char * getFullDeviceMac()
{
if(strlen(fullDeviceMAC) == 0)
{
getDeviceMac();
}
return fullDeviceMAC;
}
/* function call from lmlite with parameters */
void network_devices_status_report(struct networkdevicestatusdata *head, BOOL extender, char* parent_mac)
{
int i = 0, k = 0;
uint8_t* b64buffer = NULL;
size_t decodesize = 0;
int numElements = 0;
struct networkdevicestatusdata* ptr = head;
avro_writer_t writer;
char * serviceName = "lmlite";
char * dest = "event:raw.kestrel.reports.NetworkDevicesStatus";
char * contentType = "avro/binary"; // contentType "application/json", "avro/binary"
uuid_t transaction_id;
char trans_id[37];
char CpeMacHoldingBuf[ 20 ] = {0};
unsigned char CpeMacid[ 7 ] = {0};
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, LMLite %s : ENTER \n", __FUNCTION__ ));
numElements = NumberofElementsinLinkedList(head);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, numElements = %d\n", numElements ));
OneAvroSerializedSize = 0;
/* goes thru total number of elements in link list */
writer = prepare_writer_status();
//Reset out writer
avro_writer_reset(writer);
//Network Device Report
avro_value_t adr;
avro_generic_value_new(iface, &adr);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, GatewayNetworkDeviceStatusReport\tType: %d\n", avro_value_get_type(&adr)));
avro_value_t adrField = {0,0};
avro_value_t array = {0,0};
size_t new_index = 0;
//Optional value for unions, mac address is an union
avro_value_t optional = {0,0};
// timestamp - long
avro_value_get_by_name(&adr, "header", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "timestamp", &adrField, NULL);
avro_value_set_branch(&adrField, 1, &optional);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
struct timeval ts;
gettimeofday(&ts, NULL);
#ifndef UTC_ENABLE
int64_t tstamp_av_main = ((int64_t) (ts.tv_sec - getTimeOffsetFromUtc()) * 1000000) + (int64_t) ts.tv_usec;
#else
int64_t tstamp_av_main = ((int64_t) (ts.tv_sec) * 1000000) + (int64_t) ts.tv_usec;
#endif
tstamp_av_main = tstamp_av_main/1000;
avro_value_set_long(&optional, tstamp_av_main );
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, timestamp = ""%" PRId64 "\n", tstamp_av_main ));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, timestamp\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
// uuid - fixed 16 bytes
uuid_generate_random(transaction_id);
uuid_unparse(transaction_id, trans_id);
avro_value_get_by_name(&adr, "header", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "uuid", &adrField, NULL);
avro_value_set_branch(&adrField, 1, &optional);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_fixed(&optional, transaction_id, 16);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, uuid\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//source - string
avro_value_get_by_name(&adr, "header", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "source", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&adrField, 1, &optional);
avro_value_set_string(&optional, ReportSource);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, source\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
if ( extender == FALSE )
{
//cpe_id block
/* MAC - Get CPE mac address, do it only pointer is NULL */
memset(CpeMacHoldingBuf, 0, sizeof CpeMacHoldingBuf);
memset(CpeMacid, 0, sizeof CpeMacid);
if ( macStr == NULL )
{
macStr = getDeviceMac();
strncpy( CpemacStr, macStr, sizeof(CpemacStr));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Received DeviceMac from Atom side: %s\n",macStr));
}
for (k = 0; k < 6; k++ )
{
/* copy 2 bytes */
CpeMacHoldingBuf[ k * 2 ] = CpemacStr[ k * 2 ];
CpeMacHoldingBuf[ k * 2 + 1 ] = CpemacStr[ k * 2 + 1 ];
CpeMacid[ k ] = (unsigned char)strtol(&CpeMacHoldingBuf[ k * 2 ], NULL, 16);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Mac address = %0x\n", CpeMacid[ k ] ));
}
avro_value_get_by_name(&adr, "cpe_id", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "mac_address", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&adrField, 1, &optional);
avro_value_set_fixed(&optional, CpeMacid, 6);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, mac_address\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
// cpe_type - string
avro_value_get_by_name(&adr, "cpe_id", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "cpe_type", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&adrField, 1, &optional);
avro_value_set_string(&optional, CPE_TYPE_GATEWAY_STRING);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, cpe_type\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
// cpe_parent - Recurrsive CPEIdentifier block
avro_value_get_by_name(&adr, "cpe_id", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "cpe_parent", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&adrField, 0, &optional);
avro_value_set_null(&optional);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, cpe_parent\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
}
else
{
//cpe_id block
avro_value_t parent_optional = {0,0}, parent_adrField = {0,0};
memset(CpeMacHoldingBuf, 0, sizeof CpeMacHoldingBuf);
memset(CpeMacid, 0, sizeof CpeMacid);
for (k = 0; k < 6; k++ )
{
/* copy 2 bytes */
CpeMacHoldingBuf[ k * 2 ] = parent_mac[ k * 3 ];
CpeMacHoldingBuf[ k * 2 + 1 ] = parent_mac[ k * 3 + 1 ];
CpeMacid[ k ] = (unsigned char)strtol(&CpeMacHoldingBuf[ k * 2 ], NULL, 16);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Extender Mac address = %0x\n", CpeMacid[ k ] ));
}
avro_value_get_by_name(&adr, "cpe_id", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "mac_address", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&adrField, 1, &optional);
avro_value_set_fixed(&optional, CpeMacid, 6);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, mac_address\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
// cpe_type - string
avro_value_get_by_name(&adr, "cpe_id", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "cpe_type", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&adrField, 1, &optional);
avro_value_set_string(&optional, CPE_TYPE_EXTENDER_STRING);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, cpe_type\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
// cpe_parent - Recurrsive CPEIdentifier block
avro_value_get_by_name(&adr, "cpe_id", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_get_by_name(&adrField, "cpe_parent", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
/* MAC - Get CPE mac address, do it only pointer is NULL */
if ( macStr == NULL )
{
macStr = getDeviceMac();
strncpy( CpemacStr, macStr, sizeof(CpemacStr));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Received DeviceMac from Atom side: %s\n",macStr));
}
memset(CpeMacHoldingBuf, 0, sizeof CpeMacHoldingBuf);
memset(CpeMacid, 0, sizeof CpeMacid);
for (k = 0; k < 6; k++ )
{
/* copy 2 bytes */
CpeMacHoldingBuf[ k * 2 ] = CpemacStr[ k * 2 ];
CpeMacHoldingBuf[ k * 2 + 1 ] = CpemacStr[ k * 2 + 1 ];
CpeMacid[ k ] = (unsigned char)strtol(&CpeMacHoldingBuf[ k * 2 ], NULL, 16);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG Parent Mac address = %0x\n", CpeMacid[ k ] ));
}
// assume 1 parent ONLY
// Parent MAC
avro_value_set_branch(&adrField, 1, &parent_optional);
avro_value_get_by_name(&parent_optional, "mac_address", &parent_adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&parent_adrField, 1, &parent_optional);
avro_value_set_fixed(&parent_optional, CpeMacid, 6);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, parent mac_address\tType: %d\n", avro_value_get_type(&parent_optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
// Parent cpe_type
avro_value_set_branch(&adrField, 1, &parent_optional);
avro_value_get_by_name(&parent_optional, "cpe_type", &parent_adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&parent_adrField, 1, &parent_optional);
avro_value_set_string(&parent_optional, CPE_TYPE_GATEWAY_STRING);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, parent cpe_type\tType: %d\n", avro_value_get_type(&parent_optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
// no more parent, set NULL
avro_value_set_branch(&adrField, 1, &parent_optional);
avro_value_get_by_name(&parent_optional, "cpe_parent", &parent_adrField, NULL);
avro_value_set_branch(&parent_adrField, 0, &parent_optional);
avro_value_set_null(&parent_optional);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, parent cpe_parent\tType: %d\n", avro_value_get_type(&parent_optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
}
//host_table_version block
avro_value_get_by_name(&adr, "host_table_version", &adrField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&adrField, 1, &optional);
avro_value_set_long(&optional, lmHosts.lastActivity);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, host_table_version\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//Data Field block
avro_value_get_by_name(&adr, "data", &adrField, NULL);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, NetworkDeviceStatusReports - data array\tType: %d\n", avro_value_get_type(&adrField)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//adrField now contains a reference to the AssociatedDeviceReportsArray
//Device Report
avro_value_t dr = {0,0};
//Current Device Report Field
avro_value_t drField = {0,0};
while(ptr)
{
if( (!strcmp(ptr->parent, parent_mac) && (extender == TRUE)) || (extender == FALSE) )
{
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Current Link List Ptr = [0x%lx], numElements = %d\n", (ulong)ptr, numElements ));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \tDevice entry #: %d\n", i + 1));
//Append a DeviceReport item to array
avro_value_append(&adrField, &dr, NULL);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \tDevice Status Report\tType: %d\n", avro_value_get_type(&dr)));
//data array block
memset(CpeMacHoldingBuf, 0, sizeof CpeMacHoldingBuf);
memset(CpeMacid, 0, sizeof CpeMacid);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Mac address from node list = %s \n", ptr->device_mac ));
for (k = 0; k < 6; k++ )
{
/* copy 2 bytes */
CpeMacHoldingBuf[ k * 2 ] = ptr->device_mac[ k * 3 ];
CpeMacHoldingBuf[ k * 2 + 1 ] = ptr->device_mac[ k * 3 + 1 ];
CpeMacid[ k ] = (unsigned char)strtol(&CpeMacHoldingBuf[ k * 2 ], NULL, 16);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Mac address = %0x\n", CpeMacid[ k ] ));
}
//device_mac - fixed 6 bytes
avro_value_get_by_name(&dr, "device_id", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, device_id\tType: %d\n", avro_value_get_type(&drField)));
avro_value_get_by_name(&drField, "mac_address", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&drField, 1, &optional);
avro_value_set_fixed(&optional, CpeMacid, 6);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \tmac_address\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//device_type - string
avro_value_get_by_name(&dr, "device_id", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, device_id\tType: %d\n", avro_value_get_type(&drField)));
avro_value_get_by_name(&drField, "device_type", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&drField, 1, &optional);
avro_value_set_string(&optional, ptr->device_type);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \tdevice_type\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//timestamp - long
avro_value_get_by_name(&dr, "timestamp", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&drField, 1, &optional);
int64_t tstamp_av = (int64_t) ptr->timestamp.tv_sec * 1000000 + (int64_t) ptr->timestamp.tv_usec;
tstamp_av = tstamp_av/1000;
avro_value_set_long(&optional, tstamp_av);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, timestamp = ""%" PRId64 "\n", tstamp_av ));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \ttimestamp\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//interface_name - string
avro_value_get_by_name(&dr, "interface_name", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&drField, 1, &optional);
//avro_value_set_string(&optional, " aa ");
avro_value_set_string(&optional, ptr->interface_name );
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \tinterface_name\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//status - enum
avro_value_get_by_name(&dr, "status", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&drField, 1, &optional);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, status\tType: %d\n", avro_value_get_type(&optional)));
if ( ptr->is_active )
avro_value_set_enum(&optional, avro_schema_enum_get_by_name(avro_value_get_schema(&optional), "ONLINE"));
else
avro_value_set_enum(&optional, avro_schema_enum_get_by_name(avro_value_get_schema(&optional), "OFFLINE"));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//hostname - string
avro_value_get_by_name(&dr, "hostname", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&drField, 1, &optional);
avro_value_set_string(&optional, ptr->hostname);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \thostname\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
//ipaddress - array
avro_value_get_by_name(&dr, "ip_addresses", &drField, NULL);
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
avro_value_set_branch(&drField, 1, &optional);
avro_value_append(&optional, &array, NULL);
avro_value_set_string(&array, ptr->ipaddress);
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, \tipaddress\tType: %d\n", avro_value_get_type(&optional)));
if ( CHK_AVRO_ERR ) CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, %s\n", avro_strerror()));
i++;
}
#if SIMULATION
ptr = 0;
#else
ptr = ptr->next; // next link list
#endif
/* check for writer size, if buffer is almost full, skip trailing linklist */
avro_value_sizeof(&adr, &AvroSerializedSize);
OneAvroSerializedSize = ( OneAvroSerializedSize == 0 ) ? AvroSerializedSize : OneAvroSerializedSize;
if ( ( WRITER_BUF_SIZE - AvroSerializedSize ) < OneAvroSerializedSize )
{
CcspLMLiteTrace(("RDK_LOG_ERROR, AVRO write buffer is almost full, size = %d func %s, exit!\n", (int)AvroSerializedSize, __FUNCTION__ ));
break;
}
}
//Thats the end of that
avro_value_write(writer, &adr);
avro_value_sizeof(&adr, &AvroSerializedSize);
AvroSerializedSize += MAGIC_NUMBER_SIZE + SCHEMA_ID_LENGTH;
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Serialized writer size %d\n", (int)AvroSerializedSize));
//Free up memory
avro_value_decref(&adr);
avro_writer_free(writer);
//free(buffer);
/* if ( consoleDebugEnable )
{
// b64 encoding
decodesize = b64_get_encoded_buffer_size( AvroSerializedSize );
b64buffer = malloc(decodesize * sizeof(uint8_t));
b64_encode( (uint8_t*)AvroSerializedBuf, AvroSerializedSize, b64buffer);
fprintf( stderr, "\nAVro serialized data\n");
for (k = 0; k < (int)AvroSerializedSize ; k++)
{
char buf[30];
if ( ( k % 32 ) == 0 )
fprintf( stderr, "\n");
sprintf(buf, "%02X", (unsigned char)AvroSerializedBuf[k]);
fprintf( stderr, "%c%c", buf[0], buf[1] );
}
fprintf( stderr, "\n\nB64 data\n");
for (k = 0; k < (int)decodesize; k++)
{
if ( ( k % 32 ) == 0 )
fprintf( stderr, "\n");
fprintf( stderr, "%c", b64buffer[k]);
}
fprintf( stderr, "\n\n");
free(b64buffer);
}*/
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, Before ND WebPA SEND message call\n"));
#ifdef PARODUS_ENABLE
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, serviceName: %s\n", serviceName));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, dest: %s\n", dest));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, trans_id: %s\n", trans_id));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, contentType: %s\n", contentType));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, AvroSerializedBuf: %s\n", AvroSerializedBuf));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, AvroSerializedSize: %d\n", (int)AvroSerializedSize));
#endif
// Send data from LMLite to webpa using CCSP bus interface
sendWebpaMsg(serviceName, dest, trans_id, contentType, AvroSerializedBuf, AvroSerializedSize);
CcspTraceWarning(("NetworkDevicesStatus report sent to Webpa, Destination=%s, Transaction-Id=%s \n",dest,trans_id));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, After ND WebPA SEND message call\n"));
CcspLMLiteConsoleTrace(("RDK_LOG_DEBUG, LMLite %s : EXIT \n", __FUNCTION__ ));
#if SIMULATION
exit(0);
#endif
}
AJ_EXPORT AJ_Status AJ_WSL_NET_connect(const char* SSID, const char* passphrase, WSL_NET_AUTH_MODE auth, WSL_NET_CRYPTO_TYPE crypto, uint8_t softAP)
{
AJ_Status status;
wsl_scan_list* list;
list = (wsl_scan_list*)AJ_WSL_GetScanList();
WSL_ClearScanList(list);
AJ_WSL_NET_SetPowerMode(2);
uint8_t bss_mac[6];
// Open auth does not require you to explicitly set the BSSID so this secondary scan is not needed
if (!softAP) {
if (auth != WSL_NET_AUTH_NONE) {
// Do a scan of just the SSID you want
AJ_WSL_SetProbedSSID(SSID, 1);
{
AJ_BufList* start_scan;
uint8_t found = 0;
int i;
AJ_WSL_NET_set_scan_params();
while (!found) {
wsl_work_item* item;
AJ_InfoPrintf(("AJ_WSL_NET_scan(): START_SCAN\n"));
start_scan = AJ_BufListCreate();
AJ_WSL_SetProbedSSID(SSID, 1);
AJ_WSL_NET_set_scan_params();
AJ_WSL_NET_BSS_FILTER(6);
WSL_MarshalPacket(start_scan, WSL_START_SCAN, 0, 0, 0, 0, 0, 0, 0, 0);
WMI_MarshalHeader(start_scan, 1, 1);
AJ_WSL_WMI_PadPayload(start_scan);
//AJ_BufListPrintDumpContinuous(start_scan);
AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), AJ_WSL_HTC_DATA_ENDPOINT1, start_scan);
status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), &item);
AJ_WSL_WMI_FreeWorkItem(item);
// Get the new list (just of the SSID provided in the connect command)
AJ_WSL_NET_scan_stop();
list = (wsl_scan_list*)AJ_WSL_GetScanList();
if (list->size == 0) {
AJ_AlwaysPrintf(("Could not find access point %s\n", SSID));
WSL_ClearScanList(list);
AJ_Sleep(AJ_WSL_CONNECT_WAIT);
continue;
}
WSL_PrintScanSorted();
// Find the SSID you want to connect to in the second scan list
for (i = 0; i < list->size; i++) {
if (0 == strcmp(list->list[i].ssid, SSID)) {
memcpy(&bss_mac, list->list[i].bssid, 6);
found = 1;
break;
}
}
WSL_ClearScanList(list);
}
}
}
}
{
AJ_BufList* connect;
AJ_BufList* connectOut;
static const uint8_t zero_mac[6] = { 0, 0, 0, 0, 0, 0 };
uint8_t connect_mac[6];
wsl_work_item* item = NULL;
uint8_t found = 0;
connect = AJ_BufListCreate();
/* Three different ways connect can be called.
* 1. SoftAP: The devices mac is fetched and used
* 2. Using Auth: The SSID's mac is found and used
* 3. Open auth: A zero'ed mac is used
*/
if (softAP) {
WSL_MarshalPacket(connect, WSL_SET_SOFT_AP, 0, 0x04, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, getDeviceMac(), 0x0044, 0x0000);
WMI_MarshalHeader(connect, 1, 1);
} else if ((auth != WSL_NET_AUTH_NONE) && (crypto != WSL_NET_CRYPTO_WEP)) {
WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &bss_mac, 0x0044, 0x0000);
WMI_MarshalHeader(connect, 1, 1);
} else { // if the auth mode is open, use zero_mac, and set flags to zero
WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &zero_mac, 0x0000, 0x0000);
WMI_MarshalHeader(connect, 1, 1);
}
AJ_InfoPrintf(("AJ_WSL_NET_connect(): CONNECT\n"));
AJ_WSL_WMI_PadPayload(connect);
//AJ_BufListPrintDumpContinuous(connect);
connectOut = AJ_BufListCreateCopy(connect);
AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), AJ_WSL_HTC_DATA_ENDPOINT1, connectOut);
if (softAP) {
AJ_AlwaysPrintf(("Waiting for a connection to the softAP %s\n", SSID));
memcpy(&connect_mac, (uint8_t*)getDeviceMac(), sizeof(connect_mac));
while (WSL_MacsAreEqual((uint8_t*)&connect_mac, (uint8_t*)getDeviceMac()) == TRUE) {
status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item);
if (item) {
if (item->itemType == WSL_NET_CONNECT) {
AJ_InfoPrintf(("AJ_WSL_ip6config(): WORK ITEM RECEIVED\n"));
uint16_t WMIEvent;
uint32_t toss;
uint16_t channel;
WMI_Unmarshal(item->node->buffer, "quqM", &WMIEvent, &toss, &channel, &connect_mac);
} else {
AJ_WarnPrintf(("AJ_WSL_NET_connect(): BAD WORK ITEM RECEIVED\n"));
}
AJ_WSL_WMI_FreeWorkItem(item);
found = 1;
}
}
} else {
status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item);
AJ_WSL_WMI_FreeWorkItem(item);
}
AJ_BufListFree(connect, 1);
return status;
}
}
AJ_EXPORT AJ_Status AJ_WSL_NET_connect(const char* SSID, const char* passphrase, WSL_NET_AUTH_MODE auth, WSL_NET_CRYPTO_TYPE crypto, uint8_t softAP)
{
AJ_Status status = AJ_OK;
wsl_scan_list* list;
list = (wsl_scan_list*)AJ_WSL_GetScanList();
AJ_WSL_NET_SetPowerMode(2);
uint8_t bss_mac[6];
// Open auth does not require you to explicitly set the BSSID so this secondary scan is not needed
if (!softAP) {
if (auth != WSL_NET_AUTH_NONE) {
AJ_Time timer;
uint8_t found = 0;
AJ_InitTimer(&timer);
while (!found) {
AJ_WSL_InitScanList(AJ_WSL_SCAN_LIST_SIZE);
AJ_WSL_SetProbedSSID(SSID, 1);
status = AJ_WSL_NET_scan();
// Some kind of scan error
if (status != AJ_OK) {
WSL_ClearScanList();
continue;
}
AJ_WSL_NET_scan_stop();
if (AJ_GetElapsedTime(&timer, TRUE) > AJ_WSL_CONNECT_TIMEOUT) {
AJ_ErrPrintf(("AJ_WSL_NET_connect() Could not find the access point %s\n", SSID));
WSL_ClearScanList();
return AJ_ERR_FAILURE;
}
// Find the SSID you want to connect to in the second scan list
if (getMacFromSSID(SSID, bss_mac, list)) {
WSL_ClearScanList();
found = 1;
break;
} else {
WSL_ClearScanList();
AJ_Sleep(AJ_WSL_CONNECT_WAIT);
continue;
}
}
if (crypto != WSL_NET_CRYPTO_WEP) {
status = AJ_WSL_NET_SetPassphrase(SSID, passphrase, strlen(passphrase));
if (status != AJ_OK) {
return status;
}
}
}
}
{
AJ_BufList* connect;
AJ_BufList* connectOut;
static const uint8_t zero_mac[6] = { 0, 0, 0, 0, 0, 0 };
uint8_t connect_mac[6];
wsl_work_item* item = NULL;
connect = AJ_BufListCreate();
/* Three different ways connect can be called.
* 1. SoftAP: The devices mac is fetched and used
* 2. Using Auth: The SSID's mac is found and used
* 3. Open auth: A zero'ed mac is used
*/
if (softAP) {
WSL_MarshalPacket(connect, WSL_SET_SOFT_AP, 0, 0x04, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, getDeviceMac(), 0x0044, 0x0000);
WMI_MarshalHeader(connect, 1, 1);
} else if ((auth != WSL_NET_AUTH_NONE) && (crypto != WSL_NET_CRYPTO_WEP)) {
WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &bss_mac, 0x0044, 0x0000);
WMI_MarshalHeader(connect, 1, 1);
} else { // if the auth mode is open, use zero_mac, and set flags to zero
WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &zero_mac, 0x0000, 0x0000);
WMI_MarshalHeader(connect, 1, 1);
}
AJ_InfoPrintf(("AJ_WSL_NET_connect(): CONNECT\n"));
AJ_WSL_WMI_PadPayload(connect);
//AJ_BufListPrintDumpContinuous(connect);
connectOut = AJ_BufListCreateCopy(connect);
AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), AJ_WSL_HTC_DATA_ENDPOINT1, connectOut);
if (softAP) {
AJ_AlwaysPrintf(("Waiting for a connection to the softAP %s\n", SSID));
memcpy(&connect_mac, (uint8_t*)getDeviceMac(), sizeof(connect_mac));
while (memcmp((uint8_t*)&connect_mac, (uint8_t*)getDeviceMac(), 6) == 0) {
status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item, AJ_TIMER_FOREVER);
if (item && (status == AJ_OK)) {
if (item->itemType == WSL_NET_CONNECT) {
AJ_InfoPrintf(("AJ_WSL_NET_connect(): WORK ITEM RECEIVED\n"));
uint16_t WMIEvent;
uint32_t toss;
uint16_t channel;
WMI_Unmarshal(item->node->buffer, "quqM", &WMIEvent, &toss, &channel, &connect_mac);
} else {
AJ_WarnPrintf(("AJ_WSL_NET_connect(): BAD WORK ITEM RECEIVED\n"));
}
AJ_WSL_WMI_FreeWorkItem(item);
}
}
} else {
status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item, AJ_TIMER_FOREVER);
if (item && (status == AJ_OK)) {
AJ_WSL_WMI_FreeWorkItem(item);
}
}
AJ_BufListFree(connect, 1);
return status;
}
}
