/* * Copyright (c) 2017-2019, Texas Instruments Incorporated * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * * Neither the name of Texas Instruments Incorporated nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /*! \page SlNetSock_overview SlNetSock \section intro_sec Introduction SlNetSock provides a standard BSD API for TCP and UDP transport layers, and a lower-level SlNetSock API for basic and extended usage. Supported use cases include: - Support of multi interface (WiFi NS, Ethernet NDK) - Selecting which interfaces the host will use, one or more. - Support of different types of sockets (TCP, TLS, UDP, RAW, RF, etc.) - BSD and proprietary errors The SlNetSock API's lead to easier portability to microcontrollers, without compromising the capabilities and robustness of the final application. \section modules_sec Module Names TI's SlNetSock layer is divided into the following software modules: -# \ref SlNet - Interface for general SlNet services -# \ref SlNetSock - Controls standard client/server sockets options and capabilities -# \ref SlNetIf - Controls standard stack/interface options and capabilities -# \ref SlNetUtils - Provides sockets related commands and configuration -# \ref SlNetErr - Provide BSD and proprietary errors In addition, SlNetSock provides a standard BSD API, built atop the SlNet* APIs. The BSD headers are placed in ti/net/bsd directory, which users should place on their include path. Also, there is a light \subpage porting_guide "SL Interface Porting Guide" with information available for adding SlNetSock support for other stacks. \page porting_guide SL Interface Porting Guide \section Introduction The generic SlNetSock layer sits between the application/service and the interface stack. This guide describes the details of adding a network stack into the SlNetSock environment. The porting steps for adding new interface: -# Create slnetifxxx file for the new interface -# Select the capabilities set -# Adding the interface to your application/service -# Add the relevant functions to your application/service -# Test your code to validate the correctness of your porting \subsection porting_step1 Step 1 - slnetifxxx.c and slnetifxxx.h file for your interface - Create slnetifxxx file (replace xxx with your interface/stack name). Likely you will copy from an existing port. - Implement the needed API's. Each interface needs to provide a set of API's to work with the interface. Some are mandatory, others are optional (but recommended). - Mandatory API's: - \ref SlNetIf_Config_t.sockCreate "sockCreate" - \ref SlNetIf_Config_t.sockClose "sockClose" - \ref SlNetIf_Config_t.sockSelect "sockSelect" - \ref SlNetIf_Config_t.sockSetOpt "sockSetOpt" - \ref SlNetIf_Config_t.sockGetOpt "sockGetOpt" - \ref SlNetIf_Config_t.sockRecvFrom "sockRecvFrom" - \ref SlNetIf_Config_t.sockSendTo "sockSendTo" - \ref SlNetIf_Config_t.ifGetIPAddr "ifGetIPAddr" - \ref SlNetIf_Config_t.ifGetConnectionStatus "ifGetConnectionStatus" - The non-mandatory API's set: - \ref SlNetIf_Config_t.sockShutdown "sockShutdown" - \ref SlNetIf_Config_t.sockAccept "sockAccept" - \ref SlNetIf_Config_t.sockBind "sockBind" - \ref SlNetIf_Config_t.sockListen "sockListen" - \ref SlNetIf_Config_t.sockConnect "sockConnect" - \ref SlNetIf_Config_t.sockGetPeerName "sockGetPeerName" - \ref SlNetIf_Config_t.sockGetLocalName "sockGetLocalName" - \ref SlNetIf_Config_t.sockRecv "sockRecv" - \ref SlNetIf_Config_t.sockSend "sockSend" - \ref SlNetIf_Config_t.sockstartSec "sockstartSec" - \ref SlNetIf_Config_t.utilGetHostByName "utilGetHostByName" - \ref SlNetIf_Config_t.ifLoadSecObj "ifLoadSecOjb" - \ref SlNetIf_Config_t.ifCreateContext "ifCreateContext" \note The list of API's and more data can be found in ::SlNetIf_Config_t structure in SlNetIf module \n \n \subsection porting_step2 Step 2 - Select the capabilities set The capabilities prototype should be declared in your slnetifxxx.h and implemented in your slnetifxxx.c Each mandatory API's must be set, additional API's can be set or must be set to NULL. An example config declaration for TI's SimpleLink CC31XX/CC32xx \code SlNetIfConfig SlNetIfConfigWiFi = { SlNetIfWifi_socket, // Callback function sockCreate in slnetif module SlNetIfWifi_close, // Callback function sockClose in slnetif module NULL, // Callback function sockShutdown in slnetif module SlNetIfWifi_accept, // Callback function sockAccept in slnetif module SlNetIfWifi_bind, // Callback function sockBind in slnetif module SlNetIfWifi_listen, // Callback function sockListen in slnetif module SlNetIfWifi_connect, // Callback function sockConnect in slnetif module NULL, // Callback function sockGetPeerName in slnetif module NULL, // Callback function sockGetLocalName in slnetif module SlNetIfWifi_select, // Callback function sockSelect in slnetif module SlNetIfWifi_setSockOpt, // Callback function sockSetOpt in slnetif module SlNetIfWifi_getSockOpt, // Callback function sockGetOpt in slnetif module SlNetIfWifi_recv, // Callback function sockRecv in slnetif module SlNetIfWifi_recvFrom, // Callback function sockRecvFrom in slnetif module SlNetIfWifi_send, // Callback function sockSend in slnetif module SlNetIfWifi_sendTo, // Callback function sockSendTo in slnetif module SlNetIfWifi_sockstartSec, // Callback function sockstartSec in slnetif module SlNetIfWifi_getHostByName, // Callback function utilGetHostByName in slnetif module SlNetIfWifi_getIPAddr, // Callback function ifGetIPAddr in slnetif module SlNetIfWifi_getConnectionStatus, // Callback function ifGetConnectionStatus in slnetif module SlNetIfWifi_loadSecObj, // Callback function ifLoadSecObj in slnetif module NULL // Callback function ifCreateContext in slnetif module }; \endcode In the example above the following API's are not supported by the interface, and are set to NULL: - sockShutdown - sockGetPeerName - sockGetLocalName - utilGetHostByName - ifCreateContext \subsection porting_step3 Step 3 - Adding the interface to your application/service \b Include the new file in the board header file in the application. \subsection porting_step4 Step 4 - Add the relevant functions to your application/service After configuring the capabilities of the interface, Adding the interface to the SlNetSock is required. Use ::SlNetIf_add in order to add the interface and set his ID, Name, function list and priority. Later on you need to use the BSD API's or SlNetSock API's for socket handling. \subsection porting_step5 Step 5 - Test your code to validate the correctness of your porting After porting the layer into your setup, validate that your code work as expected */ /*****************************************************************************/ /* Include files */ /*****************************************************************************/ #ifndef __SL_NET_SOCK_H__ #define __SL_NET_SOCK_H__ #include /* * Commented out to prevent zsock_timeval from being redefined * Can remove this if support for CONFIG_NET_SOCKETS_POSIX_NAMES * is dropped someday */ #if defined(CONFIG_NET_SOCKETS_POSIX_NAMES) || defined(CONFIG_POSIX_CLOCK) \ || defined(CONFIG_POSIX_API) #include #endif #ifdef __cplusplus extern "C" { #endif /*! \defgroup SlNetSock SlNetSock group \short Controls standard client/server sockets options and capabilities */ /*! \addtogroup SlNetSock @{ */ /*****************************************************************************/ /* Macro declarations */ /*****************************************************************************/ #define SLNETSOCK_MAX_CONCURRENT_SOCKETS (32) /**< Declares the maximum sockets that can be opened */ /* Address families. */ #define SLNETSOCK_AF_UNSPEC (0) /**< Unspecified address family */ #define SLNETSOCK_AF_INET (2) /**< IPv4 socket (UDP, TCP, etc) */ #define SLNETSOCK_AF_INET6 (3) /**< IPv6 socket (UDP, TCP, etc) */ #define SLNETSOCK_AF_RF (6) /**< Data include RF parameter, All layer by user (Wifi could be disconnected) */ #define SLNETSOCK_AF_PACKET (17) /**< Network bypass */ /* Protocol families, same as address families. */ #define SLNETSOCK_PF_UNSPEC SLNETSOCK_AF_UNSPEC #define SLNETSOCK_PF_INET SLNETSOCK_AF_INET #define SLNETSOCK_PF_INET6 SLNETSOCK_AF_INET6 /* Define argument types specifies the socket type. */ #define SLNETSOCK_SOCK_STREAM (1) /**< TCP Socket */ #define SLNETSOCK_SOCK_DGRAM (2) /**< UDP Socket */ #define SLNETSOCK_SOCK_RAW (3) /**< Raw socket */ #define SLNETSOCK_SOCK_RX_MTR (4) /**< RX Metrics socket */ #define SLNETSOCK_SOCK_MAC_WITH_CCA (5) #define SLNETSOCK_SOCK_MAC_WITH_NO_CCA (6) #define SLNETSOCK_SOCK_BRIDGE (7) #define SLNETSOCK_SOCK_ROUTER (8) /* Define some BSD protocol constants. */ #define SLNETSOCK_PROTO_TCP (6) /**< TCP Raw Socket */ #define SLNETSOCK_PROTO_UDP (17) /**< UDP Raw Socket */ #define SLNETSOCK_PROTO_RAW (255) /**< Raw Socket */ #define SLNETSOCK_PROTO_SECURE (100) /**< Secured Socket Layer (SSL,TLS) */ /* bind any addresses */ #define SLNETSOCK_INADDR_ANY (0) #define SLNETSOCK_IN6ADDR_ANY (0) /* socket options */ /* possible values for the level parameter in slNetSock_setOpt / slNetSock_getOpt */ #define SLNETSOCK_LVL_SOCKET (1) /**< Define the socket option category. */ #define SLNETSOCK_LVL_IP (2) /**< Define the IP option category. */ #define SLNETSOCK_LVL_PHY (3) /**< Define the PHY option category. */ /* possible values for the option parameter in slNetSock_setOpt / slNetSock_getOpt */ /* socket level options (SLNETSOCK_LVL_SOCKET) */ #define SLNETSOCK_OPSOCK_RCV_BUF (8) /**< Setting TCP receive buffer size (window size) - This options takes SlNetSock_Winsize_t struct as parameter */ #define SLNETSOCK_OPSOCK_SND_BUF (202) /**< Sets or gets the maximum socket send buffer in bytes. - This option takes an int as a parameter */ #define SLNETSOCK_OPSOCK_RCV_TIMEO (20) /**< Enable receive timeout - This options takes SlNetSock_Timeval_t struct as parameter */ #define SLNETSOCK_OPSOCK_SND_TIMEO (21) /**< Enable send timeout - This options takes SlNetSock_Timeval_t struct as parameter */ #define SLNETSOCK_OPSOCK_KEEPALIVE (9) /**< Connections are kept alive with periodic messages - This options takes SlNetSock_Keepalive_t struct as parameter */ #define SLNETSOCK_OPSOCK_KEEPALIVE_TIME (37) /**< keepalive time out - This options takes uint32_t as parameter */ #define SLNETSOCK_OPSOCK_LINGER (13) /**< Socket lingers on close pending remaining send/receive packets - This options takes SlNetSock_linger_t struct as parameter */ #define SLNETSOCK_OPSOCK_NON_BLOCKING (24) /**< Enable/disable nonblocking mode - This options takes SlNetSock_Nonblocking_t struct as parameter */ #define SLNETSOCK_OPSOCK_NON_IP_BOUNDARY (39) /**< connectionless socket disable rx boundary - This options takes SlNetSock_NonIpBoundary_t struct as parameter */ #define SLNETSOCK_OPSOCK_ERROR (58) /**< Socket level error code */ #define SLNETSOCK_OPSOCK_SLNETSOCKSD (59) /**< Used by the BSD layer in order to retrieve the slnetsock sd */ #define SLNETSOCK_OPSOCK_BROADCAST (200) /**< Enable/disable broadcast signals - This option takes SlNetSock_Broadcast_t struct as parameters */ #define SLNETSOCK_OPSOCK_REUSEADDR (201) /**< Enable/disable allowing reuse of local addresses for bind calls - This option takes an int as a parameter */ #define SLNETSOCK_OPSOCK_REUSEPORT (203) /**< Enable/disable multiple sockets to be bound to an identical socket address. - This option takes an int as a parameter */ /* IP level options (SLNETSOCK_LVL_IP) */ #define SLNETSOCK_OPIP_MULTICAST_TTL (61) /**< Specify the TTL value to use for outgoing multicast packet. - This options takes uint8_t as parameter */ #define SLNETSOCK_OPIP_ADD_MEMBERSHIP (65) /**< Join IPv4 multicast membership - This options takes SlNetSock_IpMreq_t struct as parameter */ #define SLNETSOCK_OPIP_DROP_MEMBERSHIP (66) /**< Leave IPv4 multicast membership - This options takes SlNetSock_IpMreq_t struct as parameter */ #define SLNETSOCK_OPIP_HDRINCL (67) /**< Raw socket IPv4 header included - This options takes uint32_t as parameter */ #define SLNETSOCK_OPIP_RAW_RX_NO_HEADER (68) /**< Proprietary socket option that does not includeIPv4/IPv6 header (and extension headers) on received raw sockets - This options takes uint32_t as parameter */ #define SLNETSOCK_OPIP_RAW_IPV6_HDRINCL (69) /**< Transmitted buffer over IPv6 socket contains IPv6 header - This options takes uint32_t as parameter */ #define SLNETSOCK_OPIPV6_ADD_MEMBERSHIP (70) /**< Join IPv6 multicast membership - This options takes SlNetSock_IpV6Mreq_t struct as parameter */ #define SLNETSOCK_OPIPV6_DROP_MEMBERSHIP (71) /**< Leave IPv6 multicast membership - This options takes SlNetSock_IpV6Mreq_t struct as parameter */ #define SLNETSOCK_OPIPV6_MULTICAST_HOPS (72) /**< Specify the hops value to use for outgoing multicast packet. */ /* PHY level options (SLNETSOCK_LVL_PHY) */ #define SLNETSOCK_OPPHY_CHANNEL (28) /**< This option is available only when transceiver started - This options takes uint32_t as channel number parameter */ #define SLNETSOCK_OPPHY_RATE (100) /**< WLAN Transmit rate - This options takes uint32_t as parameter based on SlWlanRateIndex_e */ #define SLNETSOCK_OPPHY_TX_POWER (101) /**< TX Power level - This options takes uint32_t as parameter */ #define SLNETSOCK_OPPHY_NUM_FRAMES_TO_TX (102) /**< Number of frames to transmit - This options takes uint32_t as parameter */ #define SLNETSOCK_OPPHY_PREAMBLE (103) /**< Preamble for transmission - This options takes uint32_t as parameter */ #define SLNETSOCK_OPPHY_TX_INHIBIT_THRESHOLD (104) /**< TX Inhibit Threshold (CCA) - This options takes uint32_t as parameter based on SlNetSockTxInhibitThreshold_e */ #define SLNETSOCK_OPPHY_TX_TIMEOUT (105) /**< TX timeout for Transceiver frames (lifetime) in miliseconds (max value is 100ms) - This options takes uint32_t as parameter */ #define SLNETSOCK_OPPHY_ALLOW_ACKS (106) /**< Enable sending ACKs in transceiver mode - This options takes uint32_t as parameter */ /* TCP level options (SLNETSOCK_PROTO_TCP) */ #define SLNETSOCK_TCP_NODELAY (203) /**< Disables TCP send delay/coalesce algorithm - This option takes SLNetSock_NoDelay_t struct as a parameter */ #define SLNETSOCK_TCP_MAXSEG (204) /**< Set the maximum TCP segment size - This option takes SLNetSock_MaxSeg_t struct as a parameter */ #define SLNETSOCK_TCP_NOPUSH (205) /**< Do not send data just to finish a data block (attempt to coalesce). - This option takes SLNetSock_NoPush_t struct as a parameter */ #define SLNETSOCK_TCP_NOOPT (206) /**< Do not use TCP options. - This option takes SLNetSock_NoOpt_t struct as a parameter */ #define SLNETSOCK_TCP_SACKPERMITTED (207) /**< Permit RFC-2018 Selective Acknowledgment(SACK) conformant connection - This option takes SLNetSock_SackPermitted_t struct as a parameter */ #define SLNETSOCK_TCP_MAXRTT (208) /**< The maximum TCP Round Trip Time value allowed in the determination of the estimated TCP RTT - This option takes SLNetSock_MaxRtt_t struct as a parameter */ /*! \brief The SlNetSockTxInhibitThreshold_e enumerations is used in SLNETSOCK_OPPHY_TX_INHIBIT_THRESHOLD PHY level option */ typedef enum { SLNETSOCK_TX_INHIBIT_THRESHOLD_MIN = 1, SLNETSOCK_TX_INHIBIT_THRESHOLD_LOW = 2, SLNETSOCK_TX_INHIBIT_THRESHOLD_DEFAULT = 3, SLNETSOCK_TX_INHIBIT_THRESHOLD_MED = 4, SLNETSOCK_TX_INHIBIT_THRESHOLD_HIGH = 5, SLNETSOCK_TX_INHIBIT_THRESHOLD_MAX = 6 } SlNetSockTxInhibitThreshold_e; /*! \brief The SlNetSockSecAttrib_e enumerations are used to declare security attribute objects in SlNetSock_secAttribSet(). \sa SlNetSock_secAttribSet() */ typedef enum { SLNETSOCK_SEC_ATTRIB_PRIVATE_KEY = 0, SLNETSOCK_SEC_ATTRIB_LOCAL_CERT = 1, SLNETSOCK_SEC_ATTRIB_PEER_ROOT_CA = 2, SLNETSOCK_SEC_ATTRIB_DH_KEY = 3, SLNETSOCK_SEC_ATTRIB_METHOD = 4, SLNETSOCK_SEC_ATTRIB_CIPHERS = 5, SLNETSOCK_SEC_ATTRIB_ALPN = 6, SLNETSOCK_SEC_ATTRIB_EXT_CLIENT_CHLNG_RESP = 7, SLNETSOCK_SEC_ATTRIB_DOMAIN_NAME = 8, /*! @c SLNETSOCK_SEC_ATTRIB_DISABLE_CERT_STORE is currently only supported on CC3xxx devices. The certificate store is a file, provided by TI, containing a list of known and trusted root CAs by TI. For more information, see the CC3xxx documentation. The certificate store is used only in client mode. Servers use a proprietary root CA to authenticate clients, and therefore cannot use the certificate store. Using this attribute allows using root CA which isn't a part of the provided certificate store. */ SLNETSOCK_SEC_ATTRIB_DISABLE_CERT_STORE = 9 } SlNetSockSecAttrib_e; /* available values for SLNETSOCK_SEC_ATTRIB_METHOD */ #define SLNETSOCK_SEC_METHOD_SSLV3 (0) /**< security method SSL v3 */ #define SLNETSOCK_SEC_METHOD_TLSV1 (1) /**< security method TLS v1 */ #define SLNETSOCK_SEC_METHOD_TLSV1_1 (2) /**< security method TLS v1_1 */ #define SLNETSOCK_SEC_METHOD_TLSV1_2 (3) /**< security method TLS v1_2 */ #define SLNETSOCK_SEC_METHOD_SSLv3_TLSV1_2 (4) /**< use highest possible version from SSLv3 - TLS 1.2 */ #define SLNETSOCK_SEC_METHOD_DLSV1 (5) /**< security method DTL v1 */ /* available values for SLNETSOCK_SEC_ATTRIB_CIPHERS. The value is bitmap! */ #define SLNETSOCK_SEC_CIPHER_SSL_RSA_WITH_RC4_128_SHA (1 << 0) #define SLNETSOCK_SEC_CIPHER_SSL_RSA_WITH_RC4_128_MD5 (1 << 1) #define SLNETSOCK_SEC_CIPHER_TLS_RSA_WITH_AES_256_CBC_SHA (1 << 2) #define SLNETSOCK_SEC_CIPHER_TLS_DHE_RSA_WITH_AES_256_CBC_SHA (1 << 3) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA (1 << 4) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_RSA_WITH_RC4_128_SHA (1 << 5) #define SLNETSOCK_SEC_CIPHER_TLS_RSA_WITH_AES_128_CBC_SHA256 (1 << 6) #define SLNETSOCK_SEC_CIPHER_TLS_RSA_WITH_AES_256_CBC_SHA256 (1 << 7) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 (1 << 8) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 (1 << 9) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA (1 << 10) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA (1 << 11) #define SLNETSOCK_SEC_CIPHER_TLS_RSA_WITH_AES_128_GCM_SHA256 (1 << 12) #define SLNETSOCK_SEC_CIPHER_TLS_RSA_WITH_AES_256_GCM_SHA384 (1 << 13) #define SLNETSOCK_SEC_CIPHER_TLS_DHE_RSA_WITH_AES_128_GCM_SHA256 (1 << 14) #define SLNETSOCK_SEC_CIPHER_TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 (1 << 15) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 (1 << 16) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 (1 << 17) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 (1 << 18) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 (1 << 19) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305_SHA256 (1 << 20) #define SLNETSOCK_SEC_CIPHER_TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305_SHA256 (1 << 21) #define SLNETSOCK_SEC_CIPHER_TLS_DHE_RSA_WITH_CHACHA20_POLY1305_SHA256 (1 << 22) #define SLNETSOCK_SEC_CIPHER_FULL_LIST (0xFFFFFFFF) /* available values for SLNETSOCK_SEC_ATTRIB_ALPN */ #define SLNETSOCK_SEC_ALPN_H1 (1 << 0) #define SLNETSOCK_SEC_ALPN_H2 (1 << 1) #define SLNETSOCK_SEC_ALPN_H2C (1 << 2) #define SLNETSOCK_SEC_ALPN_H2_14 (1 << 3) #define SLNETSOCK_SEC_ALPN_H2_16 (1 << 4) #define SLNETSOCK_SEC_ALPN_FULL_LIST ((SLNETSOCK_SEC_ALPN_H2_16 << 1 ) - 1) /* available values for the flags of the SlNetSock_startSec function */ #define SLNETSOCK_SEC_START_SECURITY_SESSION_ONLY (1 << 0) /**< Sends the command that will start the security session for a specific socket descriptor */ #define SLNETSOCK_SEC_BIND_CONTEXT_ONLY (1 << 1) /**< Binds the security context to a specific socket descriptor */ #define SLNETSOCK_SEC_IS_SERVER (1 << 2) /**< Used to define if the socket is client/server socket */ /* available values for the flags of the SlNetSock_create function */ #define SLNETSOCK_CREATE_IF_STATE_ENABLE (1 << 0) /**< Creation of the socket will be on enabled state */ #define SLNETSOCK_CREATE_IF_STATUS_CONNECTED (1 << 1) /**< Creation of the socket will be on status connected */ #define SLNETSOCK_CREATE_ALLOW_PARTIAL_MATCH (1 << 2) /**< Creation of the socket will be on the interface with the highest priority if the other flags will fail */ /* Definitions for shutting down some or all parts of a full duplex connection */ #define SLNETSOCK_SHUT_RD (0) /**< Further receptions will be disallowed */ #define SLNETSOCK_SHUT_WR (1) /**< Further transmissions will be disallowed */ #define SLNETSOCK_SHUT_RDWR (2) /**< Further receptions and transmissions will be disallowed */ /* Length of address string representation */ #define SLNETSOCK_INET6_ADDRSTRLEN (46) #define SLNETSOCK_INET_ADDRSTRLEN (16) /* flags used in send/recv and friends. * * Note these flags must not exceed 24-bits. The implementation will * OR the 8-bits of security flags into the remaining high 8 bits of * 32-bit flag variables. */ #define SLNETSOCK_MSG_OOB (0x0001) #define SLNETSOCK_MSG_PEEK (0x0002) #define SLNETSOCK_MSG_WAITALL (0x0004) #define SLNETSOCK_MSG_DONTWAIT (0x0008) #define SLNETSOCK_MSG_DONTROUTE (0x0010) #define SLNETSOCK_MSG_NOSIGNAL (0x0020) /*****************************************************************************/ /* Structure/Enum declarations */ /*****************************************************************************/ /*! \brief Internet address */ typedef struct SlNetSock_InAddr_t { #ifndef s_addr uint32_t s_addr; /* Internet address 32 bits */ #else /*! \brief Different representations for in addr for different hosts. */ union S_un { uint32_t S_addr; struct { uint8_t s_b1,s_b2,s_b3,s_b4; } S_un_b; struct { uint16_t s_w1,s_w2; } S_un_w; } S_un; #endif } SlNetSock_InAddr_t; /*! \brief IpV6 or Ipv6 EUI64 */ typedef struct SlNetSock_In6Addr_t { union { uint8_t _S6_u8[16]; uint16_t _S6_u16[8]; uint32_t _S6_u32[4]; } _S6_un; } SlNetSock_In6Addr_t; /*! \brief The SlNetSock_NoDelay_t structure is used in #SLNETSOCK_TCP_NODELAY TCP level option */ typedef struct SlNetSock_NoDelay_t { uint32_t noDelayEnabled; /**< 0 = disabled;1 = enabled; default = 0 */ } SlNetSock_NoDelay_t; /*! \brief The SlNetSock_MaxSeg_t structure is used in #SLNETSOCK_TCP_MAXSEG TCP level option */ typedef struct SlNetSock_MaxSeg_t { uint32_t maxSeg; /**< Maximum TCP segment size. Default = 536 */ } SlNetSock_MaxSeg_t; /*! \brief The SlNetSock_NoPush_t structure is used in #SLNETSOCK_TCP_NOPUSH TCP level option */ typedef struct SlNetSock_NoPush_t { uint32_t noPushEnabled; /**< 0 = disabled;1 = enabled; default = 0 */ } SlNetSock_NoPush_t; /*! \brief The SlNetSock_NoOpt_t structure is used in #SLNETSOCK_TCP_NOOPT TCP level option */ typedef struct SlNetSock_NoOpt_t { uint32_t noOptEnabled; /**< 0 = disabled;1 = enabled; default = 0 */ } SlNetSock_NoOpt_t; /*! \brief The SlNetSock_SackPermitted_t structure is used in #SLNETSOCK_TCP_NOPUSH TCP level option */ typedef struct SlNetSock_SackPermitted_t { uint32_t sackPermittedEnabled; /**< 0 = disabled;1 = enabled; default = 0 */ } SlNetSock_SackPermitted_t; /*! \brief The SlNetSock_MaxRtt_t structure is used in #SLNETSOCK_TCP_MAXRTT TCP level option */ typedef struct SlNetSock_MaxRtt_t { uint32_t maxRtt; /**< Maximum TCP Round Trip Time value allowed; Default = 360000000 */ } SlNetSock_MaxRtt_t; /*! \brief The SlNetSock_Keepalive_t structure is used in #SLNETSOCK_OPSOCK_KEEPALIVE socket level option */ typedef struct SlNetSock_Keepalive_t { uint32_t keepaliveEnabled; /**< 0 = disabled;1 = enabled; default = 1 */ } SlNetSock_Keepalive_t; /*! \brief The SlNetSock_NonIpBoundary_t structure is used in #SLNETSOCK_OPSOCK_NON_IP_BOUNDARY socket level option */ typedef struct SlNetSock_NonIpBoundary_t { int32_t nonIpBoundaryEnabled; /**< 0 = keep IP boundary; 1 = don`t keep ip boundary; default = 0; */ } SlNetSock_NonIpBoundary_t; /*! \brief The SlNetSock_Winsize_t structure is used in #SLNETSOCK_OPSOCK_RCV_BUF socket level option */ typedef struct SlNetSock_Winsize_t { uint32_t winSize; /**< receive window size for tcp sockets */ } SlNetSock_Winsize_t; /*! \brief The SlNetSock_Nonblocking_t structure is used in #SLNETSOCK_OPSOCK_NON_BLOCKING socket level option */ typedef struct SlNetSock_Nonblocking_t { uint32_t nonBlockingEnabled; /**< 0 = disabled, 1 = enabled, default = 1*/ } SlNetSock_Nonblocking_t; /*! \brief The SlNetSock_Broadcast_t structure is used in #SLNETSOCK_OPSOCK_BROADCAST socket level option */ typedef struct SlNetSock_Broadcast_t { uint32_t broadcastEnabled; /**< 0 = disabled, 1 = enabled, default = 0*/ } SlNetSock_Broadcast_t; /*! \brief Secure socket attribute context */ typedef struct SlNetSock_SecAttribNode_t { SlNetSockSecAttrib_e attribName; /**< Security attribute name */ uint8_t *attribBuff; /**< Security attribute buffer */ uint16_t attribBuffLen; /**< Security attribute buffer length */ struct SlNetSock_SecAttribNode_t *next; } SlNetSock_SecAttribNode_t; /*! \brief Secure socket attribute handler */ typedef SlNetSock_SecAttribNode_t * SlNetSockSecAttrib_t; /*! \brief Secure ALPN structure */ typedef struct SlNetSock_SecureALPN_t { uint32_t secureALPN; } SlNetSock_SecureALPN_t; /*! \brief Secure Mask structure */ typedef struct SlNetSock_SecureMask_t { uint32_t secureMask; } SlNetSock_SecureMask_t; /*! \brief Secure Method structure */ typedef struct SlNetSock_SecureMethod_t { uint8_t secureMethod; } SlNetSock_SecureMethod_t; /*! \brief The SlNetSock_IpMreq_t structure is used in #SLNETSOCK_OPIP_ADD_MEMBERSHIP and #SLNETSOCK_OPIP_DROP_MEMBERSHIP IP level option */ typedef struct SlNetSock_IpMreq_t { SlNetSock_InAddr_t imr_multiaddr; /**< The IPv4 multicast address to join */ uint32_t imr_interface; /**< The interface to use for this group */ } SlNetSock_IpMreq_t; /*! \brief The SlNetSock_IpV6Mreq_t structure is used in #SLNETSOCK_OPIPV6_ADD_MEMBERSHIP and #SLNETSOCK_OPIPV6_DROP_MEMBERSHIP IP level option */ typedef struct SlNetSock_IpV6Mreq_t { SlNetSock_In6Addr_t ipv6mr_multiaddr; /**< IPv6 multicast address of group */ uint32_t ipv6mr_interface; /**< should be 0 to choose the default multicast interface */ } SlNetSock_IpV6Mreq_t; /*! \brief The SlNetSock_linger_t structure is used in #SLNETSOCK_OPSOCK_LINGER socket level option */ typedef struct SlNetSock_linger_t { uint32_t l_onoff; /**< 0 = disabled; 1 = enabled; default = 0; */ uint32_t l_linger; /**< linger time in seconds; default = 0; */ } SlNetSock_linger_t; /*! \brief The @c SlNetSock_Timeval_t structure is used in the #SLNETSOCK_OPSOCK_RCV_TIMEO and #SLNETSOCK_OPSOCK_SND_TIMEO socket level options \remarks Note that @c SlNetSock_Timeval_t is intentionally defined to be equivalent to the POSIX-defined struct timeval data type. */ typedef struct timeval SlNetSock_Timeval_t; /*! \brief The SlNetSocklen_t is used for declaring the socket length parameter */ typedef uint16_t SlNetSocklen_t; /*! \brief IpV4 socket address */ typedef struct SlNetSock_Addr_t { uint16_t sa_family; /**< Address family (e.g. AF_INET) */ uint8_t sa_data[14]; /**< Protocol- specific address information */ } SlNetSock_Addr_t; /*! \brief SlNetSock IPv6 address, Internet style */ typedef struct SlNetSock_AddrIn6_t { uint16_t sin6_family; /**< SLNETSOCK_AF_INET6 */ uint16_t sin6_port; /**< Transport layer port. */ uint32_t sin6_flowinfo; /**< IPv6 flow information. */ SlNetSock_In6Addr_t sin6_addr; /**< IPv6 address. */ uint32_t sin6_scope_id; /**< set of interfaces for a scope. */ } SlNetSock_AddrIn6_t; /*! \brief SlNetSock IPv4 address, Internet style */ typedef struct SlNetSock_AddrIn_t { uint16_t sin_family; /**< Internet Protocol (AF_INET). */ uint16_t sin_port; /**< Address port (16 bits). */ SlNetSock_InAddr_t sin_addr; /**< Internet address (32 bits). */ int8_t sin_zero[8]; /**< Not used. */ } SlNetSock_AddrIn_t; /* ss_family + pad must be large enough to hold max of * _SlNetSock_AddrIn6_t or _SlNetSock_AddrIn_t */ /*! \brief Generic socket address type to hold either IPv4 or IPv6 address */ typedef struct SlNetSock_SockAddrStorage_t { uint16_t ss_family; uint8_t pad[26]; } SlNetSock_SockAddrStorage_t; /*! \brief The SlNetSock_SdSet_t structure holds the sd array for SlNetSock_select function */ typedef struct SlNetSock_SdSet_t /**< The select socket array manager */ { uint32_t sdSetBitmap[(SLNETSOCK_MAX_CONCURRENT_SOCKETS + (uint8_t)31)/(uint8_t)32]; /* Bitmap of SOCKET Descriptors */ } SlNetSock_SdSet_t; /*! \brief The SlNetSock_TransceiverRxOverHead_t structure holds the data for Rx transceiver mode using a raw socket when using SlNetSock_recv function */ typedef struct SlNetSock_TransceiverRxOverHead_t { uint8_t rate; /**< Received Rate */ uint8_t channel; /**< The received channel */ int8_t rssi; /**< The computed RSSI value in db of current frame */ uint8_t padding; /**< pad to align to 32 bits */ uint32_t timestamp; /**< Timestamp in microseconds */ } SlNetSock_TransceiverRxOverHead_t; /*****************************************************************************/ /* Function prototypes */ /*****************************************************************************/ /*! \brief Initialize the SlNetSock module \param[in] flags Reserved \return Zero on success, or negative error code on failure \par Examples \snippet ti/net/test/snippets/slnetif.c SlNetSock_init snippet */ int32_t SlNetSock_init(int32_t flags); /*! \brief Create an endpoint for communication SlNetSock_create() creates a new socket of a certain socket type, identified by an integer number, and allocates system resources to it.\n This function is called by the application layer to obtain a socket descriptor (handle). \param[in] domain Specifies the protocol family of the created socket. For example: - #SLNETSOCK_AF_INET for network protocol IPv4 - #SLNETSOCK_AF_INET6 for network protocol IPv6 - #SLNETSOCK_AF_RF for starting transceiver mode. Notes: - sending and receiving any packet overriding 802.11 header - for optimized power consumption the socket will be started in TX only mode until receive command is activated \param[in] type Specifies the socket type, which determines the semantics of communication over the socket. The socket types supported by the system are implementation-dependent. Possible socket types include: - #SLNETSOCK_SOCK_STREAM (reliable stream-oriented service or Stream Sockets) - #SLNETSOCK_SOCK_DGRAM (datagram service or Datagram Sockets) - #SLNETSOCK_SOCK_RAW (raw protocols atop the network layer) - when used with AF_RF: - #SLNETSOCK_SOCK_RX_MTR - #SLNETSOCK_SOCK_MAC_WITH_CCA - #SLNETSOCK_SOCK_MAC_WITH_NO_CCA - #SLNETSOCK_SOCK_BRIDGE - #SLNETSOCK_SOCK_ROUTER \param[in] protocol Specifies a particular transport to be used with the socket.\n The most common are - #SLNETSOCK_PROTO_TCP - #SLNETSOCK_PROTO_UDP - #SLNETSOCK_PROTO_RAW - #SLNETSOCK_PROTO_SECURE \param[in] ifBitmap Specifies the interface(s) which the socket will be created on according to priority until one of them will return an answer.\n Value 0 is used in order to choose automatic interfaces selection according to the priority interface list. Value can be a combination of interfaces by OR'ing multiple interfaces bit identifiers (SLNETIFC_IDENT_ defined in slnetif.h) Note: interface identifier bit must be configured prior to this socket creation using SlNetIf_add(). \param[in] flags Specifies flags. - #SLNETSOCK_CREATE_IF_STATE_ENABLE - Creation of the socket will be on enabled state - #SLNETSOCK_CREATE_IF_STATUS_CONNECTED - Creation of the socket will be on status connected - #SLNETSOCK_CREATE_ALLOW_PARTIAL_MATCH - Creation of the socket will be on the interface with the highest priority if the other flags will fail The value 0 may be used in order to run the default flags: - #SLNETSOCK_CREATE_IF_STATE_ENABLE - #SLNETSOCK_CREATE_IF_STATUS_CONNECTED \return On success, socket descriptor (handle) that is used for consequent socket operations. \n A successful return code should be a positive number\n On error, a negative value will be returned specifying the error code. - #SLNETERR_BSD_EAFNOSUPPORT - illegal domain parameter - #SLNETERR_BSD_EPROTOTYPE - illegal type parameter - #SLNETERR_BSD_EACCES - permission denied - #SLNETERR_BSD_ENSOCK - exceeded maximal number of socket - #SLNETERR_BSD_ENOMEM - memory allocation error - #SLNETERR_BSD_EINVAL - error in socket configuration - #SLNETERR_BSD_EPROTONOSUPPORT - illegal protocol parameter - #SLNETERR_BSD_EOPNOTSUPP - illegal combination of protocol and type parameters \slnetsock_init_precondition \remark Not all platforms support all options. \remark A @c protocol value of zero can be used to select the default protocol from the selected @c domain and @c type. \remark SlNetSock_create() uses the highest priority interface from the ifBitmap, subject to the constraints specified in the flags parameter. An interface that does not satisfy the constraints is ignored, without regards to its priority level. \par Examples \snippet ti/net/test/snippets/slnetif.c SlNetSock_create TCP IPv4 snippet \snippet ti/net/test/snippets/slnetif.c SlNetSock_create TCP IPv6 snippet \snippet ti/net/test/snippets/slnetif.c SlNetSock_create UDP IPv4 snippet \sa SlNetSock_close() */ int16_t SlNetSock_create(int16_t domain, int16_t type, int16_t protocol, uint32_t ifBitmap, int16_t flags); /*! \brief Gracefully close socket Release resources allocated to a socket. \param[in] sd Socket descriptor (handle), received in SlNetSock_create() \return Zero on success, or negative error code on failure \slnetsock_init_precondition \remark In the case of TCP, the connection is terminated. \remark After this function returns there is no way to access the socket identified by @c sd. The SlNetSock socket is closed regardless of the status of the underlying interface's socket. \par Examples \snippet ti/net/test/snippets/slnetif.c SlNetSock_close snippet \sa SlNetSock_create() */ int32_t SlNetSock_close(int16_t sd); /*! \brief Shutting down parts of a full-duplex connection Shuts down parts of a full-duplex connection according to how parameter.\n \param[in] sd Socket descriptor (handle), received in SlNetSock_create \param[in] how Specifies which part of a full-duplex connection to shutdown. \n The options are - #SLNETSOCK_SHUT_RD - further receptions will be disallowed - #SLNETSOCK_SHUT_WR - further transmissions will be disallowed - #SLNETSOCK_SHUT_RDWR - further receptions and transmissions will be disallowed \return Zero on success, or negative error code on failure \slnetsock_init_precondition \sa SlNetSock_create() \sa SlNetSock_connect() \sa SlNetSock_accept() */ int32_t SlNetSock_shutdown(int16_t sd, int16_t how); /*! \brief Accept a connection on a socket The SlNetSock_accept function is used with connection-based socket types (#SLNETSOCK_SOCK_STREAM). It extracts the first connection request on the queue of pending connections, creates a new connected socket, and returns a new file descriptor referring to that socket. The newly created socket is not in the listening state. The original socket sd is unaffected by this call. The argument sd is a socket that has been created with SlNetSock_create(), bound to a local address with SlNetSock_bind(), and is listening for connections after a SlNetSock_listen(). The argument \c addr is a pointer to a sockaddr structure. This structure is filled in with the address of the peer socket, as known to the communications layer. The exact format of the address returned \c addr is determined by the socket's address family. \c addrlen is a value-result argument: it should initially contain the size of the structure pointed to by addr, on return it will contain the actual length (in bytes) of the address returned. \param[in] sd Socket descriptor (handle) \param[out] addr The argument addr is a pointer to a sockaddr structure. This structure is filled in with the address of the peer socket, as known to the communications layer. The exact format of the address returned addr is determined by the socket's address\n sockaddr:\n - code for the address format.\n - socket address, the length depends on the code format \param[out] addrlen The addrlen argument is a value-result argument: it should initially contain the size of the structure pointed to by addr \return On success, a socket descriptor.\n On a non-blocking accept a possible negative value is #SLNETERR_BSD_EAGAIN.\n On failure, negative error code.\n #SLNETERR_BSD_ENOMEM may be return in case there are no resources in the system \slnetsock_init_precondition \sa SlNetSock_create() \sa SlNetSock_bind() \sa SlNetSock_listen() */ int16_t SlNetSock_accept(int16_t sd, SlNetSock_Addr_t *addr, SlNetSocklen_t *addrlen); /*! \brief Assign a name to a socket This SlNetSock_bind function gives the socket the local address addr. addr is addrlen bytes long. Traditionally, this is called when a socket is created with socket, it exists in a name space (address family) but has no name assigned. It is necessary to assign a local address before a #SLNETSOCK_SOCK_STREAM socket may receive connections. \param[in] sd Socket descriptor (handle) \param[in] addr Specifies the destination addrs\n sockaddr:\n - code for the address format.\n - socket address, the length depends on the code format \param[in] addrlen Contains the size of the structure pointed to by addr \return Zero on success, or negative error code on failure \slnetsock_init_precondition \sa SlNetSock_create() \sa SlNetSock_accept() \sa SlNetSock_listen() */ int32_t SlNetSock_bind(int16_t sd, const SlNetSock_Addr_t *addr, int16_t addrlen); /*! \brief Listen for connections on a socket The willingness to accept incoming connections and a queue limit for incoming connections are specified with SlNetSock_listen(), and then the connections are accepted with SlNetSock_accept(). \param[in] sd Socket descriptor (handle) \param[in] backlog Specifies the listen queue depth. \return Zero on success, or negative error code on failure \slnetsock_init_precondition \remark The SlNetSock_listen() call applies only to sockets of type #SLNETSOCK_SOCK_STREAM. \remark The \c backlog parameter defines the maximum length the queue of pending connections may grow to. \sa SlNetSock_create() \sa SlNetSock_accept() \sa SlNetSock_bind() */ int32_t SlNetSock_listen(int16_t sd, int16_t backlog); /*! \brief Initiate a connection on a socket Function connects the socket referred to by the socket descriptor sd, to the address specified by \c addr. The format of the address in addr is determined by the address space of the socket. If it is of type #SLNETSOCK_SOCK_DGRAM, this call specifies the peer with which the socket is to be associated; this address is that to which datagrams are to be sent, and the only address from which datagrams are to be received. If the socket is of type #SLNETSOCK_SOCK_STREAM, this call attempts to make a connection to another socket. The other socket is specified by address, which is an address in the communications space of the socket. \param[in] sd Socket descriptor (handle) \param[in] addr Specifies the destination addr\n sockaddr:\n - code for the address format.\n - socket address, the length depends on the code format \param[in] addrlen Contains the size of the structure pointed to by addr \return On success, a socket descriptor (handle).\n On failure, negative value.\n On a non-blocking connect a possible negative value is #SLNETERR_BSD_EALREADY. #SLNETERR_POOL_IS_EMPTY may be returned in case there are no resources in the system \slnetsock_init_precondition \sa SlNetSock_create() */ int32_t SlNetSock_connect(int16_t sd, const SlNetSock_Addr_t *addr, SlNetSocklen_t addrlen); /*! \brief Return address info about the remote side of the connection Returns a struct SlNetSock_AddrIn_t filled with information about the peer device that is connected on the other side of the socket descriptor. \param[in] sd Socket descriptor (handle) \param[out] addr returns the struct addr\n SlNetSockAddrIn filled with information about the peer device:\n - code for the address format.\n - socket address, the length depends on the code format \param[out] addrlen Contains the size of the structure pointed to by addr \return Zero on success, or negative error code on failure \slnetsock_init_precondition \sa SlNetSock_accept() \sa SlNetSock_connect() */ int32_t SlNetSock_getPeerName(int16_t sd, SlNetSock_Addr_t *addr, SlNetSocklen_t *addrlen); /*! \brief Get local address info by socket descriptor Returns the local address info of the socket descriptor. \param[in] sd Socket descriptor (handle) \param[out] addr The argument addr is a pointer to a SlNetSock_Addr_t structure. This structure is filled in with the address of the peer socket, as known to the communications layer. The exact format of the address returned addr is determined by the socket's address\n SlNetSock_Addr_t:\n - code for the address format.\n - socket address, the length depends on the code format \param[out] addrlen The addrlen argument is a value-result argument: it should initially contain the size of the structure pointed to by addr \return Zero on success, or negative on failure. \slnetsock_init_precondition \remark If the provided buffer is too small the returned address will be truncated and \c addrlen will contain the actual size of the socket address. \sa SlNetSock_create() \sa SlNetSock_bind() */ int32_t SlNetSock_getSockName(int16_t sd, SlNetSock_Addr_t *addr, SlNetSocklen_t *addrlen); /*! \brief Monitor socket activity SlNetSock_select() allow a program to monitor multiple file descriptors, waiting until one or more of the file descriptors become "ready" for some class of I/O operation. \param[in] nsds The highest-numbered file descriptor in any of the three sets, plus 1. \param[in,out] readsds Socket descriptors list for read monitoring and accept monitoring \param[in,out] writesds Socket descriptors list for connect monitoring only, write monitoring is not supported \param[in,out] exceptsds Socket descriptors list for exception monitoring, not supported. \param[in] timeout Is an upper bound on the amount of time elapsed before SlNetSock_select() returns. Null or above 0xffff seconds means infinity timeout. The minimum timeout is 10 milliseconds, less than 10 milliseconds will be set automatically to 10 milliseconds. Max microseconds supported is 0xfffc00. In trigger mode the timeout fields must be set to zero. \return On success, SlNetSock_select() returns the number of file descriptors contained in the three returned descriptor sets (that is, the total number of bits that are set in readsds, writesds, exceptsds) which may be zero if the timeout expires before anything interesting happens.\n On error, a negative value is returned. readsds - return the sockets on which Read request will return without delay with valid data.\n writesds - return the sockets on which Write request will return without delay.\n exceptsds - return the sockets closed recently. \n #SLNETERR_BSD_ENOMEM may be return in case there are no resources in the system \slnetsock_init_precondition \remark If \c timeout is set to less than 10ms it will automatically set to 10ms to prevent overload of the system \sa SlNetSock_create() */ int32_t SlNetSock_select(int16_t nsds, SlNetSock_SdSet_t *readsds, SlNetSock_SdSet_t *writesds, SlNetSock_SdSet_t *exceptsds, SlNetSock_Timeval_t *timeout); /*! \brief SlNetSock_select's SlNetSock_SdSet_t SET function Sets current socket descriptor on SlNetSock_SdSet_t container */ int32_t SlNetSock_sdsSet(int16_t sd, SlNetSock_SdSet_t *sdset); /*! \brief SlNetSock_select's SlNetSock_SdSet_t CLR function Clears current socket descriptor on SlNetSock_SdSet_t container */ int32_t SlNetSock_sdsClr(int16_t sd, SlNetSock_SdSet_t *sdset); /*! \brief SlNetSock_select's SlNetSock_SdSet_t ZERO function Clears all socket descriptors from SlNetSock_SdSet_t */ int32_t SlNetSock_sdsClrAll(SlNetSock_SdSet_t *sdset); /*! \brief SlNetSock_select's SlNetSock_SdSet_t ISSET function Checks if current socket descriptor is set (true/false) \return Returns true if set, false if unset */ int32_t SlNetSock_sdsIsSet(int16_t sd, SlNetSock_SdSet_t *sdset); /*! \brief Set socket options SlNetSock_setOpt() manipulates the options associated with a socket. Options may exist at multiple protocol levels; they are always present at the uppermost socket level. When manipulating socket options the level at which the option resides and the name of the option must be specified. To manipulate options at the socket level, level is specified as #SLNETSOCK_LVL_SOCKET. To manipulate options at any other level the protocol number of the appropriate protocol controlling the option is supplied. For example, to indicate that an option is to be interpreted by the TCP protocol, level should be set to the protocol number of TCP. \c optval and \c optlen are used to access opt_values for SlNetSock_setOpt(). For SlNetSock_getOpt() they identify a buffer in which the value for the requested option(s) are to be returned. For SlNetSock_getOpt(), \c optlen is a value-result parameter, initially containing the size of the buffer pointed to by option_value, and modified on return to indicate the actual size of the value returned. If no option value is to be supplied or returned, \c optval may be \c NULL. \param[in] sd Socket descriptor (handle) \param[in] level Defines the protocol level for this option - #SLNETSOCK_LVL_SOCKET - Socket level configurations (L4, transport layer) - #SLNETSOCK_LVL_IP - IP level configurations (L3, network layer) - #SLNETSOCK_LVL_PHY - Link level configurations (L2, link layer) \param[in] optname Defines the option name to interrogate - #SLNETSOCK_LVL_SOCKET - #SLNETSOCK_OPSOCK_RCV_BUF\n Sets tcp max recv window size.\n This options takes SlNetSock_Winsize_t struct as parameter - #SLNETSOCK_OPSOCK_RCV_TIMEO\n Sets the timeout value that specifies the maximum amount of time an input function waits until it completes.\n Default: No timeout\n This options takes SlNetSock_Timeval_t struct as parameter - #SLNETSOCK_OPSOCK_KEEPALIVE\n Enable or Disable periodic keep alive. Keeps TCP connections active by enabling the periodic transmission of messages \n Timeout is 5 minutes.\n Default: Enabled \n This options takes SlNetSock_Keepalive_t struct as parameter - #SLNETSOCK_OPSOCK_KEEPALIVE_TIME\n Set keep alive timeout. Value is in seconds \n Default: 5 minutes \n - #SLNETSOCK_OPSOCK_LINGER\n Socket lingers on close pending remaining send/receive packets\n - #SLNETSOCK_OPSOCK_NON_BLOCKING\n Sets socket to non-blocking operation Impacts: connect, accept, send, sendto, recv and recvfrom. \n Default: Blocking. This options takes SlNetSock_Nonblocking_t struct as parameter - #SLNETSOCK_OPSOCK_NON_IP_BOUNDARY\n Enable or Disable rx ip boundary. In connectionless socket (udp/raw), unread data is dropped (when SlNetSock_recvFrom() len parameter < data size), Enable this option in order to read the left data on the next SlNetSock_recvFrom() iteration\n Default: Disabled, IP boundary kept\n This options takes SlNetSock_NonIpBoundary_t struct as parameter - #SLNETSOCK_LVL_IP - #SLNETSOCK_OPIP_MULTICAST_TTL\n Set the time-to-live value of outgoing multicast packets for this socket. \n This options takes uint8_t as parameter - #SLNETSOCK_OPIP_ADD_MEMBERSHIP \n UDP socket, Join a multicast group. \n This options takes SlNetSock_IpMreq_t struct as parameter - #SLNETSOCK_OPIP_DROP_MEMBERSHIP \n UDP socket, Leave a multicast group \n This options takes SlNetSock_IpMreq_t struct as parameter - #SLNETSOCK_OPIP_HDRINCL \n RAW socket only, the IPv4 layer generates an IP header when sending a packet unless \n the IP_HDRINCL socket option is enabled on the socket. \n When it is enabled, the packet must contain an IP header. \n Default: disabled, IPv4 header generated by Network Stack \n This options takes uint32_t as parameter - #SLNETSOCK_OPIP_RAW_RX_NO_HEADER \n Raw socket remove IP header from received data. \n Default: data includes ip header \n This options takes uint32_t as parameter - #SLNETSOCK_OPIP_RAW_IPV6_HDRINCL (inactive) \n RAW socket only, the IPv6 layer generates an IP header when sending a packet unless \n the IP_HDRINCL socket option is enabled on the socket. When it is enabled, the packet must contain an IP header \n Default: disabled, IPv4 header generated by Network Stack \n This options takes uint32_t as parameter - #SLNETSOCK_LVL_PHY - #SLNETSOCK_OPPHY_CHANNEL \n Sets channel in transceiver mode. This options takes uint32_t as channel number parameter - #SLNETSOCK_OPPHY_RATE \n RAW socket, set WLAN PHY transmit rate \n The values are based on SlWlanRateIndex_e \n This options takes uint32_t as parameter - #SLNETSOCK_OPPHY_TX_POWER \n RAW socket, set WLAN PHY TX power \n Valid rage is 1-15 \n This options takes uint32_t as parameter - #SLNETSOCK_OPPHY_NUM_FRAMES_TO_TX \n RAW socket, set number of frames to transmit in transceiver mode. Default: 1 packet This options takes uint32_t as parameter - #SLNETSOCK_OPPHY_PREAMBLE \n RAW socket, set WLAN PHY preamble for Long/Short\n This options takes uint32_t as parameter - #SLNETSOCK_OPPHY_TX_INHIBIT_THRESHOLD \n RAW socket, set WLAN Tx - Set CCA threshold. \n The values are based on SlNetSockTxInhibitThreshold_e \n This options takes uint32_t as parameter - #SLNETSOCK_OPPHY_TX_TIMEOUT \n RAW socket, set WLAN Tx - changes the TX timeout (lifetime) of transceiver frames. \n Value in Ms, maximum value is 10ms \n This options takes uint32_t as parameter - #SLNETSOCK_OPPHY_ALLOW_ACKS \n RAW socket, set WLAN Tx - Enable or Disable sending ACKs in transceiver mode \n 0 = disabled / 1 = enabled \n This options takes uint32_t as parameter - #SLNETSOCK_PROTO_TCP - #SLNETSOCK_TCP_NODELAY \n Disables TCP send delay/coalesce algorithm. \n This option takes SLNetSock_NoDelay_t struct as a parameter. - #SLNETSOCK_TCP_MAXSEG \n Set the maximum TCP segment size \n This option takes SLNetSock_MaxSeg_t struct as a parameter. - #SLNETSOCK_TCP_NOPUSH \n Do not send data just to finish a data block (attempt to coalesce). \n This option takes SLNetSock_NoPush_t struct as a parameter - #SLNETSOCK_TCP_NOOPT \n Do not use TCP options. \n This option takes SLNetSock_NoOpt_t struct as a parameter. - #SLNETSOCK_TCP_SACKPERMITTED \n Permit RFC-2018 Selective Acknowledgment(SACK) conformant connection This option takes SLNetSock_SackPermitted_t struct as a parameter - #SLNETSOCK_TCP_MAXRTT \n The maximum TCP Round Trip Time value allowed in the determination of the estimated TCP RTT. \n This option takes SLNetSock_MaxRtt_t struct as a parameter \param[in] optval Specifies a value for the option \param[in] optlen Specifies the length of the option value \return Zero on success, or negative error code on failure \par Persistent All params are Non- Persistent \slnetsock_init_precondition \par Examples - SLNETSOCK_OPSOCK_RCV_BUF: \code SlNetSock_Winsize_t size; size.winsize = 3000; // bytes SlNetSock_setOpt(SockID, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPSOCK_RCV_BUF, (uint8_t *)&size, sizeof(size)); \endcode
- SLNETSOCK_OPSOCK_RCV_TIMEO: \code struct SlNetSock_Timeval_t timeVal; timeVal.tv_sec = 1; // Seconds timeVal.tv_usec = 0; // Microseconds. 10000 microseconds resolution SlNetSock_setOpt(SockID, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPSOCK_RCV_TIMEO, (uint8_t *)&timeVal, sizeof(timeVal)); // Enable receive timeout \endcode
- SLNETSOCK_OPSOCK_KEEPALIVE: //disable Keepalive \code SlNetSock_Keepalive_t enableOption; enableOption.keepaliveEnabled = 0; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPSOCK_KEEPALIVE, (uint8_t *)&enableOption, sizeof(enableOption)); \endcode
- SLNETSOCK_OPSOCK_KEEPALIVE_TIME: //Set Keepalive timeout \code int16_t Status; uint32_t TimeOut = 120; SlNetSock_setOpt(Sd, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPSOCK_KEEPALIVE_TIME, (uint8_t *)&TimeOut, sizeof(TimeOut)); \endcode
- SLNETSOCK_OPSOCK_NON_BLOCKING: //Enable or disable nonblocking mode \code SlNetSock_Nonblocking_t enableOption; enableOption.nonBlockingEnabled = 1; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPSOCK_NON_BLOCKING, (uint8_t *)&enableOption, sizeof(enableOption)); \endcode
- SLNETSOCK_OPSOCK_NON_IP_BOUNDARY: //disable boundary \code SlNetSock_NonIpBoundary_t enableOption; enableOption.nonIpBoundaryEnabled = 1; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPSOCK_NON_IP_BOUNDARY, (uint8_t *)&enableOption, sizeof(enableOption)); \endcode
- SLNETSOCK_OPSOCK_LINGER: \code SlNetSock_linger_t linger; linger.l_onoff = 1; linger.l_linger = 10; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPSOCK_LINGER, &linger, sizeof(linger)); \endcode
- SLNETSOCK_OPIP_MULTICAST_TTL: \code uint8_t ttl = 20; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_IP, SLNETSOCK_OPIP_MULTICAST_TTL, &ttl, sizeof(ttl)); \endcode
- SLNETSOCK_OPIP_ADD_MEMBERSHIP: \code SlNetSock_IpMreq_t mreq; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_IP, SLNETSOCK_OPIP_ADD_MEMBERSHIP, &mreq, sizeof(mreq)); \endcode
- SLNETSOCK_OPIP_DROP_MEMBERSHIP: \code SlNetSock_IpMreq_t mreq; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_IP, SLNETSOCK_OPIP_DROP_MEMBERSHIP, &mreq, sizeof(mreq)); \endcode
- SLNETSOCK_OPIP_RAW_RX_NO_HEADER: \code uint32_t header = 1; // remove ip header SlNetSock_setOpt(SockID, SLNETSOCK_LVL_IP, SLNETSOCK_OPIP_RAW_RX_NO_HEADER, &header, sizeof(header)); \endcode
- SLNETSOCK_OPIP_HDRINCL: \code uint32_t header = 1; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_IP, SLNETSOCK_OPIP_HDRINCL, &header, sizeof(header)); \endcode
- SLNETSOCK_OPIP_RAW_IPV6_HDRINCL: \code uint32_t header = 1; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_IP, SLNETSOCK_OPIP_RAW_IPV6_HDRINCL, &header, sizeof(header)); \endcode
- SLNETSOCK_OPPHY_CHANNEL: \code uint32_t newChannel = 6; // range is 1-13 SlNetSock_setOpt(SockID, SLNETSOCK_LVL_SOCKET, SLNETSOCK_OPPHY_CHANNEL, &newChannel, sizeof(newChannel)); \endcode
- SLNETSOCK_OPPHY_RATE: \code uint32_t rate = 6; // see wlan.h SlWlanRateIndex_e for values SlNetSock_setOpt(SockID, SLNETSOCK_LVL_PHY, SLNETSOCK_OPPHY_RATE, &rate, sizeof(rate)); \endcode
- SLNETSOCK_OPPHY_TX_POWER: \code uint32_t txpower = 1; // valid range is 1-15 SlNetSock_setOpt(SockID, SLNETSOCK_LVL_PHY, SLNETSOCK_OPPHY_TX_POWER, &txpower, sizeof(txpower)); \endcode
- SLNETSOCK_OPPHY_NUM_FRAMES_TO_TX: \code uint32_t numframes = 1; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_PHY, SLNETSOCK_OPPHY_NUM_FRAMES_TO_TX, &numframes, sizeof(numframes)); \endcode
- SLNETSOCK_OPPHY_PREAMBLE: \code uint32_t preamble = 1; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_PHY, SLNETSOCK_OPPHY_PREAMBLE, &preamble, sizeof(preamble)); \endcode
- SLNETSOCK_OPPHY_TX_INHIBIT_THRESHOLD: \code uint32_t thrshld = SLNETSOCK_TX_INHIBIT_THRESHOLD_MED; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_PHY, SLNETSOCK_OPPHY_TX_INHIBIT_THRESHOLD, &thrshld, sizeof(thrshld)); \endcode
- SLNETSOCK_OPPHY_TX_TIMEOUT: \code uint32_t timeout = 50; SlNetSock_setOpt(SockID, SLNETSOCK_LVL_PHY, SLNETSOCK_OPPHY_TX_TIMEOUT, &timeout, sizeof(timeout)); \endcode
- SLNETSOCK_OPPHY_ALLOW_ACKS: \code uint32_t acks = 1; // 0 = disabled / 1 = enabled SlNetSock_setOpt(SockID, SLNETSOCK_LVL_PHY, SLNETSOCK_OPPHY_ALLOW_ACKS, &acks, sizeof(acks)); \endcode \sa slNetSock_create() \sa SlNetSock_getOpt() */ int32_t SlNetSock_setOpt(int16_t sd, int16_t level, int16_t optname, void *optval, SlNetSocklen_t optlen); /*! \brief Get socket options The SlNetSock_getOpt function gets the options associated with a socket. Options may exist at multiple protocol levels; they are always present at the uppermost socket level. The parameters optval and optlen identify a buffer in which the value for the requested option(s) are to be returned. \c optlen is a value-result parameter, initially containing the size of the buffer pointed to by option_value, and modified on return to indicate the actual size of the value returned. If no option value is to be supplied or returned, \c optval may be \c NULL. \param[in] sd Socket descriptor (handle) \param[in] level Defines the protocol level for this option \param[in] optname defines the option name to interrogate \param[out] optval Specifies a value for the option \param[out] optlen Specifies the length of the option value \return Zero on success, or negative error code on failure \slnetsock_init_precondition \sa SlNetSock_create() \sa SlNetSock_setOpt() */ int32_t SlNetSock_getOpt(int16_t sd, int16_t level, int16_t optname, void *optval, SlNetSocklen_t *optlen); /*! \brief Read data from TCP socket The SlNetSock_recv function receives a message from a connection-mode socket \param[in] sd Socket descriptor (handle) \param[out] buf Points to the buffer where the message should be stored. \param[in] len Specifies the length in bytes of the buffer pointed to by the buffer argument. Range: 1-16000 bytes \param[in] flags Specifies the type of message reception. On this version, this parameter is not supported. \return Return the number of bytes received, or a negative value if an error occurred.\n Using a non-blocking recv a possible negative value is #SLNETERR_BSD_EAGAIN.\n #SLNETERR_BSD_ENOMEM may be return in case there are no resources in the system \slnetsock_init_precondition \par Examples \snippet ti/net/test/snippets/slnetif.c SlNetSock_recv snippet \sa SlNetSock_create() \sa SlNetSock_recvFrom() */ int32_t SlNetSock_recv(int16_t sd, void *buf, uint32_t len, uint32_t flags); /*! \brief Read data from socket SlNetSock_recvFrom function receives a message from a connection-mode or connectionless-mode socket \param[in] sd Socket descriptor (handle) \param[out] buf Points to the buffer where the message should be stored. \param[in] len Specifies the length in bytes of the buffer pointed to by the buffer argument. Range: 1-16000 bytes \param[in] flags Specifies the type of message reception. On this version, this parameter is not supported \param[in] from Pointer to an address structure indicating the source address.\n sockaddr:\n - code for the address format.\n - socket address, the length depends on the code format \param[in] fromlen Source address structure size. This parameter MUST be set to the size of the structure pointed to by addr. \return Return the number of bytes received, or a negative value if an error occurred.\n Using a non-blocking recv a possible negative value is #SLNETERR_BSD_EAGAIN. #SLNETERR_RET_CODE_INVALID_INPUT will be returned if fromlen has incorrect length.\n #SLNETERR_BSD_ENOMEM may be return in case there are no resources in the system \slnetsock_init_precondition \par Example \snippet ti/net/test/snippets/slnetif.c SlNetSock_recvFrom snippet \sa SlNetSock_create() \sa SlNetSock_recv() */ int32_t SlNetSock_recvFrom(int16_t sd, void *buf, uint32_t len, uint32_t flags, SlNetSock_Addr_t *from, SlNetSocklen_t *fromlen); /*! \brief Write data to TCP socket Transmits a message to another socket. Returns immediately after sending data to device. In case of a RAW socket (transceiver mode), extra 4 bytes should be reserved at the end of the frame data buffer for WLAN FCS \param[in] sd Socket descriptor (handle) \param[in] buf Points to a buffer containing the message to be sent \param[in] len Message size in bytes. \param[in] flags Specifies the type of message transmission. On this version, this parameter is not supported for TCP. \return Return the number of bytes sent, or a negative value if an error occurred. \slnetsock_init_precondition \par Example \snippet ti/net/test/snippets/slnetif.c SlNetSock_send snippet \sa SlNetSock_create() \sa SlNetSock_sendTo() */ int32_t SlNetSock_send(int16_t sd, const void *buf, uint32_t len, uint32_t flags); /*! \brief Write data to socket The SlNetSock_sendTo function is used to transmit a message on a connectionless socket (connection less socket #SLNETSOCK_SOCK_DGRAM, #SLNETSOCK_SOCK_RAW). Returns immediately after sending data to device. \param[in] sd Socket descriptor (handle) \param[in] buf Points to a buffer containing the message to be sent \param[in] len message size in bytes. \param[in] flags Specifies the type of message transmission. On this version, this parameter is not supported \param[in] to Pointer to an address structure indicating the destination address.\n sockaddr:\n - code for the address format.\n - socket address, the length depends on the code format \param[in] tolen Destination address structure size \return Return the number of bytes sent, or a negative value if an error occurred.\n \slnetsock_init_precondition \par Example \snippet ti/net/test/snippets/slnetif.c SlNetSock_sendTo snippet \sa SlNetSock_create() \sa SlNetSock_send() */ int32_t SlNetSock_sendTo(int16_t sd, const void *buf, uint32_t len, uint32_t flags, const SlNetSock_Addr_t *to, SlNetSocklen_t tolen); /*! \brief Get interface ID from socket descriptor (sd) \param[in] sd Specifies the socket descriptor which its interface identifier needs to be retrieved.\n \return The interface identifier value of the interface on success, or negative error code on failure. The values of the interface identifier is defined with the prefix @c SLNETIF_ID_ in slnetif.h. \slnetsock_init_precondition \par Examples \snippet ti/net/test/snippets/slnetif.c SlNetSock_getIfID snippet \sa SlNetSock_create() \sa SlNetIf_add() \sa SlNetIf_getIDByName() */ int32_t SlNetSock_getIfID(uint16_t sd); /*! \brief Creates a security attributes object Create a security attribute, which is required in order to start a secure session. \remark When the security attributes object is no longer needed, call SlNetSock_secAttribDelete() to destroy it. \remark A single security object can be used to initiate several secure sessions (provided they all have the same security attributes). \slnetsock_init_precondition \sa SlNetSock_startSec() \sa SlNetSock_secAttribDelete() */ SlNetSockSecAttrib_t *SlNetSock_secAttribCreate(void); /*! \brief Deletes a security attributes object \param[in] secAttrib Secure attribute handle \return Zero on success, or negative error code on failure \slnetsock_init_precondition \remark \c secAttrib must be created using SlNetSock_secAttribCreate() \sa SlNetSock_secAttribCreate() \sa SlNetSock_secAttribSet() \sa SlNetSock_startSec() */ int32_t SlNetSock_secAttribDelete(SlNetSockSecAttrib_t *secAttrib); /*! \brief set a security attribute The SlNetSock_secAttribSet function is used to set a security attribute of a security attribute object. \param[in] secAttrib Secure attribute handle \param[in] attribName Define the actual attribute to set. Applicable values: - #SLNETSOCK_SEC_ATTRIB_PRIVATE_KEY \n Sets the private key corresponding to the local certificate \n This attribute takes the name of security object containing the private key and the name's length (including the NULL terminating character) as parameters \n - #SLNETSOCK_SEC_ATTRIB_LOCAL_CERT \n Sets the local certificate chain \n This attribute takes the name of the security object containing the certificate and the name's length (including the NULL terminating character) as parameters \n For certificate chains, each certificate in the chain can be added via a separate call to SlNetSock_secAttribSet, starting with the root certificate of the chain \n - #SLNETSOCK_SEC_ATTRIB_PEER_ROOT_CA \n Sets the root CA certificate \n This attribute takes the name of the security object containing the certificate and the name's length (including the NULL terminating character) as parameters \n - #SLNETSOCK_SEC_ATTRIB_DH_KEY \n Sets the DH Key \n This attribute takes the name of the security object containing the DH Key and the name's length (including the NULL terminating character) as parameters \n - #SLNETSOCK_SEC_ATTRIB_METHOD \n Sets the TLS protocol version \n This attribute takes a SLNETSOCK_SEC_METHOD_* option and sizeof(uint8_t) as parameters \n - #SLNETSOCK_SEC_ATTRIB_CIPHERS \n Sets the ciphersuites to be used for the connection \n This attribute takes a bit mask formed using SLNETSOCK_SEC_CIPHER_* options and sizeof(uint32_t) as parameters \n - #SLNETSOCK_SEC_ATTRIB_ALPN \n Sets the ALPN \n This attribute takes a bit mask formed using SLNETSOCK_SEC_ALPN_* options and sizeof(uint32_t) as parameters \n - #SLNETSOCK_SEC_ATTRIB_EXT_CLIENT_CHLNG_RESP \n Sets the EXT CLIENT CHLNG RESP \n Format TBD \n - #SLNETSOCK_SEC_ATTRIB_DOMAIN_NAME \n Sets the domain name for verification during connection \n This attribute takes a string with the domain name and the string's length (including the NULL-terminating character) as parameters \n - #SLNETSOCK_SEC_ATTRIB_DISABLE_CERT_STORE\n Sets whether to disable the certificate store \n This attribute takes 1 (disable) or 0 (enable) and sizeof(uint32_t) as parameters \n \param[in] val \param[in] len \return Zero on success, or negative error code on failure \slnetsock_init_precondition \note Once an attribute is set, it cannot be unset or set to something different. Doing so may result in undefined behavior. Instead, SlNetSock_secAttribDelete() should be called on the existing object, and a new security object should be created with the new attribute set. \note The #SLNETSOCK_SEC_ATTRIB_DISABLE_CERT_STORE value is currently being evaluated, and may be removed in a future release. It is currently only supported on CC3xxx devices. \par Examples - SLNETSOCK_SEC_ATTRIB_PRIVATE_KEY: \code #define PRIVATE_KEY_FILE "DummyKey" SlNetIf_loadSecObj(SLNETIF_SEC_OBJ_TYPE_RSA_PRIVATE_KEY, PRIVATE_KEY_FILE, strlen(PRIVATE_KEY_FILE), srvKeyPem, srvKeyPemLen, SLNETIF_ID_2); SlNetSock_secAttribSet(secAttrib, SLNETSOCK_SEC_ATTRIB_PRIVATE_KEY, PRIVATE_KEY_FILE, sizeof(PRIVATE_KEY_FILE)); \endcode
- SLNETSOCK_SEC_ATTRIB_LOCAL_CERT: \code #define ROOT_CA_CERT_FILE "DummyCA" #define TRUSTED_CERT_FILE "DummyTrustedCert" // create a local certificate chain SlNetIf_loadSecObj(SLNETIF_SEC_OBJ_TYPE_CERTIFICATE, ROOT_CA_CERT_FILE, strlen(ROOT_CA_CERT_FILE), srvCAPem, srvCAPemLen, SLNETIF_ID_2); SlNetIf_loadSecObj(SLNETIF_SEC_OBJ_TYPE_CERTIFICATE, TRUSTED_CERT_FILE, strlen(TRUSTED_CERT_FILE), srvCertPem, srvCertPemLen, SLNETIF_ID_2); SlNetSock_secAttribSet(secAttrib, SLNETSOCK_SEC_ATTRIB_LOCAL_CERT, ROOT_CA_CERT_FILE, sizeof(ROOT_CA_CERT_FILE)); SlNetSock_secAttribSet(secAttrib, SLNETSOCK_SEC_ATTRIB_LOCAL_CERT, TRUSTED_CERT_FILE, sizeof(TRUSTED_CERT_FILE)); \endcode
- SLNETSOCK_SEC_ATTRIB_PEER_ROOT_CA: \code #define ROOT_CA_CERT_FILE "DummyCA" SlNetIf_loadSecObj(SLNETIF_SEC_OBJ_TYPE_CERTIFICATE, ROOT_CA_CERT_FILE, strlen(ROOT_CA_CERT_FILE), srvCAPem, srvCAPemLen, SLNETIF_ID_2); SlNetSock_secAttribSet(secAttrib, SLNETSOCK_SEC_ATTRIB_PEER_ROOT_CA, ROOT_CA_CERT_FILE, sizeof(ROOT_CA_CERT_FILE)); \endcode
- SLNETSOCK_SEC_ATTRIB_METHOD: \code uint8_t SecurityMethod = SLNETSOCK_SEC_METHOD_SSLV3; SlNetSock_secAttribSet(secAttrib, SLNETSOCK_SEC_ATTRIB_METHOD, (void *)&(SecurityMethod), sizeof(SecurityMethod)); \endcode
- SLNETSOCK_SEC_ATTRIB_CIPHERS: \code uint32_t SecurityCipher = SLNETSOCK_SEC_CIPHER_SSL_RSA_WITH_RC4_128_SHA | SLNETSOCK_SEC_CIPHER_TLS_RSA_WITH_AES_256_CBC_SHA; SlNetSock_secAttribSet(secAttrib, SLNETSOCK_SEC_ATTRIB_METHOD, (void *)&(SecurityCipher), sizeof(SecurityCipher)); \endcode
- SLNETSOCK_SEC_ATTRIB_DOMAIN_NAME: \code char addr[] = "www.ti.com"; SlNetSock_secAttribSet(secAttrib, SLNETSOCK_SEC_ATTRIB_DOMAIN_NAME, (void *)addr, strlen(addr) + 1); \endcode
\sa SlNetSock_secAttribCreate() */ int32_t SlNetSock_secAttribSet(SlNetSockSecAttrib_t *secAttrib, SlNetSockSecAttrib_e attribName, void *val, uint16_t len); /*! \brief Start a security session on an opened socket \param[in] sd Socket descriptor (handle) \param[in] secAttrib Secure attribute handle. This can be NULL only if the SLNETSOCK_SEC_BIND_CONTEXT_ONLY flag is not thrown. \param[in] flags Specifies flags. \n The available flags are: - #SLNETSOCK_SEC_START_SECURITY_SESSION_ONLY - #SLNETSOCK_SEC_BIND_CONTEXT_ONLY - #SLNETSOCK_SEC_IS_SERVER \return Zero on success, or negative error code on failure \slnetsock_init_precondition \remark If the return value indicates failure, the socket should be closed. \remark If \c secAttrib is \c NULL, the session will be started with default security settings. \sa SlNetSock_create() \sa SlNetSock_secAttribCreate() */ int32_t SlNetSock_startSec(int16_t sd, SlNetSockSecAttrib_t *secAttrib, uint8_t flags); /*! Close the Doxygen group. @} */ #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* __NET_SOCK_H__ */