David Fletcher / Mbed 2 deprecated cc3100_Test_mqtt_CM4F

TI's MQTT Demo with freertos CM4F

Dependencies:   mbed

simplelink/cc3100_netapp.h@0:1e7b5dd9edb4, 2015-09-03 (annotated)

Committer:
dflet
Date:
Thu Sep 03 14:07:01 2015 +0000
Revision:
0:1e7b5dd9edb4
First commit, it's been hanging around for a while. Updated SPI mode change 1 to 0.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
dflet 0:1e7b5dd9edb4 1 /*
dflet 0:1e7b5dd9edb4 2 * netapp.h - CC31xx/CC32xx Host Driver Implementation
dflet 0:1e7b5dd9edb4 3 *
dflet 0:1e7b5dd9edb4 4 * Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
dflet 0:1e7b5dd9edb4 5 *
dflet 0:1e7b5dd9edb4 6 *
dflet 0:1e7b5dd9edb4 7 * Redistribution and use in source and binary forms, with or without
dflet 0:1e7b5dd9edb4 8 * modification, are permitted provided that the following conditions
dflet 0:1e7b5dd9edb4 9 * are met:
dflet 0:1e7b5dd9edb4 10 *
dflet 0:1e7b5dd9edb4 11 * Redistributions of source code must retain the above copyright
dflet 0:1e7b5dd9edb4 12 * notice, this list of conditions and the following disclaimer.
dflet 0:1e7b5dd9edb4 13 *
dflet 0:1e7b5dd9edb4 14 * Redistributions in binary form must reproduce the above copyright
dflet 0:1e7b5dd9edb4 15 * notice, this list of conditions and the following disclaimer in the
dflet 0:1e7b5dd9edb4 16 * documentation and/or other materials provided with the
dflet 0:1e7b5dd9edb4 17 * distribution.
dflet 0:1e7b5dd9edb4 18 *
dflet 0:1e7b5dd9edb4 19 * Neither the name of Texas Instruments Incorporated nor the names of
dflet 0:1e7b5dd9edb4 20 * its contributors may be used to endorse or promote products derived
dflet 0:1e7b5dd9edb4 21 * from this software without specific prior written permission.
dflet 0:1e7b5dd9edb4 22 *
dflet 0:1e7b5dd9edb4 23 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
dflet 0:1e7b5dd9edb4 24 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
dflet 0:1e7b5dd9edb4 25 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
dflet 0:1e7b5dd9edb4 26 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
dflet 0:1e7b5dd9edb4 27 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
dflet 0:1e7b5dd9edb4 28 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
dflet 0:1e7b5dd9edb4 29 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
dflet 0:1e7b5dd9edb4 30 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
dflet 0:1e7b5dd9edb4 31 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
dflet 0:1e7b5dd9edb4 32 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
dflet 0:1e7b5dd9edb4 33 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
dflet 0:1e7b5dd9edb4 34 *
dflet 0:1e7b5dd9edb4 35 */
dflet 0:1e7b5dd9edb4 36
dflet 0:1e7b5dd9edb4 37 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 38 /* Include files */
dflet 0:1e7b5dd9edb4 39 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 40
dflet 0:1e7b5dd9edb4 41 #include "cc3100_simplelink.h"
dflet 0:1e7b5dd9edb4 42
dflet 0:1e7b5dd9edb4 43 #ifndef NETAPP_H_
dflet 0:1e7b5dd9edb4 44 #define NETAPP_H_
dflet 0:1e7b5dd9edb4 45
dflet 0:1e7b5dd9edb4 46 #include "cc3100_protocol.h"
dflet 0:1e7b5dd9edb4 47 #include "cc3100_nonos.h"
dflet 0:1e7b5dd9edb4 48
dflet 0:1e7b5dd9edb4 49 namespace mbed_cc3100 {
dflet 0:1e7b5dd9edb4 50
dflet 0:1e7b5dd9edb4 51 /*!
dflet 0:1e7b5dd9edb4 52
dflet 0:1e7b5dd9edb4 53 \addtogroup netapp
dflet 0:1e7b5dd9edb4 54 @{
dflet 0:1e7b5dd9edb4 55
dflet 0:1e7b5dd9edb4 56 */
dflet 0:1e7b5dd9edb4 57
dflet 0:1e7b5dd9edb4 58 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 59 /* Macro declarations */
dflet 0:1e7b5dd9edb4 60 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 61
dflet 0:1e7b5dd9edb4 62 /*ERROR code*/
dflet 0:1e7b5dd9edb4 63 const int16_t SL_ERROR_NETAPP_RX_BUFFER_LENGTH_ERROR = (-230);
dflet 0:1e7b5dd9edb4 64
dflet 0:1e7b5dd9edb4 65 /* Http Server interface */
dflet 0:1e7b5dd9edb4 66 const uint8_t MAX_INPUT_STRING = (64); /* because of WPA */
dflet 0:1e7b5dd9edb4 67
dflet 0:1e7b5dd9edb4 68 const uint8_t MAX_AUTH_NAME_LEN = (20);
dflet 0:1e7b5dd9edb4 69 const uint8_t MAX_AUTH_PASSWORD_LEN = (20);
dflet 0:1e7b5dd9edb4 70 const uint8_t MAX_AUTH_REALM_LEN = (20);
dflet 0:1e7b5dd9edb4 71
dflet 0:1e7b5dd9edb4 72 const uint8_t MAX_DEVICE_URN_LEN = (15+1);
dflet 0:1e7b5dd9edb4 73 const uint8_t MAX_DOMAIN_NAME_LEN = (24+1);
dflet 0:1e7b5dd9edb4 74
dflet 0:1e7b5dd9edb4 75 const uint8_t MAX_ACTION_LEN = (30);
dflet 0:1e7b5dd9edb4 76 /* Important: in case the max len is changed, make sure the struct sl_NetAppHttpServerSendToken_t in protocol.h is padded correctly! */
dflet 0:1e7b5dd9edb4 77 const uint8_t MAX_TOKEN_NAME_LEN = (20);
dflet 0:1e7b5dd9edb4 78 const uint8_t MAX_TOKEN_VALUE_LEN = MAX_INPUT_STRING;
dflet 0:1e7b5dd9edb4 79
dflet 0:1e7b5dd9edb4 80 const int16_t NETAPP_MAX_SERVICE_TEXT_SIZE = (256);
dflet 0:1e7b5dd9edb4 81 const uint8_t NETAPP_MAX_SERVICE_NAME_SIZE = (60);
dflet 0:1e7b5dd9edb4 82 const uint8_t NETAPP_MAX_SERVICE_HOST_NAME_SIZE = (64);
dflet 0:1e7b5dd9edb4 83
dflet 0:1e7b5dd9edb4 84
dflet 0:1e7b5dd9edb4 85 /* Server Responses */
dflet 0:1e7b5dd9edb4 86 const uint8_t SL_NETAPP_RESPONSE_NONE = (0);
dflet 0:1e7b5dd9edb4 87 const uint8_t SL_NETAPP_HTTPSETTOKENVALUE = (1);
dflet 0:1e7b5dd9edb4 88
dflet 0:1e7b5dd9edb4 89 const uint8_t SL_NETAPP_FAMILY_MASK = (0x80);
dflet 0:1e7b5dd9edb4 90
dflet 0:1e7b5dd9edb4 91 /* mDNS types */
dflet 0:1e7b5dd9edb4 92 const uint32_t SL_NET_APP_MASK_IPP_TYPE_OF_SERVICE = (0x00000001);
dflet 0:1e7b5dd9edb4 93 const uint32_t SL_NET_APP_MASK_DEVICE_INFO_TYPE_OF_SERVICE = (0x00000002);
dflet 0:1e7b5dd9edb4 94 const uint32_t SL_NET_APP_MASK_HTTP_TYPE_OF_SERVICE = (0x00000004);
dflet 0:1e7b5dd9edb4 95 const uint32_t SL_NET_APP_MASK_HTTPS_TYPE_OF_SERVICE = (0x00000008);
dflet 0:1e7b5dd9edb4 96 const uint32_t SL_NET_APP_MASK_WORKSATION_TYPE_OF_SERVICE = (0x00000010);
dflet 0:1e7b5dd9edb4 97 const uint32_t SL_NET_APP_MASK_GUID_TYPE_OF_SERVICE = (0x00000020);
dflet 0:1e7b5dd9edb4 98 const uint32_t SL_NET_APP_MASK_H323_TYPE_OF_SERVICE = (0x00000040);
dflet 0:1e7b5dd9edb4 99 const uint32_t SL_NET_APP_MASK_NTP_TYPE_OF_SERVICE = (0x00000080);
dflet 0:1e7b5dd9edb4 100 const uint32_t SL_NET_APP_MASK_OBJECITVE_TYPE_OF_SERVICE = (0x00000100);
dflet 0:1e7b5dd9edb4 101 const uint32_t SL_NET_APP_MASK_RDP_TYPE_OF_SERVICE = (0x00000200);
dflet 0:1e7b5dd9edb4 102 const uint32_t SL_NET_APP_MASK_REMOTE_TYPE_OF_SERVICE = (0x00000400);
dflet 0:1e7b5dd9edb4 103 const uint32_t SL_NET_APP_MASK_RTSP_TYPE_OF_SERVICE = (0x00000800);
dflet 0:1e7b5dd9edb4 104 const uint32_t SL_NET_APP_MASK_SIP_TYPE_OF_SERVICE = (0x00001000);
dflet 0:1e7b5dd9edb4 105 const uint32_t SL_NET_APP_MASK_SMB_TYPE_OF_SERVICE = (0x00002000);
dflet 0:1e7b5dd9edb4 106 const uint32_t SL_NET_APP_MASK_SOAP_TYPE_OF_SERVICE = (0x00004000);
dflet 0:1e7b5dd9edb4 107 const uint32_t SL_NET_APP_MASK_SSH_TYPE_OF_SERVICE = (0x00008000);
dflet 0:1e7b5dd9edb4 108 const uint32_t SL_NET_APP_MASK_TELNET_TYPE_OF_SERVICE = (0x00010000);
dflet 0:1e7b5dd9edb4 109 const uint32_t SL_NET_APP_MASK_TFTP_TYPE_OF_SERVICE = (0x00020000);
dflet 0:1e7b5dd9edb4 110 const uint32_t SL_NET_APP_MASK_XMPP_CLIENT_TYPE_OF_SERVICE = (0x00040000);
dflet 0:1e7b5dd9edb4 111 const uint32_t SL_NET_APP_MASK_RAOP_TYPE_OF_SERVICE = (0x00080000);
dflet 0:1e7b5dd9edb4 112 const uint32_t SL_NET_APP_MASK_ALL_TYPE_OF_SERVICE = (0xFFFFFFFF);
dflet 0:1e7b5dd9edb4 113
dflet 0:1e7b5dd9edb4 114 /********************************************************************************************************/
dflet 0:1e7b5dd9edb4 115 /* sl_NetAppDnsGetHostByName error codes */
dflet 0:1e7b5dd9edb4 116
dflet 0:1e7b5dd9edb4 117 const int16_t SL_NET_APP_DNS_QUERY_NO_RESPONSE = (-159); /* DNS query failed, no response */
dflet 0:1e7b5dd9edb4 118 const int16_t SL_NET_APP_DNS_NO_SERVER = (-161); /* No DNS server was specified */
dflet 0:1e7b5dd9edb4 119 const int16_t SL_NET_APP_DNS_PARAM_ERROR = (-162); /* mDNS parameters error */
dflet 0:1e7b5dd9edb4 120 const int16_t SL_NET_APP_DNS_QUERY_FAILED = (-163); /* DNS query failed; no DNS server sent an 'answer' */
dflet 0:1e7b5dd9edb4 121 const int16_t SL_NET_APP_DNS_INTERNAL_1 = (-164);
dflet 0:1e7b5dd9edb4 122 const int16_t SL_NET_APP_DNS_INTERNAL_2 = (-165);
dflet 0:1e7b5dd9edb4 123 const int16_t SL_NET_APP_DNS_MALFORMED_PACKET = (-166); /* Improperly formed or corrupted DNS packet received */
dflet 0:1e7b5dd9edb4 124 const int16_t SL_NET_APP_DNS_INTERNAL_3 = (-167);
dflet 0:1e7b5dd9edb4 125 const int16_t SL_NET_APP_DNS_INTERNAL_4 = (-168);
dflet 0:1e7b5dd9edb4 126 const int16_t SL_NET_APP_DNS_INTERNAL_5 = (-169);
dflet 0:1e7b5dd9edb4 127 const int16_t SL_NET_APP_DNS_INTERNAL_6 = (-170);
dflet 0:1e7b5dd9edb4 128 const int16_t SL_NET_APP_DNS_INTERNAL_7 = (-171);
dflet 0:1e7b5dd9edb4 129 const int16_t SL_NET_APP_DNS_INTERNAL_8 = (-172);
dflet 0:1e7b5dd9edb4 130 const int16_t SL_NET_APP_DNS_INTERNAL_9 = (-173);
dflet 0:1e7b5dd9edb4 131 const int16_t SL_NET_APP_DNS_MISMATCHED_RESPONSE = (-174); /* Server response type does not match the query request*/
dflet 0:1e7b5dd9edb4 132 const int16_t SL_NET_APP_DNS_INTERNAL_10 = (-175);
dflet 0:1e7b5dd9edb4 133 const int16_t SL_NET_APP_DNS_INTERNAL_11 = (-176);
dflet 0:1e7b5dd9edb4 134 const int16_t SL_NET_APP_DNS_NO_ANSWER = (-177); /* No response for one-shot query */
dflet 0:1e7b5dd9edb4 135 const int16_t SL_NET_APP_DNS_NO_KNOWN_ANSWER = (-178); /* No known answer for query */
dflet 0:1e7b5dd9edb4 136 const int16_t SL_NET_APP_DNS_NAME_MISMATCH = (-179); /* Illegal service name according to the RFC */
dflet 0:1e7b5dd9edb4 137 const int16_t SL_NET_APP_DNS_NOT_STARTED = (-180); /* mDNS is not running */
dflet 0:1e7b5dd9edb4 138 const int16_t SL_NET_APP_DNS_HOST_NAME_ERROR = (-181); /* Host name error. Host name format is not allowed according to RFC 1033,1034,1035, 6763 */
dflet 0:1e7b5dd9edb4 139 const int16_t SL_NET_APP_DNS_NO_MORE_ENTRIES = (-182); /* No more entries be found. */
dflet 0:1e7b5dd9edb4 140
dflet 0:1e7b5dd9edb4 141 const int16_t SL_NET_APP_DNS_MAX_SERVICES_ERROR = (-200); /* Maximum advertise services are already configured */
dflet 0:1e7b5dd9edb4 142 const int16_t SL_NET_APP_DNS_IDENTICAL_SERVICES_ERROR = (-201); /* Trying to register a service that is already exists */
dflet 0:1e7b5dd9edb4 143 const int16_t SL_NET_APP_DNS_NOT_EXISTED_SERVICE_ERROR = (-203); /* Trying to delete service that does not existed */
dflet 0:1e7b5dd9edb4 144 const int16_t SL_NET_APP_DNS_ERROR_SERVICE_NAME_ERROR = (-204); /* Illegal service name according to the RFC */
dflet 0:1e7b5dd9edb4 145 const int16_t SL_NET_APP_DNS_RX_PACKET_ALLOCATION_ERROR = (-205); /* Retry request */
dflet 0:1e7b5dd9edb4 146 const int16_t SL_NET_APP_DNS_BUFFER_SIZE_ERROR = (-206); /* List size buffer is bigger than internally allowed in the NWP */
dflet 0:1e7b5dd9edb4 147 const int16_t SL_NET_APP_DNS_NET_APP_SET_ERROR = (-207); /* Illegal length of one of the mDNS Set functions */
dflet 0:1e7b5dd9edb4 148 const int16_t SL_NET_APP_DNS_GET_SERVICE_LIST_FLAG_ERROR = (-208);
dflet 0:1e7b5dd9edb4 149 const int16_t SL_NET_APP_DNS_NO_CONFIGURATION_ERROR = (-209);
dflet 0:1e7b5dd9edb4 150
dflet 0:1e7b5dd9edb4 151 /* Set Dev name error codes (NETAPP_SET_GET_DEV_CONF_OPT_DEVICE_URN) */
dflet 0:1e7b5dd9edb4 152 const int16_t SL_ERROR_DEVICE_NAME_LEN_ERR = (-117);
dflet 0:1e7b5dd9edb4 153 const int16_t SL_ERROR_DEVICE_NAME_INVALID = (-118);
dflet 0:1e7b5dd9edb4 154 /* Set domain name error codes (NETAPP_SET_GET_DEV_CONF_OPT_DOMAIN_NAME) */
dflet 0:1e7b5dd9edb4 155 const int16_t SL_ERROR_DOMAIN_NAME_LEN_ERR = (-119);
dflet 0:1e7b5dd9edb4 156 const int16_t SL_ERROR_DOMAIN_NAME_INVALID = (-120);
dflet 0:1e7b5dd9edb4 157
dflet 0:1e7b5dd9edb4 158 /********************************************************************************************************/
dflet 0:1e7b5dd9edb4 159
dflet 0:1e7b5dd9edb4 160 /* NetApp application IDs */
dflet 0:1e7b5dd9edb4 161 const uint8_t SL_NET_APP_HTTP_SERVER_ID = (1);
dflet 0:1e7b5dd9edb4 162 const uint8_t SL_NET_APP_DHCP_SERVER_ID = (2);
dflet 0:1e7b5dd9edb4 163 const uint8_t SL_NET_APP_MDNS_ID = (4);
dflet 0:1e7b5dd9edb4 164 const uint8_t SL_NET_APP_DNS_SERVER_ID = (8);
dflet 0:1e7b5dd9edb4 165 const uint8_t SL_NET_APP_DEVICE_CONFIG_ID = (16);
dflet 0:1e7b5dd9edb4 166 /* NetApp application set/get options */
dflet 0:1e7b5dd9edb4 167 const uint8_t NETAPP_SET_DHCP_SRV_BASIC_OPT = (0);
dflet 0:1e7b5dd9edb4 168 /* HTTP server set/get options */
dflet 0:1e7b5dd9edb4 169 const uint8_t NETAPP_SET_GET_HTTP_OPT_PORT_NUMBER = (0);
dflet 0:1e7b5dd9edb4 170 const uint8_t NETAPP_SET_GET_HTTP_OPT_AUTH_CHECK = (1);
dflet 0:1e7b5dd9edb4 171 const uint8_t NETAPP_SET_GET_HTTP_OPT_AUTH_NAME = (2);
dflet 0:1e7b5dd9edb4 172 const uint8_t NETAPP_SET_GET_HTTP_OPT_AUTH_PASSWORD = (3);
dflet 0:1e7b5dd9edb4 173 const uint8_t NETAPP_SET_GET_HTTP_OPT_AUTH_REALM = (4);
dflet 0:1e7b5dd9edb4 174 const uint8_t NETAPP_SET_GET_HTTP_OPT_ROM_PAGES_ACCESS = (5);
dflet 0:1e7b5dd9edb4 175
dflet 0:1e7b5dd9edb4 176 const uint8_t NETAPP_SET_GET_MDNS_CONT_QUERY_OPT = (1);
dflet 0:1e7b5dd9edb4 177 const uint8_t NETAPP_SET_GET_MDNS_QEVETN_MASK_OPT = (2);
dflet 0:1e7b5dd9edb4 178 const uint8_t NETAPP_SET_GET_MDNS_TIMING_PARAMS_OPT = (3);
dflet 0:1e7b5dd9edb4 179
dflet 0:1e7b5dd9edb4 180 /* DNS server set/get options */
dflet 0:1e7b5dd9edb4 181 const uint8_t NETAPP_SET_GET_DNS_OPT_DOMAIN_NAME = (0);
dflet 0:1e7b5dd9edb4 182
dflet 0:1e7b5dd9edb4 183 /* Device Config set/get options */
dflet 0:1e7b5dd9edb4 184 const uint8_t NETAPP_SET_GET_DEV_CONF_OPT_DEVICE_URN = (0);
dflet 0:1e7b5dd9edb4 185 const uint8_t NETAPP_SET_GET_DEV_CONF_OPT_DOMAIN_NAME = (1);
dflet 0:1e7b5dd9edb4 186
dflet 0:1e7b5dd9edb4 187
dflet 0:1e7b5dd9edb4 188 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 189 /* Structure/Enum declarations */
dflet 0:1e7b5dd9edb4 190 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 191 /*
dflet 0:1e7b5dd9edb4 192 * The below structure depict the constant parameters that are returned in the Async event answer
dflet 0:1e7b5dd9edb4 193 * according to command/API sl_DnsGetHostByService for IPv4 and IPv6.
dflet 0:1e7b5dd9edb4 194 *
dflet 0:1e7b5dd9edb4 195 1Status - The status of the response.
dflet 0:1e7b5dd9edb4 196 2.Address - Contains the IP address of the service.
dflet 0:1e7b5dd9edb4 197 3.Port - Contains the port of the service.
dflet 0:1e7b5dd9edb4 198 4.TextLen - Contains the max length of the text that the user wants to get.
dflet 0:1e7b5dd9edb4 199 it means that if the test of service is bigger that its value than
dflet 0:1e7b5dd9edb4 200 the text is cut to inout_TextLen value.
dflet 0:1e7b5dd9edb4 201 Output: Contain the length of the text that is returned. Can be full text or part
dflet 0:1e7b5dd9edb4 202 of the text (see above).
dflet 0:1e7b5dd9edb4 203
dflet 0:1e7b5dd9edb4 204 *
dflet 0:1e7b5dd9edb4 205 */
dflet 0:1e7b5dd9edb4 206 typedef struct {
dflet 0:1e7b5dd9edb4 207 uint16_t Status;
dflet 0:1e7b5dd9edb4 208 uint16_t TextLen;
dflet 0:1e7b5dd9edb4 209 uint32_t Port;
dflet 0:1e7b5dd9edb4 210 uint32_t Address;
dflet 0:1e7b5dd9edb4 211 } _GetHostByServiceIPv4AsyncResponse_t;
dflet 0:1e7b5dd9edb4 212
dflet 0:1e7b5dd9edb4 213 /*
dflet 0:1e7b5dd9edb4 214 * The below struct contains pointers to the output parameters that the user gives
dflet 0:1e7b5dd9edb4 215 *
dflet 0:1e7b5dd9edb4 216 */
dflet 0:1e7b5dd9edb4 217 typedef struct {
dflet 0:1e7b5dd9edb4 218 int16_t Status;
dflet 0:1e7b5dd9edb4 219 uint32_t *out_pAddr;
dflet 0:1e7b5dd9edb4 220 uint32_t *out_pPort;
dflet 0:1e7b5dd9edb4 221 uint16_t *inout_TextLen; // in: max len , out: actual len
dflet 0:1e7b5dd9edb4 222 unsigned char *out_pText;
dflet 0:1e7b5dd9edb4 223 } _GetHostByServiceAsyncResponse_t;
dflet 0:1e7b5dd9edb4 224
dflet 0:1e7b5dd9edb4 225 typedef struct {
dflet 0:1e7b5dd9edb4 226 uint32_t PacketsSent;
dflet 0:1e7b5dd9edb4 227 uint32_t PacketsReceived;
dflet 0:1e7b5dd9edb4 228 uint16_t MinRoundTime;
dflet 0:1e7b5dd9edb4 229 uint16_t MaxRoundTime;
dflet 0:1e7b5dd9edb4 230 uint16_t AvgRoundTime;
dflet 0:1e7b5dd9edb4 231 uint32_t TestTime;
dflet 0:1e7b5dd9edb4 232 } SlPingReport_t;
dflet 0:1e7b5dd9edb4 233
dflet 0:1e7b5dd9edb4 234 typedef struct {
dflet 0:1e7b5dd9edb4 235 uint32_t PingIntervalTime; /* delay between pings, in milliseconds */
dflet 0:1e7b5dd9edb4 236 uint16_t PingSize; /* ping packet size in bytes */
dflet 0:1e7b5dd9edb4 237 uint16_t PingRequestTimeout; /* timeout time for every ping in milliseconds */
dflet 0:1e7b5dd9edb4 238 uint32_t TotalNumberOfAttempts; /* max number of ping requests. 0 - forever */
dflet 0:1e7b5dd9edb4 239 uint32_t Flags; /* flag - 0 report only when finished, 1 - return response for every ping, 2 - stop after 1 successful ping. */
dflet 0:1e7b5dd9edb4 240 uint32_t Ip; /* IPv4 address or IPv6 first 4 bytes */
dflet 0:1e7b5dd9edb4 241 uint32_t Ip1OrPaadding;
dflet 0:1e7b5dd9edb4 242 uint32_t Ip2OrPaadding;
dflet 0:1e7b5dd9edb4 243 uint32_t Ip3OrPaadding;
dflet 0:1e7b5dd9edb4 244 } SlPingStartCommand_t;
dflet 0:1e7b5dd9edb4 245
dflet 0:1e7b5dd9edb4 246 typedef struct _slHttpServerString_t {
dflet 0:1e7b5dd9edb4 247 uint8_t len;
dflet 0:1e7b5dd9edb4 248 uint8_t *data;
dflet 0:1e7b5dd9edb4 249 } slHttpServerString_t;
dflet 0:1e7b5dd9edb4 250
dflet 0:1e7b5dd9edb4 251 typedef struct _slHttpServerData_t {
dflet 0:1e7b5dd9edb4 252 uint8_t value_len;
dflet 0:1e7b5dd9edb4 253 uint8_t name_len;
dflet 0:1e7b5dd9edb4 254 uint8_t *token_value;
dflet 0:1e7b5dd9edb4 255 uint8_t *token_name;
dflet 0:1e7b5dd9edb4 256 } slHttpServerData_t;
dflet 0:1e7b5dd9edb4 257
dflet 0:1e7b5dd9edb4 258 typedef struct _slHttpServerPostData_t {
dflet 0:1e7b5dd9edb4 259 slHttpServerString_t action;
dflet 0:1e7b5dd9edb4 260 slHttpServerString_t token_name;
dflet 0:1e7b5dd9edb4 261 slHttpServerString_t token_value;
dflet 0:1e7b5dd9edb4 262 } slHttpServerPostData_t;
dflet 0:1e7b5dd9edb4 263
dflet 0:1e7b5dd9edb4 264 typedef union {
dflet 0:1e7b5dd9edb4 265 slHttpServerString_t httpTokenName; /* SL_NETAPP_HTTPGETTOKENVALUE */
dflet 0:1e7b5dd9edb4 266 slHttpServerPostData_t httpPostData; /* SL_NETAPP_HTTPPOSTTOKENVALUE */
dflet 0:1e7b5dd9edb4 267 } SlHttpServerEventData_u;
dflet 0:1e7b5dd9edb4 268
dflet 0:1e7b5dd9edb4 269 typedef union {
dflet 0:1e7b5dd9edb4 270 slHttpServerString_t token_value;
dflet 0:1e7b5dd9edb4 271 } SlHttpServerResponsedata_u;
dflet 0:1e7b5dd9edb4 272
dflet 0:1e7b5dd9edb4 273 typedef struct {
dflet 0:1e7b5dd9edb4 274 uint32_t Event;
dflet 0:1e7b5dd9edb4 275 SlHttpServerEventData_u EventData;
dflet 0:1e7b5dd9edb4 276 } SlHttpServerEvent_t;
dflet 0:1e7b5dd9edb4 277
dflet 0:1e7b5dd9edb4 278 typedef struct {
dflet 0:1e7b5dd9edb4 279 uint32_t Response;
dflet 0:1e7b5dd9edb4 280 SlHttpServerResponsedata_u ResponseData;
dflet 0:1e7b5dd9edb4 281 } SlHttpServerResponse_t;
dflet 0:1e7b5dd9edb4 282
dflet 0:1e7b5dd9edb4 283
dflet 0:1e7b5dd9edb4 284 typedef struct {
dflet 0:1e7b5dd9edb4 285 uint32_t lease_time;
dflet 0:1e7b5dd9edb4 286 uint32_t ipv4_addr_start;
dflet 0:1e7b5dd9edb4 287 uint32_t ipv4_addr_last;
dflet 0:1e7b5dd9edb4 288 } SlNetAppDhcpServerBasicOpt_t;
dflet 0:1e7b5dd9edb4 289
dflet 0:1e7b5dd9edb4 290 /*mDNS parameters*/
dflet 0:1e7b5dd9edb4 291 typedef enum {
dflet 0:1e7b5dd9edb4 292 SL_NET_APP_FULL_SERVICE_WITH_TEXT_IPV4_TYPE = 1,
dflet 0:1e7b5dd9edb4 293 SL_NET_APP_FULL_SERVICE_IPV4_TYPE,
dflet 0:1e7b5dd9edb4 294 SL_NET_APP_SHORT_SERVICE_IPV4_TYPE
dflet 0:1e7b5dd9edb4 295
dflet 0:1e7b5dd9edb4 296 } SlNetAppGetServiceListType_e;
dflet 0:1e7b5dd9edb4 297
dflet 0:1e7b5dd9edb4 298 typedef struct {
dflet 0:1e7b5dd9edb4 299 uint32_t service_ipv4;
dflet 0:1e7b5dd9edb4 300 uint16_t service_port;
dflet 0:1e7b5dd9edb4 301 uint16_t Reserved;
dflet 0:1e7b5dd9edb4 302 } SlNetAppGetShortServiceIpv4List_t;
dflet 0:1e7b5dd9edb4 303
dflet 0:1e7b5dd9edb4 304 typedef struct {
dflet 0:1e7b5dd9edb4 305 uint32_t service_ipv4;
dflet 0:1e7b5dd9edb4 306 uint16_t service_port;
dflet 0:1e7b5dd9edb4 307 uint16_t Reserved;
dflet 0:1e7b5dd9edb4 308 uint8_t service_name[NETAPP_MAX_SERVICE_NAME_SIZE];
dflet 0:1e7b5dd9edb4 309 uint8_t service_host[NETAPP_MAX_SERVICE_HOST_NAME_SIZE];
dflet 0:1e7b5dd9edb4 310 } SlNetAppGetFullServiceIpv4List_t;
dflet 0:1e7b5dd9edb4 311
dflet 0:1e7b5dd9edb4 312 typedef struct {
dflet 0:1e7b5dd9edb4 313 uint32_t service_ipv4;
dflet 0:1e7b5dd9edb4 314 uint16_t service_port;
dflet 0:1e7b5dd9edb4 315 uint16_t Reserved;
dflet 0:1e7b5dd9edb4 316 uint8_t service_name[NETAPP_MAX_SERVICE_NAME_SIZE];
dflet 0:1e7b5dd9edb4 317 uint8_t service_host[NETAPP_MAX_SERVICE_HOST_NAME_SIZE];
dflet 0:1e7b5dd9edb4 318 uint8_t service_text[NETAPP_MAX_SERVICE_TEXT_SIZE];
dflet 0:1e7b5dd9edb4 319 } SlNetAppGetFullServiceWithTextIpv4List_t;
dflet 0:1e7b5dd9edb4 320
dflet 0:1e7b5dd9edb4 321 typedef struct {
dflet 0:1e7b5dd9edb4 322 /*The below parameters are used to configure the advertise times and interval
dflet 0:1e7b5dd9edb4 323 For example:
dflet 0:1e7b5dd9edb4 324 If:
dflet 0:1e7b5dd9edb4 325 Period is set to T
dflet 0:1e7b5dd9edb4 326 Repetitions are set to P
dflet 0:1e7b5dd9edb4 327 Telescopic factor is K=2
dflet 0:1e7b5dd9edb4 328 The transmission shall be:
dflet 0:1e7b5dd9edb4 329 advertise P times
dflet 0:1e7b5dd9edb4 330 wait T
dflet 0:1e7b5dd9edb4 331 advertise P times
dflet 0:1e7b5dd9edb4 332 wait 4 * T
dflet 0:1e7b5dd9edb4 333 advertise P time
dflet 0:1e7b5dd9edb4 334 wait 16 * T ... (till max time reached / configuration changed / query issued)
dflet 0:1e7b5dd9edb4 335 */
dflet 0:1e7b5dd9edb4 336 uint32_t t; /* Number of ticks for the initial period. Default is 100 ticks for 1 second. */
dflet 0:1e7b5dd9edb4 337 uint32_t p; /* Number of repetitions. Default value is 1 */
dflet 0:1e7b5dd9edb4 338 uint32_t k; /* Telescopic factor. Default value is 2. */
dflet 0:1e7b5dd9edb4 339 uint32_t RetransInterval;/* Announcing retransmission interval */
dflet 0:1e7b5dd9edb4 340 uint32_t Maxinterval; /* Announcing max period interval */
dflet 0:1e7b5dd9edb4 341 uint32_t max_time; /* Announcing max time */
dflet 0:1e7b5dd9edb4 342 } SlNetAppServiceAdvertiseTimingParameters_t;
dflet 0:1e7b5dd9edb4 343
dflet 0:1e7b5dd9edb4 344 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 345 /* Types declarations */
dflet 0:1e7b5dd9edb4 346 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 347 typedef void (*P_SL_DEV_PING_CALLBACK)(SlPingReport_t*);
dflet 0:1e7b5dd9edb4 348 extern P_SL_DEV_PING_CALLBACK pPingCallBackFunc;
dflet 0:1e7b5dd9edb4 349
dflet 0:1e7b5dd9edb4 350 /*****************************************************************************************
dflet 0:1e7b5dd9edb4 351 * NETAPP structs
dflet 0:1e7b5dd9edb4 352 ******************************************************************************************/
dflet 0:1e7b5dd9edb4 353
dflet 0:1e7b5dd9edb4 354
dflet 0:1e7b5dd9edb4 355 typedef _BasicResponse_t _NetAppStartStopResponse_t;
dflet 0:1e7b5dd9edb4 356
dflet 0:1e7b5dd9edb4 357 typedef struct {
dflet 0:1e7b5dd9edb4 358 uint32_t appId;
dflet 0:1e7b5dd9edb4 359 } _NetAppStartStopCommand_t;
dflet 0:1e7b5dd9edb4 360
dflet 0:1e7b5dd9edb4 361 typedef struct {
dflet 0:1e7b5dd9edb4 362 uint16_t Status;
dflet 0:1e7b5dd9edb4 363 uint16_t AppId;
dflet 0:1e7b5dd9edb4 364 uint16_t ConfigOpt;
dflet 0:1e7b5dd9edb4 365 uint16_t ConfigLen;
dflet 0:1e7b5dd9edb4 366 } _NetAppSetGet_t;
dflet 0:1e7b5dd9edb4 367 typedef struct {
dflet 0:1e7b5dd9edb4 368 uint16_t port_number;
dflet 0:1e7b5dd9edb4 369 } _NetAppHttpServerGetSet_port_num_t;
dflet 0:1e7b5dd9edb4 370
dflet 0:1e7b5dd9edb4 371 typedef struct {
dflet 0:1e7b5dd9edb4 372 uint8_t auth_enable;
dflet 0:1e7b5dd9edb4 373 } _NetAppHttpServerGetSet_auth_enable_t;
dflet 0:1e7b5dd9edb4 374
dflet 0:1e7b5dd9edb4 375 typedef struct _sl_NetAppHttpServerGetToken_t {
dflet 0:1e7b5dd9edb4 376 uint8_t token_name_len;
dflet 0:1e7b5dd9edb4 377 uint8_t padd1;
dflet 0:1e7b5dd9edb4 378 uint16_t padd2;
dflet 0:1e7b5dd9edb4 379 } sl_NetAppHttpServerGetToken_t;
dflet 0:1e7b5dd9edb4 380
dflet 0:1e7b5dd9edb4 381 typedef struct _sl_NetAppHttpServerSendToken_t {
dflet 0:1e7b5dd9edb4 382 uint8_t token_value_len;
dflet 0:1e7b5dd9edb4 383 uint8_t token_name_len;
dflet 0:1e7b5dd9edb4 384 uint8_t token_name[MAX_TOKEN_NAME_LEN];
dflet 0:1e7b5dd9edb4 385 uint16_t padd;
dflet 0:1e7b5dd9edb4 386 } sl_NetAppHttpServerSendToken_t;
dflet 0:1e7b5dd9edb4 387
dflet 0:1e7b5dd9edb4 388 typedef struct _sl_NetAppHttpServerPostToken_t {
dflet 0:1e7b5dd9edb4 389 uint8_t post_action_len;
dflet 0:1e7b5dd9edb4 390 uint8_t token_name_len;
dflet 0:1e7b5dd9edb4 391 uint8_t token_value_len;
dflet 0:1e7b5dd9edb4 392 uint8_t padding;
dflet 0:1e7b5dd9edb4 393 } sl_NetAppHttpServerPostToken_t;
dflet 0:1e7b5dd9edb4 394
dflet 0:1e7b5dd9edb4 395
dflet 0:1e7b5dd9edb4 396 typedef struct {
dflet 0:1e7b5dd9edb4 397 uint16_t Len;
dflet 0:1e7b5dd9edb4 398 uint8_t family;
dflet 0:1e7b5dd9edb4 399 uint8_t padding;
dflet 0:1e7b5dd9edb4 400 } _GetHostByNameCommand_t;
dflet 0:1e7b5dd9edb4 401
dflet 0:1e7b5dd9edb4 402 typedef struct {
dflet 0:1e7b5dd9edb4 403 uint16_t status;
dflet 0:1e7b5dd9edb4 404 uint16_t padding;
dflet 0:1e7b5dd9edb4 405 uint32_t ip0;
dflet 0:1e7b5dd9edb4 406 uint32_t ip1;
dflet 0:1e7b5dd9edb4 407 uint32_t ip2;
dflet 0:1e7b5dd9edb4 408 uint32_t ip3;
dflet 0:1e7b5dd9edb4 409 } _GetHostByNameIPv6AsyncResponse_t;
dflet 0:1e7b5dd9edb4 410
dflet 0:1e7b5dd9edb4 411 typedef struct {
dflet 0:1e7b5dd9edb4 412 uint16_t status;
dflet 0:1e7b5dd9edb4 413 uint8_t padding1;
dflet 0:1e7b5dd9edb4 414 uint8_t padding2;
dflet 0:1e7b5dd9edb4 415 uint32_t ip0;
dflet 0:1e7b5dd9edb4 416 } _GetHostByNameIPv4AsyncResponse_t;
dflet 0:1e7b5dd9edb4 417
dflet 0:1e7b5dd9edb4 418 typedef enum {
dflet 0:1e7b5dd9edb4 419 CTST_BSD_UDP_TX,
dflet 0:1e7b5dd9edb4 420 CTST_BSD_UDP_RX,
dflet 0:1e7b5dd9edb4 421 CTST_BSD_TCP_TX,
dflet 0:1e7b5dd9edb4 422 CTST_BSD_TCP_RX,
dflet 0:1e7b5dd9edb4 423 CTST_BSD_TCP_SERVER_BI_DIR,
dflet 0:1e7b5dd9edb4 424 CTST_BSD_TCP_CLIENT_BI_DIR,
dflet 0:1e7b5dd9edb4 425 CTST_BSD_UDP_BI_DIR,
dflet 0:1e7b5dd9edb4 426 CTST_BSD_RAW_TX,
dflet 0:1e7b5dd9edb4 427 CTST_BSD_RAW_RX,
dflet 0:1e7b5dd9edb4 428 CTST_BSD_RAW_BI_DIR,
dflet 0:1e7b5dd9edb4 429 CTST_BSD_SECURED_TCP_TX,
dflet 0:1e7b5dd9edb4 430 CTST_BSD_SECURED_TCP_RX,
dflet 0:1e7b5dd9edb4 431 CTST_BSD_SECURED_TCP_SERVER_BI_DIR,
dflet 0:1e7b5dd9edb4 432 CTST_BSD_SECURED_TCP_CLIENT_BI_DIR
dflet 0:1e7b5dd9edb4 433 } CommTest_e;
dflet 0:1e7b5dd9edb4 434
dflet 0:1e7b5dd9edb4 435 typedef struct _sl_protocol_CtestStartCommand_t {
dflet 0:1e7b5dd9edb4 436 uint32_t Test;
dflet 0:1e7b5dd9edb4 437 uint16_t DestPort;
dflet 0:1e7b5dd9edb4 438 uint16_t SrcPort;
dflet 0:1e7b5dd9edb4 439 uint32_t DestAddr[4];
dflet 0:1e7b5dd9edb4 440 uint32_t PayloadSize;
dflet 0:1e7b5dd9edb4 441 uint32_t timeout;
dflet 0:1e7b5dd9edb4 442 uint32_t csEnabled;
dflet 0:1e7b5dd9edb4 443 uint32_t secure;
dflet 0:1e7b5dd9edb4 444 uint32_t rawProtocol;
dflet 0:1e7b5dd9edb4 445 uint8_t reserved1[4];
dflet 0:1e7b5dd9edb4 446 } _CtestStartCommand_t;
dflet 0:1e7b5dd9edb4 447
dflet 0:1e7b5dd9edb4 448 typedef struct {
dflet 0:1e7b5dd9edb4 449 uint8_t test;
dflet 0:1e7b5dd9edb4 450 uint8_t socket;
dflet 0:1e7b5dd9edb4 451 int16_t status;
dflet 0:1e7b5dd9edb4 452 uint32_t startTime;
dflet 0:1e7b5dd9edb4 453 uint32_t endTime;
dflet 0:1e7b5dd9edb4 454 uint16_t txKbitsSec;
dflet 0:1e7b5dd9edb4 455 uint16_t rxKbitsSec;
dflet 0:1e7b5dd9edb4 456 uint32_t outOfOrderPackets;
dflet 0:1e7b5dd9edb4 457 uint32_t missedPackets;
dflet 0:1e7b5dd9edb4 458 int16_t token;
dflet 0:1e7b5dd9edb4 459 } _CtestAsyncResponse_t;
dflet 0:1e7b5dd9edb4 460
dflet 0:1e7b5dd9edb4 461 typedef struct {
dflet 0:1e7b5dd9edb4 462 uint32_t pingIntervalTime;
dflet 0:1e7b5dd9edb4 463 uint16_t PingSize;
dflet 0:1e7b5dd9edb4 464 uint16_t pingRequestTimeout;
dflet 0:1e7b5dd9edb4 465 uint32_t totalNumberOfAttempts;
dflet 0:1e7b5dd9edb4 466 uint32_t flags;
dflet 0:1e7b5dd9edb4 467 uint32_t ip0;
dflet 0:1e7b5dd9edb4 468 uint32_t ip1OrPaadding;
dflet 0:1e7b5dd9edb4 469 uint32_t ip2OrPaadding;
dflet 0:1e7b5dd9edb4 470 uint32_t ip3OrPaadding;
dflet 0:1e7b5dd9edb4 471 } _PingStartCommand_t;
dflet 0:1e7b5dd9edb4 472
dflet 0:1e7b5dd9edb4 473 typedef struct {
dflet 0:1e7b5dd9edb4 474 uint16_t status;
dflet 0:1e7b5dd9edb4 475 uint16_t rttMin;
dflet 0:1e7b5dd9edb4 476 uint16_t rttMax;
dflet 0:1e7b5dd9edb4 477 uint16_t rttAvg;
dflet 0:1e7b5dd9edb4 478 uint32_t numSuccsessPings;
dflet 0:1e7b5dd9edb4 479 uint32_t numSendsPings;
dflet 0:1e7b5dd9edb4 480 uint32_t testTime;
dflet 0:1e7b5dd9edb4 481 } _PingReportResponse_t;
dflet 0:1e7b5dd9edb4 482
dflet 0:1e7b5dd9edb4 483
dflet 0:1e7b5dd9edb4 484 typedef struct {
dflet 0:1e7b5dd9edb4 485 uint32_t ip;
dflet 0:1e7b5dd9edb4 486 uint32_t gateway;
dflet 0:1e7b5dd9edb4 487 uint32_t dns;
dflet 0:1e7b5dd9edb4 488 } _IpV4AcquiredAsync_t;
dflet 0:1e7b5dd9edb4 489
dflet 0:1e7b5dd9edb4 490
dflet 0:1e7b5dd9edb4 491 typedef enum {
dflet 0:1e7b5dd9edb4 492 ACQUIRED_IPV6_LOCAL = 1,
dflet 0:1e7b5dd9edb4 493 ACQUIRED_IPV6_GLOBAL
dflet 0:1e7b5dd9edb4 494 } IpV6AcquiredType_e;
dflet 0:1e7b5dd9edb4 495
dflet 0:1e7b5dd9edb4 496
dflet 0:1e7b5dd9edb4 497 typedef struct {
dflet 0:1e7b5dd9edb4 498 uint32_t type;
dflet 0:1e7b5dd9edb4 499 uint32_t ip[4];
dflet 0:1e7b5dd9edb4 500 uint32_t gateway[4];
dflet 0:1e7b5dd9edb4 501 uint32_t dns[4];
dflet 0:1e7b5dd9edb4 502 } _IpV6AcquiredAsync_t;
dflet 0:1e7b5dd9edb4 503
dflet 0:1e7b5dd9edb4 504
dflet 0:1e7b5dd9edb4 505 typedef union {
dflet 0:1e7b5dd9edb4 506 _SocketCommand_t EventMask;
dflet 0:1e7b5dd9edb4 507 _sendRecvCommand_t DeviceInit;
dflet 0:1e7b5dd9edb4 508 } _device_commands_t;
dflet 0:1e7b5dd9edb4 509
dflet 0:1e7b5dd9edb4 510
dflet 0:1e7b5dd9edb4 511 class cc3100_netapp
dflet 0:1e7b5dd9edb4 512 {
dflet 0:1e7b5dd9edb4 513
dflet 0:1e7b5dd9edb4 514 public:
dflet 0:1e7b5dd9edb4 515
dflet 0:1e7b5dd9edb4 516 #ifndef SL_PLATFORM_MULTI_THREADED
dflet 0:1e7b5dd9edb4 517 cc3100_netapp(cc3100_driver &driver, cc3100_nonos &nonos);
dflet 0:1e7b5dd9edb4 518 #else
dflet 0:1e7b5dd9edb4 519 cc3100_netapp(cc3100_driver &driver);
dflet 0:1e7b5dd9edb4 520 #endif
dflet 0:1e7b5dd9edb4 521
dflet 0:1e7b5dd9edb4 522 ~cc3100_netapp();
dflet 0:1e7b5dd9edb4 523
dflet 0:1e7b5dd9edb4 524 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 525 /* Functions prototypes */
dflet 0:1e7b5dd9edb4 526 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 527 int16_t sl_NetAppMDNSRegisterUnregisterService(const char* pServiceName,
dflet 0:1e7b5dd9edb4 528 const uint8_t ServiceNameLen,
dflet 0:1e7b5dd9edb4 529 const char* pText,
dflet 0:1e7b5dd9edb4 530 const uint8_t TextLen,
dflet 0:1e7b5dd9edb4 531 const uint16_t Port,
dflet 0:1e7b5dd9edb4 532 const uint32_t TTL,
dflet 0:1e7b5dd9edb4 533 const uint32_t Options);
dflet 0:1e7b5dd9edb4 534
dflet 0:1e7b5dd9edb4 535 void _sl_HandleAsync_DnsGetHostByAddr(void *pVoidBuf);
dflet 0:1e7b5dd9edb4 536
dflet 0:1e7b5dd9edb4 537 void CopyPingResultsToReport(_PingReportResponse_t *pResults,SlPingReport_t *pReport);
dflet 0:1e7b5dd9edb4 538
dflet 0:1e7b5dd9edb4 539 #if defined(sl_HttpServerCallback) || defined(EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS)
dflet 0:1e7b5dd9edb4 540 uint16_t sl_NetAppSendTokenValue(slHttpServerData_t * Token);
dflet 0:1e7b5dd9edb4 541 #endif
dflet 0:1e7b5dd9edb4 542
dflet 0:1e7b5dd9edb4 543 // uint16_t sl_NetAppSendTokenValue(slHttpServerData_t * Token);
dflet 0:1e7b5dd9edb4 544
dflet 0:1e7b5dd9edb4 545
dflet 0:1e7b5dd9edb4 546 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 547 /* Function prototypes */
dflet 0:1e7b5dd9edb4 548 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 549
dflet 0:1e7b5dd9edb4 550
dflet 0:1e7b5dd9edb4 551 /*!
dflet 0:1e7b5dd9edb4 552 \brief Starts a network application
dflet 0:1e7b5dd9edb4 553
dflet 0:1e7b5dd9edb4 554 Gets and starts network application for the current WLAN mode
dflet 0:1e7b5dd9edb4 555
dflet 0:1e7b5dd9edb4 556 \param[in] AppBitMap application bitmap, could be one or combination of the following: \n
dflet 0:1e7b5dd9edb4 557 - SL_NET_APP_HTTP_SERVER_ID
dflet 0:1e7b5dd9edb4 558 - SL_NET_APP_DHCP_SERVER_ID
dflet 0:1e7b5dd9edb4 559 - SL_NET_APP_MDNS_ID
dflet 0:1e7b5dd9edb4 560
dflet 0:1e7b5dd9edb4 561 \return On error, negative number is returned
dflet 0:1e7b5dd9edb4 562
dflet 0:1e7b5dd9edb4 563 \sa Stop one or more the above started applications using sl_NetAppStop
dflet 0:1e7b5dd9edb4 564 \note This command activates the application for the current WLAN mode (AP or STA)
dflet 0:1e7b5dd9edb4 565 \warning
dflet 0:1e7b5dd9edb4 566 \par Example:
dflet 0:1e7b5dd9edb4 567 \code
dflet 0:1e7b5dd9edb4 568 For example: Starting internal HTTP server + DHCP server:
dflet 0:1e7b5dd9edb4 569 sl_NetAppStart(SL_NET_APP_HTTP_SERVER_ID | SL_NET_APP_DHCP_SERVER_ID)
dflet 0:1e7b5dd9edb4 570
dflet 0:1e7b5dd9edb4 571 \endcode
dflet 0:1e7b5dd9edb4 572 */
dflet 0:1e7b5dd9edb4 573 #if _SL_INCLUDE_FUNC(sl_NetAppStart)
dflet 0:1e7b5dd9edb4 574 int16_t sl_NetAppStart(const uint32_t AppBitMap);
dflet 0:1e7b5dd9edb4 575 #endif
dflet 0:1e7b5dd9edb4 576 /*!
dflet 0:1e7b5dd9edb4 577 \brief Stops a network application
dflet 0:1e7b5dd9edb4 578
dflet 0:1e7b5dd9edb4 579 Gets and stops network application for the current WLAN mode
dflet 0:1e7b5dd9edb4 580
dflet 0:1e7b5dd9edb4 581 \param[in] AppBitMap application id, could be one of the following: \n
dflet 0:1e7b5dd9edb4 582 - SL_NET_APP_HTTP_SERVER_ID
dflet 0:1e7b5dd9edb4 583 - SL_NET_APP_DHCP_SERVER_ID
dflet 0:1e7b5dd9edb4 584 - SL_NET_APP_MDNS_ID
dflet 0:1e7b5dd9edb4 585
dflet 0:1e7b5dd9edb4 586 \return On error, negative number is returned
dflet 0:1e7b5dd9edb4 587
dflet 0:1e7b5dd9edb4 588 \sa
dflet 0:1e7b5dd9edb4 589 \note This command disables the application for the current active WLAN mode (AP or STA)
dflet 0:1e7b5dd9edb4 590 \warning
dflet 0:1e7b5dd9edb4 591 \par Example:
dflet 0:1e7b5dd9edb4 592 \code
dflet 0:1e7b5dd9edb4 593
dflet 0:1e7b5dd9edb4 594 For example: Stopping internal HTTP server:
dflet 0:1e7b5dd9edb4 595 sl_NetAppStop(SL_NET_APP_HTTP_SERVER_ID);
dflet 0:1e7b5dd9edb4 596
dflet 0:1e7b5dd9edb4 597 \endcode
dflet 0:1e7b5dd9edb4 598 */
dflet 0:1e7b5dd9edb4 599 #if _SL_INCLUDE_FUNC(sl_NetAppStop)
dflet 0:1e7b5dd9edb4 600 int16_t sl_NetAppStop(const uint32_t AppBitMap);
dflet 0:1e7b5dd9edb4 601 #endif
dflet 0:1e7b5dd9edb4 602
dflet 0:1e7b5dd9edb4 603 /*!
dflet 0:1e7b5dd9edb4 604 \brief Get host IP by name
dflet 0:1e7b5dd9edb4 605
dflet 0:1e7b5dd9edb4 606 Obtain the IP Address of machine on network, by machine name.
dflet 0:1e7b5dd9edb4 607
dflet 0:1e7b5dd9edb4 608 \param[in] hostname host name
dflet 0:1e7b5dd9edb4 609 \param[in] usNameLen name length
dflet 0:1e7b5dd9edb4 610 \param[out] out_ip_addr This parameter is filled in with
dflet 0:1e7b5dd9edb4 611 host IP address. In case that host name is not
dflet 0:1e7b5dd9edb4 612 resolved, out_ip_addr is zero.
dflet 0:1e7b5dd9edb4 613 \param[in] family protocol family
dflet 0:1e7b5dd9edb4 614
dflet 0:1e7b5dd9edb4 615 \return On success, 0 is returned.
dflet 0:1e7b5dd9edb4 616 On error, negative is returned
dflet 0:1e7b5dd9edb4 617 SL_POOL_IS_EMPTY may be return in case there are no resources in the system
dflet 0:1e7b5dd9edb4 618 In this case try again later or increase MAX_CONCURRENT_ACTIONS
dflet 0:1e7b5dd9edb4 619 Possible DNS error codes:
dflet 0:1e7b5dd9edb4 620 - SL_NET_APP_DNS_QUERY_NO_RESPONSE
dflet 0:1e7b5dd9edb4 621 - SL_NET_APP_DNS_NO_SERVER
dflet 0:1e7b5dd9edb4 622 - SL_NET_APP_DNS_QUERY_FAILED
dflet 0:1e7b5dd9edb4 623 - SL_NET_APP_DNS_MALFORMED_PACKET
dflet 0:1e7b5dd9edb4 624 - SL_NET_APP_DNS_MISMATCHED_RESPONSE
dflet 0:1e7b5dd9edb4 625
dflet 0:1e7b5dd9edb4 626 \sa
dflet 0:1e7b5dd9edb4 627 \note Only one sl_NetAppDnsGetHostByName can be handled at a time.
dflet 0:1e7b5dd9edb4 628 Calling this API while the same command is called from another thread, may result
dflet 0:1e7b5dd9edb4 629 in one of the two scenarios:
dflet 0:1e7b5dd9edb4 630 1. The command will wait (internal) until the previous command finish, and then be executed.
dflet 0:1e7b5dd9edb4 631 2. There are not enough resources and POOL_IS_EMPTY error will return.
dflet 0:1e7b5dd9edb4 632 In this case, MAX_CONCURRENT_ACTIONS can be increased (result in memory increase) or try
dflet 0:1e7b5dd9edb4 633 again later to issue the command.
dflet 0:1e7b5dd9edb4 634 \warning
dflet 0:1e7b5dd9edb4 635 In case an IP address in a string format is set as input, without any prefix (e.g. "1.2.3.4") the device will not
dflet 0:1e7b5dd9edb4 636 try to access the DNS and it will return the input address on the 'out_ip_addr' field
dflet 0:1e7b5dd9edb4 637 \par Example:
dflet 0:1e7b5dd9edb4 638 \code
dflet 0:1e7b5dd9edb4 639 uint32_t DestinationIP;
dflet 0:1e7b5dd9edb4 640 sl_NetAppDnsGetHostByName("www.google.com", strlen("www.google.com"), &DestinationIP,SL_AF_INET);
dflet 0:1e7b5dd9edb4 641
dflet 0:1e7b5dd9edb4 642 Addr.sin_family = SL_AF_INET;
dflet 0:1e7b5dd9edb4 643 Addr.sin_port = sl_Htons(80);
dflet 0:1e7b5dd9edb4 644 Addr.sin_addr.s_addr = sl_Htonl(DestinationIP);
dflet 0:1e7b5dd9edb4 645 AddrSize = sizeof(SlSockAddrIn_t);
dflet 0:1e7b5dd9edb4 646 SockID = sl_Socket(SL_AF_INET,SL_SOCK_STREAM, 0);
dflet 0:1e7b5dd9edb4 647 \endcode
dflet 0:1e7b5dd9edb4 648 */
dflet 0:1e7b5dd9edb4 649 #if _SL_INCLUDE_FUNC(sl_NetAppDnsGetHostByName)
dflet 0:1e7b5dd9edb4 650 int16_t sl_NetAppDnsGetHostByName(unsigned char * hostname, const uint16_t usNameLen, uint32_t* out_ip_addr, const uint8_t family );
dflet 0:1e7b5dd9edb4 651 #endif
dflet 0:1e7b5dd9edb4 652
dflet 0:1e7b5dd9edb4 653 /*!
dflet 0:1e7b5dd9edb4 654 \brief Return service attributes like IP address, port and text according to service name
dflet 0:1e7b5dd9edb4 655 \par
dflet 0:1e7b5dd9edb4 656 The user sets a service name Full/Part (see example below), and should get:
dflet 0:1e7b5dd9edb4 657 - IP of service
dflet 0:1e7b5dd9edb4 658 - The port of service
dflet 0:1e7b5dd9edb4 659 - The text of service
dflet 0:1e7b5dd9edb4 660
dflet 0:1e7b5dd9edb4 661 Hence it can make a connection to the specific service and use it.
dflet 0:1e7b5dd9edb4 662 It is similar to get host by name method.
dflet 0:1e7b5dd9edb4 663 It is done by a single shot query with PTR type on the service name.
dflet 0:1e7b5dd9edb4 664 The command that is sent is from constant parameters and variables parameters.
dflet 0:1e7b5dd9edb4 665
dflet 0:1e7b5dd9edb4 666 \param[in] pService Service name can be full or partial. \n
dflet 0:1e7b5dd9edb4 667 Example for full service name:
dflet 0:1e7b5dd9edb4 668 1. PC1._ipp._tcp.local
dflet 0:1e7b5dd9edb4 669 2. PC2_server._ftp._tcp.local \n
dflet 0:1e7b5dd9edb4 670 .
dflet 0:1e7b5dd9edb4 671 Example for partial service name:
dflet 0:1e7b5dd9edb4 672 1. _ipp._tcp.local
dflet 0:1e7b5dd9edb4 673 2. _ftp._tcp.local
dflet 0:1e7b5dd9edb4 674
dflet 0:1e7b5dd9edb4 675 \param[in] ServiceLen The length of the service name (in_pService).
dflet 0:1e7b5dd9edb4 676 \param[in] Family IPv4 or IPv6 (SL_AF_INET , SL_AF_INET6).
dflet 0:1e7b5dd9edb4 677 \param[out] pAddr Contains the IP address of the service.
dflet 0:1e7b5dd9edb4 678 \param[out] pPort Contains the port of the service.
dflet 0:1e7b5dd9edb4 679 \param[out] pTextLen Has 2 options. One as Input field and the other one as output:
dflet 0:1e7b5dd9edb4 680 - Input: \n
dflet 0:1e7b5dd9edb4 681 Contains the max length of the text that the user wants to get.\n
dflet 0:1e7b5dd9edb4 682 It means that if the text len of service is bigger that its value than
dflet 0:1e7b5dd9edb4 683 the text is cut to inout_TextLen value.
dflet 0:1e7b5dd9edb4 684 - Output: \n
dflet 0:1e7b5dd9edb4 685 Contain the length of the text that is returned. Can be full text or part of the text (see above).
dflet 0:1e7b5dd9edb4 686
dflet 0:1e7b5dd9edb4 687 \param[out] pOut_pText Contains the text of the service full or partial
dflet 0:1e7b5dd9edb4 688
dflet 0:1e7b5dd9edb4 689 \return On success, zero is returned
dflet 0:1e7b5dd9edb4 690 SL_POOL_IS_EMPTY may be return in case there are no resources in the system
dflet 0:1e7b5dd9edb4 691 In this case try again later or increase MAX_CONCURRENT_ACTIONS
dflet 0:1e7b5dd9edb4 692 In case No service is found error SL_NET_APP_DNS_NO_ANSWER will be returned
dflet 0:1e7b5dd9edb4 693
dflet 0:1e7b5dd9edb4 694 \note The returns attributes belongs to the first service found.
dflet 0:1e7b5dd9edb4 695 There may be other services with the same service name that will response to the query.
dflet 0:1e7b5dd9edb4 696 The results of these responses are saved in the peer cache of the Device and should be read by another API.
dflet 0:1e7b5dd9edb4 697
dflet 0:1e7b5dd9edb4 698 Only one sl_NetAppDnsGetHostByService can be handled at a time.
dflet 0:1e7b5dd9edb4 699 Calling this API while the same command is called from another thread, may result
dflet 0:1e7b5dd9edb4 700 in one of the two scenarios:
dflet 0:1e7b5dd9edb4 701 1. The command will wait (internal) until the previous command finish, and then be executed.
dflet 0:1e7b5dd9edb4 702 2. There are not enough resources and SL_POOL_IS_EMPTY error will return.
dflet 0:1e7b5dd9edb4 703 In this case, MAX_CONCURRENT_ACTIONS can be increased (result in memory increase) or try
dflet 0:1e7b5dd9edb4 704 again later to issue the command.
dflet 0:1e7b5dd9edb4 705
dflet 0:1e7b5dd9edb4 706 \warning Text length can be 120 bytes only
dflet 0:1e7b5dd9edb4 707 */
dflet 0:1e7b5dd9edb4 708 #if _SL_INCLUDE_FUNC(sl_NetAppDnsGetHostByService)
dflet 0:1e7b5dd9edb4 709 int32_t sl_NetAppDnsGetHostByService(unsigned char *pServiceName, /* string containing all (or only part): name + subtype + service */
dflet 0:1e7b5dd9edb4 710 const uint8_t ServiceLen,
dflet 0:1e7b5dd9edb4 711 const uint8_t Family, /* 4-IPv4 , 16-IPv6 */
dflet 0:1e7b5dd9edb4 712 uint32_t pAddr[],
dflet 0:1e7b5dd9edb4 713 uint32_t *pPort,
dflet 0:1e7b5dd9edb4 714 uint16_t *pTextLen, /* in: max len , out: actual len */
dflet 0:1e7b5dd9edb4 715 unsigned char *pText
dflet 0:1e7b5dd9edb4 716 );
dflet 0:1e7b5dd9edb4 717
dflet 0:1e7b5dd9edb4 718 #endif
dflet 0:1e7b5dd9edb4 719
dflet 0:1e7b5dd9edb4 720 /*!
dflet 0:1e7b5dd9edb4 721 \brief Get service List
dflet 0:1e7b5dd9edb4 722 Insert into out pBuffer a list of peer's services that are the NWP.
dflet 0:1e7b5dd9edb4 723 The list is in a form of service struct. The user should chose the type
dflet 0:1e7b5dd9edb4 724 of the service struct like:
dflet 0:1e7b5dd9edb4 725 - Full service parameters with text.
dflet 0:1e7b5dd9edb4 726 - Full service parameters.
dflet 0:1e7b5dd9edb4 727 - Short service parameters (port and IP only) especially for tiny hosts.
dflet 0:1e7b5dd9edb4 728
dflet 0:1e7b5dd9edb4 729 The different types of struct are made to give the
dflet 0:1e7b5dd9edb4 730 Possibility to save memory in the host
dflet 0:1e7b5dd9edb4 731
dflet 0:1e7b5dd9edb4 732
dflet 0:1e7b5dd9edb4 733 The user also chose how many max services to get and start point index
dflet 0:1e7b5dd9edb4 734 NWP peer cache.
dflet 0:1e7b5dd9edb4 735 For example:
dflet 0:1e7b5dd9edb4 736 1. Get max of 3 full services from index 0.Up to 3 full services
dflet 0:1e7b5dd9edb4 737 from index 0 are inserted into pBuffer (services that are in indexes 0,1,2).
dflet 0:1e7b5dd9edb4 738 2. Get max of 4 full services from index 3.Up to 4 full services
dflet 0:1e7b5dd9edb4 739 from index 3 are inserted into pBuffer (services that are in indexes 3,4,5,6).
dflet 0:1e7b5dd9edb4 740 3. Get max of 2 int services from index 6.Up to 2 int services
dflet 0:1e7b5dd9edb4 741 from index 6 are inserted into pBuffer (services that are in indexes 6,7).
dflet 0:1e7b5dd9edb4 742
dflet 0:1e7b5dd9edb4 743 See below - command parameters.
dflet 0:1e7b5dd9edb4 744
dflet 0:1e7b5dd9edb4 745 \param[in] indexOffset - The start index in the peer cache that from it the first service is returned.
dflet 0:1e7b5dd9edb4 746 \param[in] MaxServiceCount - The Max services that can be returned if existed or if not exceed the max index
dflet 0:1e7b5dd9edb4 747 in the peer cache
dflet 0:1e7b5dd9edb4 748 \param[in] Flags - an ENUM number that means which service struct to use (means which types of service to fill)
dflet 0:1e7b5dd9edb4 749 - use SlNetAppGetFullServiceWithTextIpv4List_t
dflet 0:1e7b5dd9edb4 750 - use SlNetAppGetFullServiceIpv4List_t
dflet 0:1e7b5dd9edb4 751 - use SlNetAppGetShortServiceIpv4List_t
dflet 0:1e7b5dd9edb4 752
dflet 0:1e7b5dd9edb4 753 \param[out] Buffer - The Services are inserted into this buffer. In the struct form according to the bit that is set in the Flags
dflet 0:1e7b5dd9edb4 754 input parameter.
dflet 0:1e7b5dd9edb4 755
dflet 0:1e7b5dd9edb4 756 \return ServiceFoundCount - The number of the services that were inserted into the buffer. zero means no service is found
dflet 0:1e7b5dd9edb4 757 negative number means an error
dflet 0:1e7b5dd9edb4 758 \sa sl_NetAppMDNSRegisterService
dflet 0:1e7b5dd9edb4 759 \note
dflet 0:1e7b5dd9edb4 760 \warning
dflet 0:1e7b5dd9edb4 761 if the out pBuffer size is bigger than an RX packet(1480), than
dflet 0:1e7b5dd9edb4 762 an error is returned because there
dflet 0:1e7b5dd9edb4 763 is no place in the RX packet.
dflet 0:1e7b5dd9edb4 764 The size is a multiply of MaxServiceCount and size of service struct(that is set
dflet 0:1e7b5dd9edb4 765 according to flag value).
dflet 0:1e7b5dd9edb4 766 */
dflet 0:1e7b5dd9edb4 767
dflet 0:1e7b5dd9edb4 768 #if _SL_INCLUDE_FUNC(sl_NetAppGetServiceList)
dflet 0:1e7b5dd9edb4 769 int16_t sl_NetAppGetServiceList(const uint8_t IndexOffest,
dflet 0:1e7b5dd9edb4 770 const uint8_t MaxServiceCount,
dflet 0:1e7b5dd9edb4 771 const uint8_t Flags,
dflet 0:1e7b5dd9edb4 772 int8_t *pBuffer,
dflet 0:1e7b5dd9edb4 773 const uint32_t RxBufferLength
dflet 0:1e7b5dd9edb4 774 );
dflet 0:1e7b5dd9edb4 775
dflet 0:1e7b5dd9edb4 776 #endif
dflet 0:1e7b5dd9edb4 777
dflet 0:1e7b5dd9edb4 778 /*!
dflet 0:1e7b5dd9edb4 779 \brief Unregister mDNS service
dflet 0:1e7b5dd9edb4 780 This function deletes the mDNS service from the mDNS package and the database.
dflet 0:1e7b5dd9edb4 781
dflet 0:1e7b5dd9edb4 782 The mDNS service that is to be unregistered is a service that the application no longer wishes to provide. \n
dflet 0:1e7b5dd9edb4 783 The service name should be the full service name according to RFC
dflet 0:1e7b5dd9edb4 784 of the DNS-SD - meaning the value in name field in the SRV answer.
dflet 0:1e7b5dd9edb4 785
dflet 0:1e7b5dd9edb4 786 Examples for service names:
dflet 0:1e7b5dd9edb4 787 1. PC1._ipp._tcp.local
dflet 0:1e7b5dd9edb4 788 2. PC2_server._ftp._tcp.local
dflet 0:1e7b5dd9edb4 789
dflet 0:1e7b5dd9edb4 790 \param[in] pServiceName Full service name. \n
dflet 0:1e7b5dd9edb4 791 Example for service name:
dflet 0:1e7b5dd9edb4 792 1. PC1._ipp._tcp.local
dflet 0:1e7b5dd9edb4 793 2. PC2_server._ftp._tcp.local
dflet 0:1e7b5dd9edb4 794 \param[in] ServiceLen The length of the service.
dflet 0:1e7b5dd9edb4 795 \return On success, zero is returned
dflet 0:1e7b5dd9edb4 796 \sa sl_NetAppMDNSRegisterService
dflet 0:1e7b5dd9edb4 797 \note
dflet 0:1e7b5dd9edb4 798 \warning
dflet 0:1e7b5dd9edb4 799 The size of the service length should be smaller than 255.
dflet 0:1e7b5dd9edb4 800 */
dflet 0:1e7b5dd9edb4 801 #if _SL_INCLUDE_FUNC(sl_NetAppMDNSUnRegisterService)
dflet 0:1e7b5dd9edb4 802 int16_t sl_NetAppMDNSUnRegisterService(const char *pServiceName, const uint8_t ServiceNameLen);
dflet 0:1e7b5dd9edb4 803 #endif
dflet 0:1e7b5dd9edb4 804
dflet 0:1e7b5dd9edb4 805 /*!
dflet 0:1e7b5dd9edb4 806 \brief Register a new mDNS service
dflet 0:1e7b5dd9edb4 807 \par
dflet 0:1e7b5dd9edb4 808 This function registers a new mDNS service to the mDNS package and the DB.
dflet 0:1e7b5dd9edb4 809
dflet 0:1e7b5dd9edb4 810 This registered service is a service offered by the application.
dflet 0:1e7b5dd9edb4 811 The service name should be full service name according to RFC
dflet 0:1e7b5dd9edb4 812 of the DNS-SD - meaning the value in name field in the SRV answer.
dflet 0:1e7b5dd9edb4 813 Example for service name:
dflet 0:1e7b5dd9edb4 814 1. PC1._ipp._tcp.local
dflet 0:1e7b5dd9edb4 815 2. PC2_server._ftp._tcp.local
dflet 0:1e7b5dd9edb4 816
dflet 0:1e7b5dd9edb4 817 If the option is_unique is set, mDNS probes the service name to make sure
dflet 0:1e7b5dd9edb4 818 it is unique before starting to announce the service on the network.
dflet 0:1e7b5dd9edb4 819 Instance is the instance portion of the service name.
dflet 0:1e7b5dd9edb4 820
dflet 0:1e7b5dd9edb4 821 \param[in] ServiceLen The length of the service.
dflet 0:1e7b5dd9edb4 822 \param[in] TextLen The length of the service should be smaller than 64.
dflet 0:1e7b5dd9edb4 823 \param[in] port The port on this target host port.
dflet 0:1e7b5dd9edb4 824 \param[in] TTL The TTL of the service
dflet 0:1e7b5dd9edb4 825 \param[in] Options bitwise parameters: \n
dflet 0:1e7b5dd9edb4 826 - bit 0 - service is unique (means that the service needs to be unique)
dflet 0:1e7b5dd9edb4 827 - bit 31 - for internal use if the service should be added or deleted (set means ADD).
dflet 0:1e7b5dd9edb4 828 - bit 1-30 for future.
dflet 0:1e7b5dd9edb4 829
dflet 0:1e7b5dd9edb4 830 \param[in] pServiceName The service name.
dflet 0:1e7b5dd9edb4 831 Example for service name: \n
dflet 0:1e7b5dd9edb4 832 1. PC1._ipp._tcp.local
dflet 0:1e7b5dd9edb4 833 2. PC2_server._ftp._tcp.local
dflet 0:1e7b5dd9edb4 834
dflet 0:1e7b5dd9edb4 835 \param[in] pText The description of the service.
dflet 0:1e7b5dd9edb4 836 should be as mentioned in the RFC
dflet 0:1e7b5dd9edb4 837 (according to type of the service IPP,FTP...)
dflet 0:1e7b5dd9edb4 838
dflet 0:1e7b5dd9edb4 839 \return On success, zero is returned
dflet 0:1e7b5dd9edb4 840 Possible error codes:
dflet 0:1e7b5dd9edb4 841 - Maximum advertise services are already configured.
dflet 0:1e7b5dd9edb4 842 Delete another existed service that is registered and then register again the new service
dflet 0:1e7b5dd9edb4 843 - Trying to register a service that is already exists
dflet 0:1e7b5dd9edb4 844 - Trying to delete service that does not existed
dflet 0:1e7b5dd9edb4 845 - Illegal service name according to the RFC
dflet 0:1e7b5dd9edb4 846 - Retry request
dflet 0:1e7b5dd9edb4 847 - Illegal length of one of the mDNS Set functions
dflet 0:1e7b5dd9edb4 848 - mDNS is not operational as the device has no IP.Connect the device to an AP to get an IP address.
dflet 0:1e7b5dd9edb4 849 - mDNS parameters error
dflet 0:1e7b5dd9edb4 850 - mDNS internal cache error
dflet 0:1e7b5dd9edb4 851 - mDNS internal error
dflet 0:1e7b5dd9edb4 852 - Adding a service is not allowed as it is already exist (duplicate service)
dflet 0:1e7b5dd9edb4 853 - mDNS is not running
dflet 0:1e7b5dd9edb4 854 - Host name error. Host name format is not allowed according to RFC 1033,1034,1035, 6763
dflet 0:1e7b5dd9edb4 855 - List size buffer is bigger than internally allowed in the NWP (API get service list),
dflet 0:1e7b5dd9edb4 856 change the APIs� parameters to decrease the size of the list
dflet 0:1e7b5dd9edb4 857
dflet 0:1e7b5dd9edb4 858
dflet 0:1e7b5dd9edb4 859 \sa sl_NetAppMDNSUnRegisterService
dflet 0:1e7b5dd9edb4 860
dflet 0:1e7b5dd9edb4 861 \warning 1) Temporary - there is an allocation on stack of internal buffer.
dflet 0:1e7b5dd9edb4 862 Its size is NETAPP_MDNS_MAX_SERVICE_NAME_AND_TEXT_LENGTH. \n
dflet 0:1e7b5dd9edb4 863 It means that the sum of the text length and service name length cannot be bigger than
dflet 0:1e7b5dd9edb4 864 NETAPP_MDNS_MAX_SERVICE_NAME_AND_TEXT_LENGTH.\n
dflet 0:1e7b5dd9edb4 865 If it is - An error is returned. \n
dflet 0:1e7b5dd9edb4 866 2) According to now from certain constraints the variables parameters are set in the
dflet 0:1e7b5dd9edb4 867 attribute part (contain constant parameters)
dflet 0:1e7b5dd9edb4 868 */
dflet 0:1e7b5dd9edb4 869 #if _SL_INCLUDE_FUNC(sl_NetAppMDNSRegisterService)
dflet 0:1e7b5dd9edb4 870 int16_t sl_NetAppMDNSRegisterService( const char* pServiceName,
dflet 0:1e7b5dd9edb4 871 const uint8_t ServiceNameLen,
dflet 0:1e7b5dd9edb4 872 const char* pText,
dflet 0:1e7b5dd9edb4 873 const uint8_t TextLen,
dflet 0:1e7b5dd9edb4 874 const uint16_t Port,
dflet 0:1e7b5dd9edb4 875 const uint32_t TTL,
dflet 0:1e7b5dd9edb4 876 uint32_t Options);
dflet 0:1e7b5dd9edb4 877 #endif
dflet 0:1e7b5dd9edb4 878
dflet 0:1e7b5dd9edb4 879 /*!
dflet 0:1e7b5dd9edb4 880 \brief send ICMP ECHO_REQUEST to network hosts
dflet 0:1e7b5dd9edb4 881
dflet 0:1e7b5dd9edb4 882 Ping uses the ICMP protocol's mandatory ECHO_REQUEST
dflet 0:1e7b5dd9edb4 883
dflet 0:1e7b5dd9edb4 884 \param[in] pPingParams Pointer to the ping request structure: \n
dflet 0:1e7b5dd9edb4 885 - if flags parameter is set to 0, ping will report back once all requested pings are done (as defined by TotalNumberOfAttempts). \n
dflet 0:1e7b5dd9edb4 886 - if flags parameter is set to 1, ping will report back after every ping, for TotalNumberOfAttempts.
dflet 0:1e7b5dd9edb4 887 - if flags parameter is set to 2, ping will stop after the first successful ping, and report back for the successful ping, as well as any preceding failed ones.
dflet 0:1e7b5dd9edb4 888 For stopping an ongoing ping activity, set parameters IP address to 0
dflet 0:1e7b5dd9edb4 889
dflet 0:1e7b5dd9edb4 890 \param[in] family SL_AF_INET or SL_AF_INET6
dflet 0:1e7b5dd9edb4 891 \param[out] pReport Ping pReport
dflet 0:1e7b5dd9edb4 892 \param[out] pCallback Callback function upon completion.
dflet 0:1e7b5dd9edb4 893 If callback is NULL, the API is blocked until data arrives
dflet 0:1e7b5dd9edb4 894
dflet 0:1e7b5dd9edb4 895
dflet 0:1e7b5dd9edb4 896 \return On success, zero is returned. On error, -1 is returned
dflet 0:1e7b5dd9edb4 897 SL_POOL_IS_EMPTY may be return in case there are no resources in the system
dflet 0:1e7b5dd9edb4 898 In this case try again later or increase MAX_CONCURRENT_ACTIONS
dflet 0:1e7b5dd9edb4 899
dflet 0:1e7b5dd9edb4 900 \sa sl_NetAppPingReport
dflet 0:1e7b5dd9edb4 901 \note Only one sl_NetAppPingStart can be handled at a time.
dflet 0:1e7b5dd9edb4 902 Calling this API while the same command is called from another thread, may result
dflet 0:1e7b5dd9edb4 903 in one of the two scenarios:
dflet 0:1e7b5dd9edb4 904 1. The command will wait (internal) until the previous command finish, and then be executed.
dflet 0:1e7b5dd9edb4 905 2. There are not enough resources and SL_POOL_IS_EMPTY error will return.
dflet 0:1e7b5dd9edb4 906 In this case, MAX_CONCURRENT_ACTIONS can be increased (result in memory increase) or try
dflet 0:1e7b5dd9edb4 907 again later to issue the command.
dflet 0:1e7b5dd9edb4 908 \warning
dflet 0:1e7b5dd9edb4 909 \par Example:
dflet 0:1e7b5dd9edb4 910 \code
dflet 0:1e7b5dd9edb4 911
dflet 0:1e7b5dd9edb4 912 An example of sending 20 ping requests and reporting results to a callback routine when
dflet 0:1e7b5dd9edb4 913 all requests are sent:
dflet 0:1e7b5dd9edb4 914
dflet 0:1e7b5dd9edb4 915 // callback routine
dflet 0:1e7b5dd9edb4 916 void pingRes(SlPingReport_t* pReport)
dflet 0:1e7b5dd9edb4 917 {
dflet 0:1e7b5dd9edb4 918 // handle ping results
dflet 0:1e7b5dd9edb4 919 }
dflet 0:1e7b5dd9edb4 920
dflet 0:1e7b5dd9edb4 921 // ping activation
dflet 0:1e7b5dd9edb4 922 void PingTest()
dflet 0:1e7b5dd9edb4 923 {
dflet 0:1e7b5dd9edb4 924 SlPingReport_t report;
dflet 0:1e7b5dd9edb4 925 SlPingStartCommand_t pingCommand;
dflet 0:1e7b5dd9edb4 926
dflet 0:1e7b5dd9edb4 927 pingCommand.Ip = SL_IPV4_VAL(10,1,1,200); // destination IP address is 10.1.1.200
dflet 0:1e7b5dd9edb4 928 pingCommand.PingSize = 150; // size of ping, in bytes
dflet 0:1e7b5dd9edb4 929 pingCommand.PingIntervalTime = 100; // delay between pings, in milliseconds
dflet 0:1e7b5dd9edb4 930 pingCommand.PingRequestTimeout = 1000; // timeout for every ping in milliseconds
dflet 0:1e7b5dd9edb4 931 pingCommand.TotalNumberOfAttempts = 20; // max number of ping requests. 0 - forever
dflet 0:1e7b5dd9edb4 932 pingCommand.Flags = 0; // report only when finished
dflet 0:1e7b5dd9edb4 933
dflet 0:1e7b5dd9edb4 934 sl_NetAppPingStart( &pingCommand, SL_AF_INET, &report, pingRes ) ;
dflet 0:1e7b5dd9edb4 935 }
dflet 0:1e7b5dd9edb4 936
dflet 0:1e7b5dd9edb4 937 \endcode
dflet 0:1e7b5dd9edb4 938 */
dflet 0:1e7b5dd9edb4 939 #if _SL_INCLUDE_FUNC(sl_NetAppPingStart)
dflet 0:1e7b5dd9edb4 940 int16_t sl_NetAppPingStart(const SlPingStartCommand_t* pPingParams, const uint8_t family,SlPingReport_t *pReport, const P_SL_DEV_PING_CALLBACK pPingCallback);
dflet 0:1e7b5dd9edb4 941 #endif
dflet 0:1e7b5dd9edb4 942
dflet 0:1e7b5dd9edb4 943 /*!
dflet 0:1e7b5dd9edb4 944 \brief Internal function for setting network application configurations
dflet 0:1e7b5dd9edb4 945
dflet 0:1e7b5dd9edb4 946 \return On success, zero is returned. On error, -1 is
dflet 0:1e7b5dd9edb4 947 returned
dflet 0:1e7b5dd9edb4 948
dflet 0:1e7b5dd9edb4 949 \param[in] AppId Application id, could be one of the following: \n
dflet 0:1e7b5dd9edb4 950 - SL_NET_APP_HTTP_SERVER_ID
dflet 0:1e7b5dd9edb4 951 - SL_NET_APP_DHCP_SERVER_ID
dflet 0:1e7b5dd9edb4 952 - SL_NET_APP_MDNS_ID
dflet 0:1e7b5dd9edb4 953 - SL_NET_APP_DEVICE_CONFIG_ID
dflet 0:1e7b5dd9edb4 954
dflet 0:1e7b5dd9edb4 955 \param[in] SetOptions set option, could be one of the following: \n
dflet 0:1e7b5dd9edb4 956 - SL_NET_APP_DHCP_SERVER_ID
dflet 0:1e7b5dd9edb4 957 - NETAPP_SET_DHCP_SRV_BASIC_OPT
dflet 0:1e7b5dd9edb4 958 - SL_NET_APP_HTTP_SERVER_ID
dflet 0:1e7b5dd9edb4 959 - NETAPP_SET_GET_HTTP_OPT_PORT_NUMBER
dflet 0:1e7b5dd9edb4 960 - NETAPP_SET_GET_HTTP_OPT_AUTH_CHECK
dflet 0:1e7b5dd9edb4 961 - NETAPP_SET_GET_HTTP_OPT_AUTH_NAME
dflet 0:1e7b5dd9edb4 962 - NETAPP_SET_GET_HTTP_OPT_AUTH_PASSWORD
dflet 0:1e7b5dd9edb4 963 - NETAPP_SET_GET_HTTP_OPT_AUTH_REALM
dflet 0:1e7b5dd9edb4 964 - NETAPP_SET_GET_HTTP_OPT_ROM_PAGES_ACCESS
dflet 0:1e7b5dd9edb4 965 - SL_NET_APP_MDNS_ID
dflet 0:1e7b5dd9edb4 966 - NETAPP_SET_GET_MDNS_CONT_QUERY_OPT
dflet 0:1e7b5dd9edb4 967 - NETAPP_SET_GET_MDNS_QEVETN_MASK_OPT
dflet 0:1e7b5dd9edb4 968 - NETAPP_SET_GET_MDNS_TIMING_PARAMS_OPT
dflet 0:1e7b5dd9edb4 969 - SL_NET_APP_DEVICE_CONFIG_ID
dflet 0:1e7b5dd9edb4 970 - NETAPP_SET_GET_DEV_CONF_OPT_DEVICE_URN
dflet 0:1e7b5dd9edb4 971 - NETAPP_SET_GET_DEV_CONF_OPT_DOMAIN_NAME
dflet 0:1e7b5dd9edb4 972
dflet 0:1e7b5dd9edb4 973
dflet 0:1e7b5dd9edb4 974 \param[in] OptionLen option structure length
dflet 0:1e7b5dd9edb4 975
dflet 0:1e7b5dd9edb4 976 \param[in] pOptionValues pointer to the option structure
dflet 0:1e7b5dd9edb4 977 \sa
dflet 0:1e7b5dd9edb4 978 \note
dflet 0:1e7b5dd9edb4 979 \warning
dflet 0:1e7b5dd9edb4 980 \par
dflet 0:1e7b5dd9edb4 981 \code
dflet 0:1e7b5dd9edb4 982 Set DHCP Server (AP mode) parameters example:
dflet 0:1e7b5dd9edb4 983
dflet 0:1e7b5dd9edb4 984 SlNetAppDhcpServerBasicOpt_t dhcpParams;
dflet 0:1e7b5dd9edb4 985 uint8_t outLen = sizeof(SlNetAppDhcpServerBasicOpt_t);
dflet 0:1e7b5dd9edb4 986 dhcpParams.lease_time = 4096; // lease time (in seconds) of the IP Address
dflet 0:1e7b5dd9edb4 987 dhcpParams.ipv4_addr_start = SL_IPV4_VAL(192,168,1,10); // first IP Address for allocation. IP Address should be set as Hex number - i.e. 0A0B0C01 for (10.11.12.1)
dflet 0:1e7b5dd9edb4 988 dhcpParams.ipv4_addr_last = SL_IPV4_VAL(192,168,1,16); // last IP Address for allocation. IP Address should be set as Hex number - i.e. 0A0B0C01 for (10.11.12.1)
dflet 0:1e7b5dd9edb4 989 sl_NetAppStop(SL_NET_APP_DHCP_SERVER_ID); // Stop DHCP server before settings
dflet 0:1e7b5dd9edb4 990 sl_NetAppSet(SL_NET_APP_DHCP_SERVER_ID, NETAPP_SET_DHCP_SRV_BASIC_OPT, outLen, (uint8_t* )&dhcpParams); // set parameters
dflet 0:1e7b5dd9edb4 991 sl_NetAppStart(SL_NET_APP_DHCP_SERVER_ID); // Start DHCP server with new settings
dflet 0:1e7b5dd9edb4 992 \endcode
dflet 0:1e7b5dd9edb4 993 \code
dflet 0:1e7b5dd9edb4 994 Set Device URN name example:
dflet 0:1e7b5dd9edb4 995
dflet 0:1e7b5dd9edb4 996 Device name, maximum length of 33 characters
dflet 0:1e7b5dd9edb4 997 Device name affects URN name, own SSID name in AP mode, and WPS file "device name" in WPS I.E (STA-WPS / P2P)
dflet 0:1e7b5dd9edb4 998 In case no device URN name set, the default name is "mysimplelink"
dflet 0:1e7b5dd9edb4 999 Allowed characters in device name are: 'a - z' , 'A - Z' , '0-9' and '-'
dflet 0:1e7b5dd9edb4 1000
dflet 0:1e7b5dd9edb4 1001 uint8_t *my_device = "MY-SIMPLELINK-DEV";
dflet 0:1e7b5dd9edb4 1002 sl_NetAppSet (SL_NET_APP_DEVICE_CONFIG_ID, NETAPP_SET_GET_DEV_CONF_OPT_DEVICE_URN, strlen(my_device), (uint8_t *) my_device);
dflet 0:1e7b5dd9edb4 1003 \endcode
dflet 0:1e7b5dd9edb4 1004
dflet 0:1e7b5dd9edb4 1005 */
dflet 0:1e7b5dd9edb4 1006 #if _SL_INCLUDE_FUNC(sl_NetAppSet)
dflet 0:1e7b5dd9edb4 1007 int32_t sl_NetAppSet(const uint8_t AppId, const uint8_t Option, const uint8_t OptionLen, const uint8_t *pOptionValue);
dflet 0:1e7b5dd9edb4 1008 #endif
dflet 0:1e7b5dd9edb4 1009
dflet 0:1e7b5dd9edb4 1010 /*!
dflet 0:1e7b5dd9edb4 1011 \brief Internal function for getting network applications configurations
dflet 0:1e7b5dd9edb4 1012
dflet 0:1e7b5dd9edb4 1013 \return On success, zero is returned. On error, -1 is
dflet 0:1e7b5dd9edb4 1014 returned
dflet 0:1e7b5dd9edb4 1015
dflet 0:1e7b5dd9edb4 1016 \param[in] AppId Application id, could be one of the following: \n
dflet 0:1e7b5dd9edb4 1017 - SL_NET_APP_HTTP_SERVER_ID
dflet 0:1e7b5dd9edb4 1018 - SL_NET_APP_DHCP_SERVER_ID
dflet 0:1e7b5dd9edb4 1019 - SL_NET_APP_MDNS_ID
dflet 0:1e7b5dd9edb4 1020 - SL_NET_APP_DEVICE_CONFIG_ID
dflet 0:1e7b5dd9edb4 1021
dflet 0:1e7b5dd9edb4 1022 \param[in] SetOptions set option, could be one of the following: \n
dflet 0:1e7b5dd9edb4 1023 - SL_NET_APP_DHCP_SERVER_ID
dflet 0:1e7b5dd9edb4 1024 - NETAPP_SET_DHCP_SRV_BASIC_OPT
dflet 0:1e7b5dd9edb4 1025 - SL_NET_APP_HTTP_SERVER_ID
dflet 0:1e7b5dd9edb4 1026 - NETAPP_SET_GET_HTTP_OPT_PORT_NUMBER
dflet 0:1e7b5dd9edb4 1027 - NETAPP_SET_GET_HTTP_OPT_AUTH_CHECK
dflet 0:1e7b5dd9edb4 1028 - NETAPP_SET_GET_HTTP_OPT_AUTH_NAME
dflet 0:1e7b5dd9edb4 1029 - NETAPP_SET_GET_HTTP_OPT_AUTH_PASSWORD
dflet 0:1e7b5dd9edb4 1030 - NETAPP_SET_GET_HTTP_OPT_AUTH_REALM
dflet 0:1e7b5dd9edb4 1031 - NETAPP_SET_GET_HTTP_OPT_ROM_PAGES_ACCESS
dflet 0:1e7b5dd9edb4 1032 - SL_NET_APP_MDNS_ID
dflet 0:1e7b5dd9edb4 1033 - NETAPP_SET_GET_MDNS_CONT_QUERY_OPT
dflet 0:1e7b5dd9edb4 1034 - NETAPP_SET_GET_MDNS_QEVETN_MASK_OPT
dflet 0:1e7b5dd9edb4 1035 - NETAPP_SET_GET_MDNS_TIMING_PARAMS_OPT
dflet 0:1e7b5dd9edb4 1036 - SL_NET_APP_DEVICE_CONFIG_ID
dflet 0:1e7b5dd9edb4 1037 - NETAPP_SET_GET_DEV_CONF_OPT_DEVICE_URN
dflet 0:1e7b5dd9edb4 1038 - NETAPP_SET_GET_DEV_CONF_OPT_DOMAIN_NAME
dflet 0:1e7b5dd9edb4 1039
dflet 0:1e7b5dd9edb4 1040 \param[in] OptionLen The length of the allocated memory as input, when the
dflet 0:1e7b5dd9edb4 1041 function complete, the value of this parameter would be
dflet 0:1e7b5dd9edb4 1042 the len that actually read from the device.
dflet 0:1e7b5dd9edb4 1043 If the device return length that is longer from the input
dflet 0:1e7b5dd9edb4 1044 value, the function will cut the end of the returned structure
dflet 0:1e7b5dd9edb4 1045 and will return ESMALLBUF
dflet 0:1e7b5dd9edb4 1046
dflet 0:1e7b5dd9edb4 1047 \param[out] pValues pointer to the option structure which will be filled with the response from the device
dflet 0:1e7b5dd9edb4 1048
dflet 0:1e7b5dd9edb4 1049 \sa
dflet 0:1e7b5dd9edb4 1050 \note
dflet 0:1e7b5dd9edb4 1051 \warning
dflet 0:1e7b5dd9edb4 1052 \par
dflet 0:1e7b5dd9edb4 1053 \code
dflet 0:1e7b5dd9edb4 1054 Get DHCP Server parameters example:
dflet 0:1e7b5dd9edb4 1055
dflet 0:1e7b5dd9edb4 1056 SlNetAppDhcpServerBasicOpt_t dhcpParams;
dflet 0:1e7b5dd9edb4 1057 uint8_t outLen = sizeof(SlNetAppDhcpServerBasicOpt_t);
dflet 0:1e7b5dd9edb4 1058 sl_NetAppGet(SL_NET_APP_DHCP_SERVER_ID, NETAPP_SET_DHCP_SRV_BASIC_OPT, &outLen, (uint8_t* )&dhcpParams);
dflet 0:1e7b5dd9edb4 1059
dflet 0:1e7b5dd9edb4 1060 printf("DHCP Start IP %d.%d.%d.%d End IP %d.%d.%d.%d Lease time seconds %d\n",
dflet 0:1e7b5dd9edb4 1061 SL_IPV4_BYTE(dhcpParams.ipv4_addr_start,3),SL_IPV4_BYTE(dhcpParams.ipv4_addr_start,2),
dflet 0:1e7b5dd9edb4 1062 SL_IPV4_BYTE(dhcpParams.ipv4_addr_start,1),SL_IPV4_BYTE(dhcpParams.ipv4_addr_start,0),
dflet 0:1e7b5dd9edb4 1063 SL_IPV4_BYTE(dhcpParams.ipv4_addr_last,3),SL_IPV4_BYTE(dhcpParams.ipv4_addr_last,2),
dflet 0:1e7b5dd9edb4 1064 SL_IPV4_BYTE(dhcpParams.ipv4_addr_last,1),SL_IPV4_BYTE(dhcpParams.ipv4_addr_last,0),
dflet 0:1e7b5dd9edb4 1065 dhcpParams.lease_time);
dflet 0:1e7b5dd9edb4 1066 \endcode
dflet 0:1e7b5dd9edb4 1067 \code
dflet 0:1e7b5dd9edb4 1068 Get Device URN name example:
dflet 0:1e7b5dd9edb4 1069 Maximum length of 33 characters of device name.
dflet 0:1e7b5dd9edb4 1070 Device name affects URN name, own SSID name in AP mode, and WPS file "device name" in WPS I.E (STA-WPS / P2P)
dflet 0:1e7b5dd9edb4 1071 in case no device URN name set, the default name is "mysimplelink"
dflet 0:1e7b5dd9edb4 1072
dflet 0:1e7b5dd9edb4 1073 uint8_t my_device_name[35];
dflet 0:1e7b5dd9edb4 1074 sl_NetAppGet (SL_NET_APP_DEVICE_CONFIG_ID, NETAPP_SET_GET_DEV_CONF_OPT_DEVICE_URN, strlen(my_device_name), (uint8_t *)my_device_name);
dflet 0:1e7b5dd9edb4 1075 \endcode
dflet 0:1e7b5dd9edb4 1076 */
dflet 0:1e7b5dd9edb4 1077 #if _SL_INCLUDE_FUNC(sl_NetAppGet)
dflet 0:1e7b5dd9edb4 1078 int32_t sl_NetAppGet(const uint8_t AppId, const uint8_t Option,uint8_t *pOptionLen, uint8_t *pOptionValue);
dflet 0:1e7b5dd9edb4 1079 #endif
dflet 0:1e7b5dd9edb4 1080
dflet 0:1e7b5dd9edb4 1081 private:
dflet 0:1e7b5dd9edb4 1082
dflet 0:1e7b5dd9edb4 1083 cc3100_driver &_driver;
dflet 0:1e7b5dd9edb4 1084 #ifndef SL_PLATFORM_MULTI_THREADED
dflet 0:1e7b5dd9edb4 1085 cc3100_nonos &_nonos;
dflet 0:1e7b5dd9edb4 1086 #endif
dflet 0:1e7b5dd9edb4 1087
dflet 0:1e7b5dd9edb4 1088 };//class
dflet 0:1e7b5dd9edb4 1089
dflet 0:1e7b5dd9edb4 1090 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 1091 /* Macro declarations */
dflet 0:1e7b5dd9edb4 1092 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 1093 const uint8_t FLOW_CONT_MIN = 1;
dflet 0:1e7b5dd9edb4 1094
dflet 0:1e7b5dd9edb4 1095
dflet 0:1e7b5dd9edb4 1096 class cc3100_flowcont
dflet 0:1e7b5dd9edb4 1097 {
dflet 0:1e7b5dd9edb4 1098
dflet 0:1e7b5dd9edb4 1099 public:
dflet 0:1e7b5dd9edb4 1100
dflet 0:1e7b5dd9edb4 1101 #ifndef SL_PLATFORM_MULTI_THREADED
dflet 0:1e7b5dd9edb4 1102 cc3100_flowcont(cc3100_driver &driver, cc3100_nonos &nonos);
dflet 0:1e7b5dd9edb4 1103 #else
dflet 0:1e7b5dd9edb4 1104 cc3100_flowcont(cc3100_driver &driver);
dflet 0:1e7b5dd9edb4 1105 #endif
dflet 0:1e7b5dd9edb4 1106
dflet 0:1e7b5dd9edb4 1107 ~cc3100_flowcont();
dflet 0:1e7b5dd9edb4 1108
dflet 0:1e7b5dd9edb4 1109 #if 0
dflet 0:1e7b5dd9edb4 1110 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 1111 /* Function prototypes */
dflet 0:1e7b5dd9edb4 1112 /*****************************************************************************/
dflet 0:1e7b5dd9edb4 1113 void _SlDrvFlowContInit(void);
dflet 0:1e7b5dd9edb4 1114 void _SlDrvFlowContDeinit(void);
dflet 0:1e7b5dd9edb4 1115 #endif
dflet 0:1e7b5dd9edb4 1116
dflet 0:1e7b5dd9edb4 1117 private:
dflet 0:1e7b5dd9edb4 1118
dflet 0:1e7b5dd9edb4 1119 cc3100_driver &_driver;
dflet 0:1e7b5dd9edb4 1120 #ifndef SL_PLATFORM_MULTI_THREADED
dflet 0:1e7b5dd9edb4 1121 cc3100_nonos &_nonos;
dflet 0:1e7b5dd9edb4 1122 #endif
dflet 0:1e7b5dd9edb4 1123
dflet 0:1e7b5dd9edb4 1124 };//class
dflet 0:1e7b5dd9edb4 1125 }//namespace mbed_cc3100
dflet 0:1e7b5dd9edb4 1126
dflet 0:1e7b5dd9edb4 1127 /*!
dflet 0:1e7b5dd9edb4 1128
dflet 0:1e7b5dd9edb4 1129 Close the Doxygen group.
dflet 0:1e7b5dd9edb4 1130 @}
dflet 0:1e7b5dd9edb4 1131
dflet 0:1e7b5dd9edb4 1132 */
dflet 0:1e7b5dd9edb4 1133
dflet 0:1e7b5dd9edb4 1134 #endif /* __NETAPP_H__ */
dflet 0:1e7b5dd9edb4 1135
dflet 0:1e7b5dd9edb4 1136