reference/develop/coap__mbedtls_8c_source.html

/*

 * coap_mbedtls.c -- Mbed TLS Datagram Transport Layer Support for libcoap

 *

 * Copyright (C) 2019-2025 Jon Shallow <supjps-libcoap@jpshallow.com>

 *               2019      Jitin George <jitin@espressif.com>

 *

 * SPDX-License-Identifier: BSD-2-Clause

 *

 * This file is part of the CoAP library libcoap. Please see README for terms

 * of use.

 */


/*

 * Naming used to prevent confusion between coap sessions, mbedtls sessions etc.

 * when reading the code.

 *

 * c_context  A coap_context_t *

 * c_session  A coap_session_t *

 * m_context  A coap_mbedtls_context_t * (held in c_context->dtls_context)

 * m_env      A coap_mbedtls_env_t * (held in c_session->tls)

 */


/*

 * Notes

 *

 * Version 3.2.0 or later is needed to provide Connection ID support (RFC9146).

 *

 */


#include "coap3/coap_libcoap_build.h"


#if COAP_WITH_LIBMBEDTLS


/*

 * This code can be conditionally compiled to remove some components if

 * they are not required to make a lighter footprint - all based on how

 * the mbedtls library has been built.  These are not defined within the

 * libcoap environment.

 *

 * MBEDTLS_SSL_SRV_C - defined for server side functionality

 * MBEDTLS_SSL_CLI_C - defined for client side functionality

 * MBEDTLS_SSL_PROTO_DTLS - defined for DTLS support

 * MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED - defined if PSK is to be supported

 * or MBEDTLS_KEY_EXCHANGE_SOME_PSK_ENABLED - defined if PSK is to be supported

 *

 */


#include <mbedtls/version.h>


/* Keep forward-compatibility with Mbed TLS 3.x */

#if (MBEDTLS_VERSION_NUMBER < 0x03000000)

#define MBEDTLS_2_X_COMPAT

#else /* !(MBEDTLS_VERSION_NUMBER < 0x03000000) */

/* Macro wrapper for struct's private members */

#ifndef MBEDTLS_ALLOW_PRIVATE_ACCESS

#define MBEDTLS_ALLOW_PRIVATE_ACCESS

#endif /* MBEDTLS_ALLOW_PRIVATE_ACCESS */

#endif /* !(MBEDTLS_VERSION_NUMBER < 0x03000000) */


#include <mbedtls/platform.h>

#include <mbedtls/net_sockets.h>

#include <mbedtls/ssl.h>

#include <mbedtls/entropy.h>

#include <mbedtls/ctr_drbg.h>

#include <mbedtls/error.h>

#include <mbedtls/timing.h>

#include <mbedtls/ssl_cookie.h>

#include <mbedtls/oid.h>

#include <mbedtls/debug.h>

#include <mbedtls/sha256.h>

#if defined(ESPIDF_VERSION) && defined(CONFIG_MBEDTLS_DEBUG)

#include <mbedtls/esp_debug.h>

#endif /* ESPIDF_VERSION && CONFIG_MBEDTLS_DEBUG */

#if defined(MBEDTLS_PSA_CRYPTO_C)

#include <psa/crypto.h>

#endif /* MBEDTLS_PSA_CRYPTO_C */


#ifdef _WIN32

#include <stdlib.h>

#include <string.h>

static char *

strndup(const char *s1, size_t n) {

  char *copy = (char *)malloc(n + 1);

  if (copy) {

    memcpy(copy, s1, n);

    copy[n] = 0;

  }

  return copy;

}

#endif /* _WIN32 */


#define mbedtls_malloc(a) malloc(a)

#define mbedtls_realloc(a,b) realloc(a,b)

#define mbedtls_strdup(a) strdup(a)

#define mbedtls_strndup(a,b) strndup(a,b)

#undef mbedtls_free

#define mbedtls_free(a) free(a)


#ifndef MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED

/* definition changed in later mbedtls code versions */

#ifdef MBEDTLS_KEY_EXCHANGE_SOME_PSK_ENABLED

#define MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED

#endif /* MBEDTLS_KEY_EXCHANGE_SOME_PSK_ENABLED */

#endif /* ! MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */


#if ! COAP_SERVER_SUPPORT

#undef MBEDTLS_SSL_SRV_C

#endif /* ! COAP_SERVER_SUPPORT */

#if ! COAP_CLIENT_SUPPORT

#undef MBEDTLS_SSL_CLI_C

#endif /* ! COAP_CLIENT_SUPPORT */


#ifdef _WIN32

#define strcasecmp _stricmp

#endif


#define IS_PSK (1 << 0)

#define IS_PKI (1 << 1)

#define IS_CLIENT (1 << 6)

#define IS_SERVER (1 << 7)


typedef struct coap_ssl_t {

  const uint8_t *pdu;

  unsigned pdu_len;

  unsigned peekmode;

} coap_ssl_t;


/*

 * This structure encapsulates the Mbed TLS session object.

 * It handles both TLS and DTLS.

 * c_session->tls points to this.

 */

typedef struct coap_mbedtls_env_t {

  mbedtls_ssl_context ssl;

  mbedtls_entropy_context entropy;

  mbedtls_ctr_drbg_context ctr_drbg;

  mbedtls_ssl_config conf;

  mbedtls_timing_delay_context timer;

  mbedtls_x509_crt cacert;

  mbedtls_x509_crt public_cert;

  mbedtls_pk_context private_key;

  mbedtls_ssl_cookie_ctx cookie_ctx;

  /* If not set, need to do do_mbedtls_handshake */

  int established;

  int sent_alert;

  int seen_client_hello;

  int ec_jpake;

  coap_tick_t last_timeout;

  unsigned int retry_scalar;

  coap_ssl_t coap_ssl_data;

  uint32_t server_hello_cnt;

} coap_mbedtls_env_t;


typedef struct pki_sni_entry {

  char *sni;

  coap_dtls_key_t pki_key;

  mbedtls_x509_crt cacert;

  mbedtls_x509_crt public_cert;

  mbedtls_pk_context private_key;

} pki_sni_entry;


typedef struct psk_sni_entry {

  char *sni;

  coap_dtls_spsk_info_t psk_info;

} psk_sni_entry;


typedef struct coap_mbedtls_context_t {

  coap_dtls_pki_t setup_data;

  size_t pki_sni_count;

  pki_sni_entry *pki_sni_entry_list;

  size_t psk_sni_count;

  psk_sni_entry *psk_sni_entry_list;

  char *root_ca_file;

  char *root_ca_path;

  int trust_store_defined;

  int psk_pki_enabled;

} coap_mbedtls_context_t;


typedef enum coap_enc_method_t {

  COAP_ENC_PSK,

  COAP_ENC_PKI,

  COAP_ENC_ECJPAKE,

} coap_enc_method_t;


#ifdef __ZEPHYR__


typedef struct {

  uint32_t start_time;

  uint32_t int_time;

  uint32_t fin_time;

} zephyr_timing_delay_context;


static void

zephyr_timing_set_delay(void *data, uint32_t int_ms, uint32_t fin_ms) {

  zephyr_timing_delay_context *ctx = (zephyr_timing_delay_context *)data;


  if (ctx == NULL) {

    return;

  }


  ctx->start_time = k_uptime_get_32();


  if (fin_ms != 0) {

    ctx->int_time = ctx->start_time + int_ms;

    ctx->fin_time = ctx->start_time + fin_ms;

  } else {

    ctx->int_time = 0;

    ctx->fin_time = 0;

  }

}


static int

zephyr_timing_get_delay(void *data) {

  zephyr_timing_delay_context *ctx = (zephyr_timing_delay_context *)data;

  uint32_t now;


  if (ctx == NULL || ctx->fin_time == 0) {

    return -1;

  }


  now = k_uptime_get_32();


  if (now >= ctx->fin_time) {

    return 2;

  }


  if (now >= ctx->int_time) {

    return 1;

  }


  return 0;

}


#endif /* __ZEPHYR__ */


#ifndef MBEDTLS_2_X_COMPAT

/*

 * mbedtls_ callback functions expect 0 on success, -ve on failure.

 */

static int

coap_rng(void *ctx COAP_UNUSED, unsigned char *buf, size_t len) {

  return coap_prng_lkd(buf, len) ? 0 : MBEDTLS_ERR_CTR_DRBG_ENTROPY_SOURCE_FAILED;

}

#endif /* MBEDTLS_2_X_COMPAT */


static int

coap_dgram_read(void *ctx, unsigned char *out, size_t outl) {

  ssize_t ret = 0;

  coap_session_t *c_session = (coap_session_t *)ctx;

  coap_ssl_t *data;


  if (!c_session->tls) {

    errno = EAGAIN;

    return MBEDTLS_ERR_SSL_WANT_READ;

  }

  data = &((coap_mbedtls_env_t *)c_session->tls)->coap_ssl_data;


  if (out != NULL) {

    if (data->pdu_len > 0) {

      if (outl < data->pdu_len) {

        memcpy(out, data->pdu, outl);

        ret = outl;

        data->pdu += outl;

        data->pdu_len -= outl;

      } else {

        memcpy(out, data->pdu, data->pdu_len);

        ret = data->pdu_len;

        if (!data->peekmode) {

          data->pdu_len = 0;

          data->pdu = NULL;

        }

      }

    } else {

      ret = MBEDTLS_ERR_SSL_WANT_READ;

      errno = EAGAIN;

    }

  }

  return ret;

}


/*

 * return +ve data amount

 *        0   no more

 *        -ve  Mbed TLS error

 */

/* callback function given to mbedtls for sending data over socket */

static int

coap_dgram_write(void *ctx, const unsigned char *send_buffer,

                 size_t send_buffer_length) {

  ssize_t result = -1;

  coap_session_t *c_session = (coap_session_t *)ctx;


  if (c_session) {

    coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;


    if (!coap_netif_available(c_session)

#if COAP_SERVER_SUPPORT

        && c_session->endpoint == NULL

#endif /* COAP_SERVER_SUPPORT */

       ) {

      /* socket was closed on client due to error */

      errno = ECONNRESET;

      return -1;

    }

    result = (int)c_session->sock.lfunc[COAP_LAYER_TLS].l_write(c_session,

                                                                send_buffer, send_buffer_length);

    if (result != (ssize_t)send_buffer_length) {

      int keep_errno = errno;


      coap_log_warn("coap_netif_dgrm_write failed (%zd != %zu)\n",

                    result, send_buffer_length);

      errno = keep_errno;

      if (result < 0) {

        if (errno == ENOTCONN || errno == ECONNREFUSED)

          c_session->dtls_event = COAP_EVENT_DTLS_ERROR;

        return -1;

      } else {

        result = 0;

      }

    } else if (m_env) {

      coap_tick_t now;

      coap_ticks(&now);

      m_env->last_timeout = now;

    }

  } else {

    result = 0;

  }

  return result;

}


#if defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED) && defined(MBEDTLS_SSL_SRV_C)

/*

 * Server side PSK callback

 */

static int

psk_server_callback(void *p_info, mbedtls_ssl_context *ssl,

                    const unsigned char *identity, size_t identity_len) {

  coap_session_t *c_session = (coap_session_t *)p_info;

  coap_dtls_spsk_t *setup_data;

  coap_mbedtls_env_t *m_env;

  coap_bin_const_t lidentity;

  const coap_bin_const_t *psk_key;


  if (c_session == NULL)

    return -1;


  /* Track the Identity being used */

  lidentity.s = identity ? (const uint8_t *)identity : (const uint8_t *)"";

  lidentity.length = identity ? identity_len : 0;

  coap_session_refresh_psk_identity(c_session, &lidentity);


  coap_log_debug("got psk_identity: '%.*s'\n",

                 (int)lidentity.length, (const char *)lidentity.s);


  m_env = (coap_mbedtls_env_t *)c_session->tls;

  setup_data = &c_session->context->spsk_setup_data;


  if (setup_data->validate_id_call_back) {

    psk_key = setup_data->validate_id_call_back(&lidentity,

                                                c_session,

                                                setup_data->id_call_back_arg);


    coap_session_refresh_psk_key(c_session, psk_key);

  } else {

    psk_key = coap_get_session_server_psk_key(c_session);

  }


  if (psk_key == NULL)

    return -1;

  mbedtls_ssl_set_hs_psk(ssl, psk_key->s, psk_key->length);

  m_env->seen_client_hello = 1;

  return 0;

}

#endif /* MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED && MBEDTLS_SSL_SRV_C */


static char *

get_san_or_cn_from_cert(mbedtls_x509_crt *crt) {

  if (crt) {

    const mbedtls_asn1_named_data *cn_data;


    if (crt->ext_types & MBEDTLS_X509_EXT_SUBJECT_ALT_NAME) {

      mbedtls_asn1_sequence *seq = &crt->subject_alt_names;

      while (seq && seq->buf.p == NULL) {

        seq = seq->next;

      }

      if (seq) {

        /* Return the Subject Alt Name */

        return mbedtls_strndup((const char *)seq->buf.p,

                               seq->buf.len);

      }

    }


    cn_data = mbedtls_asn1_find_named_data(&crt->subject,

                                           MBEDTLS_OID_AT_CN,

                                           MBEDTLS_OID_SIZE(MBEDTLS_OID_AT_CN));

    if (cn_data) {

      /* Return the Common Name */

      return mbedtls_strndup((const char *)cn_data->val.p,

                             cn_data->val.len);

    }

  }

  return NULL;

}


#if COAP_MAX_LOGGING_LEVEL > 0

static char *

get_error_string(int ret) {

  static char buf[128] = {0};

  mbedtls_strerror(ret, buf, sizeof(buf)-1);

  return buf;

}

#endif /* COAP_MAX_LOGGING_LEVEL */


static int

self_signed_cert_verify_callback_mbedtls(void *data,

                                         mbedtls_x509_crt *crt COAP_UNUSED,

                                         int depth COAP_UNUSED,

                                         uint32_t *flags) {

  const coap_session_t *c_session = (coap_session_t *)data;

  const coap_mbedtls_context_t *m_context =

      (coap_mbedtls_context_t *)c_session->context->dtls_context;

  const coap_dtls_pki_t *setup_data = &m_context->setup_data;


  if (*flags & MBEDTLS_X509_BADCERT_EXPIRED) {

    if (setup_data->allow_expired_certs) {

      *flags &= ~MBEDTLS_X509_BADCERT_EXPIRED;

    }

  }

  return 0;

}


/*

 * return 0 All OK

 *        -ve Error Code

 */

static int

cert_verify_callback_mbedtls(void *data, mbedtls_x509_crt *crt,

                             int depth, uint32_t *flags) {

  coap_session_t *c_session = (coap_session_t *)data;

  coap_mbedtls_context_t *m_context =

      (coap_mbedtls_context_t *)c_session->context->dtls_context;

  coap_dtls_pki_t *setup_data = &m_context->setup_data;

  char *cn = NULL;


  if (*flags == 0)

    return 0;


  cn = get_san_or_cn_from_cert(crt);


  if (*flags & MBEDTLS_X509_BADCERT_EXPIRED) {

    if (setup_data->allow_expired_certs) {

      *flags &= ~MBEDTLS_X509_BADCERT_EXPIRED;

      coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                    coap_session_str(c_session),

                    "The certificate has expired", cn ? cn : "?", depth);

    }

  }

  if (*flags & MBEDTLS_X509_BADCERT_FUTURE) {

    if (setup_data->allow_expired_certs) {

      *flags &= ~MBEDTLS_X509_BADCERT_FUTURE;

      coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                    coap_session_str(c_session),

                    "The certificate has a future date", cn ? cn : "?", depth);

    }

  }

  if (*flags & MBEDTLS_X509_BADCERT_BAD_MD) {

    if (setup_data->allow_bad_md_hash) {

      *flags &= ~MBEDTLS_X509_BADCERT_BAD_MD;

      coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                    coap_session_str(c_session),

                    "The certificate has a bad MD hash", cn ? cn : "?", depth);

    }

  }

  if (*flags & MBEDTLS_X509_BADCERT_BAD_KEY) {

    if (setup_data->allow_short_rsa_length) {

      *flags &= ~MBEDTLS_X509_BADCERT_BAD_KEY;

      coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                    coap_session_str(c_session),

                    "The certificate has a short RSA length", cn ? cn : "?", depth);

    }

  }

  if (*flags & MBEDTLS_X509_BADCERT_NOT_TRUSTED) {

    uint32_t lflags;

    int self_signed = !mbedtls_x509_crt_verify(crt, crt, NULL, NULL, &lflags,

                                               self_signed_cert_verify_callback_mbedtls,

                                               data);

    if (self_signed && depth == 0) {

      if (setup_data->allow_self_signed &&

          !setup_data->check_common_ca) {

        *flags &= ~MBEDTLS_X509_BADCERT_NOT_TRUSTED;

        coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                      coap_session_str(c_session),

                      "Self-signed",

                      cn ? cn : "?", depth);

      }

    } else if (self_signed) {

      if (!setup_data->verify_peer_cert) {

        *flags &= ~MBEDTLS_X509_BADCERT_NOT_TRUSTED;

        coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                      coap_session_str(c_session),

                      "Self-signed", cn ? cn : "?", depth);

      }

    } else {

      if (!setup_data->verify_peer_cert) {

        *flags &= ~MBEDTLS_X509_BADCERT_NOT_TRUSTED;

        coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                      coap_session_str(c_session),

                      "The certificate's CA is not trusted", cn ? cn : "?", depth);

      }

    }

  }

  if (*flags & MBEDTLS_X509_BADCRL_EXPIRED) {

    if (setup_data->check_cert_revocation && setup_data->allow_expired_crl) {

      *flags &= ~MBEDTLS_X509_BADCRL_EXPIRED;

      coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                    coap_session_str(c_session),

                    "The certificate's CRL has expired", cn ? cn : "?", depth);

    } else if (!setup_data->check_cert_revocation) {

      *flags &= ~MBEDTLS_X509_BADCRL_EXPIRED;

    }

  }

  if (*flags & MBEDTLS_X509_BADCRL_FUTURE) {

    if (setup_data->check_cert_revocation && setup_data->allow_expired_crl) {

      *flags &= ~MBEDTLS_X509_BADCRL_FUTURE;

      coap_log_info("   %s: %s: overridden: '%s' depth %d\n",

                    coap_session_str(c_session),

                    "The certificate's CRL has a future date", cn ? cn : "?", depth);

    } else if (!setup_data->check_cert_revocation) {

      *flags &= ~MBEDTLS_X509_BADCRL_FUTURE;

    }

  }

  if (setup_data->cert_chain_validation &&

      depth > (setup_data->cert_chain_verify_depth + 1)) {

    *flags |= MBEDTLS_X509_BADCERT_OTHER;

    coap_log_warn("   %s: %s: '%s' depth %d\n",

                  coap_session_str(c_session),

                  "The certificate's verify depth is too long",

                  cn ? cn : "?", depth);

  }


  if (*flags & MBEDTLS_X509_BADCERT_CN_MISMATCH) {

    *flags &= ~MBEDTLS_X509_BADCERT_CN_MISMATCH;

  }

  if (setup_data->validate_cn_call_back) {

    int ret;


    coap_lock_callback_ret(ret,

                           setup_data->validate_cn_call_back(cn,

                                                             crt->raw.p,

                                                             crt->raw.len,

                                                             c_session,

                                                             depth,

                                                             *flags == 0,

                                                             setup_data->cn_call_back_arg));

    if (!ret) {

      *flags |= MBEDTLS_X509_BADCERT_CN_MISMATCH;

    }

  }

  if (*flags != 0) {

    char buf[128];

    char *tcp;

    int ret = mbedtls_x509_crt_verify_info(buf, sizeof(buf), "", *flags);


    if (ret >= 0) {

      tcp = strchr(buf, '\n');

      while (tcp) {

        *tcp = '\000';

        coap_log_warn("   %s: %s: issue 0x%" PRIx32 ": '%s' depth %d\n",

                      coap_session_str(c_session),

                      buf, *flags, cn ? cn : "?", depth);

        tcp = strchr(tcp+1, '\n');

      }

    } else {

      coap_log_err("mbedtls_x509_crt_verify_info returned -0x%x: '%s'\n",

                   -ret, get_error_string(ret));

    }

  }


  if (cn)

    mbedtls_free(cn);


  return 0;

}


static int

setup_pki_credentials(mbedtls_x509_crt *cacert,

                      mbedtls_x509_crt *public_cert,

                      mbedtls_pk_context *private_key,

                      coap_mbedtls_env_t *m_env,

                      coap_mbedtls_context_t *m_context,

                      coap_session_t *c_session,

                      coap_dtls_pki_t *setup_data,

                      coap_dtls_role_t role) {

  coap_dtls_key_t key;

  int ret;

  int done_private_key = 0;

  int done_public_cert = 0;

  uint8_t *buffer;

  size_t length;


  /* Map over to the new define format to save code duplication */

  coap_dtls_map_key_type_to_define(setup_data, &key);


  assert(key.key_type == COAP_PKI_KEY_DEFINE);


  /*

   * Configure the Private Key

   */

  if (key.key.define.private_key.u_byte &&

      key.key.define.private_key.u_byte[0]) {

    switch (key.key.define.private_key_def) {

    case COAP_PKI_KEY_DEF_DER: /* define private key */

    /* Fall Through */

    case COAP_PKI_KEY_DEF_PEM: /* define private key */

#if defined(MBEDTLS_FS_IO)

      mbedtls_pk_init(private_key);

#ifdef MBEDTLS_2_X_COMPAT

      ret = mbedtls_pk_parse_keyfile(private_key,

                                     key.key.define.private_key.s_byte, NULL);

#else

      ret = mbedtls_pk_parse_keyfile(private_key,

                                     key.key.define.private_key.s_byte,

                                     NULL, coap_rng, (void *)&m_env->ctr_drbg);

#endif /* MBEDTLS_2_X_COMPAT */

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_PRIVATE,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      done_private_key = 1;

      break;

#else /* ! MBEDTLS_FS_IO */

      return coap_dtls_define_issue(COAP_DEFINE_KEY_PRIVATE,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

#endif /* ! MBEDTLS_FS_IO */

    case COAP_PKI_KEY_DEF_PEM_BUF: /* define private key */

      mbedtls_pk_init(private_key);

      length = key.key.define.private_key_len;

      if (key.key.define.private_key.u_byte[length-1] != '\000') {

        /* Need to allocate memory to add in NULL terminator */

        buffer = mbedtls_malloc(length + 1);

        if (!buffer) {

          coap_log_err("mbedtls_malloc failed\n");

          return 0;

        }

        memcpy(buffer, key.key.define.private_key.u_byte, length);

        buffer[length] = '\000';

        length++;

#ifdef MBEDTLS_2_X_COMPAT

        ret = mbedtls_pk_parse_key(private_key, buffer, length, NULL, 0);

#else

        ret = mbedtls_pk_parse_key(private_key, buffer, length,

                                   NULL, 0, coap_rng, (void *)&m_env->ctr_drbg);

#endif /* MBEDTLS_2_X_COMPAT */

        mbedtls_free(buffer);

      } else {

#ifdef MBEDTLS_2_X_COMPAT

        ret = mbedtls_pk_parse_key(private_key,

                                   key.key.define.private_key.u_byte,

                                   key.key.define.private_key_len, NULL, 0);

#else

        ret = mbedtls_pk_parse_key(private_key,

                                   key.key.define.private_key.u_byte,

                                   key.key.define.private_key_len,

                                   NULL, 0, coap_rng, (void *)&m_env->ctr_drbg);

#endif /* MBEDTLS_2_X_COMPAT */

      }

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_PRIVATE,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      done_private_key = 1;

      break;

    case COAP_PKI_KEY_DEF_DER_BUF: /* define private key */

      mbedtls_pk_init(private_key);

#ifdef MBEDTLS_2_X_COMPAT

      ret = mbedtls_pk_parse_key(private_key,

                                 key.key.define.private_key.u_byte,

                                 key.key.define.private_key_len, NULL, 0);

#else

      ret = mbedtls_pk_parse_key(private_key,

                                 key.key.define.private_key.u_byte,

                                 key.key.define.private_key_len, NULL, 0, coap_rng,

                                 (void *)&m_env->ctr_drbg);

#endif /* MBEDTLS_2_X_COMPAT */

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_PRIVATE,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      done_private_key = 1;

      break;

    case COAP_PKI_KEY_DEF_RPK_BUF: /* define private key */

    case COAP_PKI_KEY_DEF_PKCS11: /* define private key */

    case COAP_PKI_KEY_DEF_PKCS11_RPK: /* define private key */

    case COAP_PKI_KEY_DEF_ENGINE: /* define private key */

    default:

      return coap_dtls_define_issue(COAP_DEFINE_KEY_PRIVATE,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

    }

  } else if (role == COAP_DTLS_ROLE_SERVER ||

             (key.key.define.public_cert.u_byte &&

              key.key.define.public_cert.u_byte[0])) {

    return coap_dtls_define_issue(COAP_DEFINE_KEY_PRIVATE,

                                  COAP_DEFINE_FAIL_NONE,

                                  &key, role, -1);

  }


  /*

   * Configure the Public Certificate / Key

   */

  if (key.key.define.public_cert.u_byte &&

      key.key.define.public_cert.u_byte[0]) {

    switch (key.key.define.public_cert_def) {

    case COAP_PKI_KEY_DEF_DER: /* define public cert */

    /* Fall Through */

    case COAP_PKI_KEY_DEF_PEM: /* define public cert */

#if defined(MBEDTLS_FS_IO)

      mbedtls_x509_crt_init(public_cert);

      ret = mbedtls_x509_crt_parse_file(public_cert,

                                        key.key.define.public_cert.s_byte);

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_PUBLIC,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      done_public_cert = 1;

      break;

#else /* ! MBEDTLS_FS_IO */

      return coap_dtls_define_issue(COAP_DEFINE_KEY_PUBLIC,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

#endif /* ! MBEDTLS_FS_IO */

    case COAP_PKI_KEY_DEF_PEM_BUF: /* define public cert */

      mbedtls_x509_crt_init(public_cert);


      length = key.key.define.public_cert_len;

      if (key.key.define.public_cert.u_byte[length-1] != '\000') {

        /* Need to allocate memory to add in NULL terminator */

        buffer = mbedtls_malloc(length + 1);

        if (!buffer) {

          coap_log_err("mbedtls_malloc failed\n");

          return 0;

        }

        memcpy(buffer, key.key.define.public_cert.u_byte, length);

        buffer[length] = '\000';

        length++;

        ret = mbedtls_x509_crt_parse(public_cert, buffer, length);

        mbedtls_free(buffer);

      } else {

        ret = mbedtls_x509_crt_parse(public_cert,

                                     key.key.define.public_cert.u_byte,

                                     key.key.define.public_cert_len);

      }

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_PUBLIC,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      done_public_cert = 1;

      break;

    case COAP_PKI_KEY_DEF_RPK_BUF: /* define public cert */

      return coap_dtls_define_issue(COAP_DEFINE_KEY_PUBLIC,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

    case COAP_PKI_KEY_DEF_DER_BUF: /* define public cert */

      mbedtls_x509_crt_init(public_cert);

      ret = mbedtls_x509_crt_parse(public_cert,

                                   key.key.define.public_cert.u_byte,

                                   key.key.define.public_cert_len);

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_PUBLIC,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      done_public_cert = 1;

      break;

    case COAP_PKI_KEY_DEF_PKCS11: /* define public cert */

    case COAP_PKI_KEY_DEF_PKCS11_RPK: /* define public cert */

    case COAP_PKI_KEY_DEF_ENGINE: /* define public cert */

    default:

      return coap_dtls_define_issue(COAP_DEFINE_KEY_PUBLIC,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

    }

  } else if (role == COAP_DTLS_ROLE_SERVER ||

             (key.key.define.private_key.u_byte &&

              key.key.define.private_key.u_byte[0])) {

    return coap_dtls_define_issue(COAP_DEFINE_KEY_PUBLIC,

                                  COAP_DEFINE_FAIL_NONE,

                                  &key, role, -1);

  }


  if (done_private_key && done_public_cert) {

    ret = mbedtls_ssl_conf_own_cert(&m_env->conf, public_cert, private_key);

    if (ret < 0) {

      coap_log_err("mbedtls_ssl_conf_own_cert returned -0x%x: '%s'\n",

                   -ret, get_error_string(ret));

      return 0;

    }

  }


  /*

   * Configure the CA

   */

  if (

      key.key.define.ca.u_byte &&

      key.key.define.ca.u_byte[0]) {

    switch (key.key.define.ca_def) {

    case COAP_PKI_KEY_DEF_DER: /* define ca */

    /* Fall Through */

    case COAP_PKI_KEY_DEF_PEM:

#if defined(MBEDTLS_FS_IO)

      mbedtls_x509_crt_init(cacert);

      ret = mbedtls_x509_crt_parse_file(cacert,

                                        key.key.define.ca.s_byte);

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_CA,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      mbedtls_ssl_conf_ca_chain(&m_env->conf, cacert, NULL);

#else /* ! MBEDTLS_FS_IO */

      return coap_dtls_define_issue(COAP_DEFINE_KEY_CA,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

#endif /* ! MBEDTLS_FS_IO */

      break;

    case COAP_PKI_KEY_DEF_PEM_BUF: /* define ca */

      mbedtls_x509_crt_init(cacert);

      length = key.key.define.ca_len;

      if (key.key.define.ca.u_byte[length-1] != '\000') {

        /* Need to allocate memory to add in NULL terminator */

        buffer = mbedtls_malloc(length + 1);

        if (!buffer) {

          coap_log_err("mbedtls_malloc failed\n");

          return 0;

        }

        memcpy(buffer, key.key.define.ca.u_byte, length);

        buffer[length] = '\000';

        length++;

        ret = mbedtls_x509_crt_parse(cacert, buffer, length);

        mbedtls_free(buffer);

      } else {

        ret = mbedtls_x509_crt_parse(cacert,

                                     key.key.define.ca.u_byte,

                                     key.key.define.ca_len);

      }

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_CA,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      mbedtls_ssl_conf_ca_chain(&m_env->conf, cacert, NULL);

      break;

    case COAP_PKI_KEY_DEF_RPK_BUF: /* define ca */

      return coap_dtls_define_issue(COAP_DEFINE_KEY_CA,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

    case COAP_PKI_KEY_DEF_DER_BUF: /* define ca */

      mbedtls_x509_crt_init(cacert);

      ret = mbedtls_x509_crt_parse(cacert,

                                   key.key.define.ca.u_byte,

                                   key.key.define.ca_len);

      if (ret < 0) {

        return coap_dtls_define_issue(COAP_DEFINE_KEY_CA,

                                      COAP_DEFINE_FAIL_BAD,

                                      &key, role, ret);

      }

      mbedtls_ssl_conf_ca_chain(&m_env->conf, cacert, NULL);

      break;

    case COAP_PKI_KEY_DEF_PKCS11: /* define ca */

    case COAP_PKI_KEY_DEF_PKCS11_RPK: /* define ca */

    case COAP_PKI_KEY_DEF_ENGINE: /* define ca */

    default:

      return coap_dtls_define_issue(COAP_DEFINE_KEY_CA,

                                    COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                    &key, role, -1);

    }

  }


  /* Add in any root CA definitons */


#if defined(MBEDTLS_FS_IO)

  if (m_context->root_ca_file) {

    ret = mbedtls_x509_crt_parse_file(cacert, m_context->root_ca_file);

    if (ret < 0) {

      key.key.define.ca_def = COAP_PKI_KEY_DEF_PEM;

      return coap_dtls_define_issue(COAP_DEFINE_KEY_ROOT_CA,

                                    COAP_DEFINE_FAIL_BAD,

                                    &key, role, ret);

    }

    mbedtls_ssl_conf_ca_chain(&m_env->conf, cacert, NULL);

  }

  if (m_context->root_ca_path) {

    ret = mbedtls_x509_crt_parse_path(cacert, m_context->root_ca_path);

    if (ret < 0) {

      key.key.define.ca_def = COAP_PKI_KEY_DEF_PEM;

      return coap_dtls_define_issue(COAP_DEFINE_KEY_ROOT_CA,

                                    COAP_DEFINE_FAIL_BAD,

                                    &key, role, ret);

    }

    mbedtls_ssl_conf_ca_chain(&m_env->conf, cacert, NULL);

  }

  if (m_context->trust_store_defined) {

    /* Until Trust Store is implemented in MbedTLS */

    const char *trust_list[] = {

      "/etc/ssl/ca-bundle.pem",

      "/etc/ssl/certs/ca-certificates.crt",

      "/etc/pki/tls/cert.pem",

      "/usr/local/share/certs/ca-root-nss.crt",

      "/etc/ssl/cert.pem"

    };

    static const char *trust_file_found = NULL;

    static int trust_file_done = 0;

    unsigned int i;


    if (trust_file_found) {

      ret = mbedtls_x509_crt_parse_file(cacert, trust_file_found);

      if (ret >= 0) {

        mbedtls_ssl_conf_ca_chain(&m_env->conf, cacert, NULL);

      } else {

        coap_log_warn("Unable to load trusted root CAs (%s)\n",

                      trust_file_found);

      }

    } else if (!trust_file_done) {

      trust_file_done = 1;

      for (i = 0; i < sizeof(trust_list)/sizeof(trust_list[0]); i++) {

        ret = mbedtls_x509_crt_parse_file(cacert, trust_list[i]);

        if (ret >= 0) {

          mbedtls_ssl_conf_ca_chain(&m_env->conf, cacert, NULL);

          trust_file_found = trust_list[i];

          break;

        }

      }

      if (i == sizeof(trust_list)/sizeof(trust_list[0])) {

        coap_log_warn("Unable to load trusted root CAs\n");

      }

    }

  }

#else /* ! MBEDTLS_FS_IO */

  (void)m_context;

  return coap_dtls_define_issue(COAP_DEFINE_KEY_ROOT_CA,

                                COAP_DEFINE_FAIL_NOT_SUPPORTED,

                                &key, role, -1);

#endif /* ! MBEDTLS_FS_IO */


#if defined(MBEDTLS_SSL_SRV_C)

  mbedtls_ssl_conf_cert_req_ca_list(&m_env->conf,

                                    setup_data->check_common_ca ?

                                    MBEDTLS_SSL_CERT_REQ_CA_LIST_ENABLED :

                                    MBEDTLS_SSL_CERT_REQ_CA_LIST_DISABLED);

#endif

  mbedtls_ssl_conf_authmode(&m_env->conf, setup_data->verify_peer_cert ?

                            MBEDTLS_SSL_VERIFY_REQUIRED :

                            MBEDTLS_SSL_VERIFY_NONE);

  /*

   * Verify Peer.

   *  Need to do all checking, even if setup_data->verify_peer_cert is not set

   */

  mbedtls_ssl_conf_verify(&m_env->conf,

                          cert_verify_callback_mbedtls, c_session);


  return 1;

}


#if defined(MBEDTLS_SSL_SRV_C)

/*

 * PKI SNI callback.

 */

static int

pki_sni_callback(void *p_info, mbedtls_ssl_context *ssl,

                 const unsigned char *uname, size_t name_len) {

  unsigned int i;

  coap_dtls_pki_t sni_setup_data;

  coap_session_t *c_session = (coap_session_t *)p_info;

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;

  coap_mbedtls_context_t *m_context =

      (coap_mbedtls_context_t *)c_session->context->dtls_context;

  char *name;


  name = mbedtls_malloc(name_len+1);

  if (!name)

    return -1;


  memcpy(name, uname, name_len);

  name[name_len] = '\000';


  /* Is this a cached entry? */

  for (i = 0; i < m_context->pki_sni_count; i++) {

    if (strcasecmp(name, m_context->pki_sni_entry_list[i].sni) == 0) {

      break;

    }

  }

  if (i == m_context->pki_sni_count) {

    /*

     * New PKI SNI request

     */

    coap_dtls_key_t *new_entry;

    pki_sni_entry *pki_sni_entry_list;


    coap_lock_callback_ret(new_entry,

                           m_context->setup_data.validate_sni_call_back(name,

                               m_context->setup_data.sni_call_back_arg));

    if (!new_entry) {

      mbedtls_free(name);

      return -1;

    }


    pki_sni_entry_list = mbedtls_realloc(m_context->pki_sni_entry_list,

                                         (i+1)*sizeof(pki_sni_entry));


    if (pki_sni_entry_list == NULL) {

      mbedtls_free(name);

      return -1;

    }

    m_context->pki_sni_entry_list = pki_sni_entry_list;

    memset(&m_context->pki_sni_entry_list[i], 0,

           sizeof(m_context->pki_sni_entry_list[i]));

    m_context->pki_sni_entry_list[i].sni = name;

    m_context->pki_sni_entry_list[i].pki_key = *new_entry;

    sni_setup_data = m_context->setup_data;

    sni_setup_data.pki_key = *new_entry;

    if (setup_pki_credentials(&m_context->pki_sni_entry_list[i].cacert,

                              &m_context->pki_sni_entry_list[i].public_cert,

                              &m_context->pki_sni_entry_list[i].private_key,

                              m_env,

                              m_context,

                              c_session,

                              &sni_setup_data, COAP_DTLS_ROLE_SERVER) < 0) {

      mbedtls_free(name);

      return -1;

    }

    /* name has been absorbed into pki_sni_entry_list[].sni entry */

    m_context->pki_sni_count++;

  } else {

    mbedtls_free(name);

  }


  mbedtls_ssl_set_hs_ca_chain(ssl, &m_context->pki_sni_entry_list[i].cacert,

                              NULL);

  return mbedtls_ssl_set_hs_own_cert(ssl,

                                     &m_context->pki_sni_entry_list[i].public_cert,

                                     &m_context->pki_sni_entry_list[i].private_key);

}


#if defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED)

/*

 * PSK SNI callback.

 */

static int

psk_sni_callback(void *p_info, mbedtls_ssl_context *ssl,

                 const unsigned char *uname, size_t name_len) {

  unsigned int i;

  coap_session_t *c_session = (coap_session_t *)p_info;

  coap_mbedtls_context_t *m_context =

      (coap_mbedtls_context_t *)c_session->context->dtls_context;

  char *name;


  name = mbedtls_malloc(name_len+1);

  if (!name)

    return -1;


  memcpy(name, uname, name_len);

  name[name_len] = '\000';


  /* Is this a cached entry? */

  for (i = 0; i < m_context->psk_sni_count; i++) {

    if (strcasecmp(name, m_context->psk_sni_entry_list[i].sni) == 0) {

      break;

    }

  }

  if (i == m_context->psk_sni_count) {

    /*

     * New PSK SNI request

     */

    const coap_dtls_spsk_info_t *new_entry;

    psk_sni_entry *psk_sni_entry_list;


    coap_lock_callback_ret(new_entry,

                           c_session->context->spsk_setup_data.validate_sni_call_back(name,

                               c_session,

                               c_session->context->spsk_setup_data.sni_call_back_arg));

    if (!new_entry) {

      mbedtls_free(name);

      return -1;

    }


    psk_sni_entry_list = mbedtls_realloc(m_context->psk_sni_entry_list,

                                         (i+1)*sizeof(psk_sni_entry));


    if (psk_sni_entry_list == NULL) {

      mbedtls_free(name);

      return -1;

    }

    m_context->psk_sni_entry_list = psk_sni_entry_list;

    m_context->psk_sni_entry_list[i].sni = name;

    m_context->psk_sni_entry_list[i].psk_info = *new_entry;

    /* name has been absorbed into psk_sni_entry_list[].sni entry */

    m_context->psk_sni_count++;

  } else {

    mbedtls_free(name);

  }


  coap_session_refresh_psk_hint(c_session,

                                &m_context->psk_sni_entry_list[i].psk_info.hint);

  coap_session_refresh_psk_key(c_session,

                               &m_context->psk_sni_entry_list[i].psk_info.key);

  return mbedtls_ssl_set_hs_psk(ssl,

                                m_context->psk_sni_entry_list[i].psk_info.key.s,

                                m_context->psk_sni_entry_list[i].psk_info.key.length);

}

#endif /* MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */


static int

setup_server_ssl_session(coap_session_t *c_session,

                         coap_mbedtls_env_t *m_env) {

  coap_mbedtls_context_t *m_context =

      (coap_mbedtls_context_t *)c_session->context->dtls_context;

  int ret = 0;

  m_context->psk_pki_enabled |= IS_SERVER;


  mbedtls_ssl_cookie_init(&m_env->cookie_ctx);

  if ((ret = mbedtls_ssl_config_defaults(&m_env->conf,

                                         MBEDTLS_SSL_IS_SERVER,

                                         c_session->proto == COAP_PROTO_DTLS ?

                                         MBEDTLS_SSL_TRANSPORT_DATAGRAM :

                                         MBEDTLS_SSL_TRANSPORT_STREAM,

                                         MBEDTLS_SSL_PRESET_DEFAULT)) != 0) {

    coap_log_err("mbedtls_ssl_config_defaults returned -0x%x: '%s'\n",

                 -ret, get_error_string(ret));

    goto fail;

  }


  mbedtls_ssl_conf_rng(&m_env->conf, mbedtls_ctr_drbg_random, &m_env->ctr_drbg);


#if defined(MBEDTLS_SSL_PROTO_DTLS)

  mbedtls_ssl_conf_handshake_timeout(&m_env->conf, COAP_DTLS_RETRANSMIT_MS,

                                     COAP_DTLS_RETRANSMIT_TOTAL_MS);

#endif /* MBEDTLS_SSL_PROTO_DTLS */


  if (m_context->psk_pki_enabled & IS_PSK) {

#if defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED)

    mbedtls_ssl_conf_psk_cb(&m_env->conf, psk_server_callback, c_session);

    if (c_session->context->spsk_setup_data.validate_sni_call_back) {

      mbedtls_ssl_conf_sni(&m_env->conf, psk_sni_callback, c_session);

    }

#ifdef MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED

    m_env->ec_jpake = c_session->context->spsk_setup_data.ec_jpake;

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

#else /* MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */

    coap_log_warn("PSK not enabled in Mbed TLS library\n");

#endif /* MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */

  }


  if (m_context->psk_pki_enabled & IS_PKI) {

    ret = setup_pki_credentials(&m_env->cacert, &m_env->public_cert,

                                &m_env->private_key, m_env, m_context,

                                c_session, &m_context->setup_data,

                                COAP_DTLS_ROLE_SERVER);

    if (ret < 0) {

      coap_log_err("PKI setup failed\n");

      return ret;

    }

    if (m_context->setup_data.validate_sni_call_back) {

      mbedtls_ssl_conf_sni(&m_env->conf, pki_sni_callback, c_session);

    }

  }


  if ((ret = mbedtls_ssl_cookie_setup(&m_env->cookie_ctx,

                                      mbedtls_ctr_drbg_random,

                                      &m_env->ctr_drbg)) != 0) {

    coap_log_err("mbedtls_ssl_cookie_setup: returned -0x%x: '%s'\n",

                 -ret, get_error_string(ret));

    goto fail;

  }


#if defined(MBEDTLS_SSL_PROTO_DTLS)

  mbedtls_ssl_conf_dtls_cookies(&m_env->conf, mbedtls_ssl_cookie_write,

                                mbedtls_ssl_cookie_check,

                                &m_env->cookie_ctx);

#if MBEDTLS_VERSION_NUMBER >= 0x02100100

  mbedtls_ssl_set_mtu(&m_env->ssl, (uint16_t)c_session->mtu);

#endif /* MBEDTLS_VERSION_NUMBER >= 0x02100100 */

#endif /* MBEDTLS_SSL_PROTO_DTLS */

#ifdef MBEDTLS_SSL_DTLS_CONNECTION_ID

  /*

   * Configure CID max length.

   *

   * Note: Set MBEDTLS_SSL_DTLS_CONNECTION_ID_COMPAT to 0 (the default)

   * to use RFC9146 extension ID of 54, rather than the draft version -05

   * value of 254.

   */

  mbedtls_ssl_conf_cid(&m_env->conf, COAP_DTLS_CID_LENGTH, MBEDTLS_SSL_UNEXPECTED_CID_IGNORE);

#endif /* MBEDTLS_SSL_DTLS_CONNECTION_ID */

fail:

  return ret;

}

#endif /* MBEDTLS_SSL_SRV_C */


#if COAP_CLIENT_SUPPORT

static int *psk_ciphers = NULL;

static int *pki_ciphers = NULL;

static int *ecjpake_ciphers = NULL;

static int processed_ciphers = 0;


#if defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED)

static int

coap_ssl_ciphersuite_uses_psk(const mbedtls_ssl_ciphersuite_t *info) {

#if MBEDTLS_VERSION_NUMBER >= 0x03060000

  switch (info->key_exchange) {

  case MBEDTLS_KEY_EXCHANGE_PSK:

  case MBEDTLS_KEY_EXCHANGE_RSA_PSK:

  case MBEDTLS_KEY_EXCHANGE_DHE_PSK:

  case MBEDTLS_KEY_EXCHANGE_ECDHE_PSK:

    return 1;

  case MBEDTLS_KEY_EXCHANGE_NONE:

  case MBEDTLS_KEY_EXCHANGE_RSA:

  case MBEDTLS_KEY_EXCHANGE_DHE_RSA:

  case MBEDTLS_KEY_EXCHANGE_ECDHE_RSA:

  case MBEDTLS_KEY_EXCHANGE_ECDHE_ECDSA:

  case MBEDTLS_KEY_EXCHANGE_ECDH_RSA:

  case MBEDTLS_KEY_EXCHANGE_ECDH_ECDSA:

  case MBEDTLS_KEY_EXCHANGE_ECJPAKE:

  default:

    return 0;

  }

#else /* MBEDTLS_VERSION_NUMBER < 0x03060000 */

  return mbedtls_ssl_ciphersuite_uses_psk(info);

#endif /* MBEDTLS_VERSION_NUMBER < 0x03060000 */

}

#endif /* defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED) */


static void

set_ciphersuites(mbedtls_ssl_config *conf, coap_enc_method_t method) {

  if (!processed_ciphers) {

    const int *list = mbedtls_ssl_list_ciphersuites();

    const int *base = list;

    int *psk_list;

    int *pki_list;

#if defined(MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED)

    int *ecjpake_list;

    int ecjpake_count = 1;

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

    int psk_count = 1; /* account for empty terminator */

    int pki_count = 1;


    while (*list) {

      const mbedtls_ssl_ciphersuite_t *cur =

          mbedtls_ssl_ciphersuite_from_id(*list);


      if (cur) {

#if MBEDTLS_VERSION_NUMBER >= 0x03020000

        if (cur->max_tls_version < MBEDTLS_SSL_VERSION_TLS1_2) {

          /* Minimum of TLS1.2 required - skip */

        }

#else

        if (cur->max_minor_ver < MBEDTLS_SSL_MINOR_VERSION_3) {

          /* Minimum of TLS1.2 required - skip */

        }

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03020000 */

#if defined(MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED)

        else if (cur->key_exchange == MBEDTLS_KEY_EXCHANGE_ECJPAKE) {

          ecjpake_count++;

        }

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

#if MBEDTLS_VERSION_NUMBER >= 0x03060000

        else if (cur->min_tls_version >= MBEDTLS_SSL_VERSION_TLS1_3) {

          psk_count++;

          pki_count++;

        }

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03060000 */

#if defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED)

        else if (coap_ssl_ciphersuite_uses_psk(cur)) {

          psk_count++;

        }

#endif /* MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */

        else {

          pki_count++;

        }

      }

      list++;

    }

    list = base;


    psk_ciphers = mbedtls_malloc(psk_count * sizeof(psk_ciphers[0]));

    if (psk_ciphers == NULL) {

      coap_log_err("set_ciphers: mbedtls_malloc with count %d failed\n", psk_count);

      return;

    }

    pki_ciphers = mbedtls_malloc(pki_count * sizeof(pki_ciphers[0]));

    if (pki_ciphers == NULL) {

      coap_log_err("set_ciphers: mbedtls_malloc with count %d failed\n", pki_count);

      mbedtls_free(psk_ciphers);

      psk_ciphers = NULL;

      return;

    }

#if defined(MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED)

    ecjpake_ciphers = mbedtls_malloc(ecjpake_count * sizeof(ecjpake_ciphers[0]));

    if (ecjpake_ciphers == NULL) {

      coap_log_err("set_ciphers: mbedtls_malloc with count %d failed\n", pki_count);

      mbedtls_free(psk_ciphers);

      mbedtls_free(pki_ciphers);

      psk_ciphers = NULL;

      pki_ciphers = NULL;

      return;

    }

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */


    psk_list = psk_ciphers;

    pki_list = pki_ciphers;

#if defined(MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED)

    ecjpake_list = ecjpake_ciphers;

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */


    while (*list) {

      const mbedtls_ssl_ciphersuite_t *cur =

          mbedtls_ssl_ciphersuite_from_id(*list);

      if (cur) {

#if MBEDTLS_VERSION_NUMBER >= 0x03020000

        if (cur->max_tls_version < MBEDTLS_SSL_VERSION_TLS1_2) {

          /* Minimum of TLS1.2 required - skip */

        }

#else

        if (cur->max_minor_ver < MBEDTLS_SSL_MINOR_VERSION_3) {

          /* Minimum of TLS1.2 required - skip */

        }

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03020000 */

#if defined(MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED)

        else if (cur->key_exchange == MBEDTLS_KEY_EXCHANGE_ECJPAKE) {

          *ecjpake_list = *list;

          ecjpake_list++;

        }

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

#if MBEDTLS_VERSION_NUMBER >= 0x03060000

        else if (cur->min_tls_version >= MBEDTLS_SSL_VERSION_TLS1_3) {

          *psk_list = *list;

          psk_list++;

          *pki_list = *list;

          pki_list++;

        }

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03060000 */

#if defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED)

        else if (coap_ssl_ciphersuite_uses_psk(cur)) {

          *psk_list = *list;

          psk_list++;

        }

#endif /* MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */

        else {

          *pki_list = *list;

          pki_list++;

        }

      }

      list++;

    }

    /* zero terminate */

    *psk_list = 0;

    *pki_list = 0;

    processed_ciphers = 1;

  }

  switch (method) {

  case COAP_ENC_PSK:

    mbedtls_ssl_conf_ciphersuites(conf, psk_ciphers);

    break;

  case COAP_ENC_PKI:

    mbedtls_ssl_conf_ciphersuites(conf, pki_ciphers);

    break;

  case COAP_ENC_ECJPAKE:

    mbedtls_ssl_conf_ciphersuites(conf, ecjpake_ciphers);

    break;

  default:

    assert(0);

    break;

  }

}


static int

setup_client_ssl_session(coap_session_t *c_session,

                         coap_mbedtls_env_t *m_env) {

  int ret;


  coap_mbedtls_context_t *m_context =

      (coap_mbedtls_context_t *)c_session->context->dtls_context;


  m_context->psk_pki_enabled |= IS_CLIENT;


  if ((ret = mbedtls_ssl_config_defaults(&m_env->conf,

                                         MBEDTLS_SSL_IS_CLIENT,

                                         c_session->proto == COAP_PROTO_DTLS ?

                                         MBEDTLS_SSL_TRANSPORT_DATAGRAM :

                                         MBEDTLS_SSL_TRANSPORT_STREAM,

                                         MBEDTLS_SSL_PRESET_DEFAULT)) != 0) {

    coap_log_err("mbedtls_ssl_config_defaults returned -0x%x: '%s'\n",

                 -ret, get_error_string(ret));

    goto fail;

  }


#if defined(MBEDTLS_SSL_PROTO_DTLS)

  mbedtls_ssl_conf_handshake_timeout(&m_env->conf, COAP_DTLS_RETRANSMIT_MS,

                                     COAP_DTLS_RETRANSMIT_TOTAL_MS);

#endif /* MBEDTLS_SSL_PROTO_DTLS */


  mbedtls_ssl_conf_authmode(&m_env->conf, MBEDTLS_SSL_VERIFY_REQUIRED);

  mbedtls_ssl_conf_rng(&m_env->conf, mbedtls_ctr_drbg_random, &m_env->ctr_drbg);


  if (m_context->psk_pki_enabled & IS_PSK) {

#if defined(MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED)

    const coap_bin_const_t *psk_key;

    const coap_bin_const_t *psk_identity;


    coap_log_info("Setting PSK key\n");


    psk_key = coap_get_session_client_psk_key(c_session);

    psk_identity = coap_get_session_client_psk_identity(c_session);

    if (psk_key == NULL || psk_identity == NULL) {

      ret = MBEDTLS_ERR_SSL_ALLOC_FAILED;

      goto fail;

    }


    if ((ret = mbedtls_ssl_conf_psk(&m_env->conf, psk_key->s,

                                    psk_key->length, psk_identity->s,

                                    psk_identity->length)) != 0) {

      coap_log_err("mbedtls_ssl_conf_psk returned -0x%x: '%s'\n",

                   -ret, get_error_string(ret));

      goto fail;

    }

    if (c_session->cpsk_setup_data.client_sni) {

      if ((ret = mbedtls_ssl_set_hostname(&m_env->ssl,

                                          c_session->cpsk_setup_data.client_sni)) != 0) {

        coap_log_err("mbedtls_ssl_set_hostname returned -0x%x: '%s'\n",

                     -ret, get_error_string(ret));

        goto fail;

      }

    }

    /* Identity Hint currently not supported in Mbed TLS so code removed */


#ifdef MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED

    if (c_session->cpsk_setup_data.ec_jpake) {

      m_env->ec_jpake = 1;

      set_ciphersuites(&m_env->conf, COAP_ENC_ECJPAKE);

#if MBEDTLS_VERSION_NUMBER >= 0x03020000

      mbedtls_ssl_conf_max_tls_version(&m_env->conf, MBEDTLS_SSL_VERSION_TLS1_2);

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03020000 */

    } else {

      set_ciphersuites(&m_env->conf, COAP_ENC_PSK);

    }

#else /* ! MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

    set_ciphersuites(&m_env->conf, COAP_ENC_PSK);

#endif /* ! MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

#else /* MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */

    coap_log_warn("PSK not enabled in Mbed TLS library\n");

#endif /* ! MBEDTLS_KEY_EXCHANGE__SOME__PSK_ENABLED */

  } else if ((m_context->psk_pki_enabled & IS_PKI) ||

             (m_context->psk_pki_enabled & (IS_PSK | IS_PKI)) == 0) {

    /*

     * If neither PSK or PKI have been set up, use PKI basics.

     * This works providing COAP_PKI_KEY_PEM has a value of 0.

     */

    coap_dtls_pki_t *setup_data = &m_context->setup_data;


    if (!(m_context->psk_pki_enabled & IS_PKI)) {

      /* PKI not defined - set up some defaults */

      setup_data->verify_peer_cert        = 1;

      setup_data->check_common_ca         = 0;

      setup_data->allow_self_signed       = 1;

      setup_data->allow_expired_certs     = 1;

      setup_data->cert_chain_validation   = 1;

      setup_data->cert_chain_verify_depth = 2;

      setup_data->check_cert_revocation   = 1;

      setup_data->allow_no_crl            = 1;

      setup_data->allow_expired_crl       = 1;

      setup_data->is_rpk_not_cert         = 0;

      setup_data->use_cid                 = 0;

    }

    mbedtls_ssl_conf_authmode(&m_env->conf, MBEDTLS_SSL_VERIFY_OPTIONAL);

    ret = setup_pki_credentials(&m_env->cacert, &m_env->public_cert,

                                &m_env->private_key, m_env, m_context,

                                c_session, setup_data,

                                COAP_DTLS_ROLE_CLIENT);

    if (ret < 0) {

      coap_log_err("PKI setup failed\n");

      return ret;

    }

#if defined(MBEDTLS_SSL_SRV_C) && defined(MBEDTLS_SSL_ALPN)

    if (c_session->proto == COAP_PROTO_TLS ||

        c_session->proto == COAP_PROTO_WSS) {

      static const char *alpn_list[] = { "coap", NULL };


      ret = mbedtls_ssl_conf_alpn_protocols(&m_env->conf, alpn_list);

      if (ret != 0) {

        coap_log_err("ALPN setup failed %d)\n", ret);

      }

    }

#endif /* MBEDTLS_SSL_SRV_C && MBEDTLS_SSL_ALPN */

    mbedtls_ssl_set_hostname(&m_env->ssl, m_context->setup_data.client_sni);

#if defined(MBEDTLS_SSL_PROTO_DTLS)

#if MBEDTLS_VERSION_NUMBER >= 0x02100100

    mbedtls_ssl_set_mtu(&m_env->ssl, (uint16_t)c_session->mtu);

#endif /* MBEDTLS_VERSION_NUMBER >= 0x02100100 */

#endif /* MBEDTLS_SSL_PROTO_DTLS */

    set_ciphersuites(&m_env->conf, COAP_ENC_PKI);

  }

  return 0;


fail:

  return ret;

}

#endif /* COAP_CLIENT_SUPPORT */


static void

mbedtls_cleanup(coap_mbedtls_env_t *m_env) {

  if (!m_env) {

    return;

  }


  mbedtls_x509_crt_free(&m_env->cacert);

  mbedtls_x509_crt_free(&m_env->public_cert);

  mbedtls_pk_free(&m_env->private_key);

  mbedtls_entropy_free(&m_env->entropy);

  mbedtls_ssl_config_free(&m_env->conf);

  mbedtls_ctr_drbg_free(&m_env->ctr_drbg);

  mbedtls_ssl_free(&m_env->ssl);

  mbedtls_ssl_cookie_free(&m_env->cookie_ctx);

}


static void

coap_dtls_free_mbedtls_env(coap_mbedtls_env_t *m_env) {

  if (m_env) {

    if (!m_env->sent_alert)

      mbedtls_ssl_close_notify(&m_env->ssl);

    mbedtls_cleanup(m_env);

    mbedtls_free(m_env);

  }

}


#if COAP_MAX_LOGGING_LEVEL > 0

static const char *

report_mbedtls_alert(unsigned char alert) {

  switch (alert) {

  case MBEDTLS_SSL_ALERT_MSG_BAD_RECORD_MAC:

    return ": Bad Record MAC";

  case MBEDTLS_SSL_ALERT_MSG_HANDSHAKE_FAILURE:

    return ": Handshake failure";

  case MBEDTLS_SSL_ALERT_MSG_NO_CERT:

    return ": No Certificate provided";

  case MBEDTLS_SSL_ALERT_MSG_BAD_CERT:

    return ": Certificate is bad";

  case MBEDTLS_SSL_ALERT_MSG_CERT_UNKNOWN:

    return ": Certificate is unknown";

  case MBEDTLS_SSL_ALERT_MSG_UNKNOWN_CA:

    return ": CA is unknown";

  case MBEDTLS_SSL_ALERT_MSG_ACCESS_DENIED:

    return ": Access was denied";

  case MBEDTLS_SSL_ALERT_MSG_DECRYPT_ERROR:

    return ": Decrypt error";

  default:

    return "";

  }

}

#endif /* COAP_MAX_LOGGING_LEVEL */


/*

 * return -1  failure

 *         0  not completed

 *         1  established

 */

static int

do_mbedtls_handshake(coap_session_t *c_session,

                     coap_mbedtls_env_t *m_env) {

  int ret;

  int alert;


  ret = mbedtls_ssl_handshake(&m_env->ssl);

  switch (ret) {

  case 0:

    m_env->established = 1;

    coap_log_debug("*  %s: Mbed TLS established\n",

                   coap_session_str(c_session));

    ret = 1;

#ifdef MBEDTLS_SSL_DTLS_CONNECTION_ID

#if COAP_CLIENT_SUPPORT

    if (c_session->type == COAP_SESSION_TYPE_CLIENT &&

        c_session->proto == COAP_PROTO_DTLS) {

      coap_mbedtls_context_t *m_context;


      m_context = (coap_mbedtls_context_t *)c_session->context->dtls_context;

      if ((m_context->psk_pki_enabled & IS_PSK && c_session->cpsk_setup_data.use_cid) ||

          m_context->setup_data.use_cid) {

        unsigned char peer_cid[MBEDTLS_SSL_CID_OUT_LEN_MAX];

        int enabled;

        size_t peer_cid_len;


        /* See whether CID was negotiated */

        if (mbedtls_ssl_get_peer_cid(&m_env->ssl, &enabled, peer_cid, &peer_cid_len) == 0 &&

            enabled == MBEDTLS_SSL_CID_ENABLED) {

          c_session->negotiated_cid = 1;

        } else {

          coap_log_info("** %s: CID was not negotiated\n", coap_session_str(c_session));

          c_session->negotiated_cid = 0;

        }

      }

    }

#endif /* COAP_CLIENT_SUPPORT */

#endif /* MBEDTLS_SSL_DTLS_CONNECTION_ID */

    break;

  case MBEDTLS_ERR_SSL_WANT_READ:

  case MBEDTLS_ERR_SSL_WANT_WRITE:

    if (m_env->ssl.state == MBEDTLS_SSL_SERVER_HELLO

#if MBEDTLS_VERSION_NUMBER >= 0x03030000

        || m_env->ssl.state == MBEDTLS_SSL_NEW_SESSION_TICKET

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03030000 */

       ) {

      if (++m_env->server_hello_cnt > 10) {

        /* retried this too many times */

        goto fail;

      }

    }

    errno = EAGAIN;

    ret = 0;

    break;

  case MBEDTLS_ERR_SSL_HELLO_VERIFY_REQUIRED:

    coap_log_debug("hello verification requested\n");

    goto reset;

  case MBEDTLS_ERR_SSL_INVALID_MAC:

    goto fail;

#ifdef MBEDTLS_2_X_COMPAT

  case MBEDTLS_ERR_SSL_UNKNOWN_CIPHER:

#else /* ! MBEDTLS_2_X_COMPAT */

  case MBEDTLS_ERR_SSL_DECODE_ERROR:

#endif /* ! MBEDTLS_2_X_COMPAT */

    goto fail;

  case MBEDTLS_ERR_SSL_NO_CLIENT_CERTIFICATE:

    alert = MBEDTLS_SSL_ALERT_MSG_NO_CERT;

    goto fail_alert;

#ifdef MBEDTLS_2_X_COMPAT

  case MBEDTLS_ERR_SSL_BAD_HS_CLIENT_HELLO:

  case MBEDTLS_ERR_SSL_BAD_HS_SERVER_HELLO:

    alert = MBEDTLS_SSL_ALERT_MSG_HANDSHAKE_FAILURE;

    goto fail_alert;

#endif /* MBEDTLS_2_X_COMPAT */

  case MBEDTLS_ERR_X509_CERT_VERIFY_FAILED:

    goto fail;

  case MBEDTLS_ERR_SSL_FATAL_ALERT_MESSAGE:

    if (m_env->ssl.in_msg[1] != MBEDTLS_SSL_ALERT_MSG_CLOSE_NOTIFY)

      coap_log_warn("***%s: Alert '%d'%s\n",

                    coap_session_str(c_session), m_env->ssl.in_msg[1],

                    report_mbedtls_alert(m_env->ssl.in_msg[1]));

  /* Fall through */

  case MBEDTLS_ERR_SSL_PEER_CLOSE_NOTIFY:

  case MBEDTLS_ERR_SSL_CONN_EOF:

  case MBEDTLS_ERR_NET_CONN_RESET:

    c_session->dtls_event = COAP_EVENT_DTLS_CLOSED;

    ret = -1;

    break;

  default:

    coap_log_warn("do_mbedtls_handshake: session establish "

                  "returned -0x%x: '%s'\n",

                  -ret, get_error_string(ret));

    ret = -1;

    break;

  }

  return ret;


fail_alert:

  mbedtls_ssl_send_alert_message(&m_env->ssl,

                                 MBEDTLS_SSL_ALERT_LEVEL_FATAL,

                                 alert);

  m_env->sent_alert = 1;

fail:

  c_session->dtls_event = COAP_EVENT_DTLS_ERROR;

  coap_log_warn("do_mbedtls_handshake: session establish "

                "returned '%s'\n",

                get_error_string(ret));

reset:

  mbedtls_ssl_session_reset(&m_env->ssl);

#ifdef MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED

  if (m_env->ec_jpake) {

    const coap_bin_const_t *psk_key;


#if COAP_CLIENT_SUPPORT && COAP_SERVER_SUPPORT

    if (c_session->type == COAP_SESSION_TYPE_CLIENT) {

      psk_key = coap_get_session_client_psk_key(c_session);

    } else {

      psk_key = coap_get_session_server_psk_key(c_session);

    }

#elif COAP_CLIENT_SUPPORT

    psk_key = coap_get_session_client_psk_key(c_session);

#else /* COAP_SERVER_SUPPORT */

    psk_key = coap_get_session_server_psk_key(c_session);

#endif /* COAP_SERVER_SUPPORT */

    if (psk_key) {

      mbedtls_ssl_set_hs_ecjpake_password(&m_env->ssl, psk_key->s, psk_key->length);

    }

  }

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

  return -1;

}


static void

mbedtls_debug_out(void *ctx COAP_UNUSED, int level,

                  const char *file COAP_UNUSED,

                  int line COAP_UNUSED, const char *str) {


  coap_log_t coap_level = COAP_LOG_DEBUG;

  /*

   *  0 No debug

   *  1 Error

   *  2 State change

   *  3 Informational

   *  4 Verbose

   */

  switch (level) {

  case 0:

    coap_level = COAP_LOG_EMERG;

    break;

  case 1:

    coap_level = COAP_LOG_WARN;

    break;

  case 2:

    coap_level = COAP_LOG_NOTICE;

    break;

  case 3:

    coap_level = COAP_LOG_INFO;

    break;

  case 4:

  default:

    coap_level = COAP_LOG_DEBUG;

    break;

  }

  coap_dtls_log(coap_level, "%s", str);

}


#if !COAP_DISABLE_TCP

/*

 * strm

 * return +ve data amount

 *        0   no more

 *        -ve  Mbed TLS error

 */

static int

coap_sock_read(void *ctx, unsigned char *out, size_t outl) {

  int ret = MBEDTLS_ERR_SSL_CONN_EOF;

  coap_session_t *c_session = (coap_session_t *)ctx;


  if (out != NULL) {

    ret = (int)c_session->sock.lfunc[COAP_LAYER_TLS].l_read(c_session, out, outl);

    /* Translate layer returns into what MbedTLS expects */

    if (ret == -1) {

      if (errno == ECONNRESET) {

        /* graceful shutdown */

        ret = MBEDTLS_ERR_SSL_CONN_EOF;

      } else {

        ret = MBEDTLS_ERR_NET_RECV_FAILED;

      }

    } else if (ret == 0) {

      errno = EAGAIN;

      ret = MBEDTLS_ERR_SSL_WANT_READ;

    }

  }

  return ret;

}


/*

 * strm

 * return +ve data amount

 *        0   no more

 *        -ve  Mbed TLS error

 */

static int

coap_sock_write(void *context, const unsigned char *in, size_t inl) {

  int ret = 0;

  coap_session_t *c_session = (coap_session_t *)context;


  ret = c_session->sock.lfunc[COAP_LAYER_TLS].l_write(c_session,

                                                      (const uint8_t *)in,

                                                      inl);

  /* Translate layer what returns into what MbedTLS expects */

  if (ret < 0) {

    if ((c_session->state == COAP_SESSION_STATE_CSM ||

         c_session->state == COAP_SESSION_STATE_HANDSHAKE) &&

        (errno == EPIPE || errno == ECONNRESET)) {

      /*

       * Need to handle a TCP timing window where an agent continues with

       * the sending of the next handshake or a CSM.

       * However, the peer does not like a certificate and so sends a

       * fatal alert and closes the TCP session.

       * The sending of the next handshake or CSM may get terminated because

       * of the closed TCP session, but there is still an outstanding alert

       * to be read in and reported on.

       * In this case, pretend that sending the info was fine so that the

       * alert can be read (which effectively is what happens with DTLS).

       */

      ret = inl;

    } else {

#ifdef _WIN32

      int lasterror = WSAGetLastError();


      if (lasterror == WSAEWOULDBLOCK) {

        ret = MBEDTLS_ERR_SSL_WANT_WRITE;

      } else if (lasterror == WSAECONNRESET) {

        ret = MBEDTLS_ERR_NET_CONN_RESET;

      }

#else

      if (errno == EAGAIN || errno == EINTR) {

        ret = MBEDTLS_ERR_SSL_WANT_WRITE;

      } else if (errno == EPIPE || errno == ECONNRESET) {

        ret = MBEDTLS_ERR_NET_CONN_RESET;

      }

#endif

      else {

        ret = MBEDTLS_ERR_NET_SEND_FAILED;

      }

      coap_log_debug("*  %s: failed to send %zd bytes (%s) state %d\n",

                     coap_session_str(c_session), inl, coap_socket_strerror(),

                     c_session->state);

    }

  }

  if (ret == 0) {

    errno = EAGAIN;

    ret = MBEDTLS_ERR_SSL_WANT_WRITE;

  }

  return ret;

}

#endif /* !COAP_DISABLE_TCP */


static coap_mbedtls_env_t *

coap_dtls_new_mbedtls_env(coap_session_t *c_session,

                          coap_dtls_role_t role,

                          coap_proto_t proto) {

  int ret = 0;

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;


  if (m_env)

    return m_env;


  m_env = (coap_mbedtls_env_t *)mbedtls_malloc(sizeof(coap_mbedtls_env_t));

  if (!m_env) {

    return NULL;

  }

  memset(m_env, 0, sizeof(coap_mbedtls_env_t));


  mbedtls_ssl_init(&m_env->ssl);

  mbedtls_ctr_drbg_init(&m_env->ctr_drbg);

  mbedtls_ssl_config_init(&m_env->conf);

  mbedtls_entropy_init(&m_env->entropy);


#if defined(MBEDTLS_PSA_CRYPTO_C)

  psa_crypto_init();

#endif /* MBEDTLS_PSA_CRYPTO_C */


#if defined(ESPIDF_VERSION) && defined(CONFIG_MBEDTLS_DEBUG)

  mbedtls_esp_enable_debug_log(&m_env->conf, CONFIG_MBEDTLS_DEBUG_LEVEL);

#endif /* ESPIDF_VERSION && CONFIG_MBEDTLS_DEBUG */

  if ((ret = mbedtls_ctr_drbg_seed(&m_env->ctr_drbg,

                                   mbedtls_entropy_func, &m_env->entropy, NULL, 0)) != 0) {

    if (ret != MBEDTLS_ERR_CTR_DRBG_ENTROPY_SOURCE_FAILED) {

      coap_log_info("mbedtls_ctr_drbg_seed returned -0x%x: '%s'\n",

                    -ret, get_error_string(ret));

      goto fail;

    }

    coap_log_err("mbedtls_ctr_drbg_seed returned -0x%x: '%s'\n",

                 -ret, get_error_string(ret));

  }


  if (role == COAP_DTLS_ROLE_CLIENT) {

#if COAP_CLIENT_SUPPORT

    if (setup_client_ssl_session(c_session, m_env) != 0) {

      goto fail;

    }

#else /* !COAP_CLIENT_SUPPORT */

    goto fail;

#endif /* !COAP_CLIENT_SUPPORT */

  } else if (role == COAP_DTLS_ROLE_SERVER) {

#if defined(MBEDTLS_SSL_SRV_C)

    if (setup_server_ssl_session(c_session, m_env) != 0) {

      goto fail;

    }

#else /* ! MBEDTLS_SSL_SRV_C */

    goto fail;

#endif /* ! MBEDTLS_SSL_SRV_C */

  } else {

    goto fail;

  }


#if MBEDTLS_VERSION_NUMBER >= 0x03020000

  mbedtls_ssl_conf_min_tls_version(&m_env->conf, MBEDTLS_SSL_VERSION_TLS1_2);

#else

  mbedtls_ssl_conf_min_version(&m_env->conf, MBEDTLS_SSL_MAJOR_VERSION_3,

                               MBEDTLS_SSL_MINOR_VERSION_3);

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03020000 */


  if (mbedtls_ssl_setup(&m_env->ssl, &m_env->conf) != 0) {

    goto fail;

  }

  if (proto == COAP_PROTO_DTLS) {

    mbedtls_ssl_set_bio(&m_env->ssl, c_session, coap_dgram_write,

                        coap_dgram_read, NULL);

#ifdef MBEDTLS_SSL_DTLS_CONNECTION_ID

    if (COAP_PROTO_NOT_RELIABLE(c_session->proto)) {

      if (role == COAP_DTLS_ROLE_CLIENT) {

#if COAP_CLIENT_SUPPORT

        coap_mbedtls_context_t *m_context =

            (coap_mbedtls_context_t *)c_session->context->dtls_context;


        if ((m_context->psk_pki_enabled & IS_PSK && c_session->cpsk_setup_data.use_cid) ||

            m_context->setup_data.use_cid) {

          /*

           * Enable passive DTLS CID support.

           *

           * Note: Set MBEDTLS_SSL_DTLS_CONNECTION_ID_COMPAT to 0 (the default)

           * to use RFC9146 extension ID of 54, rather than the draft version -05

           * value of 254.

           */

          mbedtls_ssl_set_cid(&m_env->ssl, MBEDTLS_SSL_CID_ENABLED, NULL, 0);

        }

#endif /* COAP_CLIENT_SUPPORT */

      } else {

#if COAP_SERVER_SUPPORT

        uint8_t cid[COAP_DTLS_CID_LENGTH];

        /*

         * Enable server DTLS CID support.

         *

         * Note: Set MBEDTLS_SSL_DTLS_CONNECTION_ID_COMPAT to 0 (the default)

         * to use RFC9146 extension ID of 54, rather than the draft version -05

         * value of 254.

         */

        coap_prng_lkd(cid, sizeof(cid));

        mbedtls_ssl_set_cid(&m_env->ssl, MBEDTLS_SSL_CID_ENABLED, cid,

                            sizeof(cid));

        c_session->client_cid = coap_new_bin_const(cid, sizeof(cid));

#endif /* COAP_SERVER_SUPPORT */

      }

    }

#endif /* MBEDTLS_SSL_DTLS_CONNECTION_ID */

  }

#if !COAP_DISABLE_TCP

  else {

    assert(proto == COAP_PROTO_TLS);

    mbedtls_ssl_set_bio(&m_env->ssl, c_session, coap_sock_write,

                        coap_sock_read, NULL);

  }

#endif /* ! COAP_DISABLE_TCP */

#ifdef MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED

  coap_mbedtls_context_t *m_context =

      ((coap_mbedtls_context_t *)c_session->context->dtls_context);

  if ((m_context->psk_pki_enabled & IS_PSK) &&

      m_env->ec_jpake) {

    const coap_bin_const_t *psk_key;


#if COAP_CLIENT_SUPPORT && COAP_SERVER_SUPPORT

    if (role == COAP_DTLS_ROLE_CLIENT) {

      psk_key = coap_get_session_client_psk_key(c_session);

    } else {

      psk_key = coap_get_session_server_psk_key(c_session);

    }

#elif COAP_CLIENT_SUPPORT

    psk_key = coap_get_session_client_psk_key(c_session);

#else /* COAP_SERVER_SUPPORT */

    psk_key = coap_get_session_server_psk_key(c_session);

#endif /* COAP_SERVER_SUPPORT */

    mbedtls_ssl_set_hs_ecjpake_password(&m_env->ssl, psk_key->s, psk_key->length);

  }

#endif /* MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

#ifdef __ZEPHYR__

  mbedtls_ssl_set_timer_cb(&m_env->ssl, &m_env->timer,

                           zephyr_timing_set_delay,

                           zephyr_timing_get_delay);

#else

  mbedtls_ssl_set_timer_cb(&m_env->ssl, &m_env->timer,

                           mbedtls_timing_set_delay,

                           mbedtls_timing_get_delay);

#endif


  mbedtls_ssl_conf_dbg(&m_env->conf, mbedtls_debug_out, stdout);

  return m_env;


fail:

  if (m_env) {

    mbedtls_free(m_env);

  }

  return NULL;

}


int

coap_dtls_is_supported(void) {

#if defined(MBEDTLS_SSL_PROTO_DTLS)

  return 1;

#else /* !MBEDTLS_SSL_PROTO_DTLS */

  static int reported = 0;

  if (!reported) {

    reported = 1;

    coap_log_emerg("libcoap not compiled for DTLS with Mbed TLS"

                   " - update Mbed TLS to include DTLS\n");

  }

  return 0;

#endif /* !MBEDTLS_SSL_PROTO_DTLS */

}


int

coap_tls_is_supported(void) {

#if !COAP_DISABLE_TCP

  return 1;

#else /* COAP_DISABLE_TCP */

  return 0;

#endif /* COAP_DISABLE_TCP */

}


/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_psk_is_supported(void) {

  return 1;

}


/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_pki_is_supported(void) {

  return 1;

}


/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_pkcs11_is_supported(void) {

  return 0;

}


/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_rpk_is_supported(void) {

  return 0;

}


/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_cid_is_supported(void) {

#ifdef MBEDTLS_SSL_DTLS_CONNECTION_ID

  return 1;

#else /* ! MBEDTLS_SSL_DTLS_CONNECTION_ID */

  return 0;

#endif /* ! MBEDTLS_SSL_DTLS_CONNECTION_ID */

}


#if COAP_CLIENT_SUPPORT

int

coap_dtls_set_cid_tuple_change(coap_context_t *c_context, uint8_t every) {

#ifdef MBEDTLS_SSL_DTLS_CONNECTION_ID

  c_context->testing_cids = every;

  return 1;

#else /* ! MBEDTLS_SSL_DTLS_CONNECTION_ID */

  (void)c_context;

  (void)every;

  return 0;

#endif /* ! MBEDTLS_SSL_DTLS_CONNECTION_ID */

}

#endif /* COAP_CLIENT_SUPPORT */


void *

coap_dtls_new_context(coap_context_t *c_context) {

  coap_mbedtls_context_t *m_context;

  (void)c_context;


  m_context = (coap_mbedtls_context_t *)mbedtls_malloc(sizeof(coap_mbedtls_context_t));

  if (m_context) {

    memset(m_context, 0, sizeof(coap_mbedtls_context_t));

  }

  return m_context;

}


#if COAP_SERVER_SUPPORT

/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_context_set_spsk(coap_context_t *c_context,

                           coap_dtls_spsk_t *setup_data

                          ) {

  coap_mbedtls_context_t *m_context =

      ((coap_mbedtls_context_t *)c_context->dtls_context);


#if !defined(MBEDTLS_SSL_SRV_C)

  coap_log_emerg("coap_context_set_spsk:"

                 " libcoap not compiled for Server Mode for Mbed TLS"

                 " - update Mbed TLS to include Server Mode\n");

  return 0;

#endif /* !MBEDTLS_SSL_SRV_C */

  if (!m_context || !setup_data)

    return 0;


  if (setup_data->ec_jpake) {

#ifndef MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED

    coap_log_warn("Mbed TLS not compiled for EC-JPAKE support\n");

#endif /* ! MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

  }

  m_context->psk_pki_enabled |= IS_PSK;

  return 1;

}

#endif /* COAP_SERVER_SUPPORT */


#if COAP_CLIENT_SUPPORT

/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_context_set_cpsk(coap_context_t *c_context,

                           coap_dtls_cpsk_t *setup_data

                          ) {

#if !defined(MBEDTLS_SSL_CLI_C)

  (void)c_context;

  (void)setup_data;


  coap_log_emerg("coap_context_set_cpsk:"

                 " libcoap not compiled for Client Mode for Mbed TLS"

                 " - update Mbed TLS to include Client Mode\n");

  return 0;

#else /* MBEDTLS_SSL_CLI_C */

  coap_mbedtls_context_t *m_context =

      ((coap_mbedtls_context_t *)c_context->dtls_context);


  if (!m_context || !setup_data)

    return 0;


  if (setup_data->validate_ih_call_back) {

    coap_log_warn("CoAP Client with Mbed TLS does not support Identity Hint selection\n");

  }

  if (setup_data->ec_jpake) {

#ifndef MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED

    coap_log_warn("Mbed TLS not compiled for EC-JPAKE support\n");

#endif /* ! MBEDTLS_KEY_EXCHANGE_ECJPAKE_ENABLED */

  }

  if (setup_data->use_cid) {

#ifndef MBEDTLS_SSL_DTLS_CONNECTION_ID

    coap_log_warn("Mbed TLS not compiled for Connection-ID support\n");

#endif /* ! MBEDTLS_SSL_DTLS_CONNECTION_ID */

  }

  m_context->psk_pki_enabled |= IS_PSK;

  return 1;

#endif /* MBEDTLS_SSL_CLI_C */

}

#endif /* COAP_CLIENT_SUPPORT */


int

coap_dtls_context_set_pki(coap_context_t *c_context,

                          const coap_dtls_pki_t *setup_data,

                          const coap_dtls_role_t role COAP_UNUSED) {

  coap_mbedtls_context_t *m_context =

      ((coap_mbedtls_context_t *)c_context->dtls_context);


  m_context->setup_data = *setup_data;

  if (!m_context->setup_data.verify_peer_cert) {

    /* Needs to be clear so that no CA DNs are transmitted */

    m_context->setup_data.check_common_ca = 0;

    /* Allow all of these but warn if issue */

    m_context->setup_data.allow_self_signed = 1;

    m_context->setup_data.allow_expired_certs = 1;

    m_context->setup_data.cert_chain_validation = 1;

    m_context->setup_data.cert_chain_verify_depth = 10;

    m_context->setup_data.check_cert_revocation = 1;

    m_context->setup_data.allow_no_crl = 1;

    m_context->setup_data.allow_expired_crl = 1;

    m_context->setup_data.allow_bad_md_hash = 1;

    m_context->setup_data.allow_short_rsa_length = 1;

  }

  m_context->psk_pki_enabled |= IS_PKI;

  if (setup_data->use_cid) {

#ifndef MBEDTLS_SSL_DTLS_CONNECTION_ID

    coap_log_warn("Mbed TLS not compiled for Connection-ID support\n");

#endif /* ! MBEDTLS_SSL_DTLS_CONNECTION_ID */

  }

  return 1;

}


int

coap_dtls_context_set_pki_root_cas(coap_context_t *c_context,

                                   const char *ca_file,

                                   const char *ca_path) {

  coap_mbedtls_context_t *m_context =

      ((coap_mbedtls_context_t *)c_context->dtls_context);


  if (!m_context) {

    coap_log_warn("coap_context_set_pki_root_cas: (D)TLS environment "

                  "not set up\n");

    return 0;

  }


  if (ca_file == NULL && ca_path == NULL) {

    coap_log_warn("coap_context_set_pki_root_cas: ca_file and/or ca_path "

                  "not defined\n");

    return 0;

  }

  if (m_context->root_ca_file) {

    mbedtls_free(m_context->root_ca_file);

    m_context->root_ca_file = NULL;

  }


  if (ca_file) {

    m_context->root_ca_file = mbedtls_strdup(ca_file);

  }


  if (m_context->root_ca_path) {

    mbedtls_free(m_context->root_ca_path);

    m_context->root_ca_path = NULL;

  }


  if (ca_path) {

    m_context->root_ca_path = mbedtls_strdup(ca_path);

  }

  return 1;

}


/*

 * return 0 failed

 *        1 passed

 */

int

coap_dtls_context_load_pki_trust_store(coap_context_t *c_context) {

  coap_mbedtls_context_t *m_context =

      ((coap_mbedtls_context_t *)c_context->dtls_context);


  if (!m_context) {

    coap_log_warn("coap_context_load_pki_trust_store: (D)TLS environment "

                  "not set up\n");

    return 0;

  }

  m_context->trust_store_defined = 1;


  /* No proper support for this in MbedTLS at this point */

  return 1;

}


int

coap_dtls_context_check_keys_enabled(coap_context_t *c_context) {

  coap_mbedtls_context_t *m_context =

      ((coap_mbedtls_context_t *)c_context->dtls_context);

  return m_context->psk_pki_enabled ? 1 : 0;

}


void

coap_dtls_free_context(void *dtls_context) {

  coap_mbedtls_context_t *m_context = (coap_mbedtls_context_t *)dtls_context;

  unsigned int i;


  for (i = 0; i < m_context->pki_sni_count; i++) {

    mbedtls_free(m_context->pki_sni_entry_list[i].sni);


    mbedtls_x509_crt_free(&m_context->pki_sni_entry_list[i].public_cert);


    mbedtls_pk_free(&m_context->pki_sni_entry_list[i].private_key);


    mbedtls_x509_crt_free(&m_context->pki_sni_entry_list[i].cacert);

  }

  if (m_context->pki_sni_entry_list)

    mbedtls_free(m_context->pki_sni_entry_list);


  for (i = 0; i < m_context->psk_sni_count; i++) {

    mbedtls_free(m_context->psk_sni_entry_list[i].sni);

  }

  if (m_context->psk_sni_entry_list)

    mbedtls_free(m_context->psk_sni_entry_list);


  if (m_context->root_ca_path)

    mbedtls_free(m_context->root_ca_path);

  if (m_context->root_ca_file)

    mbedtls_free(m_context->root_ca_file);


  mbedtls_free(m_context);

}


#if COAP_CLIENT_SUPPORT

void *

coap_dtls_new_client_session(coap_session_t *c_session) {

#if !defined(MBEDTLS_SSL_CLI_C)

  (void)c_session;

  coap_log_emerg("coap_dtls_new_client_session:"

                 " libcoap not compiled for Client Mode for Mbed TLS"

                 " - update Mbed TLS to include Client Mode\n");

  return NULL;

#else /* MBEDTLS_SSL_CLI_C */

  coap_mbedtls_env_t *m_env = coap_dtls_new_mbedtls_env(c_session,

                                                        COAP_DTLS_ROLE_CLIENT,

                                                        COAP_PROTO_DTLS);

  int ret;


  if (m_env) {

    coap_tick_t now;


    coap_ticks(&now);

    m_env->last_timeout = now;

    ret = do_mbedtls_handshake(c_session, m_env);

    if (ret == -1) {

      coap_dtls_free_mbedtls_env(m_env);

      return NULL;

    }

  }

  return m_env;

#endif /* MBEDTLS_SSL_CLI_C */

}

#endif /* COAP_CLIENT_SUPPORT */


#if COAP_SERVER_SUPPORT

void *

coap_dtls_new_server_session(coap_session_t *c_session) {

#if !defined(MBEDTLS_SSL_SRV_C)

  (void)c_session;

  coap_log_emerg("coap_dtls_new_server_session:"

                 " libcoap not compiled for Server Mode for Mbed TLS"

                 " - update Mbed TLS to include Server Mode\n");

  return NULL;

#else /* MBEDTLS_SSL_SRV_C */

  coap_mbedtls_env_t *m_env =

      (coap_mbedtls_env_t *)c_session->tls;

  if (m_env) {

#if defined(MBEDTLS_SSL_PROTO_DTLS)

#if MBEDTLS_VERSION_NUMBER >= 0x02100100

    mbedtls_ssl_set_mtu(&m_env->ssl, (uint16_t)c_session->mtu);

#endif /* MBEDTLS_VERSION_NUMBER >= 0x02100100 */

#endif /* MBEDTLS_SSL_PROTO_DTLS */

  }

  return m_env;

#endif /* MBEDTLS_SSL_SRV_C */

}

#endif /* COAP_SERVER_SUPPORT */


void

coap_dtls_free_session(coap_session_t *c_session) {

  if (c_session && c_session->context && c_session->tls) {

    coap_dtls_free_mbedtls_env(c_session->tls);

    c_session->tls = NULL;

    coap_handle_event_lkd(c_session->context, COAP_EVENT_DTLS_CLOSED, c_session);

  }

  return;

}


void

coap_dtls_session_update_mtu(coap_session_t *c_session) {

#if defined(MBEDTLS_SSL_PROTO_DTLS)

  coap_mbedtls_env_t *m_env =

      (coap_mbedtls_env_t *)c_session->tls;

  if (m_env) {

#if MBEDTLS_VERSION_NUMBER >= 0x02100100

    mbedtls_ssl_set_mtu(&m_env->ssl, (uint16_t)c_session->mtu);

#endif /* MBEDTLS_VERSION_NUMBER >= 0x02100100 */

  }

#else /* ! MBEDTLS_SSL_PROTO_DTLS */

  (void)c_session;

#endif /* MBEDTLS_SSL_PROTO_DTLS */

}


ssize_t

coap_dtls_send(coap_session_t *c_session,

               const uint8_t *data, size_t data_len) {

  int ret;

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;


  assert(m_env != NULL);


  if (!m_env) {

    return -1;

  }

  c_session->dtls_event = -1;

  coap_log_debug("*  %s: dtls:  sent %4d bytes\n",

                 coap_session_str(c_session), (int)data_len);

  if (m_env->established) {

    ret = mbedtls_ssl_write(&m_env->ssl, (const unsigned char *) data, data_len);

    if (ret <= 0) {

      switch (ret) {

      case MBEDTLS_ERR_SSL_WANT_READ:

      case MBEDTLS_ERR_SSL_WANT_WRITE:

        ret = 0;

        break;

      case MBEDTLS_ERR_SSL_FATAL_ALERT_MESSAGE:

        c_session->dtls_event = COAP_EVENT_DTLS_CLOSED;

        ret = -1;

        break;

      default:

        coap_log_warn("coap_dtls_send: "

                      "returned -0x%x: '%s'\n",

                      -ret, get_error_string(ret));

        ret = -1;

        break;

      }

      if (ret == -1) {

        coap_log_warn("coap_dtls_send: cannot send PDU\n");

      }

    }

  } else {

    ret = do_mbedtls_handshake(c_session, m_env);

    if (ret == 1) {

      /* Just connected, so send the data */

      return coap_dtls_send(c_session, data, data_len);

    }

    ret = -1;

  }


  if (c_session->dtls_event >= 0) {

    /* COAP_EVENT_DTLS_CLOSED event reported in coap_session_disconnected_lkd() */

    if (c_session->dtls_event != COAP_EVENT_DTLS_CLOSED)

      coap_handle_event_lkd(c_session->context, c_session->dtls_event, c_session);

    if (c_session->dtls_event == COAP_EVENT_DTLS_ERROR ||

        c_session->dtls_event == COAP_EVENT_DTLS_CLOSED) {

      coap_session_disconnected_lkd(c_session, COAP_NACK_TLS_FAILED);

      ret = -1;

    }

  }

  return ret;

}


int

coap_dtls_is_context_timeout(void) {

  return 0;

}


coap_tick_t

coap_dtls_get_context_timeout(void *dtls_context COAP_UNUSED) {

  return 0;

}


coap_tick_t

coap_dtls_get_timeout(coap_session_t *c_session, coap_tick_t now) {

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;

#ifdef __ZEPHYR__

  int ret = zephyr_timing_get_delay(&m_env->timer);

#else

  int ret = mbedtls_timing_get_delay(&m_env->timer);

#endif

  unsigned int scalar = 1 << m_env->retry_scalar;


  assert(c_session->state == COAP_SESSION_STATE_HANDSHAKE);

  switch (ret) {

  case 0:

    /* int_ms has not timed out */

    if (m_env->last_timeout + COAP_DTLS_RETRANSMIT_COAP_TICKS * scalar > now) {

      /* Need to indicate remaining timeout time */

      return m_env->last_timeout + COAP_DTLS_RETRANSMIT_COAP_TICKS * scalar;

    }

    m_env->last_timeout = now;

    /* This may cause a minor extra delay */

    return now + COAP_DTLS_RETRANSMIT_COAP_TICKS * scalar;

  case 1:

    /* int_ms has timed out, but not fin_ms */

    /*

     * Need to make sure that we do not do this too frequently

     */

    if (m_env->last_timeout + COAP_DTLS_RETRANSMIT_COAP_TICKS * scalar > now) {

      return m_env->last_timeout + COAP_DTLS_RETRANSMIT_COAP_TICKS * scalar;

    }


    /* Reset for the next time */

    m_env->last_timeout = now;

    return now;

  case 2:

    /* fin_ms has timed out - timed out  - one final try */

    return now;

  default:

    break;

  }


  return 0;

}


/*

 * return 1 timed out

 *        0 still timing out

 */

int

coap_dtls_handle_timeout(coap_session_t *c_session) {

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;


  assert(m_env != NULL && c_session->state == COAP_SESSION_STATE_HANDSHAKE);

  m_env->retry_scalar++;

  if ((++c_session->dtls_timeout_count > c_session->max_retransmit) ||

      (do_mbedtls_handshake(c_session, m_env) < 0)) {

    /* Too many retries */

    coap_session_disconnected_lkd(c_session, COAP_NACK_TLS_FAILED);

    return 1;

  }

  return 0;

}


/*

 * return +ve data amount

 *          0 no more

 *         -1 error

 */

int

coap_dtls_receive(coap_session_t *c_session,

                  const uint8_t *data,

                  size_t data_len) {

  int ret = 1;


  c_session->dtls_event = -1;

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;

  coap_ssl_t *ssl_data;


  assert(m_env != NULL);


  ssl_data = &m_env->coap_ssl_data;

  if (ssl_data->pdu_len) {

    coap_log_err("** %s: Previous data not read %u bytes\n",

                 coap_session_str(c_session), ssl_data->pdu_len);

  }

  ssl_data->pdu = data;

  ssl_data->pdu_len = (unsigned)data_len;


  if (m_env->established) {

#if COAP_CONSTRAINED_STACK

    /* pdu can be protected by global_lock if needed */

    static uint8_t pdu[COAP_RXBUFFER_SIZE];

#else /* ! COAP_CONSTRAINED_STACK */

    uint8_t pdu[COAP_RXBUFFER_SIZE];

#endif /* ! COAP_CONSTRAINED_STACK */


    if (c_session->state == COAP_SESSION_STATE_HANDSHAKE) {

      coap_handle_event_lkd(c_session->context, COAP_EVENT_DTLS_CONNECTED,

                            c_session);

      c_session->sock.lfunc[COAP_LAYER_TLS].l_establish(c_session);

    }


    ret = mbedtls_ssl_read(&m_env->ssl, pdu, sizeof(pdu));

    if (ret > 0) {

      coap_log_debug("*  %s: dtls:  recv %4d bytes\n",

                     coap_session_str(c_session), ret);

      ret = coap_handle_dgram(c_session->context, c_session, pdu, (size_t)ret);

      goto finish;

    }

    switch (ret) {

    case 0:

    case MBEDTLS_ERR_SSL_PEER_CLOSE_NOTIFY:

    case MBEDTLS_ERR_SSL_FATAL_ALERT_MESSAGE:

      c_session->dtls_event = COAP_EVENT_DTLS_CLOSED;

      break;

    case MBEDTLS_ERR_SSL_WANT_READ:

      break;

    default:

      coap_log_warn("coap_dtls_receive: "

                    "returned -0x%x: '%s' (length %zd)\n",

                    -ret, get_error_string(ret), data_len);

      break;

    }

    ret = -1;

  } else {

    ret = do_mbedtls_handshake(c_session, m_env);

    if (ret == 1) {

      /* Just connected, so send the data */

      coap_session_connected(c_session);

    } else {

      if (ssl_data->pdu_len) {

        /* Do the handshake again incase of internal timeout */

        ret = do_mbedtls_handshake(c_session, m_env);

        if (ret == 1) {

          /* Just connected, so send the data */

          coap_session_connected(c_session);

        }

      }

      ret = -1;

    }

  }

  if (c_session->dtls_event >= 0) {

    /* COAP_EVENT_DTLS_CLOSED event reported in coap_session_disconnected_lkd() */

    if (c_session->dtls_event != COAP_EVENT_DTLS_CLOSED)

      coap_handle_event_lkd(c_session->context, c_session->dtls_event, c_session);

    if (c_session->dtls_event == COAP_EVENT_DTLS_ERROR ||

        c_session->dtls_event == COAP_EVENT_DTLS_CLOSED) {

      coap_session_disconnected_lkd(c_session, COAP_NACK_TLS_FAILED);

      ssl_data = NULL;

      ret = -1;

    }

  }

finish:

  if (ssl_data && ssl_data->pdu_len) {

    /* pdu data is held on stack which will not stay there */

    coap_log_debug("coap_dtls_receive: ret %d: remaining data %u\n", ret, ssl_data->pdu_len);

    ssl_data->pdu_len = 0;

    ssl_data->pdu = NULL;

  }

  return ret;

}


#if COAP_SERVER_SUPPORT

/*

 * return -1  failure

 *         0  not completed

 *         1  client hello seen

 */

int

coap_dtls_hello(coap_session_t *c_session,

                const uint8_t *data,

                size_t data_len) {

#if !defined(MBEDTLS_SSL_PROTO_DTLS) || !defined(MBEDTLS_SSL_SRV_C)

  (void)c_session;

  (void)data;

  (void)data_len;

  coap_log_emerg("coap_dtls_hello:"

                 " libcoap not compiled for DTLS or Server Mode for Mbed TLS"

                 " - update Mbed TLS to include DTLS and Server Mode\n");

  return -1;

#else /* MBEDTLS_SSL_PROTO_DTLS && MBEDTLS_SSL_SRV_C */

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;

  coap_ssl_t *ssl_data;

  int ret;


  if (!m_env) {

    m_env = coap_dtls_new_mbedtls_env(c_session, COAP_DTLS_ROLE_SERVER,

                                      COAP_PROTO_DTLS);

    if (m_env) {

      c_session->tls = m_env;

    } else {

      /* error should have already been reported */

      return -1;

    }

  }


  if ((ret = mbedtls_ssl_set_client_transport_id(&m_env->ssl,

                                                 (unsigned char *)&c_session->addr_info.remote,

                                                 sizeof(c_session->addr_info.remote))) != 0) {

    coap_log_err("mbedtls_ssl_set_client_transport_id() returned -0x%x: '%s'\n",

                 -ret, get_error_string(ret));

    return -1;

  }


  ssl_data = &m_env->coap_ssl_data;

  if (ssl_data->pdu_len) {

    coap_log_err("** %s: Previous data not read %u bytes\n",

                 coap_session_str(c_session), ssl_data->pdu_len);

  }

  ssl_data->pdu = data;

  ssl_data->pdu_len = (unsigned)data_len;


  ret = do_mbedtls_handshake(c_session, m_env);

  if (ret == 0 || m_env->seen_client_hello) {

    /* The test for seen_client_hello gives the ability to setup a new

       c_session to continue the do_mbedtls_handshake past the client hello

       and safely allow updating of the m_env and separately

       letting a new session cleanly start up.

     */

    m_env->seen_client_hello = 0;

    ret = 1;

  } else {

    ret = 0;

  }


  if (ssl_data->pdu_len) {

    /* pdu data is held on stack which will not stay there */

    coap_log_debug("coap_dtls_hello: ret %d: remaining data %u\n", ret, ssl_data->pdu_len);

    ssl_data->pdu_len = 0;

    ssl_data->pdu = NULL;

  }

  return ret;

#endif /* MBEDTLS_SSL_PROTO_DTLS && MBEDTLS_SSL_SRV_C */

}

#endif /* COAP_SERVER_SUPPORT */


unsigned int

coap_dtls_get_overhead(coap_session_t *c_session) {

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;

  int expansion = mbedtls_ssl_get_record_expansion(&m_env->ssl);


  if (expansion == MBEDTLS_ERR_SSL_FEATURE_UNAVAILABLE) {

    return 13 + 8 + 8;

  }

  return expansion;

}


#if !COAP_DISABLE_TCP

#if COAP_CLIENT_SUPPORT

void *

coap_tls_new_client_session(coap_session_t *c_session) {

#if !defined(MBEDTLS_SSL_CLI_C)

  (void)c_session;

  *connected = 0;

  coap_log_emerg("coap_tls_new_client_session:"

                 " libcoap not compiled for Client Mode for Mbed TLS"

                 " - update Mbed TLS to include Client Mode\n");

  return NULL;

#else /* MBEDTLS_SSL_CLI_C */

  coap_mbedtls_env_t *m_env = coap_dtls_new_mbedtls_env(c_session,

                                                        COAP_DTLS_ROLE_CLIENT,

                                                        COAP_PROTO_TLS);

  int ret;

  coap_tick_t now;

  coap_ticks(&now);


  if (!m_env)

    return NULL;


  m_env->last_timeout = now;

  c_session->tls = m_env;

  ret = do_mbedtls_handshake(c_session, m_env);

  if (ret == 1) {

    coap_handle_event_lkd(c_session->context, COAP_EVENT_DTLS_CONNECTED, c_session);

    c_session->sock.lfunc[COAP_LAYER_TLS].l_establish(c_session);

  }

  return m_env;

#endif /* MBEDTLS_SSL_CLI_C */

}

#endif /* COAP_CLIENT_SUPPORT */


#if COAP_SERVER_SUPPORT

void *

coap_tls_new_server_session(coap_session_t *c_session) {

#if !defined(MBEDTLS_SSL_SRV_C)

  (void)c_session;

  (void)connected;


  coap_log_emerg("coap_tls_new_server_session:"

                 " libcoap not compiled for Server Mode for Mbed TLS"

                 " - update Mbed TLS to include Server Mode\n");

  return NULL;

#else /* MBEDTLS_SSL_SRV_C */

  coap_mbedtls_env_t *m_env = coap_dtls_new_mbedtls_env(c_session,

                                                        COAP_DTLS_ROLE_SERVER,

                                                        COAP_PROTO_TLS);

  int ret;


  if (!m_env)

    return NULL;


  c_session->tls = m_env;

  ret = do_mbedtls_handshake(c_session, m_env);

  if (ret == 1) {

    coap_handle_event_lkd(c_session->context, COAP_EVENT_DTLS_CONNECTED, c_session);

    c_session->sock.lfunc[COAP_LAYER_TLS].l_establish(c_session);

  }

  return m_env;

#endif /* MBEDTLS_SSL_SRV_C */

}

#endif /* COAP_SERVER_SUPPORT */


void

coap_tls_free_session(coap_session_t *c_session) {

  coap_dtls_free_session(c_session);

  return;

}


/*

 * strm

 * return +ve Number of bytes written.

 *         -1 Error (error in errno).

 */

ssize_t

coap_tls_write(coap_session_t *c_session, const uint8_t *data,

               size_t data_len) {

  int ret = 0;

  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;

  size_t amount_sent = 0;


  assert(m_env != NULL);


  if (!m_env) {

    errno = ENXIO;

    return -1;

  }

  c_session->dtls_event = -1;

  if (m_env->established) {

    while (amount_sent < data_len) {

      ret = mbedtls_ssl_write(&m_env->ssl, &data[amount_sent],

                              data_len - amount_sent);

      if (ret <= 0) {

        switch (ret) {

        case MBEDTLS_ERR_SSL_WANT_READ:

        case MBEDTLS_ERR_SSL_WANT_WRITE:

          if (amount_sent)

            ret = amount_sent;

          else

            ret = 0;

          c_session->sock.flags |= COAP_SOCKET_WANT_WRITE;

          break;

        case MBEDTLS_ERR_NET_CONN_RESET:

        case MBEDTLS_ERR_SSL_FATAL_ALERT_MESSAGE:

          c_session->dtls_event = COAP_EVENT_DTLS_CLOSED;

          break;

        default:

          coap_log_warn("coap_tls_write: "

                        "returned -0x%x: '%s'\n",

                        -ret, get_error_string(ret));

          ret = -1;

          break;

        }

        if (ret == -1) {

          coap_log_warn("coap_tls_write: cannot send PDU\n");

        }

        break;

      }

      amount_sent += ret;

    }

  } else {

    ret = do_mbedtls_handshake(c_session, m_env);

    if (ret == 1) {

      coap_handle_event_lkd(c_session->context, COAP_EVENT_DTLS_CONNECTED,

                            c_session);

      c_session->sock.lfunc[COAP_LAYER_TLS].l_establish(c_session);

    } else {

      ret = -1;

    }

  }


  if (c_session->dtls_event >= 0) {

    /* COAP_EVENT_DTLS_CLOSED event reported in coap_session_disconnected_lkd() */

    if (c_session->dtls_event != COAP_EVENT_DTLS_CLOSED)

      coap_handle_event_lkd(c_session->context, c_session->dtls_event, c_session);

    if (c_session->dtls_event == COAP_EVENT_DTLS_ERROR ||

        c_session->dtls_event == COAP_EVENT_DTLS_CLOSED) {

      coap_session_disconnected_lkd(c_session, COAP_NACK_TLS_FAILED);

      ret = -1;

    }

  }

  if (ret > 0) {

    if (ret == (ssize_t)data_len)

      coap_log_debug("*  %s: tls:   sent %4d bytes\n",

                     coap_session_str(c_session), ret);

    else

      coap_log_debug("*  %s: tls:   sent %4d of %4zd bytes\n",

                     coap_session_str(c_session), ret, data_len);

  }

  return ret;

}


/*

 * strm

 * return >=0 Number of bytes read.

 *         -1 Error (error in errno).

 */

ssize_t

coap_tls_read(coap_session_t *c_session, uint8_t *data, size_t data_len) {

  int ret = -1;


  coap_mbedtls_env_t *m_env = (coap_mbedtls_env_t *)c_session->tls;


  if (!m_env) {

    errno = ENXIO;

    return -1;

  }


  c_session->dtls_event = -1;


  if (!m_env->established && !m_env->sent_alert) {

    ret = do_mbedtls_handshake(c_session, m_env);

    if (ret == 1) {

      coap_handle_event_lkd(c_session->context, COAP_EVENT_DTLS_CONNECTED,

                            c_session);

      c_session->sock.lfunc[COAP_LAYER_TLS].l_establish(c_session);

    }

  }


  if (c_session->state != COAP_SESSION_STATE_NONE && m_env->established) {

    ret = mbedtls_ssl_read(&m_env->ssl, data, data_len);

    if (ret <= 0) {

      switch (ret) {

      case 0:

      case MBEDTLS_ERR_SSL_PEER_CLOSE_NOTIFY:

        c_session->dtls_event = COAP_EVENT_DTLS_CLOSED;

        ret = -1;

        break;

      case MBEDTLS_ERR_SSL_FATAL_ALERT_MESSAGE:

        /* Stop the sending of an alert on closedown */

        m_env->sent_alert = 1;

        c_session->dtls_event = COAP_EVENT_DTLS_CLOSED;

        break;

#if MBEDTLS_VERSION_NUMBER >= 0x03060000

      case MBEDTLS_ERR_SSL_RECEIVED_NEW_SESSION_TICKET:

#endif /* MBEDTLS_VERSION_NUMBER >= 0x03060000 */

      case MBEDTLS_ERR_SSL_WANT_READ:

        errno = EAGAIN;

        ret = 0;

        break;

      default:

        coap_log_warn("coap_tls_read: "

                      "returned -0x%x: '%s' (length %zd)\n",

                      -ret, get_error_string(ret), data_len);

        ret = -1;

        break;

      }

    } else if (ret < (int)data_len) {

      c_session->sock.flags &= ~COAP_SOCKET_CAN_READ;

    }

  }


  if (c_session->dtls_event >= 0) {

    /* COAP_EVENT_DTLS_CLOSED event reported in coap_session_disconnected_lkd() */

    if (c_session->dtls_event != COAP_EVENT_DTLS_CLOSED)

      coap_handle_event_lkd(c_session->context, c_session->dtls_event, c_session);

    if (c_session->dtls_event == COAP_EVENT_DTLS_ERROR ||

        c_session->dtls_event == COAP_EVENT_DTLS_CLOSED) {

      coap_session_disconnected_lkd(c_session, COAP_NACK_TLS_FAILED);

      ret = -1;

    }

  }

  if (ret > 0) {

    coap_log_debug("*  %s: tls:   recv %4d bytes\n",

                   coap_session_str(c_session), ret);

  }

  return ret;

}

#endif /* !COAP_DISABLE_TCP */


void

coap_dtls_startup(void) {

}


void

coap_dtls_shutdown(void) {

#if COAP_CLIENT_SUPPORT

  mbedtls_free(psk_ciphers);

  mbedtls_free(pki_ciphers);

  mbedtls_free(ecjpake_ciphers);

  psk_ciphers = NULL;

  pki_ciphers = NULL;

  ecjpake_ciphers = NULL;

  processed_ciphers = 0;

#endif /* COAP_CLIENT_SUPPORT */

  coap_dtls_set_log_level(COAP_LOG_EMERG);

}


void *

coap_dtls_get_tls(const coap_session_t *c_session,

                  coap_tls_library_t *tls_lib) {

  if (tls_lib)

    *tls_lib = COAP_TLS_LIBRARY_MBEDTLS;

  if (c_session && c_session->tls) {

    coap_mbedtls_env_t *m_env;


    /* To get around const issue */

    memcpy(&m_env, &c_session->tls, sizeof(m_env));


    return (void *)&m_env->ssl;

  }

  return NULL;

}


static coap_log_t keep_log_level = COAP_LOG_EMERG;


void

coap_dtls_set_log_level(coap_log_t level) {

#if !defined(ESPIDF_VERSION)

  int use_level;

  /*

   * Mbed TLS debug levels filter

   *  0 No debug

   *  1 Error

   *  2 State change

   *  3 Informational

   *  4 Verbose

   */

  switch ((int)level) {

  case COAP_LOG_EMERG:

    use_level = 0;

    break;

  case COAP_LOG_ALERT:

  case COAP_LOG_CRIT:

  case COAP_LOG_ERR:

  case COAP_LOG_WARN:

    use_level = 1;

    break;

  case COAP_LOG_NOTICE:

    use_level = 2;

    break;

  case COAP_LOG_INFO:

    use_level = 3;

    break;

  case COAP_LOG_DEBUG:

  default:

    use_level = 4;

    break;

  }

  mbedtls_debug_set_threshold(use_level);

#endif /* !ESPIDF_VERSION) */

  keep_log_level = level;

}


coap_log_t

coap_dtls_get_log_level(void) {

  return keep_log_level;

}


coap_tls_version_t *

coap_get_tls_library_version(void) {

  static coap_tls_version_t version;

  version.version = mbedtls_version_get_number();

  version.built_version = MBEDTLS_VERSION_NUMBER;

  version.type = COAP_TLS_LIBRARY_MBEDTLS;

  return &version;

}


#if COAP_SERVER_SUPPORT

coap_digest_ctx_t *

coap_digest_setup(void) {

  mbedtls_sha256_context *digest_ctx = mbedtls_malloc(sizeof(mbedtls_sha256_context));


  if (digest_ctx) {

    mbedtls_sha256_init(digest_ctx);

#ifdef MBEDTLS_2_X_COMPAT

    if (mbedtls_sha256_starts_ret(digest_ctx, 0) != 0) {

#else

    if (mbedtls_sha256_starts(digest_ctx, 0) != 0) {

#endif /* MBEDTLS_2_X_COMPAT */

      coap_digest_free(digest_ctx);

      return NULL;

    }

  }

  return digest_ctx;

}


void

coap_digest_free(coap_digest_ctx_t *digest_ctx) {

  if (digest_ctx) {

    mbedtls_sha256_free(digest_ctx);

    mbedtls_free(digest_ctx);

  }

}


int

coap_digest_update(coap_digest_ctx_t *digest_ctx,

                   const uint8_t *data,

                   size_t data_len) {

#ifdef MBEDTLS_2_X_COMPAT

  int ret = mbedtls_sha256_update_ret(digest_ctx, data, data_len);

#else

  int ret = mbedtls_sha256_update(digest_ctx, data, data_len);

#endif /* MBEDTLS_2_X_COMPAT */


  return ret == 0;

}


int

coap_digest_final(coap_digest_ctx_t *digest_ctx,

                  coap_digest_t *digest_buffer) {

#ifdef MBEDTLS_2_X_COMPAT

  int ret = mbedtls_sha256_finish_ret(digest_ctx, (uint8_t *)digest_buffer);

#else

  int ret = mbedtls_sha256_finish(digest_ctx, (uint8_t *)digest_buffer);

#endif /* MBEDTLS_2_X_COMPAT */


  coap_digest_free(digest_ctx);

  return ret == 0;

}

#endif /* COAP_SERVER_SUPPORT */


#include <mbedtls/cipher.h>

#include <mbedtls/md.h>


#ifndef MBEDTLS_CIPHER_MODE_AEAD

#error need MBEDTLS_CIPHER_MODE_AEAD, please enable MBEDTLS_CCM_C

#endif /* MBEDTLS_CIPHER_MODE_AEAD */


#ifdef MBEDTLS_ERROR_C

#include <mbedtls/error.h>

#endif /* MBEDTLS_ERROR_C */


#ifdef MBEDTLS_ERROR_C

#define C(Func)                                                                \

  do {                                                                         \

    int c_tmp = (int)(Func);                                                   \

    if (c_tmp != 0) {                                                          \

      char error_buf[64];                                                      \

      mbedtls_strerror(c_tmp, error_buf, sizeof(error_buf));                   \

      coap_log_err("mbedtls: -0x%04x: %s\n", -c_tmp, error_buf);               \

      goto error;                                                              \

    }                                                                          \

  } while (0);

#else /* !MBEDTLS_ERROR_C */

#define C(Func)                                                                \

  do {                                                                         \

    int c_tmp = (int)(Func);                                                   \

    if (c_tmp != 0) {                                                          \

      coap_log_err("mbedtls: %d\n", tmp);                                      \

      goto error;                                                              \

    }                                                                          \

  } while (0);

#endif /* !MBEDTLS_ERROR_C */


#if COAP_WS_SUPPORT

/*

 * The struct hash_algs and the function get_hash_alg() are used to

 * determine which hash type to use for creating the required hash object.

 */

static struct hash_algs {

  cose_alg_t alg;

  mbedtls_md_type_t hash_type;

  size_t hash_size;

} hashs[] = {

  {COSE_ALGORITHM_SHA_1,       MBEDTLS_MD_SHA1,   20},

  {COSE_ALGORITHM_SHA_256_256, MBEDTLS_MD_SHA256, 32},

  {COSE_ALGORITHM_SHA_512,     MBEDTLS_MD_SHA512, 64},

};


static mbedtls_md_type_t

get_hash_alg(cose_alg_t alg, size_t *hash_len) {

  size_t idx;


  for (idx = 0; idx < sizeof(hashs) / sizeof(struct hash_algs); idx++) {

    if (hashs[idx].alg == alg) {

      *hash_len = hashs[idx].hash_size;

      return hashs[idx].hash_type;

    }

  }

  coap_log_debug("get_hash_alg: COSE hash %d not supported\n", alg);

  return MBEDTLS_MD_NONE;

}


int

coap_crypto_hash(cose_alg_t alg,

                 const coap_bin_const_t *data,

                 coap_bin_const_t **hash) {

  mbedtls_md_context_t ctx;

  int ret = 0;

  const mbedtls_md_info_t *md_info;

  unsigned int len;

  coap_binary_t *dummy = NULL;

  size_t hash_length;

  mbedtls_md_type_t dig_type = get_hash_alg(alg, &hash_length);


  if (dig_type == MBEDTLS_MD_NONE) {

    coap_log_debug("coap_crypto_hash: algorithm %d not supported\n", alg);

    return 0;

  }

  md_info = mbedtls_md_info_from_type(dig_type);


  len = mbedtls_md_get_size(md_info);

  if (len == 0) {

    return 0;

  }


  mbedtls_md_init(&ctx);

  C(mbedtls_md_setup(&ctx, md_info, 0));


  C(mbedtls_md_starts(&ctx));

  C(mbedtls_md_update(&ctx, (const unsigned char *)data->s, data->length));

  dummy = coap_new_binary(len);

  if (dummy == NULL)

    goto error;

  C(mbedtls_md_finish(&ctx, dummy->s));


  *hash = (coap_bin_const_t *)dummy;

  ret = 1;

error:

  mbedtls_md_free(&ctx);

  return ret;

}

#endif /* COAP_WS_SUPPORT */


#if COAP_OSCORE_SUPPORT

int

coap_oscore_is_supported(void) {

  return 1;

}


/*

 * The struct cipher_algs and the function get_cipher_alg() are used to

 * determine which cipher type to use for creating the required cipher

 * suite object.

 */

static struct cipher_algs {

  cose_alg_t alg;

  mbedtls_cipher_type_t cipher_type;

} ciphers[] = {{COSE_ALGORITHM_AES_CCM_16_64_128, MBEDTLS_CIPHER_AES_128_CCM},

  {COSE_ALGORITHM_AES_CCM_16_64_256, MBEDTLS_CIPHER_AES_256_CCM}

};


static mbedtls_cipher_type_t

get_cipher_alg(cose_alg_t alg) {

  size_t idx;


  for (idx = 0; idx < sizeof(ciphers) / sizeof(struct cipher_algs); idx++) {

    if (ciphers[idx].alg == alg)

      return ciphers[idx].cipher_type;

  }

  coap_log_debug("get_cipher_alg: COSE cipher %d not supported\n", alg);

  return 0;

}


/*

 * The struct hmac_algs and the function get_hmac_alg() are used to

 * determine which hmac type to use for creating the required hmac

 * suite object.

 */

static struct hmac_algs {

  cose_hmac_alg_t hmac_alg;

  mbedtls_md_type_t hmac_type;

} hmacs[] = {

  {COSE_HMAC_ALG_HMAC256_256, MBEDTLS_MD_SHA256},

  {COSE_HMAC_ALG_HMAC384_384, MBEDTLS_MD_SHA384},

  {COSE_HMAC_ALG_HMAC512_512, MBEDTLS_MD_SHA512},

};


static mbedtls_md_type_t

get_hmac_alg(cose_hmac_alg_t hmac_alg) {

  size_t idx;


  for (idx = 0; idx < sizeof(hmacs) / sizeof(struct hmac_algs); idx++) {

    if (hmacs[idx].hmac_alg == hmac_alg)

      return hmacs[idx].hmac_type;

  }

  coap_log_debug("get_hmac_alg: COSE HMAC %d not supported\n", hmac_alg);

  return 0;

}


int

coap_crypto_check_cipher_alg(cose_alg_t alg) {

  return get_cipher_alg(alg) != 0;

}


int

coap_crypto_check_hkdf_alg(cose_hkdf_alg_t hkdf_alg) {

  cose_hmac_alg_t hmac_alg;


  if (!cose_get_hmac_alg_for_hkdf(hkdf_alg, &hmac_alg))

    return 0;

  return get_hmac_alg(hmac_alg) != 0;

}


static int

setup_cipher_context(mbedtls_cipher_context_t *ctx,

                     cose_alg_t coap_alg,

                     const uint8_t *key_data,

                     size_t key_length,

                     mbedtls_operation_t mode) {

  const mbedtls_cipher_info_t *cipher_info;

  mbedtls_cipher_type_t cipher_type;

  uint8_t key[COAP_CRYPTO_MAX_KEY_SIZE]; /* buffer for normalizing the key

                                            according to its key length */

  int klen;

  memset(key, 0, sizeof(key));


  if ((cipher_type = get_cipher_alg(coap_alg)) == 0) {

    coap_log_debug("coap_crypto_encrypt: algorithm %d not supported\n",

                   coap_alg);

    return 0;

  }

  cipher_info = mbedtls_cipher_info_from_type(cipher_type);

  if (!cipher_info) {

    coap_log_crit("coap_crypto_encrypt: cannot get cipher info\n");

    return 0;

  }


  mbedtls_cipher_init(ctx);


  C(mbedtls_cipher_setup(ctx, cipher_info));

  klen = mbedtls_cipher_get_key_bitlen(ctx);

  if ((klen > (int)(sizeof(key) * 8)) || (key_length > sizeof(key))) {

    coap_log_crit("coap_crypto: cannot set key\n");

    goto error;

  }

  memcpy(key, key_data, key_length);

  C(mbedtls_cipher_setkey(ctx, key, klen, mode));


  /* On success, the cipher context is released by the caller. */

  return 1;

error:

  mbedtls_cipher_free(ctx);

  return 0;

}


int

coap_crypto_aead_encrypt(const coap_crypto_param_t *params,

                         coap_bin_const_t *data,

                         coap_bin_const_t *aad,

                         uint8_t *result,

                         size_t *max_result_len) {

  mbedtls_cipher_context_t ctx;

  const coap_crypto_aes_ccm_t *ccm;

#if (MBEDTLS_VERSION_NUMBER < 0x02150000)

  unsigned char tag[16];

#endif /* MBEDTLS_VERSION_NUMBER < 0x02150000 */

  int ret = 0;

  size_t result_len = *max_result_len;

  coap_bin_const_t laad;


  if (data == NULL)

    return 0;


  assert(params != NULL);


  if (!params) {

    return 0;

  }

  ccm = &params->params.aes;


  if (!setup_cipher_context(&ctx,

                            params->alg,

                            ccm->key.s,

                            ccm->key.length,

                            MBEDTLS_ENCRYPT)) {

    return 0;

  }


  if (aad) {

    laad = *aad;

  } else {

    laad.s = NULL;

    laad.length = 0;

  }


#if (MBEDTLS_VERSION_NUMBER < 0x02150000)

  C(mbedtls_cipher_auth_encrypt(&ctx,

                                ccm->nonce,

                                15 - ccm->l, /* iv */

                                laad.s,

                                laad.length, /* ad */

                                data->s,

                                data->length, /* input */

                                result,

                                &result_len, /* output */

                                tag,

                                ccm->tag_len /* tag */

                               ));

  /* check if buffer is sufficient to hold tag */

  if ((result_len + ccm->tag_len) > *max_result_len) {

    coap_log_err("coap_encrypt: buffer too small\n");

    goto error;

  }

  /* append tag to result */

  memcpy(result + result_len, tag, ccm->tag_len);

  *max_result_len = result_len + ccm->tag_len;

  ret = 1;

#else /* MBEDTLS_VERSION_NUMBER >= 0x02150000 */

  C(mbedtls_cipher_auth_encrypt_ext(&ctx,

                                    ccm->nonce,

                                    15 - ccm->l, /* iv */

                                    laad.s,

                                    laad.length, /* ad */

                                    data->s,

                                    data->length, /* input */

                                    result,

                                    result_len,

                                    &result_len, /* output */

                                    ccm->tag_len /* tag */

                                   ));

  *max_result_len = result_len;

  ret = 1;

#endif /* MBEDTLS_VERSION_NUMBER >= 0x02150000 */


error:

  mbedtls_cipher_free(&ctx);

  return ret;

}


int

coap_crypto_aead_decrypt(const coap_crypto_param_t *params,

                         coap_bin_const_t *data,

                         coap_bin_const_t *aad,

                         uint8_t *result,

                         size_t *max_result_len) {

  mbedtls_cipher_context_t ctx;

  const coap_crypto_aes_ccm_t *ccm;

#if (MBEDTLS_VERSION_NUMBER < 0x02150000)

  const unsigned char *tag;

#endif /* MBEDTLS_VERSION_NUMBER < 0x02150000 */

  int ret = 0;

  size_t result_len = *max_result_len;

  coap_bin_const_t laad;


  if (data == NULL)

    return 0;


  assert(params != NULL);


  if (!params) {

    return 0;

  }


  ccm = &params->params.aes;


  if (!setup_cipher_context(&ctx,

                            params->alg,

                            ccm->key.s,

                            ccm->key.length,

                            MBEDTLS_DECRYPT)) {

    return 0;

  }


  if (data->length < ccm->tag_len) {

    coap_log_err("coap_decrypt: invalid tag length\n");

    goto error;

  }


  if (aad) {

    laad = *aad;

  } else {

    laad.s = NULL;

    laad.length = 0;

  }


#if (MBEDTLS_VERSION_NUMBER < 0x02150000)

  tag = data->s + data->length - ccm->tag_len;

  C(mbedtls_cipher_auth_decrypt(&ctx,

                                ccm->nonce,

                                15 - ccm->l, /* iv */

                                laad.s,

                                laad.length, /* ad */

                                data->s,

                                data->length - ccm->tag_len, /* input */

                                result,

                                &result_len, /* output */

                                tag,

                                ccm->tag_len /* tag */

                               ));

#else /* MBEDTLS_VERSION_NUMBER >= 0x02150000 */

  C(mbedtls_cipher_auth_decrypt_ext(&ctx,

                                    ccm->nonce,

                                    15 - ccm->l, /* iv */

                                    laad.s,

                                    laad.length, /* ad */

                                    data->s,

                                    //     data->length - ccm->tag_len, /* input */

                                    data->length, /* input */

                                    result,

                                    result_len,

                                    &result_len, /* output */

                                    ccm->tag_len /* tag */

                                   ));

#endif /* MBEDTLS_VERSION_NUMBER >= 0x02150000 */


  *max_result_len = result_len;

  ret = 1;

error:

  mbedtls_cipher_free(&ctx);

  return ret;

}


int

coap_crypto_hmac(cose_hmac_alg_t hmac_alg,

                 coap_bin_const_t *key,

                 coap_bin_const_t *data,

                 coap_bin_const_t **hmac) {

  mbedtls_md_context_t ctx;

  int ret = 0;

  const int use_hmac = 1;

  const mbedtls_md_info_t *md_info;

  mbedtls_md_type_t mac_algo;

  unsigned int len;

  coap_binary_t *dummy = NULL;


  assert(key);

  assert(data);

  assert(hmac);


  if ((mac_algo = get_hmac_alg(hmac_alg)) == 0) {

    coap_log_debug("coap_crypto_hmac: algorithm %d not supported\n", hmac_alg);

    return 0;

  }

  md_info = mbedtls_md_info_from_type(mac_algo);


  len = mbedtls_md_get_size(md_info);

  if (len == 0) {

    return 0;

  }


  mbedtls_md_init(&ctx);

  C(mbedtls_md_setup(&ctx, md_info, use_hmac));


  C(mbedtls_md_hmac_starts(&ctx, key->s, key->length));

  C(mbedtls_md_hmac_update(&ctx, (const unsigned char *)data->s, data->length));

  dummy = coap_new_binary(len);

  if (dummy == NULL)

    goto error;

  C(mbedtls_md_hmac_finish(&ctx, dummy->s));


  *hmac = (coap_bin_const_t *)dummy;

  ret = 1;

error:

  mbedtls_md_free(&ctx);

  return ret;

}


#endif /* COAP_OSCORE_SUPPORT */


#else /* ! COAP_WITH_LIBMBEDTLS */


#ifdef __clang__

/* Make compilers happy that do not like empty modules. As this function is

 * never used, we ignore -Wunused-function at the end of compiling this file

 */

#pragma GCC diagnostic ignored "-Wunused-function"

#endif

static inline void


dummy(void) {

}


#endif /* ! COAP_WITH_LIBMBEDTLS */

COAP_SERVER_SUPPORT
#define COAP_SERVER_SUPPORT
Definition coap_internal.h:62

PRIx32
#define PRIx32
Definition coap_internal.h:42

coap_socket_strerror
const char * coap_socket_strerror(void)
Definition coap_io.c:814

COAP_RXBUFFER_SIZE
#define COAP_RXBUFFER_SIZE
Definition coap_io.h:33

COAP_NACK_TLS_FAILED
@ COAP_NACK_TLS_FAILED
Definition coap_io.h:70

COAP_SOCKET_WANT_WRITE
#define COAP_SOCKET_WANT_WRITE
non blocking socket is waiting for writing
Definition coap_io_internal.h:83

COAP_LAYER_TLS
@ COAP_LAYER_TLS
Definition coap_layers_internal.h:29

coap_libcoap_build.h
Library specific build wrapper for coap_internal.h.

dummy
static void dummy(void)
Definition coap_mbedtls.c:3504

coap_dtls_context_set_pki
int coap_dtls_context_set_pki(coap_context_t *ctx COAP_UNUSED, const coap_dtls_pki_t *setup_data COAP_UNUSED, const coap_dtls_role_t role COAP_UNUSED)
Definition coap_notls.c:108

coap_dtls_get_timeout
coap_tick_t coap_dtls_get_timeout(coap_session_t *session COAP_UNUSED, coap_tick_t now COAP_UNUSED)
Definition coap_notls.c:229

coap_tls_read
ssize_t coap_tls_read(coap_session_t *session COAP_UNUSED, uint8_t *data COAP_UNUSED, size_t data_len COAP_UNUSED)
Definition coap_notls.c:301

coap_dtls_get_context_timeout
coap_tick_t coap_dtls_get_context_timeout(void *dtls_context COAP_UNUSED)
Definition coap_notls.c:224

coap_dtls_receive
int coap_dtls_receive(coap_session_t *session COAP_UNUSED, const uint8_t *data COAP_UNUSED, size_t data_len COAP_UNUSED)
Definition coap_notls.c:243

coap_dtls_get_tls
void * coap_dtls_get_tls(const coap_session_t *c_session COAP_UNUSED, coap_tls_library_t *tls_lib)
Definition coap_notls.c:158

coap_dtls_get_overhead
unsigned int coap_dtls_get_overhead(coap_session_t *session COAP_UNUSED)
Definition coap_notls.c:261

coap_dtls_context_load_pki_trust_store
int coap_dtls_context_load_pki_trust_store(coap_context_t *ctx COAP_UNUSED)
Definition coap_notls.c:124

coap_dtls_context_check_keys_enabled
int coap_dtls_context_check_keys_enabled(coap_context_t *ctx COAP_UNUSED)
Definition coap_notls.c:147

coap_dtls_send
ssize_t coap_dtls_send(coap_session_t *session COAP_UNUSED, const uint8_t *data COAP_UNUSED, size_t data_len COAP_UNUSED)
Definition coap_notls.c:212

coap_tls_write
ssize_t coap_tls_write(coap_session_t *session COAP_UNUSED, const uint8_t *data COAP_UNUSED, size_t data_len COAP_UNUSED)
Definition coap_notls.c:289

coap_dtls_session_update_mtu
void coap_dtls_session_update_mtu(coap_session_t *session COAP_UNUSED)
Definition coap_notls.c:208

coap_dtls_context_set_pki_root_cas
int coap_dtls_context_set_pki_root_cas(coap_context_t *ctx COAP_UNUSED, const char *ca_file COAP_UNUSED, const char *ca_path COAP_UNUSED)
Definition coap_notls.c:116

coap_dtls_handle_timeout
int coap_dtls_handle_timeout(coap_session_t *session COAP_UNUSED)
Definition coap_notls.c:238

coap_dtls_free_context
void coap_dtls_free_context(void *handle COAP_UNUSED)
Definition coap_notls.c:186

coap_dtls_free_session
void coap_dtls_free_session(coap_session_t *coap_session COAP_UNUSED)
Definition coap_notls.c:204

coap_dtls_new_context
void * coap_dtls_new_context(coap_context_t *coap_context COAP_UNUSED)
Definition coap_notls.c:181

coap_tls_free_session
void coap_tls_free_session(coap_session_t *coap_session COAP_UNUSED)
Definition coap_notls.c:280

coap_digest_free
void coap_digest_free(coap_digest_ctx_t *digest_ctx)
Free off coap_digest_ctx_t.

coap_digest_final
int coap_digest_final(coap_digest_ctx_t *digest_ctx, coap_digest_t *digest_buffer)
Finalize the coap_digest information into the provided digest_buffer.

coap_digest_update
int coap_digest_update(coap_digest_ctx_t *digest_ctx, const uint8_t *data, size_t data_len)
Update the coap_digest information with the next chunk of data.

coap_digest_ctx_t
void coap_digest_ctx_t
Definition coap_cache_internal.h:168

coap_digest_setup
coap_digest_ctx_t * coap_digest_setup(void)
Initialize a coap_digest.

coap_tick_t
uint64_t coap_tick_t
This data type represents internal timer ticks with COAP_TICKS_PER_SECOND resolution.
Definition coap_time.h:151

coap_prng_lkd
int coap_prng_lkd(void *buf, size_t len)
Fills buf with len random bytes using the default pseudo random number generator.
Definition coap_prng.c:190

coap_handle_event_lkd
int coap_handle_event_lkd(coap_context_t *context, coap_event_t event, coap_session_t *session)
Invokes the event handler of context for the given event and data.
Definition coap_net.c:4915

coap_handle_dgram
int coap_handle_dgram(coap_context_t *ctx, coap_session_t *session, uint8_t *msg, size_t msg_len)
Parses and interprets a CoAP datagram with context ctx.
Definition coap_net.c:2875

coap_ticks
void coap_ticks(coap_tick_t *t)
Returns the current value of an internal tick counter.
Definition coap_time.c:90

coap_crypto_hmac
int coap_crypto_hmac(cose_hmac_alg_t hmac_alg, coap_bin_const_t *key, coap_bin_const_t *data, coap_bin_const_t **hmac)
Create a HMAC hash of the provided data.

coap_crypto_aead_decrypt
int coap_crypto_aead_decrypt(const coap_crypto_param_t *params, coap_bin_const_t *data, coap_bin_const_t *aad, uint8_t *result, size_t *max_result_len)
Decrypt the provided encrypted data into plaintext.

coap_crypto_aead_encrypt
int coap_crypto_aead_encrypt(const coap_crypto_param_t *params, coap_bin_const_t *data, coap_bin_const_t *aad, uint8_t *result, size_t *max_result_len)
Encrypt the provided plaintext data.

COAP_CRYPTO_MAX_KEY_SIZE
#define COAP_CRYPTO_MAX_KEY_SIZE
Definition coap_crypto_internal.h:38

coap_crypto_hash
int coap_crypto_hash(cose_alg_t alg, const coap_bin_const_t *data, coap_bin_const_t **hash)
Create a hash of the provided data.

coap_crypto_check_hkdf_alg
int coap_crypto_check_hkdf_alg(cose_hkdf_alg_t hkdf_alg)
Check whether the defined hkdf algorithm is supported by the underlying crypto library.

coap_crypto_check_cipher_alg
int coap_crypto_check_cipher_alg(cose_alg_t alg)
Check whether the defined cipher algorithm is supported by the underlying crypto library.

coap_tls_new_server_session
void * coap_tls_new_server_session(coap_session_t *coap_session)
Create a TLS new server-side session.

coap_get_session_client_psk_identity
const coap_bin_const_t * coap_get_session_client_psk_identity(const coap_session_t *coap_session)
Get the current client's PSK identity.

coap_dtls_startup
void coap_dtls_startup(void)
Initialize the underlying (D)TLS Library layer.
Definition coap_notls.c:154

coap_dtls_define_issue
int coap_dtls_define_issue(coap_define_issue_key_t type, coap_define_issue_fail_t fail, coap_dtls_key_t *key, const coap_dtls_role_t role, int ret)
Report PKI DEFINE type issue.
Definition coap_dtls.c:165

coap_dtls_new_client_session
void * coap_dtls_new_client_session(coap_session_t *coap_session)
Create a new client-side session.

coap_dtls_new_server_session
void * coap_dtls_new_server_session(coap_session_t *coap_session)
Create a new DTLS server-side session.

coap_dtls_hello
int coap_dtls_hello(coap_session_t *coap_session, const uint8_t *data, size_t data_len)
Handling client HELLO messages from a new candiate peer.

coap_dtls_set_cid_tuple_change
int coap_dtls_set_cid_tuple_change(coap_context_t *context, uint8_t every)
Set the Connection ID client tuple frequency change for testing CIDs.

coap_dtls_is_context_timeout
int coap_dtls_is_context_timeout(void)
Check if timeout is handled per CoAP session or per CoAP context.
Definition coap_notls.c:219

coap_dtls_context_set_cpsk
int coap_dtls_context_set_cpsk(coap_context_t *coap_context, coap_dtls_cpsk_t *setup_data)
Set the DTLS context's default client PSK information.

coap_dtls_context_set_spsk
int coap_dtls_context_set_spsk(coap_context_t *coap_context, coap_dtls_spsk_t *setup_data)
Set the DTLS context's default server PSK information.

coap_dtls_shutdown
void coap_dtls_shutdown(void)
Close down the underlying (D)TLS Library layer.
Definition coap_notls.c:166

coap_get_session_client_psk_key
const coap_bin_const_t * coap_get_session_client_psk_key(const coap_session_t *coap_session)
Get the current client's PSK key.

coap_tls_new_client_session
void * coap_tls_new_client_session(coap_session_t *coap_session)
Create a new TLS client-side session.

COAP_DTLS_RETRANSMIT_COAP_TICKS
#define COAP_DTLS_RETRANSMIT_COAP_TICKS
Definition coap_dtls_internal.h:43

coap_dtls_map_key_type_to_define
void coap_dtls_map_key_type_to_define(const coap_dtls_pki_t *setup_data, coap_dtls_key_t *key)
Map the PKI key definitions to the new DEFINE format.
Definition coap_dtls.c:26

coap_get_session_server_psk_key
const coap_bin_const_t * coap_get_session_server_psk_key(const coap_session_t *coap_session)
Get the current server's PSK key.

COAP_DEFINE_KEY_PRIVATE
@ COAP_DEFINE_KEY_PRIVATE
Definition coap_dtls_internal.h:54

COAP_DEFINE_KEY_ROOT_CA
@ COAP_DEFINE_KEY_ROOT_CA
Definition coap_dtls_internal.h:52

COAP_DEFINE_KEY_CA
@ COAP_DEFINE_KEY_CA
Definition coap_dtls_internal.h:51

COAP_DEFINE_KEY_PUBLIC
@ COAP_DEFINE_KEY_PUBLIC
Definition coap_dtls_internal.h:53

COAP_DEFINE_FAIL_NONE
@ COAP_DEFINE_FAIL_NONE
Definition coap_dtls_internal.h:60

COAP_DEFINE_FAIL_NOT_SUPPORTED
@ COAP_DEFINE_FAIL_NOT_SUPPORTED
Definition coap_dtls_internal.h:59

COAP_DEFINE_FAIL_BAD
@ COAP_DEFINE_FAIL_BAD
Definition coap_dtls_internal.h:58

coap_get_tls_library_version
coap_tls_version_t * coap_get_tls_library_version(void)
Determine the type and version of the underlying (D)TLS library.
Definition coap_notls.c:100

coap_dtls_role_t
coap_dtls_role_t
Definition coap_dtls.h:48

coap_tls_library_t
coap_tls_library_t
Definition coap_dtls.h:74

COAP_PKI_KEY_DEF_PKCS11
@ COAP_PKI_KEY_DEF_PKCS11
The PKI key type is PKCS11 (pkcs11:...).
Definition coap_dtls.h:249

COAP_PKI_KEY_DEF_DER_BUF
@ COAP_PKI_KEY_DEF_DER_BUF
The PKI key type is DER buffer (ASN.1).
Definition coap_dtls.h:246

COAP_PKI_KEY_DEF_PEM_BUF
@ COAP_PKI_KEY_DEF_PEM_BUF
The PKI key type is PEM buffer.
Definition coap_dtls.h:240

COAP_PKI_KEY_DEF_PEM
@ COAP_PKI_KEY_DEF_PEM
The PKI key type is PEM file.
Definition coap_dtls.h:238

COAP_PKI_KEY_DEF_ENGINE
@ COAP_PKI_KEY_DEF_ENGINE
The PKI key type is to be passed to ENGINE.
Definition coap_dtls.h:255

COAP_PKI_KEY_DEF_RPK_BUF
@ COAP_PKI_KEY_DEF_RPK_BUF
The PKI key type is RPK in buffer.
Definition coap_dtls.h:242

COAP_PKI_KEY_DEF_DER
@ COAP_PKI_KEY_DEF_DER
The PKI key type is DER file.
Definition coap_dtls.h:244

COAP_PKI_KEY_DEF_PKCS11_RPK
@ COAP_PKI_KEY_DEF_PKCS11_RPK
The PKI key type is PKCS11 w/ RPK (pkcs11:...).
Definition coap_dtls.h:252

COAP_DTLS_ROLE_SERVER
@ COAP_DTLS_ROLE_SERVER
Internal function invoked for server.
Definition coap_dtls.h:50

COAP_DTLS_ROLE_CLIENT
@ COAP_DTLS_ROLE_CLIENT
Internal function invoked for client.
Definition coap_dtls.h:49

COAP_PKI_KEY_DEFINE
@ COAP_PKI_KEY_DEFINE
The individual PKI key types are Definable.
Definition coap_dtls.h:176

COAP_TLS_LIBRARY_MBEDTLS
@ COAP_TLS_LIBRARY_MBEDTLS
Using Mbed TLS library.
Definition coap_dtls.h:79

COAP_EVENT_DTLS_CLOSED
@ COAP_EVENT_DTLS_CLOSED
Triggerred when (D)TLS session closed.
Definition coap_event.h:43

COAP_EVENT_DTLS_CONNECTED
@ COAP_EVENT_DTLS_CONNECTED
Triggered when (D)TLS session connected.
Definition coap_event.h:45

COAP_EVENT_DTLS_ERROR
@ COAP_EVENT_DTLS_ERROR
Triggered when (D)TLS error occurs.
Definition coap_event.h:49

coap_lock_callback_ret
#define coap_lock_callback_ret(r, func)
Dummy for no thread-safe code.
Definition coap_threadsafe_internal.h:509

coap_log_debug
#define coap_log_debug(...)
Definition coap_debug.h:126

coap_log_emerg
#define coap_log_emerg(...)
Definition coap_debug.h:87

coap_log_t
coap_log_t
Logging type.
Definition coap_debug.h:56

coap_dtls_get_log_level
coap_log_t coap_dtls_get_log_level(void)
Get the current (D)TLS logging.
Definition coap_notls.c:176

coap_dtls_log
#define coap_dtls_log(level,...)
Logging function.
Definition coap_debug.h:306

coap_dtls_set_log_level
void coap_dtls_set_log_level(coap_log_t level)
Sets the (D)TLS logging level to the specified level.
Definition coap_notls.c:171

coap_session_str
const char * coap_session_str(const coap_session_t *session)
Get session description.
Definition coap_session.c:2655

coap_log_info
#define coap_log_info(...)
Definition coap_debug.h:114

coap_log_warn
#define coap_log_warn(...)
Definition coap_debug.h:108

coap_log_err
#define coap_log_err(...)
Definition coap_debug.h:102

coap_log_crit
#define coap_log_crit(...)
Definition coap_debug.h:96

COAP_LOG_INFO
@ COAP_LOG_INFO
Definition coap_debug.h:63

COAP_LOG_EMERG
@ COAP_LOG_EMERG
Definition coap_debug.h:57

COAP_LOG_NOTICE
@ COAP_LOG_NOTICE
Definition coap_debug.h:62

COAP_LOG_DEBUG
@ COAP_LOG_DEBUG
Definition coap_debug.h:64

COAP_LOG_ALERT
@ COAP_LOG_ALERT
Definition coap_debug.h:58

COAP_LOG_CRIT
@ COAP_LOG_CRIT
Definition coap_debug.h:59

COAP_LOG_ERR
@ COAP_LOG_ERR
Definition coap_debug.h:60

COAP_LOG_WARN
@ COAP_LOG_WARN
Definition coap_debug.h:61

coap_netif_available
int coap_netif_available(coap_session_t *session)
Function interface to check whether netif for session is still available.
Definition coap_netif.c:25

cose_get_hmac_alg_for_hkdf
int cose_get_hmac_alg_for_hkdf(cose_hkdf_alg_t hkdf_alg, cose_hmac_alg_t *hmac_alg)

cose_hkdf_alg_t
cose_hkdf_alg_t
Definition oscore_cose.h:169

cose_hmac_alg_t
cose_hmac_alg_t
Definition oscore_cose.h:161

cose_alg_t
cose_alg_t
Definition oscore_cose.h:130

COSE_HMAC_ALG_HMAC384_384
@ COSE_HMAC_ALG_HMAC384_384
Definition oscore_cose.h:164

COSE_HMAC_ALG_HMAC256_256
@ COSE_HMAC_ALG_HMAC256_256
Definition oscore_cose.h:163

COSE_HMAC_ALG_HMAC512_512
@ COSE_HMAC_ALG_HMAC512_512
Definition oscore_cose.h:165

COSE_ALGORITHM_SHA_256_256
@ COSE_ALGORITHM_SHA_256_256
Definition oscore_cose.h:138

COSE_ALGORITHM_SHA_1
@ COSE_ALGORITHM_SHA_1
Definition oscore_cose.h:140

COSE_ALGORITHM_AES_CCM_16_64_128
@ COSE_ALGORITHM_AES_CCM_16_64_128
Definition oscore_cose.h:149

COSE_ALGORITHM_SHA_512
@ COSE_ALGORITHM_SHA_512
Definition oscore_cose.h:132

COSE_ALGORITHM_AES_CCM_16_64_256
@ COSE_ALGORITHM_AES_CCM_16_64_256
Definition oscore_cose.h:150

coap_proto_t
coap_proto_t
CoAP protocol types Note: coap_layers_coap[] needs updating if extended.
Definition coap_pdu.h:318

COAP_PROTO_DTLS
@ COAP_PROTO_DTLS
Definition coap_pdu.h:321

COAP_PROTO_TLS
@ COAP_PROTO_TLS
Definition coap_pdu.h:323

COAP_PROTO_WSS
@ COAP_PROTO_WSS
Definition coap_pdu.h:325

coap_session_refresh_psk_hint
int coap_session_refresh_psk_hint(coap_session_t *session, const coap_bin_const_t *psk_hint)
Refresh the session's current Identity Hint (PSK).
Definition coap_session.c:1914

coap_session_refresh_psk_key
int coap_session_refresh_psk_key(coap_session_t *session, const coap_bin_const_t *psk_key)
Refresh the session's current pre-shared key (PSK).
Definition coap_session.c:1943

coap_session_connected
void coap_session_connected(coap_session_t *session)
Notify session that it has just connected or reconnected.
Definition coap_session.c:919

coap_session_refresh_psk_identity
int coap_session_refresh_psk_identity(coap_session_t *session, const coap_bin_const_t *psk_identity)
Refresh the session's current pre-shared identity (PSK).
Definition coap_session.c:1971

coap_session_disconnected_lkd
void coap_session_disconnected_lkd(coap_session_t *session, coap_nack_reason_t reason)
Notify session that it has failed.
Definition coap_session.c:1047

COAP_PROTO_NOT_RELIABLE
#define COAP_PROTO_NOT_RELIABLE(p)
Definition coap_session.h:41

COAP_SESSION_TYPE_CLIENT
@ COAP_SESSION_TYPE_CLIENT
client-side
Definition coap_session.h:50

COAP_SESSION_STATE_HANDSHAKE
@ COAP_SESSION_STATE_HANDSHAKE
Definition coap_session.h:62

COAP_SESSION_STATE_CSM
@ COAP_SESSION_STATE_CSM
Definition coap_session.h:63

COAP_SESSION_STATE_NONE
@ COAP_SESSION_STATE_NONE
Definition coap_session.h:60

coap_new_binary
coap_binary_t * coap_new_binary(size_t size)
Returns a new binary object with at least size bytes storage allocated.
Definition coap_str.c:77

coap_new_bin_const
coap_bin_const_t * coap_new_bin_const(const uint8_t *data, size_t size)
Take the specified byte array (text) and create a coap_bin_const_t * Returns a new const binary objec...
Definition coap_str.c:110

coap_dtls_cid_is_supported
int coap_dtls_cid_is_supported(void)
Check whether (D)TLS CID is available.
Definition coap_notls.c:86

coap_dtls_psk_is_supported
int coap_dtls_psk_is_supported(void)
Check whether (D)TLS PSK is available.
Definition coap_notls.c:50

coap_tls_is_supported
int coap_tls_is_supported(void)
Check whether TLS is available.
Definition coap_notls.c:41

coap_oscore_is_supported
int coap_oscore_is_supported(void)
Check whether OSCORE is available.
Definition coap_oscore.c:2219

coap_dtls_is_supported
int coap_dtls_is_supported(void)
Check whether DTLS is available.
Definition coap_notls.c:36

coap_dtls_pki_is_supported
int coap_dtls_pki_is_supported(void)
Check whether (D)TLS PKI is available.
Definition coap_notls.c:59

coap_dtls_rpk_is_supported
int coap_dtls_rpk_is_supported(void)
Check whether (D)TLS RPK is available.
Definition coap_notls.c:77

coap_dtls_pkcs11_is_supported
int coap_dtls_pkcs11_is_supported(void)
Check whether (D)TLS PKCS11 is available.
Definition coap_notls.c:68

COAP_UNUSED
#define COAP_UNUSED
Definition libcoap.h:74

coap_addr_tuple_t::remote
coap_address_t remote
remote address and port
Definition coap_io.h:60

coap_bin_const_t
CoAP binary data definition with const data.
Definition coap_str.h:67

coap_bin_const_t::length
size_t length
length of binary data
Definition coap_str.h:68

coap_bin_const_t::s
const uint8_t * s
read-only binary data
Definition coap_str.h:69

coap_binary_t
CoAP binary data definition.
Definition coap_str.h:59

coap_context_t
The CoAP stack's global state is stored in a coap_context_t object.
Definition coap_net_internal.h:55

coap_context_t::dtls_context
void * dtls_context
Definition coap_net_internal.h:156

coap_context_t::testing_cids
uint8_t testing_cids
Change client's source port every testing_cids.
Definition coap_net_internal.h:221

coap_context_t::spsk_setup_data
coap_dtls_spsk_t spsk_setup_data
Contains the initial PSK server setup data.
Definition coap_net_internal.h:159

coap_crypto_aes_ccm_t
The structure that holds the AES Crypto information.
Definition coap_crypto_internal.h:53

coap_crypto_aes_ccm_t::l
size_t l
The number of bytes in the length field.
Definition coap_crypto_internal.h:57

coap_crypto_aes_ccm_t::nonce
const uint8_t * nonce
must be exactly 15 - l bytes
Definition coap_crypto_internal.h:55

coap_crypto_aes_ccm_t::key
coap_crypto_key_t key
The Key to use.
Definition coap_crypto_internal.h:54

coap_crypto_aes_ccm_t::tag_len
size_t tag_len
The size of the Tag.
Definition coap_crypto_internal.h:56

coap_crypto_param_t
The common structure that holds the Crypto information.
Definition coap_crypto_internal.h:63

coap_crypto_param_t::params
union coap_crypto_param_t::@2 params

coap_crypto_param_t::aes
coap_crypto_aes_ccm_t aes
Used if AES type encryption.
Definition coap_crypto_internal.h:66

coap_crypto_param_t::alg
cose_alg_t alg
The COSE algorith to use.
Definition coap_crypto_internal.h:64

coap_digest_t
Definition coap_cache_internal.h:37

coap_dtls_cpsk_t
The structure used for defining the Client PSK setup data to be used.
Definition coap_dtls.h:414

coap_dtls_cpsk_t::use_cid
uint8_t use_cid
Set to 1 if DTLS Connection ID is to be used.
Definition coap_dtls.h:421

coap_dtls_cpsk_t::client_sni
char * client_sni
If not NULL, SNI to use in client TLS setup.
Definition coap_dtls.h:441

coap_dtls_cpsk_t::validate_ih_call_back
coap_dtls_ih_callback_t validate_ih_call_back
Identity Hint check callback function.
Definition coap_dtls.h:437

coap_dtls_cpsk_t::ec_jpake
uint8_t ec_jpake
Set to COAP_DTLS_CPSK_SETUP_VERSION to support this version of the struct.
Definition coap_dtls.h:419

coap_dtls_key_t
The structure that holds the PKI key information.
Definition coap_dtls.h:283

coap_dtls_key_t::define
coap_pki_key_define_t define
for definable type keys
Definition coap_dtls.h:290

coap_dtls_key_t::key
union coap_dtls_key_t::@3 key

coap_dtls_key_t::key_type
coap_pki_key_t key_type
key format type
Definition coap_dtls.h:284

coap_dtls_pki_t
The structure used for defining the PKI setup data to be used.
Definition coap_dtls.h:316

coap_dtls_pki_t::allow_no_crl
uint8_t allow_no_crl
1 ignore if CRL not there
Definition coap_dtls.h:330

coap_dtls_pki_t::cn_call_back_arg
void * cn_call_back_arg
Passed in to the CN callback function.
Definition coap_dtls.h:355

coap_dtls_pki_t::allow_short_rsa_length
uint8_t allow_short_rsa_length
1 if small RSA keysizes are allowed
Definition coap_dtls.h:333

coap_dtls_pki_t::cert_chain_validation
uint8_t cert_chain_validation
1 if to check cert_chain_verify_depth
Definition coap_dtls.h:327

coap_dtls_pki_t::allow_bad_md_hash
uint8_t allow_bad_md_hash
1 if unsupported MD hashes are allowed
Definition coap_dtls.h:332

coap_dtls_pki_t::use_cid
uint8_t use_cid
1 if DTLS Connection ID is to be used (Client only, server always enabled) if supported
Definition coap_dtls.h:337

coap_dtls_pki_t::check_cert_revocation
uint8_t check_cert_revocation
1 if revocation checks wanted
Definition coap_dtls.h:329

coap_dtls_pki_t::cert_chain_verify_depth
uint8_t cert_chain_verify_depth
recommended depth is 3
Definition coap_dtls.h:328

coap_dtls_pki_t::allow_expired_certs
uint8_t allow_expired_certs
1 if expired certs are allowed
Definition coap_dtls.h:326

coap_dtls_pki_t::verify_peer_cert
uint8_t verify_peer_cert
Set to COAP_DTLS_PKI_SETUP_VERSION to support this version of the struct.
Definition coap_dtls.h:321

coap_dtls_pki_t::allow_self_signed
uint8_t allow_self_signed
1 if self-signed certs are allowed.
Definition coap_dtls.h:324

coap_dtls_pki_t::validate_cn_call_back
coap_dtls_cn_callback_t validate_cn_call_back
CN check callback function.
Definition coap_dtls.h:354

coap_dtls_pki_t::allow_expired_crl
uint8_t allow_expired_crl
1 if expired crl is allowed
Definition coap_dtls.h:331

coap_dtls_pki_t::is_rpk_not_cert
uint8_t is_rpk_not_cert
1 is RPK instead of Public Certificate.
Definition coap_dtls.h:334

coap_dtls_pki_t::check_common_ca
uint8_t check_common_ca
1 if peer cert is to be signed by the same CA as the local cert
Definition coap_dtls.h:322

coap_dtls_spsk_info_t
The structure that holds the Server Pre-Shared Key and Identity Hint information.
Definition coap_dtls.h:454

coap_dtls_spsk_t
The structure used for defining the Server PSK setup data to be used.
Definition coap_dtls.h:505

coap_dtls_spsk_t::validate_sni_call_back
coap_dtls_psk_sni_callback_t validate_sni_call_back
SNI check callback function.
Definition coap_dtls.h:534

coap_dtls_spsk_t::validate_id_call_back
coap_dtls_id_callback_t validate_id_call_back
Identity check callback function.
Definition coap_dtls.h:526

coap_dtls_spsk_t::id_call_back_arg
void * id_call_back_arg
Passed in to the Identity callback function.
Definition coap_dtls.h:527

coap_dtls_spsk_t::ec_jpake
uint8_t ec_jpake
Set to COAP_DTLS_SPSK_SETUP_VERSION to support this version of the struct.
Definition coap_dtls.h:510

coap_dtls_spsk_t::sni_call_back_arg
void * sni_call_back_arg
Passed in to the SNI callback function.
Definition coap_dtls.h:535

coap_layer_func_t::l_read
coap_layer_read_t l_read
Definition coap_layers_internal.h:111

coap_layer_func_t::l_write
coap_layer_write_t l_write
Definition coap_layers_internal.h:112

coap_layer_func_t::l_establish
coap_layer_establish_t l_establish
Definition coap_layers_internal.h:113

coap_pki_key_define_t::public_cert
coap_const_char_ptr_t public_cert
define: Public Cert
Definition coap_dtls.h:265

coap_pki_key_define_t::private_key
coap_const_char_ptr_t private_key
define: Private Key
Definition coap_dtls.h:266

coap_pki_key_define_t::ca
coap_const_char_ptr_t ca
define: Common CA Certificate
Definition coap_dtls.h:264

coap_pki_key_define_t::public_cert_len
size_t public_cert_len
define Public Cert length (if needed)
Definition coap_dtls.h:268

coap_pki_key_define_t::ca_len
size_t ca_len
define CA Cert length (if needed)
Definition coap_dtls.h:267

coap_pki_key_define_t::private_key_def
coap_pki_define_t private_key_def
define: Private Key type definition
Definition coap_dtls.h:272

coap_pki_key_define_t::private_key_len
size_t private_key_len
define Private Key length (if needed)
Definition coap_dtls.h:269

coap_pki_key_define_t::ca_def
coap_pki_define_t ca_def
define: Common CA type definition
Definition coap_dtls.h:270

coap_pki_key_define_t::public_cert_def
coap_pki_define_t public_cert_def
define: Public Cert type definition
Definition coap_dtls.h:271

coap_session_t
Abstraction of virtual session that can be attached to coap_context_t (client) or coap_endpoint_t (se...
Definition coap_session_internal.h:72

coap_session_t::dtls_timeout_count
unsigned int dtls_timeout_count
dtls setup retry counter
Definition coap_session_internal.h:187

coap_session_t::endpoint
coap_endpoint_t * endpoint
session's endpoint
Definition coap_session_internal.h:95

coap_session_t::sock
coap_socket_t sock
socket object for the session, if any
Definition coap_session_internal.h:92

coap_session_t::state
coap_session_state_t state
current state of relationship with peer
Definition coap_session_internal.h:75

coap_session_t::client_cid
coap_bin_const_t * client_cid
Contains client CID or NULL.
Definition coap_session_internal.h:237

coap_session_t::addr_info
coap_addr_tuple_t addr_info
remote/local address info
Definition coap_session_internal.h:83

coap_session_t::proto
coap_proto_t proto
protocol used
Definition coap_session_internal.h:73

coap_session_t::cpsk_setup_data
coap_dtls_cpsk_t cpsk_setup_data
client provided PSK initial setup data
Definition coap_session_internal.h:127

coap_session_t::mtu
size_t mtu
path or CSM mtu (xmt)
Definition coap_session_internal.h:79

coap_session_t::negotiated_cid
uint8_t negotiated_cid
Set for a client if CID negotiated.
Definition coap_session_internal.h:219

coap_session_t::dtls_event
int dtls_event
Tracking any (D)TLS events on this session.
Definition coap_session_internal.h:188

coap_session_t::tls
void * tls
security parameters
Definition coap_session_internal.h:98

coap_session_t::max_retransmit
uint16_t max_retransmit
maximum re-transmit count (default 4)
Definition coap_session_internal.h:162

coap_session_t::type
coap_session_type_t type
client or server side socket
Definition coap_session_internal.h:74

coap_session_t::context
coap_context_t * context
session's context
Definition coap_session_internal.h:97

coap_socket_t::lfunc
coap_layer_func_t lfunc[COAP_LAYER_LAST]
Layer functions to use.
Definition coap_io_internal.h:72

coap_socket_t::flags
coap_socket_flags_t flags
1 or more of COAP_SOCKET* flag values
Definition coap_io_internal.h:63

coap_tls_version_t
The structure used for returning the underlying (D)TLS library information.
Definition coap_dtls.h:87

coap_tls_version_t::built_version
uint64_t built_version
(D)TLS Built against Library Version
Definition coap_dtls.h:90

coap_tls_version_t::type
coap_tls_library_t type
Library type.
Definition coap_dtls.h:89

coap_tls_version_t::version
uint64_t version
(D)TLS runtime Library Version
Definition coap_dtls.h:88

coap_const_char_ptr_t::s_byte
const char * s_byte
signed char ptr
Definition coap_str.h:76

coap_const_char_ptr_t::u_byte
const uint8_t * u_byte
unsigned char ptr
Definition coap_str.h:77