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path: root/ctrl/libhicnctrl/src/api.c
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/*
 * Copyright (c) 2015 Cisco and/or its affiliates.
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at:
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
/*
  Copyright (c) 2005 Eliot Dresselhaus

  Permission is hereby granted, free of charge, to any person obtaining
  a copy of this software and associated documentation files (the
  "Software"), to deal in the Software without restriction, including
  without limitation the rights to use, copy, modify, merge, publish,
  distribute, sublicense, and/or sell copies of the Software, and to
  permit persons to whom the Software is furnished to do so, subject to
  the following conditions:

  The above copyright notice and this permission notice shall be
  included in all copies or substantial portions of the Software.

  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
  EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
  MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
  NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
  LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
  OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
  WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/

#ifndef included_clib_vector_h
#define included_clib_vector_h

#include <vppinfra/clib.h>

/* Vector types. */

#if defined (__MMX__) || defined (__IWMMXT__) || defined (__aarch64__)
#define CLIB_HAVE_VEC64
#endif

#if defined (__aarch64__) && defined(__ARM_NEON)
#define CLIB_HAVE_VEC128
#endif

#if defined (__SSE4_2__) && __GNUC__ >= 4
#define CLIB_HAVE_VEC128
#endif

#if defined (__ALTIVEC__)
#define CLIB_HAVE_VEC128
#endif

#if defined (__AVX__)
#define CLIB_HAVE_VEC256
#endif

#if defined (__AVX512F__)
#define CLIB_HAVE_VEC512
#endif

/* 128 implies 64 */
#ifdef CLIB_HAVE_VEC128
#define CLIB_HAVE_VEC64
#endif

#define _vector_size(n) __attribute__ ((vector_size (n)))

#define foreach_vec64i  _(i,8,8)  _(i,16,4)  _(i,32,2)
#define foreach_vec64u  _(u,8,8)  _(u,16,4)  _(u,32,2)
#define foreach_vec64f  _(f,32,2)
#define foreach_vec128i _(i,8,16) _(i,16,8)  _(i,32,4)  _(i,64,2)
#define foreach_vec128u _(u,8,16) _(u,16,8)  _(u,32,4)  _(u,64,2)
#define foreach_vec128f _(f,32,4) _(f,64,2)
#define foreach_vec256i _(i,8,32) _(i,16,16) _(i,32,8)  _(i,64,4)
#define foreach_vec256u _(u,8,32) _(u,16,16) _(u,32,8)  _(u,64,4)
#define foreach_vec256f _(f,32,8) _(f,64,4)
#define foreach_vec512i _(i,8,64) _(i,16,32) _(i,32,16) _(i,64,8)
#define foreach_vec512u _(u,8,64) _(u,16,32) _(u,32,16) _(u,64,8)
#define foreach_vec512f _(f,32,16) _(f,64,8)

#if defined (CLIB_HAVE_VEC512)
#define foreach_int_vec foreach_vec64i foreach_vec128i foreach_vec256i foreach_vec512i
#define foreach_uint_vec foreach_vec64u foreach_vec128u foreach_vec256u foreach_vec512u
#define foreach_float_vec foreach_vec64f foreach_vec128f foreach_vec256f foreach_vec512f
#elif defined (CLIB_HAVE_VEC256)
#define foreach_int_vec foreach_vec64i foreach_vec128i foreach_vec256i
#define foreach_uint_vec foreach_vec64u foreach_vec128u foreach_vec256u
#define foreach_float_vec foreach_vec64f foreach_vec128f foreach_vec256f
#else
#define foreach_int_vec foreach_vec64i foreach_vec128i
#define foreach_uint_vec foreach_vec64u foreach_vec128u
#define foreach_float_vec foreach_vec64f foreach_vec128f
#endif

#define foreach_vec foreach_int_vec foreach_uint_vec foreach_float_vec

/* *INDENT-OFF* */

/* Type Definitions */
#define _(t,s,c) \
typedef t##s t##s##x##c _vector_size (s/8*c);	\
typedef union {	  \
  t##s##x##c as_##t##s##x##c;	\
  t##s as_##t##s[c];	  \
} t##s##x##c##_union_t;

  foreach_vec64i foreach_vec64u foreach_vec64f
  foreach_vec128i foreach_vec128u foreach_vec128f
  foreach_vec256i foreach_vec256u foreach_vec256f
  foreach_vec512i foreach_vec512u foreach_vec512f
#undef _

/* Vector word sized types. */
#ifndef CLIB_VECTOR_WORD_BITS
#ifdef CLIB_HAVE_VEC128
#define CLIB_VECTOR_WORD_BITS 128
#else
#define CLIB_VECTOR_WORD_BITS 64
#endif
#endif /* CLIB_VECTOR_WORD_BITS */

/* Vector word sized types. */
#if CLIB_VECTOR_WORD_BITS == 128
typedef i8 i8x _vector_size (16);
typedef i16 i16x _vector_size (16);
typedef i32 i32x _vector_size (16);
typedef i64 i64x _vector_size (16);
typedef u8 u8x _vector_size (16);
typedef u16 u16x _vector_size (16);
typedef u32 u32x _vector_size (16);
typedef u64 u64x _vector_size (16);
#endif
#if CLIB_VECTOR_WORD_BITS == 64
typedef i8 i8x _vector_size (8);
typedef i16 i16x _vector_size (8);
typedef i32 i32x _vector_size (8);
typedef i64 i64x _vector_size (8);
typedef u8 u8x _vector_size (8);
typedef u16 u16x _vector_size (8);
typedef u32 u32x _vector_size (8);
typedef u64 u64x _vector_size (8);
#endif

#undef _vector_size

#define VECTOR_WORD_TYPE(t) t##x
#define VECTOR_WORD_TYPE_LEN(t) (sizeof (VECTOR_WORD_TYPE(t)) / sizeof (t))

/* this series of macros generate _is_equal, _is_greater, _is_zero, _add
   and _sub inline funcitons for each vector type */
#define _(t, s, c) \
  static_always_inline t##s##x##c			\
t##s##x##c##_is_equal (t##s##x##c v1, t##s##x##c v2)	\
{ return (v1 == v2); }					\
							\
static_always_inline t##s##x##c				\
t##s##x##c##_is_greater (t##s##x##c v1, t##s##x##c v2)	\
{ return (v1 > v2); }					\
							\
static_always_inline t##s##x##c				\
t##s##x##c##_is_zero (t##s##x##c v1)			\
{ t##s##x##c z = {0}; return (v1 == z); }		\
							\
static_always_inline t##s##x##c				\
t##s##x##c##_add (t##s##x##c v1, t##s##x##c v2)		\
{ return (v1 + v2); }					\
							\
static_always_inline t##s##x##c				\
t##s##x##c##_sub (t##s##x##c v1, t##s##x##c v2)		\
{ return (v1 - v2); }
  foreach_vec
#undef _

/* this macro generate _splat inline funcitons for each scalar vector type */
#define _(t, s, c) \
  static_always_inline t##s##x##c			\
t##s##x##c##_splat (t##s x)				\
{							\
    t##s##x##c r;					\
    int i;						\
							\
    for (i = 0; i < c; i++)				\
      r[i] = x;						\
							\
    return r;						\
}
  foreach_int_vec foreach_uint_vec
#undef _

#if defined (__SSE4_2__) && __GNUC__ >= 4
#include <vppinfra/vector_sse42.h>
#endif

#if defined (__ALTIVEC__)
#include <vppinfra/vector_altivec.h>
#endif

#if defined (__aarch64__)
#include <vppinfra/vector_neon.h>
#endif

#if (defined(CLIB_HAVE_VEC128) || defined(CLIB_HAVE_VEC64))
#include <vppinfra/vector_funcs.h>
#endif

/* *INDENT-ON* */

#endif /* included_clib_vector_h */
/*
 * fd.io coding-style-patch-verification: ON
 *
 * Local Variables:
 * eval: (c-set-style "gnu")
 * End:
 */
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/*
 * Copyright (c) 2017-2019 Cisco and/or its affiliates.
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at:
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

/**
 * \file api.c
 * \brief Implementation of hICN control library API
 */

#include <assert.h> // assert
#include <math.h> // log2
#include <stdbool.h>
#include <stdio.h> // snprintf
#include <string.h> // memmove, strcasecmp
#include <sys/socket.h> // socket
#include <unistd.h> // close, fcntl
#include <fcntl.h> // fcntl

#include <hicn/ctrl/api.h>
#include <hicn/ctrl/commands.h>
#include <hicn/util/token.h>
#include <hicn/util/log.h>
#include <hicn/util/map.h>
#include <strings.h>

#define PORT 9695

#define INT_CMP(x, y) ((x > y) ? 1 : (x < y) ? -1 : 0)
#define BOOLSTR(x) ((x) ? "true" : "false")
/*
 * Internal state associated to a pending request
 */
typedef struct {
    int seq;
    hc_data_t * data;
    /* Information used to process results */
    int size_in;
    int (*parse)(const u8 * src, u8 * dst);
} hc_sock_request_t;

/**
 * Messages to the forwarder might be multiplexed thanks to the seqNum fields in
 * the header_control_message structure. The forwarder simply answers back the
 * original sequence number. We maintain a map of such sequence number to
 * outgoing queries so that replied can be demultiplexed and treated
 * appropriately.
 */
TYPEDEF_MAP_H(hc_sock_map, int, hc_sock_request_t *);
TYPEDEF_MAP(hc_sock_map, int, hc_sock_request_t *, int_cmp, int_snprintf, generic_snprintf);

struct hc_sock_s {
    char * url;
    int fd;

    /* Partial receive buffer */
    u8 buf[RECV_BUFLEN];
    size_t roff; /**< Read offset */
    size_t woff; /**< Write offset */

    /*
     * Because received messages are potentially unbounded in size, we might not
     * guarantee that we can store a full packet before processing it. We must
     * implement a very simple state machine remembering the current parsing
     * status in order to partially process the packet.
     */
    size_t remaining;
    u32 send_id;

    /* Next sequence number to be used for requests */
    int seq;

    /* Request being parsed (NULL if none) */
    hc_sock_request_t * cur_request;

    bool async;
    hc_sock_map_t * map;
};


hc_sock_request_t *
hc_sock_request_create(int seq, hc_data_t * data, HC_PARSE parse)
{
    assert(data);

    hc_sock_request_t * request = malloc(sizeof(hc_sock_request_t));
    if (!request)
        return NULL;
    request->seq = seq;
    request->data = data;
    request->parse = parse;
    return request;
}

void
hc_sock_request_free(hc_sock_request_t * request)
{
    free(request);
}


#if 0
#ifdef __APPLE__
#define RANDBYTE() (u8)(arc4random() & 0xFF)
#else
#define RANDBYTE() (u8)(random() & 0xFF)
#endif
#endif
#define RANDBYTE() (u8)(rand() & 0xFF)

/*
 * list was working with all seq set to 0, but it seems hicnLightControl uses
 * 1, and replies with the same seqno
 */
#define HICN_CTRL_SEND_SEQ_INIT 1
#define HICN_CTRL_RECV_SEQ_INIT 1

#define MAX(x, y) ((x > y) ? x : y)

/**
 * \brief Defines the default size for the allocated data arrays holding the
 * results of API calls.
 *
 * This size should not be too small to avoid wasting memoyy, but also not too
 * big to avoid unnecessary realloc's. Later on this size is doubled at each
 * reallocation.
 */
#define DEFAULT_SIZE_LOG 3

/**
 * In practise, we want to preserve enough room to store a full packet of
 * average expected size (say a header + N payload elements).
 */
#define AVG_ELEMENTS (1 << DEFAULT_SIZE_LOG)
#define AVG_BUFLEN sizeof(hc_msg_header_t) + AVG_ELEMENTS * sizeof(hc_msg_payload_t)

/*
 * We should at least have buffer space allowing to store one processable unit
 * of data, either the header of the maximum possible payload
 */
#define MIN_BUFLEN MAX(sizeof(hc_msg_header_t), sizeof(hc_msg_payload_t))

static const struct in6_addr loopback_addr = IN6ADDR_LOOPBACK_INIT;

/* /!\ Please update constants in header file upon changes */
const char * connection_type_str[] = {
#define _(x) [CONNECTION_TYPE_ ## x] = STRINGIZE(x),
foreach_connection_type
#undef _
};

#define IS_VALID_CONNECTION_TYPE(x) IS_VALID_ENUM_TYPE(CONNECTION_TYPE, x)

hc_connection_type_t
connection_type_from_str(const char * str)
{
    if (strcasecmp(str, "TCP") == 0)
        return CONNECTION_TYPE_TCP;
    else if (strcasecmp(str, "UDP") == 0)
        return CONNECTION_TYPE_UDP;
    else if (strcasecmp(str, "HICN") == 0)
        return CONNECTION_TYPE_HICN;
    else
	return CONNECTION_TYPE_UNDEFINED;
}

/* Conversions to shield lib user from heterogeneity */

#define IS_VALID_LIST_CONNECTIONS_TYPE(x) ((x >= CONN_GRE) && (x <= CONN_HICN))

static const hc_connection_type_t map_from_list_connections_type[] = {
    [CONN_GRE]       = CONNECTION_TYPE_UNDEFINED,
    [CONN_TCP]       = CONNECTION_TYPE_TCP,
    [CONN_UDP]       = CONNECTION_TYPE_UDP,
    [CONN_MULTICAST] = CONNECTION_TYPE_UNDEFINED,
    [CONN_L2]        = CONNECTION_TYPE_UNDEFINED,
    [CONN_HICN]      = CONNECTION_TYPE_HICN,
};

typedef enum {
    ENCAP_TCP,
    ENCAP_UDP,
    ENCAP_ETHER,
    ENCAP_LOCAL,
    ENCAP_HICN
} EncapType;

#define IS_VALID_LIST_LISTENERS_TYPE(x) ((x >= ENCAP_TCP) && (x <= ENCAP_HICN))

static const hc_connection_type_t map_from_encap_type[] = {
    [ENCAP_TCP]     = CONNECTION_TYPE_TCP,
    [ENCAP_UDP]     = CONNECTION_TYPE_UDP,
    [ENCAP_ETHER]   = CONNECTION_TYPE_UNDEFINED,
    [ENCAP_LOCAL]   = CONNECTION_TYPE_UNDEFINED,
    [ENCAP_HICN]    = CONNECTION_TYPE_HICN,
};

static const connection_type map_to_connection_type[] = {
    [CONNECTION_TYPE_TCP]   = TCP_CONN,
    [CONNECTION_TYPE_UDP]   = UDP_CONN,
    [CONNECTION_TYPE_HICN]  = HICN_CONN,
};

static const listener_mode map_to_listener_mode[] = {
    [CONNECTION_TYPE_TCP]       = IP_MODE,
    [CONNECTION_TYPE_UDP]       = IP_MODE,
    [CONNECTION_TYPE_HICN]      = HICN_MODE,
};

#define IS_VALID_LIST_CONNECTIONS_STATE(x) ((x >= IFACE_UP) && (x <= IFACE_UNKNOWN))

/* /!\ Please update constants in header file upon changes */
const char * connection_state_str[] = {
#define _(x) [HC_CONNECTION_STATE_ ## x] = STRINGIZE(x),
foreach_connection_state
#undef _
};

/*
#define IS_VALID_CONNECTION_STATE(x) IS_VALID_ENUM_TYPE(CONNECTION_STATE, x)

static const connection_state map_to_connection_state[] = {
    [HC_CONNECTION_STATE_UP]       = IFACE_UP,
    [HC_CONNECTION_STATE_DOWN]     = IFACE_DOWN,
};

*/

static const hc_connection_state_t map_from_list_connections_state[] = {
    [IFACE_UP]                  = HC_CONNECTION_STATE_UP,
    [IFACE_DOWN]                = HC_CONNECTION_STATE_DOWN,
    [IFACE_UNKNOWN]             = HC_CONNECTION_STATE_UNDEFINED,
};


#define connection_state_to_face_state(x) ((face_state_t)(x))
#define face_state_to_connection_state(x) ((hc_connection_state_t)(x))

#define IS_VALID_ADDR_TYPE(x) ((x >= ADDR_INET) && (x <= ADDR_UNIX))

static const int map_from_addr_type[] = {
    [ADDR_INET]     = AF_INET,
    [ADDR_INET6]    = AF_INET6,
    [ADDR_LINK]     = AF_UNSPEC,
    [ADDR_IFACE]    = AF_UNSPEC,
    [ADDR_UNIX]     = AF_UNSPEC,
};

static const address_type map_to_addr_type[] = {
    [AF_INET]   = ADDR_INET,
    [AF_INET6]  = ADDR_INET6,
};

/******************************************************************************
 * Message helper types and aliases
 ******************************************************************************/

#define foreach_hc_command      \
    _(add_connection)           \
    _(remove_connection)        \
    _(list_connections)         \
    _(add_listener)             \
    _(remove_listener)          \
    _(list_listeners)           \
    _(add_route)                \
    _(remove_route)             \
    _(list_routes)              \
    _(cache_store)              \
    _(cache_serve)              \
    /*_(cache_clear) */         \
    _(set_strategy)             \
    _(set_wldr)                 \
    _(add_punting)              \
    _(mapme_activator)          \
    _(mapme_timing)

typedef header_control_message hc_msg_header_t;

typedef union {
#define _(x) x ## _command x;
        foreach_hc_command
#undef _
} hc_msg_payload_t;


typedef struct hc_msg_s {
    hc_msg_header_t hdr;
    hc_msg_payload_t payload;
} hc_msg_t;

/******************************************************************************
 * Control Data
 ******************************************************************************/

hc_data_t *
hc_data_create(size_t in_element_size, size_t out_element_size, data_callback_t complete_cb)
{
    hc_data_t * data = malloc(sizeof(hc_data_t));
    if (!data)
        goto ERR_MALLOC;

    /* FIXME Could be NULL thanks to realloc provided size is 0 */
    data->max_size_log = DEFAULT_SIZE_LOG;
    data->in_element_size = in_element_size;
    data->out_element_size = out_element_size;
    data->size = 0;
    data->complete = false;
    data->command_id = 0; // TODO this could also be a busy mark in the socket
    /* No callback needed in blocking code for instance */
    data->complete_cb = complete_cb;

    data->buffer = malloc((1 << data->max_size_log) * data->out_element_size);
    if (!data->buffer)
        goto ERR_BUFFER;
    data->ret = 0;

    return data;

ERR_BUFFER:
    hc_data_free(data);
ERR_MALLOC:
    return NULL;
}

void
hc_data_free(hc_data_t * data)
{
    if (data->buffer)
        free(data->buffer);
    free(data);
}

int
hc_data_ensure_available(hc_data_t * data, size_t count)
{
    size_t new_size_log = (data->size + count - 1 > 0)
        ? log2(data->size + count - 1) + 1
        : 0;
    if (new_size_log > data->max_size_log) {
        data->max_size_log = new_size_log;
        data->buffer = realloc(data->buffer, (1 << new_size_log) * data->out_element_size);
        if (!data->buffer)
             return -1;
    }
     return 0;
}

int
hc_data_push_many(hc_data_t * data, const void * elements, size_t count)
{
    if (hc_data_ensure_available(data, count) < 0)
         return -1;

    memcpy(data->buffer + data->size * data->out_element_size, elements,
            count * data->out_element_size);
    data->size += count;
     return 0;
}

int
hc_data_push(hc_data_t * data, const void * element)
{
    return hc_data_push_many(data, element, 1);
}

/**
 *
 * NOTE: This function make sure there is enough room available in the data
 * structure.
 */
u8 *
hc_data_get_next(hc_data_t * data)
{
    if (hc_data_ensure_available(data, 1) < 0)
        return NULL;

    return data->buffer + data->size * data->out_element_size;
}

int
hc_data_set_callback(hc_data_t * data, data_callback_t cb, void * cb_data)
{
    data->complete_cb = cb;
    data->complete_cb_data = cb_data;
     return 0;
}

int
hc_data_set_complete(hc_data_t * data)
{
    data->complete = true;
    data->ret = 0;
    if (data->complete_cb)
        return data->complete_cb(data, data->complete_cb_data);
     return 0;
}

int
hc_data_set_error(hc_data_t * data)
{
     data->ret = -1;
     return 0;
}

int
hc_data_reset(hc_data_t * data)
{
    data->size = 0;
     return 0;
}

/******************************************************************************
 * Control socket
 ******************************************************************************/

/**
 * \brief Parse a connection URL into a sockaddr
 * \param [in] url - URL
 * \param [out] sa - Resulting struct sockaddr, expected zero'ed.
 * \return 0 if parsing succeeded, a negative error value otherwise.
 */
int
hc_sock_parse_url(const char * url, struct sockaddr * sa)
{
    /* FIXME URL parsing is currently not implemented */
    assert(!url);

    srand(time(NULL));

    /*
     * A temporary solution is to inspect the sa_family fields of the passed in
     * sockaddr, which defaults to AF_UNSPEC (0) and thus creates an IPv4/TCP
     * connection to localhost.
     */
    switch (sa->sa_family) {
        case AF_UNSPEC:
        case AF_INET:
        {
            struct sockaddr_in * sai = (struct sockaddr_in *)sa;
            sai->sin_family = AF_INET;
            sai->sin_port = htons(PORT);
            sai->sin_addr.s_addr = htonl(INADDR_LOOPBACK);
            break;
        }
        case AF_INET6:
        {
            struct sockaddr_in6 * sai6 = (struct sockaddr_in6 *)sa;
            sai6->sin6_family = AF_INET6;
            sai6->sin6_port = htons(PORT);
            sai6->sin6_addr = loopback_addr;
            break;
        }
        default:
             return -1;
    }

     return 0;
}

hc_sock_t *
hc_sock_create_url(const char * url)
{
    hc_sock_t * s = malloc(sizeof(hc_sock_t));
    if (!s)
        goto ERR_MALLOC;

    s->url = url ? strdup(url) : NULL;

    s->fd = socket(AF_INET, SOCK_STREAM, 0);
    if (s->fd < 0)
        goto ERR_SOCKET;

    if (hc_sock_reset(s) < 0)
        goto ERR_RESET;

    s->seq = 0;
    s->cur_request = NULL;

    s->map = hc_sock_map_create();
    if (!s->map)
        goto ERR_MAP;

    return s;

    //hc_sock_map_free(s->map);
ERR_MAP:
ERR_RESET:
    if (s->url)
        free(s->url);
    close(s->fd);
ERR_SOCKET:
    free(s);
ERR_MALLOC:
    return NULL;
}

hc_sock_t *
hc_sock_create(void)
{
    return hc_sock_create_url(NULL);
}

void
hc_sock_free(hc_sock_t * s)
{
    hc_sock_request_t ** request_array = NULL;
    int n = hc_sock_map_get_value_array(s->map, &request_array);
    if (n < 0) {
       ERROR("Could not retrieve pending request array for freeing up resources"); 
    } else {
        for (unsigned i = 0; i < n; i++) {
            hc_sock_request_t * request = request_array[i];
            if (hc_sock_map_remove(s->map, request->seq, NULL) < 0)
                ERROR("[hc_sock_process] Error removing request from map");
            hc_sock_request_free(request);
        }
        free(request_array);
    }

    hc_sock_map_free(s->map);
    if (s->url)
        free(s->url);
    close(s->fd);
    free(s);
}

int
hc_sock_get_next_seq(hc_sock_t * s)
{
    return s->seq++;
}

int
hc_sock_set_nonblocking(hc_sock_t * s)
{
    return (fcntl(s->fd, F_SETFL, fcntl(s->fd, F_GETFL) | O_NONBLOCK) < 0);
}

int
hc_sock_get_fd(hc_sock_t * s)
{
    return s->fd;
}

int
hc_sock_connect(hc_sock_t * s)
{
    struct sockaddr_storage ss = { 0 };

    if (hc_sock_parse_url(s->url, (struct sockaddr *)&ss) < 0)
        goto ERR_PARSE;

    size_t size = ss.ss_family == AF_INET
        ? sizeof(struct sockaddr_in)
        : sizeof(struct sockaddr_in6);
    if (connect(s->fd, (struct sockaddr *)&ss, size) < 0) //sizeof(struct sockaddr)) < 0)
        goto ERR_CONNECT;

     return 0;

ERR_CONNECT:
ERR_PARSE:
     return -1;
}

int
hc_sock_send(hc_sock_t * s, hc_msg_t * msg, size_t msglen, int seq)
{
    int rc;
    msg->hdr.seqNum = seq;
    rc = send(s->fd, msg, msglen, 0);
    if (rc < 0) {
        perror("hc_sock_send");
        return -1;
    }
    return 0;
}

int
hc_sock_get_available(hc_sock_t * s, u8 ** buffer, size_t * size)
{
    *buffer = s->buf + s->woff;
    *size = RECV_BUFLEN - s->woff;

     return 0;
}

int
hc_sock_recv(hc_sock_t * s)
{
    int rc;

    /*
     * This condition should be ensured to guarantee correct processing of
     * messages
     */
    assert(RECV_BUFLEN - s->woff > MIN_BUFLEN);

    rc = recv(s->fd, s->buf + s->woff, RECV_BUFLEN - s->woff, 0);
    if (rc == 0) {
        /* Connection has been closed */
         return 0;
    }
    if (rc < 0) {
        /*
         * Let's not return 0 which currently means the socket has been closed
         */
        if (errno == EWOULDBLOCK)
            return -1;
        perror("hc_sock_recv");
        return -1;
    }
    s->woff += rc;
    return rc;
}

/*
 * Returns -99 in case of internal error, -1 in case of API command failure
 */
int
hc_sock_process(hc_sock_t * s, hc_data_t ** data)
{
    int err = 0;

    /* We must have received at least one byte */
    size_t available = s->woff - s->roff;

    while(available > 0) {

        if (!s->cur_request) { // No message being parsed, alternatively (remaining == 0)
            hc_msg_t * msg = (hc_msg_t*)(s->buf + s->roff);

            /* We expect a message header */
            if (available < sizeof(hc_msg_header_t)) {
                break;
            }

            hc_sock_request_t * request = NULL;
            if (hc_sock_map_get(s->map, msg->hdr.seqNum, &request) < 0) {
                ERROR("[hc_sock_process] Error searching for matching request");
                return -99;
            }
            if (!request) {
                ERROR("[hc_sock_process] No request matching received sequence number");
                return -99;
            }

            s->remaining = msg->hdr.length;
            switch(msg->hdr.messageType) {
                case ACK_LIGHT:
                    assert(s->remaining == 1);
                    assert(!data);
                    s->cur_request = request;
                    break;
                case NACK_LIGHT:
                    assert(s->remaining == 1);
                    assert(!data);
                    hc_data_set_error(request->data);
                    s->cur_request = request;
                    err = -1;
                    break;
                case RESPONSE_LIGHT:
                    assert(data);
                    if (s->remaining == 0) {
                        hc_data_set_complete(request->data);
                        *data = request->data;
                        if (hc_sock_map_remove(s->map, request->seq, NULL) < 0)
                            ERROR("[hc_sock_process] Error removing request from map");
                        hc_sock_request_free(request);
                    } else {
                        /* We only remember it if there is still data to parse */
                        s->cur_request = request;
                    }
                    break;
                default:
                    ERROR("[hc_sock_process] Invalid response received");
                    return -99;
            }

            available -= sizeof(hc_msg_header_t);
            s->roff += sizeof(hc_msg_header_t);
        } else {
            /* We expect the complete payload, or at least a chunk of it */
            size_t num_chunks = available / s->cur_request->data->in_element_size;
            if (num_chunks == 0)
                break;
            if (num_chunks > s->remaining)
                num_chunks = s->remaining;

            if (!s->cur_request->parse) {
                /* If we don't need to parse results, then we can directly push
                 * all of them into the result data structure */
                hc_data_push_many(s->cur_request->data, s->buf + s->roff, num_chunks);
            } else {
                int rc;
                rc = hc_data_ensure_available(s->cur_request->data, num_chunks);
                if (rc < 0)
                     return -99;
                for (int i = 0; i < num_chunks; i++) {
                    u8 * dst = hc_data_get_next(s->cur_request->data);
                    if (!dst)
                         return -99;

                    rc = s->cur_request->parse(s->buf + s->roff + i * s->cur_request->data->in_element_size, dst);
                    if (rc < 0)
                        err = -99; /* FIXME we let the loop complete (?) */
                    s->cur_request->data->size++;
                }
            }

            s->remaining -= num_chunks;
            available -= num_chunks * s->cur_request->data->in_element_size;
            s->roff += num_chunks * s->cur_request->data->in_element_size;
            if (s->remaining == 0) {
                if (hc_sock_map_remove(s->map, s->cur_request->seq, NULL) < 0) {
                    ERROR("[hc_sock_process] Error removing request from map");
                    return -99;
                }
                hc_data_set_complete(s->cur_request->data);
                if (data)
                    *data = s->cur_request->data;
                hc_sock_request_free(s->cur_request);
                s->cur_request = NULL;
            }

        }
    }

    /* Make sure there is enough remaining space in the buffer */
    if (RECV_BUFLEN - s->woff < AVG_BUFLEN) {
        /*
         * There should be no overlap provided a sufficiently large BUFLEN, but
         * who knows.
         */
        memmove(s->buf, s->buf + s->roff, s->woff - s->roff);
        s->woff -= s->roff;
        s->roff = 0;
    }

    return err;
}

int
hc_sock_callback(hc_sock_t * s, hc_data_t ** pdata)
{
    hc_data_t * data;

    for (;;) {
        int n = hc_sock_recv(s);
        if (n == 0) {
            goto ERR_EOF;
        }
        if (n < 0) {
            switch(errno) {
                case ECONNRESET:
                case ENODEV:
                    /* Forwarder restarted */
                    WARN("Forwarder likely restarted: not (yet) implemented");
                    goto ERR;
                case EWOULDBLOCK:
                    //DEBUG("Would block... stop reading from socket");
                    goto END;
                default:
                    perror("hc_sock_recv");
                    goto ERR;
            }
        }
        if (hc_sock_process(s, &data) < 0) {
            goto ERR;
        }
    }
END:
    if (pdata)
        *pdata = data;
    else
        hc_data_free(data);
    return 0;

ERR:
    hc_data_free(data);
ERR_EOF:
    return -1;
}

int
hc_sock_reset(hc_sock_t * s)
{
    s->roff = s->woff = 0;
    s->remaining = 0;
     return 0;
}

/******************************************************************************
 * Command-specific structures and functions
 ******************************************************************************/

typedef int (*HC_PARSE)(const u8 *, u8 *);

typedef struct {
    hc_action_t cmd;
    command_id cmd_id;
    size_t size_in;
    size_t size_out;
    HC_PARSE parse;
} hc_command_params_t;

int
hc_execute_command(hc_sock_t * s, hc_msg_t * msg, size_t msg_len,
        hc_command_params_t * params, hc_data_t ** pdata, bool async)
{
    int ret;
    if (async)
        assert(!pdata);

    /* Sanity check */
    switch(params->cmd) {
        case ACTION_CREATE:
            assert(params->size_in != 0); /* payload repeated */
            assert(params->size_out == 0);
            assert(params->parse == NULL);
            break;
        case ACTION_DELETE:
            assert(params->size_in != 0); /* payload repeated */
            assert(params->size_out == 0);
            assert(params->parse == NULL);
            break;
        case ACTION_LIST:
            assert(params->size_in != 0);
            assert(params->size_out != 0);
            assert(params->parse != NULL);
            break;
        case ACTION_SET:
            assert(params->size_in != 0);
            assert(params->size_out == 0);
            assert(params->parse == NULL);
            break;
        default:
             return -1;
    }

    //hc_sock_reset(s);

    /* XXX data will at least store the result (complete) */
    hc_data_t * data = hc_data_create(params->size_in, params->size_out, NULL);
    if (!data) {
        ERROR("[hc_execute_command] Could not create data storage");
        goto ERR_DATA;
    }

    int seq = hc_sock_get_next_seq(s);
   
    /* Create state used to process the request */
    hc_sock_request_t * request = NULL;
    request = hc_sock_request_create(seq, data, params->parse);
    if (!request) {
        ERROR("[hc_execute_command] Could not create request state");
        goto ERR_REQUEST;
    }

    /* Add state to map */
    if (hc_sock_map_add(s->map, seq, request) < 0) {
        ERROR("[hc_execute_command] Error adding request state to map");
        goto ERR_MAP;
    }

    if (hc_sock_send(s, msg, msg_len, seq) < 0) {
        ERROR("[hc_execute_command] Error sending message");
        goto ERR_PROCESS;
    }

    if (async)
        return 0;

    while(!data->complete) {
        /*
         * As the socket is non blocking it might happen that we need to read
         * several times before success... shall we alternate between blocking
         * and non-blocking mode ?
         */
        if (hc_sock_recv(s) < 0)
            continue; //break;
        int rc = hc_sock_process(s, pdata);
        switch(rc) {
            case 0:
                break;
            case -1:
                ret = rc;
                break;
            case -99:
                ERROR("[hc_execute_command] Error processing socket results");
                goto ERR_PROCESS;
                break;
            default:
                ERROR("[hc_execute_command] Unexpected return value");
                goto ERR_PROCESS;
        }
    }

    ret = data->ret;
    if (!pdata)
        hc_data_free(data);

    return ret;

ERR_PROCESS:
ERR_MAP:
    hc_sock_request_free(request);
ERR_REQUEST:
    hc_data_free(data);
ERR_DATA:
     return -99;
}

/*----------------------------------------------------------------------------*
 * Listeners
 *----------------------------------------------------------------------------*/

/* LISTENER CREATE */

int
_hc_listener_create(hc_sock_t * s, hc_listener_t * listener, bool async)
{
    char listener_s[MAXSZ_HC_LISTENER];
    int rc = hc_listener_snprintf(listener_s, MAXSZ_HC_LISTENER, listener);
    if (rc >= MAXSZ_HC_LISTENER)
        WARN("[_hc_listener_create] Unexpected truncation of listener string");
    DEBUG("[_hc_listener_create] listener=%s async=%s", listener_s,
            BOOLSTR(async));

    if (!IS_VALID_FAMILY(listener->family))
         return -1;

    if (!IS_VALID_CONNECTION_TYPE(listener->type))
         return -1;

    struct {
        header_control_message hdr;
        add_listener_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = ADD_LISTENER,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .address = listener->local_addr,
            .port = htons(listener->local_port),
            .addressType = (u8)map_to_addr_type[listener->family],
            .listenerMode = (u8)map_to_listener_mode[listener->type],
            .connectionType = (u8)map_to_connection_type[listener->type],
        }
    };

    rc = snprintf(msg.payload.symbolic, SYMBOLIC_NAME_LEN, "%s", listener->name);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[_hc_listener_create] Unexpected truncation of symbolic name string");

    rc = snprintf(msg.payload.interfaceName, INTERFACE_LEN, "%s", listener->interface_name);
    if (rc >= INTERFACE_LEN)
        WARN("[_hc_listener_create] Unexpected truncation of interface name string");

    hc_command_params_t params = {
        .cmd = ACTION_CREATE,
        .cmd_id = ADD_LISTENER,
        .size_in = sizeof(add_listener_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_listener_create(hc_sock_t * s, hc_listener_t * listener)
{
    return _hc_listener_create(s, listener, false);
}

int
hc_listener_create_async(hc_sock_t * s, hc_listener_t * listener)
{
    return _hc_listener_create(s, listener, true);
}

/* LISTENER GET */

int
hc_listener_get(hc_sock_t * s, hc_listener_t * listener,
        hc_listener_t ** listener_found)
{
    hc_data_t * listeners;
    hc_listener_t * found;

    char listener_s[MAXSZ_HC_LISTENER];
    int rc = hc_listener_snprintf(listener_s, MAXSZ_HC_LISTENER, listener);
    if (rc >= MAXSZ_HC_LISTENER)
        WARN("[hc_listener_get] Unexpected truncation of listener string");
    DEBUG("[hc_listener_get] listener=%s", listener_s);

    if (hc_listener_list(s, &listeners) < 0)
        return -1;

    /* Test */
    if (hc_listener_find(listeners, listener, &found) < 0) {
        hc_data_free(listeners);
        return -1;
    }

    if (found) {
        *listener_found = malloc(sizeof(hc_listener_t));
        if (!*listener_found)
            return -1;
        **listener_found = *found;
    } else {
        *listener_found = NULL;
    }

    hc_data_free(listeners);

    return 0;
}


/* LISTENER DELETE */

int
_hc_listener_delete(hc_sock_t * s, hc_listener_t * listener, bool async)
{
    char listener_s[MAXSZ_HC_LISTENER];
    int rc = hc_listener_snprintf(listener_s, MAXSZ_HC_LISTENER, listener);
    if (rc >= MAXSZ_HC_LISTENER)
        WARN("[_hc_listener_delete] Unexpected truncation of listener string");
    DEBUG("[_hc_listener_delete] listener=%s async=%s", listener_s,
            BOOLSTR(async));

    struct {
        header_control_message hdr;
        remove_listener_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = REMOVE_LISTENER,
            .length = 1,
            .seqNum = 0,
        },
    };

    if (listener->id) {
        rc = snprintf(msg.payload.symbolicOrListenerid, SYMBOLIC_NAME_LEN, "%d", listener->id);
        if (rc >= SYMBOLIC_NAME_LEN)
            WARN("[_hc_listener_delete] Unexpected truncation of symbolic name string");
    } else if (*listener->name) {
        rc = snprintf(msg.payload.symbolicOrListenerid, SYMBOLIC_NAME_LEN, "%s", listener->name);
        if (rc >= SYMBOLIC_NAME_LEN)
            WARN("[_hc_listener_delete] Unexpected truncation of symbolic name string");
    } else {
        hc_listener_t * listener_found;
        if (hc_listener_get(s, listener, &listener_found) < 0)
            return -1;
        if (!listener_found)
            return -1;
        rc = snprintf(msg.payload.symbolicOrListenerid, SYMBOLIC_NAME_LEN, "%d", listener_found->id);
        if (rc >= SYMBOLIC_NAME_LEN)
            WARN("[_hc_listener_delete] Unexpected truncation of symbolic name string");
        free(listener_found);
    }

    hc_command_params_t params = {
        .cmd = ACTION_DELETE,
        .cmd_id = REMOVE_LISTENER,
        .size_in = sizeof(remove_listener_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_listener_delete(hc_sock_t * s, hc_listener_t * listener)
{
    return _hc_listener_delete(s, listener, false);
}

int
hc_listener_delete_async(hc_sock_t * s, hc_listener_t * listener)
{
    return _hc_listener_delete(s, listener, true);
}


/* LISTENER LIST */

int
_hc_listener_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
    DEBUG("[hc_listener_list] async=%s", BOOLSTR(async));

    struct {
        header_control_message hdr;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = LIST_LISTENERS,
            .length = 0,
            .seqNum = 0,
        },
    };

    hc_command_params_t params = {
        .cmd = ACTION_LIST,
        .cmd_id = LIST_LISTENERS,
        .size_in = sizeof(list_listeners_command),
        .size_out = sizeof(hc_listener_t),
        .parse = (HC_PARSE)hc_listener_parse,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, pdata, async);
}

int
hc_listener_list(hc_sock_t * s, hc_data_t ** pdata)
{
    return _hc_listener_list(s, pdata, false);
}

int
hc_listener_list_async(hc_sock_t * s, hc_data_t ** pdata)
{
    return _hc_listener_list(s, pdata, true);
}

/* LISTENER VALIDATE */

int
hc_listener_validate(const hc_listener_t * listener)
{
    if (!IS_VALID_FAMILY(listener->family))
         return -1;

    if (!IS_VALID_CONNECTION_TYPE(listener->type))
         return -1;

    return 0;
}

/* LISTENER CMP */

int
hc_listener_cmp(const hc_listener_t * l1, const hc_listener_t * l2)
{
    int rc;

    rc = INT_CMP(l1->type, l2->type);
    if (rc != 0)
        return rc;

    rc = INT_CMP(l1->family, l2->family);
    if (rc != 0)
        return rc;

    rc = strncmp(l1->interface_name, l2->interface_name, INTERFACE_LEN);
    if (rc != 0)
        return rc;

    rc = ip_address_cmp(&l1->local_addr, &l2->local_addr, l1->family);
    if (rc != 0)
        return rc;

    rc = INT_CMP(l1->local_port, l2->local_port);
    if (rc != 0)
        return rc;

    return rc;
}

/* LISTENER PARSE */

int
hc_listener_parse(void * in, hc_listener_t * listener)
{
    int rc;

    list_listeners_command * cmd = (list_listeners_command *)in;

    if (!IS_VALID_LIST_LISTENERS_TYPE(cmd->encapType))
         return -1;

    hc_connection_type_t type = map_from_encap_type[cmd->encapType];
    if (type == CONNECTION_TYPE_UNDEFINED)
         return -1;

    if (!IS_VALID_ADDR_TYPE(cmd->addressType))
         return -1;

    int family = map_from_addr_type[cmd->addressType];
    if (!IS_VALID_FAMILY(family))
         return -1;

    *listener = (hc_listener_t) {
        .id = cmd->connid,
        .type = type,
        .family = family,
        .local_addr = UNION_CAST(cmd->address, ip_address_t),
        .local_port = ntohs(cmd->port),
    };
    rc = snprintf(listener->name, SYMBOLIC_NAME_LEN, "%s", cmd->listenerName);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[hc_listener_parse] Unexpected truncation of symbolic name string");
    rc = snprintf(listener->interface_name, INTERFACE_LEN, "%s", cmd->interfaceName);
    if (rc >= INTERFACE_LEN)
        WARN("[hc_listener_parse] Unexpected truncation of interface name string");
    return 0;
}

GENERATE_FIND(listener)

/* LISTENER SNPRINTF */

/* /!\ Please update constants in header file upon changes */
int
hc_listener_snprintf(char * s, size_t size, hc_listener_t * listener)
{
    char local[MAXSZ_URL];
    int rc;
    rc = url_snprintf(local, MAXSZ_URL,
         listener->family, &listener->local_addr, listener->local_port);
    if (rc >= MAXSZ_URL)
        WARN("[hc_listener_snprintf] Unexpected truncation of URL string");
    if (rc < 0)
        return rc;

    return snprintf(s, size, "%s %s %s", listener->interface_name, local,
            connection_type_str[listener->type]);
}

/*----------------------------------------------------------------------------*
 * CONNECTION
 *----------------------------------------------------------------------------*/

/* CONNECTION CREATE */

int
_hc_connection_create(hc_sock_t * s, hc_connection_t * connection, bool async)
{
    char connection_s[MAXSZ_HC_CONNECTION];
    int rc = hc_connection_snprintf(connection_s, MAXSZ_HC_CONNECTION, connection);
    if (rc >= MAXSZ_HC_CONNECTION)
        WARN("[_hc_connection_create] Unexpected truncation of connection string");
    DEBUG("[_hc_connection_create] connection=%s async=%s", connection_s, BOOLSTR(async));

    if (hc_connection_validate(connection) < 0)
        return -1;

    struct {
        header_control_message hdr;
        add_connection_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = ADD_CONNECTION,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .remoteIp = connection->remote_addr,
            .localIp = connection->local_addr,
            .remotePort = htons(connection->remote_port),
            .localPort = htons(connection->local_port),
            .ipType = (u8)map_to_addr_type[connection->family],
            .connectionType = (u8)map_to_connection_type[connection->type],
            .admin_state = connection->admin_state,
#ifdef WITH_POLICY
            .priority = connection->priority,
            .tags = connection->tags,
#endif /* WITH_POLICY */
        }
    };
    rc = snprintf(msg.payload.symbolic, SYMBOLIC_NAME_LEN, "%s", connection->name);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[_hc_connection_create] Unexpected truncation of symbolic name string");
    //snprintf(msg.payload.interfaceName, INTERFACE_NAME_LEN, "%s", connection->interface_name);

    hc_command_params_t params = {
        .cmd = ACTION_CREATE,
        .cmd_id = ADD_CONNECTION,
        .size_in = sizeof(add_connection_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_connection_create(hc_sock_t * s, hc_connection_t * connection)
{
    return _hc_connection_create(s, connection, false);
}

int
hc_connection_create_async(hc_sock_t * s, hc_connection_t * connection)
{
    return _hc_connection_create(s, connection, true);
}

/* CONNECTION GET */

int
hc_connection_get(hc_sock_t * s, hc_connection_t * connection,
        hc_connection_t ** connection_found)
{
    hc_data_t * connections;
    hc_connection_t * found;

    char connection_s[MAXSZ_HC_CONNECTION];
    int rc = hc_connection_snprintf(connection_s, MAXSZ_HC_CONNECTION, connection);
    if (rc >= MAXSZ_HC_CONNECTION)
        WARN("[hc_connection_get] Unexpected truncation of connection string");
    DEBUG("[hc_connection_get] connection=%s", connection_s);

    if (hc_connection_list(s, &connections) < 0)
        return -1;

    /* Test */
    if (hc_connection_find(connections, connection, &found) < 0) {
        hc_data_free(connections);
        return -1;
    }

    if (found) {
        *connection_found = malloc(sizeof(hc_connection_t));
        if (!*connection_found)
            return -1;
        **connection_found = *found;
    } else {
        *connection_found = NULL;
    }

    hc_data_free(connections);

    return 0;
}


/* CONNECTION DELETE */

int
_hc_connection_delete(hc_sock_t * s, hc_connection_t * connection, bool async)
{
    char connection_s[MAXSZ_HC_CONNECTION];
    int rc = hc_connection_snprintf(connection_s, MAXSZ_HC_CONNECTION, connection);
    if (rc >= MAXSZ_HC_CONNECTION)
        WARN("[_hc_connection_delete] Unexpected truncation of connection string");
    DEBUG("[_hc_connection_delete] connection=%s async=%s", connection_s, BOOLSTR(async));

    struct {
        header_control_message hdr;
        remove_connection_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = REMOVE_CONNECTION,
            .length = 1,
            .seqNum = 0,
        },
    };

    if (connection->id) {
        rc = snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", connection->id);
        if (rc >= SYMBOLIC_NAME_LEN)
            WARN("[_hc_connection_delete] Unexpected truncation of symbolic name string");
    } else if (*connection->name) {
        rc = snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%s", connection->name);
        if (rc >= SYMBOLIC_NAME_LEN)
            WARN("[_hc_connection_delete] Unexpected truncation of symbolic name string");
    } else {
        hc_connection_t * connection_found;
        if (hc_connection_get(s, connection, &connection_found) < 0)
            return -1;
        if (!connection_found)
            return -1;
        rc = snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", connection_found->id);
        if (rc >= SYMBOLIC_NAME_LEN)
            WARN("[_hc_connection_delete] Unexpected truncation of symbolic name string");
        free(connection_found);
    }

    hc_command_params_t params = {
        .cmd = ACTION_DELETE,
        .cmd_id = REMOVE_CONNECTION,
        .size_in = sizeof(remove_connection_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_connection_delete(hc_sock_t * s, hc_connection_t * connection)
{
    return _hc_connection_delete(s, connection, false);
}

int
hc_connection_delete_async(hc_sock_t * s, hc_connection_t * connection)
{
    return _hc_connection_delete(s, connection, true);
}

/* CONNECTION LIST */

int
_hc_connection_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
    DEBUG("[hc_connection_list] async=%s", BOOLSTR(async));

    struct {
        header_control_message hdr;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = LIST_CONNECTIONS,
            .length = 0,
            .seqNum = 0,
        },
    };

    hc_command_params_t params = {
        .cmd = ACTION_LIST,
        .cmd_id = LIST_CONNECTIONS,
        .size_in = sizeof(list_connections_command),
        .size_out = sizeof(hc_connection_t),
        .parse = (HC_PARSE)hc_connection_parse,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, pdata, async);
}

int
hc_connection_list(hc_sock_t * s, hc_data_t ** pdata)
{
    return _hc_connection_list(s, pdata, false);
}

int
hc_connection_list_async(hc_sock_t * s, hc_data_t ** pdata)
{
    return _hc_connection_list(s, pdata, true);
}

/* CONNECTION VALIDATE */

int
hc_connection_validate(const hc_connection_t * connection)
{
    if (!IS_VALID_FAMILY(connection->family))
         return -1;

    if (!IS_VALID_CONNECTION_TYPE(connection->type))
         return -1;

    /* TODO assert both local and remote have the right family */

    return 0;
}

/* CONNECTION CMP */

/*
 * hICN light uses ports even for hICN connections, but their value is ignored.
 * As connections are specific to hicn-light, we can safely use IP and ports for
 * comparison independently of the face type.
 */
int hc_connection_cmp(const hc_connection_t * c1, const hc_connection_t * c2)
{
    int rc;

    rc = INT_CMP(c1->type, c2->type);
    if (rc != 0)
        return rc;

    rc = INT_CMP(c1->family, c2->family);
    if (rc != 0)
        return rc;

    rc = strncmp(c1->interface_name, c2->interface_name, INTERFACE_LEN);
    if (rc != 0)
        return rc;

    rc = ip_address_cmp(&c1->local_addr, &c2->local_addr, c1->family);
    if (rc != 0)
        return rc;

    rc = INT_CMP(c1->local_port, c2->local_port);
    if (rc != 0)
        return rc;

    rc = ip_address_cmp(&c1->remote_addr, &c2->remote_addr, c1->family);
    if (rc != 0)
        return rc;

    rc = INT_CMP(c1->remote_port, c2->remote_port);
    if (rc != 0)
        return rc;

    return rc;
}

/* CONNECTION PARSE */

int
hc_connection_parse(void * in, hc_connection_t * connection)
{
    int rc;
    list_connections_command * cmd = (list_connections_command *)in;

    if (!IS_VALID_LIST_CONNECTIONS_TYPE(cmd->connectionData.connectionType))
         return -1;

    hc_connection_type_t type = map_from_list_connections_type[cmd->connectionData.connectionType];
    if (type == CONNECTION_TYPE_UNDEFINED)
         return -1;

    if (!IS_VALID_LIST_CONNECTIONS_STATE(cmd->state))
         return -1;

    hc_connection_state_t state = map_from_list_connections_state[cmd->state];
    if (state == HC_CONNECTION_STATE_UNDEFINED)
         return -1;

    if (!IS_VALID_ADDR_TYPE(cmd->connectionData.ipType))
         return -1;

    int family = map_from_addr_type[cmd->connectionData.ipType];
    if (!IS_VALID_FAMILY(family))
         return -1;

    *connection = (hc_connection_t) {
        .id = cmd->connid,
        .type = type,
        .family = family,
        .local_addr = cmd->connectionData.localIp,
        //.local_addr = UNION_CAST(cmd->connectionData.localIp, ip_address_t),
        .local_port = ntohs(cmd->connectionData.localPort),
        .remote_addr = cmd->connectionData.remoteIp,
        //.remote_addr = UNION_CAST(cmd->connectionData.remoteIp, ip_address_t),
        .remote_port = ntohs(cmd->connectionData.remotePort),
        .admin_state = cmd->connectionData.admin_state,
#ifdef WITH_POLICY
        .priority = cmd->connectionData.priority,
        .tags = cmd->connectionData.tags,
#endif /* WITH_POLICY */
        .state = state,
    };
    rc = snprintf(connection->name, SYMBOLIC_NAME_LEN, "%s", cmd->connectionData.symbolic);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[hc_connection_parse] Unexpected truncation of symbolic name string");
    rc = snprintf(connection->interface_name, INTERFACE_LEN, "%s", cmd->interfaceName);
    if (rc >= INTERFACE_LEN)
        WARN("[hc_connection_parse] Unexpected truncation of interface name string");
    return 0;
}

GENERATE_FIND(connection)

/* CONNECTION SNPRINTF */

/* /!\ Please update constants in header file upon changes */
int
hc_connection_snprintf(char * s, size_t size, const hc_connection_t * connection)
{
    char local[MAXSZ_URL];
    char remote[MAXSZ_URL];
    int rc;

    // assert(connection->connection_state)

    rc = url_snprintf(local, MAXSZ_URL, connection->family,
            &connection->local_addr, connection->local_port);
    if (rc >= MAXSZ_URL)
        WARN("[hc_connection_snprintf] Unexpected truncation of URL string");
    if (rc < 0)
        return rc;
    rc = url_snprintf(remote, MAXSZ_URL, connection->family,
            &connection->remote_addr, connection->remote_port);
    if (rc >= MAXSZ_URL)
        WARN("[hc_connection_snprintf] Unexpected truncation of URL string");
    if (rc < 0)
        return rc;

    return snprintf(s, size, "%s %s %s %s %s",
            connection_state_str[connection->state],
            connection->interface_name,
            local,
            remote,
            connection_type_str[connection->type]);
}

/* CONNECTION SET ADMIN STATE */

int
_hc_connection_set_admin_state(hc_sock_t * s, const char * conn_id_or_name,
        face_state_t state, bool async)
{
    int rc;
    DEBUG("[hc_connection_set_admin_state] connection_id/name=%s admin_state=%s async=%s",
            conn_id_or_name, face_state_str[state], BOOLSTR(async));
    struct {
        header_control_message hdr;
        connection_set_admin_state_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = CONNECTION_SET_ADMIN_STATE,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .admin_state = state,
        },
    };
    rc = snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%s", conn_id_or_name);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[_hc_connection_set_admin_state] Unexpected truncation of symbolic name string");

    hc_command_params_t params = {
        .cmd = ACTION_SET,
        .cmd_id = CONNECTION_SET_ADMIN_STATE,
        .size_in = sizeof(connection_set_admin_state_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_connection_set_admin_state(hc_sock_t * s, const char * conn_id_or_name,
        face_state_t state)
{
    return _hc_connection_set_admin_state(s, conn_id_or_name, state, false);
}

int
hc_connection_set_admin_state_async(hc_sock_t * s, const char * conn_id_or_name,
        face_state_t state)
{
    return _hc_connection_set_admin_state(s, conn_id_or_name, state, true);
}

int
_hc_connection_set_priority(hc_sock_t * s, const char * conn_id_or_name,
        uint32_t priority, bool async)
{
    int rc;
    DEBUG("[hc_connection_set_priority] connection_id/name=%s priority=%d async=%s",
            conn_id_or_name, priority, BOOLSTR(async));
    struct {
        header_control_message hdr;
        connection_set_priority_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = CONNECTION_SET_PRIORITY,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .priority = priority,
        },
    };
    rc = snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%s", conn_id_or_name);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[_hc_connection_set_priority] Unexpected truncation of symbolic name string");

    hc_command_params_t params = {
        .cmd = ACTION_SET,
        .cmd_id = CONNECTION_SET_PRIORITY,
        .size_in = sizeof(connection_set_priority_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_connection_set_priority(hc_sock_t * s, const char * conn_id_or_name,
        uint32_t priority)
{
    return _hc_connection_set_priority(s, conn_id_or_name, priority, false);
}

int
hc_connection_set_priority_async(hc_sock_t * s, const char * conn_id_or_name,
        uint32_t priority)
{
    return _hc_connection_set_priority(s, conn_id_or_name, priority, true);
}

/*----------------------------------------------------------------------------*
 * Routes
 *----------------------------------------------------------------------------*/

/* ROUTE CREATE */

int
_hc_route_create(hc_sock_t * s, hc_route_t * route, bool async)
{
    char route_s[MAXSZ_HC_ROUTE];
    int rc = hc_route_snprintf(route_s, MAXSZ_HC_ROUTE, route);
    if (rc >= MAXSZ_HC_ROUTE)
        WARN("[_hc_route_create] Unexpected truncation of route string");
    if (rc < 0)
        WARN("[_hc_route_create] Error building route string");
    else
        DEBUG("[hc_route_create] route=%s async=%s", route_s, BOOLSTR(async));

    if (!IS_VALID_FAMILY(route->family))
         return -1;

    struct {
        header_control_message hdr;
        add_route_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = ADD_ROUTE,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .address = route->remote_addr,
            .cost = route->cost,
            .addressType = (u8)map_to_addr_type[route->family],
            .len = route->len,
        }
    };

    /*
     * The route commands expects the ID (or name that we don't use) as part of
     * the symbolicOrConnid attribute.
     */
    rc = snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", route->face_id);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[_hc_route_create] Unexpected truncation of symbolic name string");

    hc_command_params_t params = {
        .cmd = ACTION_CREATE,
        .cmd_id = ADD_ROUTE,
        .size_in = sizeof(add_route_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_route_create(hc_sock_t * s, hc_route_t * route)
{
    return _hc_route_create(s, route, false);
}

int
hc_route_create_async(hc_sock_t * s, hc_route_t * route)
{
    return _hc_route_create(s, route, true);
}

/* ROUTE DELETE */

int
_hc_route_delete(hc_sock_t * s, hc_route_t * route, bool async)
{
    char route_s[MAXSZ_HC_ROUTE];
    int rc = hc_route_snprintf(route_s, MAXSZ_HC_ROUTE, route);
    if (rc >= MAXSZ_HC_ROUTE)
        WARN("[_hc_route_delete] Unexpected truncation of route string");
    DEBUG("[hc_route_delete] route=%s async=%s", route_s, BOOLSTR(async));

    if (!IS_VALID_FAMILY(route->family))
         return -1;

    struct {
        header_control_message hdr;
        remove_route_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = REMOVE_ROUTE,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .address = route->remote_addr,
            .addressType = (u8)map_to_addr_type[route->family],
            .len = route->len,
        }
    };

    /*
     * The route commands expects the ID (or name that we don't use) as part of
     * the symbolicOrConnid attribute.
     */
    snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", route->face_id);

    hc_command_params_t params = {
        .cmd = ACTION_DELETE,
        .cmd_id = REMOVE_ROUTE,
        .size_in = sizeof(remove_route_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_route_delete(hc_sock_t * s, hc_route_t * route)
{
    return _hc_route_delete(s, route, false);
}

int
hc_route_delete_async(hc_sock_t * s, hc_route_t * route)
{
    return _hc_route_delete(s, route, true);
}

/* ROUTE LIST */

int
_hc_route_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
    DEBUG("[hc_route_list] async=%s", BOOLSTR(async));

    struct {
        header_control_message hdr;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = LIST_ROUTES,
            .length = 0,
            .seqNum = 0,
        },
    };

    hc_command_params_t params = {
        .cmd = ACTION_LIST,
        .cmd_id = LIST_ROUTES,
        .size_in = sizeof(list_routes_command),
        .size_out = sizeof(hc_route_t),
        .parse = (HC_PARSE)hc_route_parse,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, pdata, async);
}

int
hc_route_list(hc_sock_t * s, hc_data_t ** pdata)
{
    return _hc_route_list(s, pdata, false);
}

int
hc_route_list_async(hc_sock_t * s)
{
    return _hc_route_list(s, NULL, true);
}

/* ROUTE PARSE */

int
hc_route_parse(void * in, hc_route_t * route)
{
    list_routes_command * cmd = (list_routes_command *) in;

    if (!IS_VALID_ADDR_TYPE(cmd->addressType))
         return -1;

    int family = map_from_addr_type[cmd->addressType];
    if (!IS_VALID_FAMILY(family))
         return -1;

    *route = (hc_route_t) {
        .face_id = cmd->connid,
        .family = family,
        .remote_addr = UNION_CAST(cmd->address, ip_address_t),
        .len = cmd->len,
        .cost = cmd->cost,
    };
    return 0;
}

/* ROUTE SNPRINTF */

/* /!\ Please update constants in header file upon changes */
int
hc_route_snprintf(char * s, size_t size, hc_route_t * route)
{
    /* interface cost prefix length */

    char prefix[MAXSZ_IP_ADDRESS];
    int rc;

    rc = ip_address_snprintf(prefix, MAXSZ_IP_ADDRESS, &route->remote_addr,
            route->family);
    if (rc >= MAXSZ_IP_ADDRESS)
        ;
    if (rc < 0)
        return rc;

    return snprintf(s, size, "%*d %*d %s %*d", MAXSZ_FACE_ID, route->face_id,
            MAXSZ_COST, route->cost, prefix, MAXSZ_LEN, route->len);
}

/*----------------------------------------------------------------------------*
 * Face
 *
 * Face support is not directly available in hicn-light, but we can offer such
 * an interface through a combination of listeners and connections. The code
 * starts with some conversion functions between faces/listeners/connections.
 *
 * We also need to make sure that there always exist a (single) listener when a
 * connection is created, and in the hICN face case, that there is a single
 * connection attached to this listener.
 *
 *----------------------------------------------------------------------------*/

/* FACE -> LISTENER */

int
hc_face_to_listener(const hc_face_t * face, hc_listener_t * listener)
{
    const face_t * f = &face->face;

    switch(f->type) {
        case FACE_TYPE_HICN_LISTENER:
            break;
        case FACE_TYPE_TCP_LISTENER:
            break;
        case FACE_TYPE_UDP_LISTENER:
            break;
        default:
             return -1;
    }
    return -1; /* XXX Not implemented */
}

/* LISTENER -> FACE */

int
hc_listener_to_face(const hc_listener_t * listener, hc_face_t * face)
{
    return -1; /* XXX Not implemented */
}

/* FACE -> CONNECTION */

int
hc_face_to_connection(const hc_face_t * face, hc_connection_t * connection, bool generate_name)
{
    int rc;
    const face_t * f = &face->face;

    switch(f->type) {
        case FACE_TYPE_HICN:
            *connection = (hc_connection_t) {
                .type = CONNECTION_TYPE_HICN,
                .family = f->family,
                .local_addr = f->local_addr,
                .local_port = 0,
                .remote_addr = f->remote_addr,
                .remote_port = 0,
                .admin_state = face_state_to_connection_state(f->admin_state),
                .state = face_state_to_connection_state(f->state),
#ifdef WITH_POLICY
                .priority = f->priority,
                .tags = f->tags,
#endif /* WITH_POLICY */
            };
            rc = snprintf(connection->name, SYMBOLIC_NAME_LEN, "%s",
                    f->netdevice.name);
            if (rc >= SYMBOLIC_NAME_LEN)
                WARN("[hc_face_to_connection] Unexpected truncation of symbolic name string");
            break;
        case FACE_TYPE_TCP:
            *connection = (hc_connection_t) {
                .type = CONNECTION_TYPE_TCP,
                .family = f->family,
                .local_addr = f->local_addr,
                .local_port = f->local_port,
                .remote_addr = f->remote_addr,
                .remote_port = f->remote_port,
                .admin_state = face_state_to_connection_state(f->admin_state),
                .state = face_state_to_connection_state(f->state),
#ifdef WITH_POLICY
                .priority = f->priority,
                .tags = f->tags,
#endif /* WITH_POLICY */
            };
            if (generate_name) {
                rc = snprintf(connection->name, SYMBOLIC_NAME_LEN, "tcp%u", RANDBYTE());
                if (rc >= SYMBOLIC_NAME_LEN)
                    WARN("[hc_face_to_connection] Unexpected truncation of symbolic name string");
            } else {
                memset(connection->name, 0, SYMBOLIC_NAME_LEN);
            }
            break;
        case FACE_TYPE_UDP:
            *connection = (hc_connection_t) {
                .type = CONNECTION_TYPE_UDP,
                .family = AF_INET,
                .local_addr = f->local_addr,
                .local_port = f->local_port,
                .remote_addr = f->remote_addr,
                .remote_port = f->remote_port,
                .admin_state = face_state_to_connection_state(f->admin_state),
                .state = face_state_to_connection_state(f->state),
#ifdef WITH_POLICY
                .priority = f->priority,
                .tags = f->tags,
#endif /* WITH_POLICY */
            };
            if (generate_name) {
                rc = snprintf(connection->name, SYMBOLIC_NAME_LEN, "udp%u", RANDBYTE());
                if (rc >= SYMBOLIC_NAME_LEN)
                    WARN("[hc_face_to_connection] Unexpected truncation of symbolic name string");
            } else {
                memset(connection->name, 0, SYMBOLIC_NAME_LEN);
            }
            snprintf(connection->interface_name, INTERFACE_LEN, "%s",
                    f->netdevice.name);
            break;
        default:
             return -1;
    }

    rc = snprintf(connection->interface_name, INTERFACE_LEN, "%s",
            f->netdevice.name);
    if (rc >= INTERFACE_LEN)
        WARN("hc_face_to_connection] Unexpected truncation of interface name string");

    return 0;
}

/* CONNECTION -> FACE */

int
hc_connection_to_face(const hc_connection_t * connection, hc_face_t * face)
{
    int rc;
    switch (connection->type) {
        case CONNECTION_TYPE_TCP:
            *face = (hc_face_t) {
                .id = connection->id,
                .face = {
                    .type = FACE_TYPE_TCP,
                    .family = connection->family,
                    .local_addr = connection->local_addr,
                    .local_port = connection->local_port,
                    .remote_addr = connection->remote_addr,
                    .remote_port = connection->remote_port,
                    .admin_state = connection_state_to_face_state(connection->admin_state),
                    .state = connection_state_to_face_state(connection->state),
#ifdef WITH_POLICY
                    .priority = connection->priority,
                    .tags = connection->tags,
#endif /* WITH_POLICY */
                },
            };
            break;
        case CONNECTION_TYPE_UDP:
            *face = (hc_face_t) {
                .id = connection->id,
                .face = {
                    .type = FACE_TYPE_UDP,
                    .family = connection->family,
                    .local_addr = connection->local_addr,
                    .local_port = connection->local_port,
                    .remote_addr = connection->remote_addr,
                    .remote_port = connection->remote_port,
                    .admin_state = connection_state_to_face_state(connection->admin_state),
                    .state = connection_state_to_face_state(connection->state),
#ifdef WITH_POLICY
                    .priority = connection->priority,
                    .tags = connection->tags,
#endif /* WITH_POLICY */
                },
            };
            break;
        case CONNECTION_TYPE_HICN:
            *face = (hc_face_t) {
                .id = connection->id,
                .face = {
                    .type = FACE_TYPE_HICN,
                    .family = connection->family,
                    .netdevice.index = NETDEVICE_UNDEFINED_INDEX, // XXX
                    .local_addr = connection->local_addr,
                    .remote_addr = connection->remote_addr,
                    .admin_state = connection_state_to_face_state(connection->admin_state),
                    .state = connection_state_to_face_state(connection->state),
#ifdef WITH_POLICY
                    .priority = connection->priority,
                    .tags = connection->tags,
#endif /* WITH_POLICY */
                },
            };
            break;
        default:
            return -1;
    }
    face->face.netdevice.name[0] = '\0';
    face->face.netdevice.index = 0;
    rc = snprintf(face->name, SYMBOLIC_NAME_LEN, "%s", connection->name);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[hc_connection_to_face] Unexpected truncation of symbolic name string");
    rc = snprintf(face->face.netdevice.name, INTERFACE_LEN, "%s", connection->interface_name);
    if (rc >= INTERFACE_LEN)
        WARN("[hc_connection_to_face] Unexpected truncation of interface name string");
    netdevice_update_index(&face->face.netdevice);
    return 0;
}

/* CONNECTION -> LISTENER */

int
hc_connection_to_local_listener(const hc_connection_t * connection, hc_listener_t * listener)
{
    int rc;
    *listener = (hc_listener_t) {
        .id = ~0,
        .type = connection->type,
        .family = connection->family,
        .local_addr = connection->local_addr,
        .local_port = connection->local_port,
    };
    rc = snprintf(listener->name, SYMBOLIC_NAME_LEN, "lst%u", RANDBYTE()); // generate name
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[hc_connection_to_local_listener] Unexpected truncation of symbolic name string");
    rc = snprintf(listener->interface_name, INTERFACE_LEN, "%s", connection->interface_name);
    if (rc >= INTERFACE_LEN)
        WARN("[hc_connection_to_local_listener] Unexpected truncation of interface name string");

    return 0;
}

/* FACE CREATE */

int
hc_face_create(hc_sock_t * s, hc_face_t * face)
{
    hc_listener_t listener;
    hc_listener_t * listener_found;

    hc_connection_t connection;
    hc_connection_t * connection_found;

    char face_s[MAXSZ_HC_FACE];
    int rc = hc_face_snprintf(face_s, MAXSZ_HC_FACE, face);
    if (rc >= MAXSZ_HC_FACE)
        WARN("[hc_face_create] Unexpected truncation of face string");
    DEBUG("[hc_face_create] face=%s", face_s);

    switch(face->face.type)
    {
        case FACE_TYPE_HICN:
        case FACE_TYPE_TCP:
        case FACE_TYPE_UDP:
            if (hc_face_to_connection(face, &connection, true) < 0) {
                ERROR("[hc_face_create] Could not convert face to connection.");
                return -1;
            }

            /* Ensure we have a corresponding local listener */
            if (hc_connection_to_local_listener(&connection, &listener) < 0) {
                ERROR("[hc_face_create] Could not convert face to local listener.");
                return -1;
            }

            if (hc_listener_get(s, &listener, &listener_found) < 0) {
                ERROR("[hc_face_create] Could not retrieve listener");
                return -1;
            }

            if (!listener_found) {
                /* We need to create the listener if it does not exist */
                if (hc_listener_create(s, &listener) < 0) {
                    ERROR("[hc_face_create] Could not create listener.");
                    free(listener_found);
                    return -1;
                }
            } else {
                free(listener_found);
            }

            /* Create corresponding connection */
            if (hc_connection_create(s, &connection) < 0) {
                ERROR("[hc_face_create] Could not create connection.");
                return -1;
            }

            /*
             * Once the connection is created, we need to list all connections
             * and compare with the current one to find the created face ID.
             */
            if (hc_connection_get(s, &connection, &connection_found) < 0) {
                ERROR("[hc_face_create] Could not retrieve connection");
                return -1;
            }

            if (!connection_found) {
                ERROR("[hc_face_create] Could not find newly created connection.");
                return -1;
            }

            face->id = connection_found->id;
            free(connection_found);

            break;

        case FACE_TYPE_HICN_LISTENER:
        case FACE_TYPE_TCP_LISTENER:
        case FACE_TYPE_UDP_LISTENER:
            if (hc_face_to_listener(face, &listener) < 0) {
                ERROR("Could not convert face to listener.");
                return -1;
            }
            if (hc_listener_create(s, &listener) < 0) {
                ERROR("[hc_face_create] Could not create listener.");
                return -1;
            }
            return -1;
            break;
        default:
            ERROR("[hc_face_create] Unknwon face type.");

            return -1;
    };

    return 0;
}

int
hc_face_get(hc_sock_t * s, hc_face_t * face, hc_face_t ** face_found)
{
    hc_listener_t listener;
    hc_listener_t * listener_found;

    hc_connection_t connection;
    hc_connection_t * connection_found;

    char face_s[MAXSZ_HC_FACE];
    int rc = hc_face_snprintf(face_s, MAXSZ_HC_FACE, face);
    if (rc >= MAXSZ_HC_FACE)
        WARN("[hc_face_get] Unexpected truncation of face string");
    DEBUG("[hc_face_get] face=%s", face_s);

    switch(face->face.type)
    {
        case FACE_TYPE_HICN:
        case FACE_TYPE_TCP:
        case FACE_TYPE_UDP:
            if (hc_face_to_connection(face, &connection, false) < 0)
                 return -1;
            if (hc_connection_get(s, &connection, &connection_found) < 0)
                 return -1;
            if (!connection_found) {
                *face_found = NULL;
                return 0;
            }
            *face_found = malloc(sizeof(hc_face_t));
            hc_connection_to_face(connection_found, *face_found);
            free(connection_found);
            break;

        case FACE_TYPE_HICN_LISTENER:
        case FACE_TYPE_TCP_LISTENER:
        case FACE_TYPE_UDP_LISTENER:
            if (hc_face_to_listener(face, &listener) < 0)
                 return -1;
            if (hc_listener_get(s, &listener, &listener_found) < 0)
                 return -1;
            if (!listener_found) {
                *face_found = NULL;
                return 0;
            }
            *face_found = malloc(sizeof(hc_face_t));
            hc_listener_to_face(listener_found, *face_found);
            free(listener_found);
            break;

        default:
             return -1;
    }

    return 0;

}

/* FACE DELETE */

int
hc_face_delete(hc_sock_t * s, hc_face_t * face)
{
    char face_s[MAXSZ_HC_FACE];
    int rc = hc_face_snprintf(face_s, MAXSZ_HC_FACE, face);
    if (rc >= MAXSZ_HC_FACE)
        WARN("[hc_face_delete] Unexpected truncation of face string");
    DEBUG("[hc_face_delete] face=%s", face_s);

    hc_connection_t connection;
    if (hc_face_to_connection(face, &connection, false) < 0) {
        ERROR("[hc_face_delete] Could not convert face to connection.");
        return -1;
    }

    if (hc_connection_delete(s, &connection) < 0) {
        ERROR("[hc_face_delete] Error removing connection");
        return -1;
    }

    /* If this is the last connection attached to the listener, remove it */

    hc_data_t * connections;
    hc_listener_t listener = {{0}};

    /*
     * Ensure we have a corresponding local listener
     * NOTE: hc_face_to_listener is not appropriate
     */
    if (hc_connection_to_local_listener(&connection, &listener) < 0) {
        ERROR("[hc_face_create] Could not convert face to local listener.");
        return -1;
    }
#if 1
    /*
     * The name is generated to prepare listener creation, we need it to be
     * empty for deletion. The id should not need to be reset though.
     */
    listener.id = 0;
    memset(listener.name, 0, sizeof(listener.name));
#endif
    if (hc_connection_list(s, &connections) < 0) {
        ERROR("[hc_face_delete] Error getting the list of listeners");
        return -1;
    }

    bool delete = true;
    foreach_connection(c, connections) {
        if ((ip_address_cmp(&c->local_addr, &listener.local_addr, c->family) == 0) &&
            (c->local_port == listener.local_port) &&
                (strcmp(c->interface_name, listener.interface_name) == 0)) {
            delete = false;
        }
    }

    if (delete) {
        if (hc_listener_delete(s, &listener) < 0) {
            ERROR("[hc_face_delete] Error removing listener");
            return -1;
        }
    }

    hc_data_free(connections);

    return 0;


}

/* FACE LIST */

int
hc_face_list(hc_sock_t * s, hc_data_t ** pdata)
{
    hc_data_t * connection_data;
    hc_face_t face;

    DEBUG("[hc_face_list]");

    if (hc_connection_list(s, &connection_data) < 0) {
        ERROR("[hc_face_list] Could not list connections.");
        return -1;
    }

    hc_data_t * face_data = hc_data_create(sizeof(hc_connection_t), sizeof(hc_face_t), NULL);
    foreach_connection(c, connection_data) {
        if (hc_connection_to_face(c, &face) < 0) {
            ERROR("[hc_face_list] Could not convert connection to face.");
            goto ERR;
        }
        hc_data_push(face_data, &face);
    }

    *pdata = face_data;
    hc_data_free(connection_data);
    return 0;

ERR:
    hc_data_free(connection_data);
    return -1;
}

int
hc_connection_parse_to_face(void * in, hc_face_t * face)
{
    hc_connection_t connection;

    if (hc_connection_parse(in, &connection) < 0) {
        ERROR("[hc_connection_parse_to_face] Could not parse connection");
        return -1;
    }

    if (hc_connection_to_face(&connection, face) < 0) {
        ERROR("[hc_connection_parse_to_face] Could not convert connection to face.");
        return -1;
    }

    return 0;
}


int
hc_face_list_async(hc_sock_t * s)
{
    struct {
        header_control_message hdr;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = LIST_CONNECTIONS,
            .length = 0,
            .seqNum = 0,
        },
    };

    hc_command_params_t params = {
        .cmd = ACTION_LIST,
        .cmd_id = LIST_CONNECTIONS,
        .size_in = sizeof(list_connections_command),
        .size_out = sizeof(hc_face_t),
        .parse = (HC_PARSE)hc_connection_parse_to_face,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, true);
}

/* /!\ Please update constants in header file upon changes */
int
hc_face_snprintf(char * s, size_t size, hc_face_t * face)
{
    /* URLs are also big enough to contain IP addresses in the hICN case */
    char local[MAXSZ_URL];
    char remote[MAXSZ_URL];
#ifdef WITH_POLICY
    char tags[MAXSZ_POLICY_TAGS];
#endif /* WITH_POLICY */
    int rc;

    switch(face->face.type) {
        case FACE_TYPE_HICN:
        case FACE_TYPE_HICN_LISTENER:
            rc = ip_address_snprintf(local, MAXSZ_URL,
                    &face->face.local_addr,
                    face->face.family);
            if (rc >= MAXSZ_URL)
                WARN("[hc_face_snprintf] Unexpected truncation of URL string");
            if (rc < 0)
                return rc;
            rc = ip_address_snprintf(remote, MAXSZ_URL,
                    &face->face.remote_addr,
                    face->face.family);
            if (rc >= MAXSZ_URL)
                WARN("[hc_face_snprintf] Unexpected truncation of URL string");
            if (rc < 0)
                return rc;
            break;
        case FACE_TYPE_TCP:
        case FACE_TYPE_UDP:
        case FACE_TYPE_TCP_LISTENER:
        case FACE_TYPE_UDP_LISTENER:
            rc = url_snprintf(local, MAXSZ_URL, face->face.family,
                    &face->face.local_addr,
                    face->face.local_port);
            if (rc >= MAXSZ_URL)
                WARN("[hc_face_snprintf] Unexpected truncation of URL string");
            if (rc < 0)
                return rc;
            rc = url_snprintf(remote, MAXSZ_URL, face->face.family,
                    &face->face.remote_addr,
                    face->face.remote_port);
            if (rc >= MAXSZ_URL)
                WARN("[hc_face_snprintf] Unexpected truncation of URL string");
            if (rc < 0)
                return rc;
            break;
        default:
            return -1;
    }

    // [#ID NAME] TYPE LOCAL_URL REMOTE_URL STATE/ADMIN_STATE (TAGS)
#ifdef WITH_POLICY
    rc = policy_tags_snprintf(tags, MAXSZ_POLICY_TAGS, face->face.tags);
    if (rc >= MAXSZ_POLICY_TAGS)
        WARN("[hc_face_snprintf] Unexpected truncation of policy tags string");
    if (rc < 0)
        return rc;

    return snprintf(s, size, "[#%d %s] %s %s %s %s %s/%s [%d] (%s)",
            face->id,
            face->name,
            face->face.netdevice.index != NETDEVICE_UNDEFINED_INDEX ? face->face.netdevice.name : "*",
            face_type_str[face->face.type],
            local,
            remote,
            face_state_str[face->face.state],
            face_state_str[face->face.admin_state],
            face->face.priority,
            tags);
#else
    return snprintf(s, size, "[#%d %s] %s %s %s %s %s/%s",
            face->id,
            face->name,
            face->face.netdevice.index != NETDEVICE_UNDEFINED_INDEX ? face->face.netdevice.name : "*",
            face_type_str[face->face.type],
            local,
            remote,
            face_state_str[face->face.state],
            face_state_str[face->face.admin_state]);
#endif /* WITH_POLICY */
}

int
hc_face_set_admin_state(hc_sock_t * s, const char * conn_id_or_name,
        face_state_t admin_state)
{
    return hc_connection_set_admin_state(s, conn_id_or_name, admin_state);
}

int
hc_face_set_priority(hc_sock_t * s, const char * conn_id_or_name,
        uint32_t priority)
{
    return hc_connection_set_priority(s, conn_id_or_name, priority);
}

/*----------------------------------------------------------------------------*
 * Punting
 *----------------------------------------------------------------------------*/

int
_hc_punting_create(hc_sock_t * s, hc_punting_t * punting, bool async)
{
    int rc;

    if (hc_punting_validate(punting) < 0)
        return -1;

    struct {
        header_control_message hdr;
        add_punting_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = ADD_PUNTING,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .address = punting->prefix,
            .addressType = (u8)map_to_addr_type[punting->family],
            .len = punting->prefix_len,
        }
    };
    rc = snprintf(msg.payload.symbolicOrConnid, SYMBOLIC_NAME_LEN, "%d", punting->face_id);
    if (rc >= SYMBOLIC_NAME_LEN)
        WARN("[_hc_punting_create] Unexpected truncation of symbolic name string");

    hc_command_params_t params = {
        .cmd = ACTION_CREATE,
        .cmd_id = ADD_PUNTING,
        .size_in = sizeof(add_punting_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_punting_create(hc_sock_t * s, hc_punting_t * punting)
{
    return _hc_punting_create(s, punting, false);
}

int
hc_punting_create_async(hc_sock_t * s, hc_punting_t * punting)
{
    return _hc_punting_create(s, punting, true);
}

int hc_punting_get(hc_sock_t * s, hc_punting_t * punting, hc_punting_t ** punting_found)
{
    ERROR("hc_punting_get not (yet) implemented.");
    return -1;
}

int hc_punting_delete(hc_sock_t * s, hc_punting_t * punting)
{
    ERROR("hc_punting_delete not (yet) implemented.");
    return -1;
}

int hc_punting_list(hc_sock_t * s, hc_data_t ** pdata)
{
    ERROR("hc_punting_list not (yet) implemented.");
    return -1;
}

int hc_punting_validate(const hc_punting_t * punting)
{
    if (!IS_VALID_FAMILY(punting->family))
         return -1;

    /*
     * We might use the zero value to add punting on all faces but this is not
     * (yet) implemented
     */
    if (punting->face_id == 0) {
        ERROR("Punting on all faces is not (yet) implemented.");
        return -1;
    }

    return 0;
}

int hc_punting_cmp(const hc_punting_t * p1, const hc_punting_t * p2)
{
    int rc;

    rc = INT_CMP(p1->face_id, p2->face_id);
    if (rc != 0)
        return rc;

    rc = INT_CMP(p1->family, p2->family);
    if (rc != 0)
        return rc;

    rc = ip_address_cmp(&p1->prefix, &p2->prefix, p1->family);
    if (rc != 0)
        return rc;

    rc = INT_CMP(p1->prefix_len, p2->prefix_len);
    if (rc != 0)
        return rc;

    return rc;
}

int hc_punting_parse(void * in, hc_punting_t * punting)
{
    ERROR("hc_punting_parse not (yet) implemented.");
    return -1;
}

int hc_punting_snprintf(char * s, size_t size, hc_punting_t * punting)
{
    ERROR("hc_punting_snprintf not (yet) implemented.");
    return -1;
}


/*----------------------------------------------------------------------------*
 * Cache
 *----------------------------------------------------------------------------*/

int
_hc_cache_set_store(hc_sock_t * s, int enabled, bool async)
{
    struct {
        header_control_message hdr;
        cache_store_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = CACHE_STORE,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .activate = enabled,
        }
    };

    hc_command_params_t params = {
        .cmd = ACTION_SET,
        .cmd_id = CACHE_STORE,
        .size_in = sizeof(cache_store_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_cache_set_store(hc_sock_t * s, int enabled)
{
    return _hc_cache_set_store(s, enabled, false);
}

int
hc_cache_set_store_async(hc_sock_t * s, int enabled)
{
    return _hc_cache_set_store(s, enabled, true);
}

int
_hc_cache_set_serve(hc_sock_t * s, int enabled, bool async)
{
    struct {
        header_control_message hdr;
        cache_serve_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = CACHE_SERVE,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .activate = enabled,
        }
    };

    hc_command_params_t params = {
        .cmd = ACTION_SET,
        .cmd_id = CACHE_SERVE,
        .size_in = sizeof(cache_serve_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_cache_set_serve(hc_sock_t * s, int enabled)
{
    return _hc_cache_set_serve(s, enabled, false);
}

int
hc_cache_set_serve_async(hc_sock_t * s, int enabled)
{
    return _hc_cache_set_serve(s, enabled, true);
}

/*----------------------------------------------------------------------------*
 * Strategy
 *----------------------------------------------------------------------------*/

// per prefix
int
hc_strategy_set(hc_sock_t * s /* XXX */)
{
     return 0;
}

/* How to retrieve that from the forwarder ? */
static const char * strategies[] = {
    "random",
    "load_balancer",
};

#define ARRAY_SIZE(array) (sizeof(array) / sizeof(*array))

int
hc_strategy_list(hc_sock_t * s, hc_data_t ** data)
{
    int rc;

    *data = hc_data_create(0, sizeof(hc_strategy_t), NULL);

    for (unsigned i = 0; i < ARRAY_SIZE(strategies); i++) {
        hc_strategy_t * strategy = (hc_strategy_t*)hc_data_get_next(*data);
        if (!strategy)
             return -1;
        rc = snprintf(strategy->name, MAXSZ_HC_STRATEGY, "%s", strategies[i]);
        if (rc >= MAXSZ_HC_STRATEGY)
            WARN("[hc_strategy_list] Unexpected truncation of strategy name string");
        (*data)->size++;
    }

    return 0;
}

/* /!\ Please update constants in header file upon changes */
int
hc_strategy_snprintf(char * s, size_t size, hc_strategy_t * strategy)
{
    return snprintf(s, size, "%s", strategy->name);
}

/*----------------------------------------------------------------------------*
 * WLDR
 *----------------------------------------------------------------------------*/

// per connection
int
hc_wldr_set(hc_sock_t * s /* XXX */)
{
     return 0;
}

/*----------------------------------------------------------------------------*
 * MAP-Me
 *----------------------------------------------------------------------------*/

int
hc_mapme_set(hc_sock_t * s, int enabled)
{
     return 0;
}

int
hc_mapme_set_discovery(hc_sock_t * s, int enabled)
{
     return 0;
}

int
hc_mapme_set_timescale(hc_sock_t * s, double timescale)
{
     return 0;
}

int
hc_mapme_set_retx(hc_sock_t * s, double timescale)
{
     return 0;
}

/*----------------------------------------------------------------------------*
 * Policy
 *----------------------------------------------------------------------------*/

#ifdef WITH_POLICY

/* POLICY CREATE */

int
_hc_policy_create(hc_sock_t * s, hc_policy_t * policy, bool async)
{
    if (!IS_VALID_FAMILY(policy->family))
         return -1;

    struct {
        header_control_message hdr;
        add_policy_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = ADD_POLICY,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .address = policy->remote_addr,
            .addressType = (u8)map_to_addr_type[policy->family],
            .len = policy->len,
            .policy = policy->policy,
        }
    };

    hc_command_params_t params = {
        .cmd = ACTION_CREATE,
        .cmd_id = ADD_POLICY,
        .size_in = sizeof(add_policy_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_policy_create(hc_sock_t * s, hc_policy_t * policy)
{
    return _hc_policy_create(s, policy, false);
}

int
hc_policy_create_async(hc_sock_t * s, hc_policy_t * policy)
{
    return _hc_policy_create(s, policy, true);
}

/* POLICY DELETE */

int
_hc_policy_delete(hc_sock_t * s, hc_policy_t * policy, bool async)
{
    if (!IS_VALID_FAMILY(policy->family))
         return -1;

    struct {
        header_control_message hdr;
        remove_policy_command payload;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = REMOVE_POLICY,
            .length = 1,
            .seqNum = 0,
        },
        .payload = {
            .address = policy->remote_addr,
            .addressType = (u8)map_to_addr_type[policy->family],
            .len = policy->len,
        }
    };

    hc_command_params_t params = {
        .cmd = ACTION_DELETE,
        .cmd_id = REMOVE_POLICY,
        .size_in = sizeof(remove_policy_command),
        .size_out = 0,
        .parse = NULL,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, NULL, async);
}

int
hc_policy_delete(hc_sock_t * s, hc_policy_t * policy)
{
    return _hc_policy_delete(s, policy, false);
}

int
hc_policy_delete_async(hc_sock_t * s, hc_policy_t * policy)
{
    return _hc_policy_delete(s, policy, true);
}

/* POLICY LIST */

int
_hc_policy_list(hc_sock_t * s, hc_data_t ** pdata, bool async)
{
    struct {
        header_control_message hdr;
    } msg = {
        .hdr = {
            .messageType = REQUEST_LIGHT,
            .commandID = LIST_POLICIES,
            .length = 0,
            .seqNum = 0,
        },
    };

    hc_command_params_t params = {
        .cmd = ACTION_LIST,
        .cmd_id = LIST_POLICIES,
        .size_in = sizeof(list_policies_command),
        .size_out = sizeof(hc_policy_t),
        .parse = (HC_PARSE)hc_policy_parse,
    };

    return hc_execute_command(s, (hc_msg_t*)&msg, sizeof(msg), &params, pdata, async);
}

int
hc_policy_list(hc_sock_t * s, hc_data_t ** pdata)
{
    return _hc_policy_list(s, pdata, false);
}

int
hc_policy_list_async(hc_sock_t * s, hc_data_t ** pdata)
{
    return _hc_policy_list(s, pdata, true);
}

/* POLICY PARSE */

int
hc_policy_parse(void * in, hc_policy_t * policy)
{
    list_policies_command * cmd = (list_policies_command *) in;

    if (!IS_VALID_ADDR_TYPE(cmd->addressType))
         return -1;

    int family = map_from_addr_type[cmd->addressType];
    if (!IS_VALID_FAMILY(family))
         return -1;

    *policy = (hc_policy_t) {
        .family = family,
        .remote_addr = UNION_CAST(cmd->address, ip_address_t),
        .len = cmd->len,
        .policy = cmd->policy,
    };
    return 0;
}

/* POLICY SNPRINTF */

/* /!\ Please update constants in header file upon changes */
int
hc_policy_snprintf(char * s, size_t size, hc_policy_t * policy)
{
     return 0;
}

#endif /* WITH_POLICY */