.. _bsd_sockets_interface: BSD Sockets ########### .. contents:: :local: :depth: 2 Overview ******** Zephyr offers an implementation of a subset of the BSD Sockets API (a part of the POSIX standard). This API allows to reuse existing programming experience and port existing simple networking applications to Zephyr. Here are the key requirements and concepts which governed BSD Sockets compatible API implementation for Zephyr: * Has minimal overhead, similar to the requirement for other Zephyr subsystems. * Is namespaced by default, to avoid name conflicts with well-known names like ``close()``, which may be part of libc or other POSIX compatibility libraries. If enabled by :kconfig:`CONFIG_NET_SOCKETS_POSIX_NAMES`, it will also expose native POSIX names. BSD Sockets compatible API is enabled using :kconfig:`CONFIG_NET_SOCKETS` config option and implements the following operations: ``socket()``, ``close()``, ``recv()``, ``recvfrom()``, ``send()``, ``sendto()``, ``connect()``, ``bind()``, ``listen()``, ``accept()``, ``fcntl()`` (to set non-blocking mode), ``getsockopt()``, ``setsockopt()``, ``poll()``, ``select()``, ``getaddrinfo()``, ``getnameinfo()``. Based on the namespacing requirements above, these operations are by default exposed as functions with ``zsock_`` prefix, e.g. :c:func:`zsock_socket` and :c:func:`zsock_close`. If the config option :kconfig:`CONFIG_NET_SOCKETS_POSIX_NAMES` is defined, all the functions will be also exposed as aliases without the prefix. This includes the functions like ``close()`` and ``fcntl()`` (which may conflict with functions in libc or other libraries, for example, with the filesystem libraries). Another entailment of the design requirements above is that the Zephyr API aggressively employs the short-read/short-write property of the POSIX API whenever possible (to minimize complexity and overheads). POSIX allows for calls like ``recv()`` and ``send()`` to actually process (receive or send) less data than requested by the user (on ``SOCK_STREAM`` type sockets). For example, a call ``recv(sock, 1000, 0)`` may return 100, meaning that only 100 bytes were read (short read), and the application needs to retry call(s) to receive the remaining 900 bytes. The BSD Sockets API uses file descriptors to represent sockets. File descriptors are small integers, consecutively assigned from zero, shared among sockets, files, special devices (like stdin/stdout), etc. Internally, there is a table mapping file descriptors to internal object pointers. The file descriptor table is used by the BSD Sockets API even if the rest of the POSIX subsystem (filesystem, stdin/stdout) is not enabled. .. _secure_sockets_interface: Secure Sockets ************** Zephyr provides an extension of standard POSIX socket API, allowing to create and configure sockets with TLS protocol types, facilitating secure communication. Secure functions for the implementation are provided by mbedTLS library. Secure sockets implementation allows use of both TLS and DTLS protocols with standard socket calls. See :c:enum:`net_ip_protocol_secure` type for supported secure protocol versions. To enable secure sockets, set the :kconfig:`CONFIG_NET_SOCKETS_SOCKOPT_TLS` option. To enable DTLS support, use :kconfig:`CONFIG_NET_SOCKETS_ENABLE_DTLS` option. TLS credentials subsystem ========================= TLS credentials must be registered in the system before they can be used with secure sockets. See :c:func:`tls_credential_add` for more information. When a specific TLS credential is registered in the system, it is assigned with numeric value of type :c:type:`sec_tag_t`, called a tag. This value can be used later on to reference the credential during secure socket configuration with socket options. The following TLS credential types can be registered in the system: - ``TLS_CREDENTIAL_CA_CERTIFICATE`` - ``TLS_CREDENTIAL_SERVER_CERTIFICATE`` - ``TLS_CREDENTIAL_PRIVATE_KEY`` - ``TLS_CREDENTIAL_PSK`` - ``TLS_CREDENTIAL_PSK_ID`` An example registration of CA certificate (provided in ``ca_certificate`` array) looks like this: .. code-block:: c ret = tls_credential_add(CA_CERTIFICATE_TAG, TLS_CREDENTIAL_CA_CERTIFICATE, ca_certificate, sizeof(ca_certificate)); By default certificates in DER format are supported. PEM support can be enabled in mbedTLS settings. Secure Socket Creation ====================== A secure socket can be created by specifying secure protocol type, for instance: .. code-block:: c sock = socket(AF_INET, SOCK_STREAM, IPPROTO_TLS_1_2); Once created, it can be configured with socket options. For instance, the CA certificate and hostname can be set: .. code-block:: c sec_tag_t sec_tag_opt[] = { CA_CERTIFICATE_TAG, }; ret = setsockopt(sock, SOL_TLS, TLS_SEC_TAG_LIST, sec_tag_opt, sizeof(sec_tag_opt)); .. code-block:: c char host[] = "google.com"; ret = setsockopt(sock, SOL_TLS, TLS_HOSTNAME, host, sizeof(host) - 1); Once configured, socket can be used just like a regular TCP socket. Several samples in Zephyr use secure sockets for communication. For a sample use see e.g. :ref:`echo-server sample application ` or :ref:`HTTP GET sample application `. Secure Sockets options ====================== Secure sockets offer the following options for socket management: .. doxygengroup:: secure_sockets_options API Reference ************* BSD Sockets =========== .. doxygengroup:: bsd_sockets TLS Credentials =============== .. doxygengroup:: tls_credentials