm(struct app_params *app);

void app_config_save(struct app_params *app,
	const char *file_name);

int app_config_check(struct app_params *app);

int app_init(struct app_params *app);

int app_post_init(struct app_params *app);

int app_thread(void *arg);

int app_pipeline_type_register(struct app_params *app,
	struct pipeline_type *ptype);

struct pipeline_type *app_pipeline_type_find(struct app_params *app,
	char *name);

void app_link_up_internal(struct app_params *app,
	struct app_link_params *cp);

void app_link_down_internal(struct app_params *app,
	struct app_link_params *cp);

#endif