KDDI Fx0 hackathon
Customized
Dependents: MurataTypeYD_RPC_Sample
Fork of
SNICInterface_mod
by 
Toyomasa Watarai
SNIC_WifiInterface.cpp
- Committer:
- kishino
- Date:
- 2014-11-14
- Revision:
- 43:d80bbb12ffe6
- Parent:
- 40:b6b10c22a121
- Child:
- 47:62ba69ff80d2
File content as of revision 43:d80bbb12ffe6:
/* Copyright (C) 2014 Murata Manufacturing Co.,Ltd., MIT License
* muRata, SWITCH SCIENCE Wi-FI module TypeYD-SNIC UART.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of this software
* and associated documentation files (the "Software"), to deal in the Software without restriction,
* including without limitation the rights to use, copy, modify, merge, publish, distribute,
* sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or
* substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
* BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "SNIC_WifiInterface.h"
#include "SNIC_UartMsgUtil.h"
#define UART_CONNECT_BUF_SIZE 512
unsigned char gCONNECT_BUF[UART_CONNECT_BUF_SIZE];
C_SNIC_WifiInterface::C_SNIC_WifiInterface( PinName tx, PinName rx, PinName cts, PinName rts, PinName reset, PinName alarm, int baud)
{
mUART_tx = tx;
mUART_rx = rx;
mUART_cts = cts;
mUART_rts = rts;;
mUART_baud = baud;
mModuleReset = reset;
}
C_SNIC_WifiInterface::~C_SNIC_WifiInterface()
{
}
int C_SNIC_WifiInterface::init()
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
/* Initialize UART */
snic_core_p->initUart( mUART_tx, mUART_rx, mUART_baud );
/* Module reset */
snic_core_p->resetModule( mModuleReset );
wait(1);
/* Initialize SNIC API */
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("snic_init payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagSNIC_INIT_REQ_T req;
// Make request
req.cmd_sid = UART_CMD_SID_SNIC_INIT_REQ;
req.seq = mUartRequestSeq++;
req.buf_size[0] = 0x08;
req.buf_size[1] = 0x00;
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_SNIC, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagSNIC_INIT_REQ_T), payload_buf_p->buf, command_array_p );
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "snic_init failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
if( uartCmdMgr_p->getCommandStatus() != 0 )
{
DEBUG_PRINT("snic_init status:%02x\r\n", uartCmdMgr_p->getCommandStatus());
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
snic_core_p->freeCmdBuf( payload_buf_p );
return ret;
}
int C_SNIC_WifiInterface::getFWVersion( unsigned char *version_p )
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("getFWVersion payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagGEN_FW_VER_GET_REQ_T req;
// Make request
req.cmd_sid = UART_CMD_SID_GEN_FW_VER_GET_REQ;
req.seq = mUartRequestSeq++;
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_GEN, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagGEN_FW_VER_GET_REQ_T), payload_buf_p->buf, command_array_p );
int ret;
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "getFWversion failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
if( uartCmdMgr_p->getCommandStatus() == 0 )
{
unsigned char version_len = payload_buf_p->buf[3];
memcpy( version_p, &payload_buf_p->buf[4], version_len );
}
snic_core_p->freeCmdBuf( payload_buf_p );
return 0;
}
int C_SNIC_WifiInterface::connect(const char *ssid_p, unsigned char ssid_len, E_SECURITY sec_type
, const char *sec_key_p, unsigned char sec_key_len)
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
// Parameter check(SSID)
if( (ssid_p == NULL) || (ssid_len == 0) )
{
DEBUG_PRINT( "connect failed [ parameter NG:SSID ]\r\n" );
return -1;
}
// Parameter check(Security key)
if( (sec_type != e_SEC_OPEN) && ( (sec_key_len == 0) || (sec_key_p == NULL) ) )
{
DEBUG_PRINT( "connect failed [ parameter NG:Security key ]\r\n" );
return -1;
}
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("connect payload_buf_p NULL\r\n");
return -1;
}
unsigned char *buf = &gCONNECT_BUF[0];
unsigned int buf_len = 0;
unsigned int command_len;
memset( buf, 0, UART_CONNECT_BUF_SIZE );
// Make request
buf[0] = UART_CMD_SID_WIFI_JOIN_REQ;
buf_len++;
buf[1] = mUartRequestSeq++;
buf_len++;
// SSID
memcpy( &buf[2], ssid_p, ssid_len );
buf_len += ssid_len;
buf_len++;
// Security mode
buf[ buf_len ] = (unsigned char)sec_type;
buf_len++;
// Security key
if( sec_type != e_SEC_OPEN )
{
buf[ buf_len ] = sec_key_len;
buf_len++;
if( sec_key_len > 0 )
{
memcpy( &buf[buf_len], sec_key_p, sec_key_len );
buf_len += sec_key_len;
}
}
unsigned char *command_array_p = snic_core_p->getCommandBuf();
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_WIFI, UART_CMD_SID_WIFI_JOIN_REQ, buf
, buf_len, payload_buf_p->buf, command_array_p );
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
if(uartCmdMgr_p->getCommandStatus() != UART_CMD_RES_WIFI_ERR_ALREADY_JOINED)
{
DEBUG_PRINT( "Already connected\r\n" );
}
else
{
if( ret != 0 )
{
DEBUG_PRINT( "join failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
}
if(uartCmdMgr_p->getCommandStatus() != 0)
{
DEBUG_PRINT("join status:%02x\r\n", uartCmdMgr_p->getCommandStatus());
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
snic_core_p->freeCmdBuf( payload_buf_p );
return ret;
}
int C_SNIC_WifiInterface::disconnect()
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("disconnect payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagWIFI_DISCONNECT_REQ_T req;
// Make request
req.cmd_sid = UART_CMD_SID_WIFI_DISCONNECT_REQ;
req.seq = mUartRequestSeq++;
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_WIFI, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagWIFI_DISCONNECT_REQ_T), payload_buf_p->buf, command_array_p );
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "disconnect failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
if( uartCmdMgr_p->getCommandStatus() != 0 )
{
DEBUG_PRINT("disconnect status:%02x\r\n", uartCmdMgr_p->getCommandStatus());
ret = -1;
}
snic_core_p->freeCmdBuf( payload_buf_p );
return ret;
}
int C_SNIC_WifiInterface::scan( const char *ssid_p, unsigned char *bssid_p
, void (*result_handler_p)(tagSCAN_RESULT_T *scan_result) )
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("scan payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagWIFI_SCAN_REQ_T req;
unsigned int buf_len = 0;
memset( &req, 0, sizeof(C_SNIC_Core::tagWIFI_SCAN_REQ_T) );
// Make request
req.cmd_sid = UART_CMD_SID_WIFI_SCAN_REQ;
buf_len++;
req.seq = mUartRequestSeq++;
buf_len++;
// Set scan type(Active scan)
req.scan_type = 0;
buf_len++;
// Set bss type(any)
req.bss_type = 2;
buf_len++;
// Set BSSID
if( bssid_p != NULL )
{
memcpy( req.bssid, bssid_p, BSSID_MAC_LENTH );
}
buf_len += BSSID_MAC_LENTH;
// Set channel list(0)
req.chan_list = 0;
buf_len++;
//Set SSID
if( ssid_p != NULL )
{
strcpy( (char *)req.ssid, ssid_p );
buf_len += strlen(ssid_p);
}
buf_len++;
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_WIFI, req.cmd_sid, (unsigned char *)&req
, buf_len, payload_buf_p->buf, command_array_p );
// Set scan result callback
uartCmdMgr_p->setScanResultHandler( result_handler_p );
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
DEBUG_PRINT( "scan wait:%d\r\n", ret );
if( ret != 0 )
{
DEBUG_PRINT( "scan failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
if( uartCmdMgr_p->getCommandStatus() != 0 )
{
DEBUG_PRINT("scan status:%02x\r\n", uartCmdMgr_p->getCommandStatus());
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
snic_core_p->freeCmdBuf( payload_buf_p );
return ret;
}
int C_SNIC_WifiInterface::wifi_on( const char *country_p )
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
// Parameter check
if( country_p == NULL )
{
DEBUG_PRINT("wifi_on parameter error\r\n");
return -1;
}
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("wifi_on payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagWIFI_ON_REQ_T req;
// Make request
req.cmd_sid = UART_CMD_SID_WIFI_ON_REQ;
req.seq = mUartRequestSeq++;
memcpy( req.country, country_p, COUNTRYC_CODE_LENTH );
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_WIFI, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagWIFI_ON_REQ_T), payload_buf_p->buf, command_array_p );
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "wifi_on failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
if( uartCmdMgr_p->getCommandStatus() != 0 )
{
DEBUG_PRINT("wifi_on status:%02x\r\n", uartCmdMgr_p->getCommandStatus());
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
snic_core_p->freeCmdBuf( payload_buf_p );
return ret;
}
int C_SNIC_WifiInterface::wifi_off()
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("wifi_off payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagWIFI_OFF_REQ_T req;
// Make request
req.cmd_sid = UART_CMD_SID_WIFI_OFF_REQ;
req.seq = mUartRequestSeq++;
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_WIFI, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagWIFI_OFF_REQ_T), payload_buf_p->buf, command_array_p );
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "wifi_off failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
if( uartCmdMgr_p->getCommandStatus() != 0 )
{
DEBUG_PRINT("wifi_off status:%02x\r\n", uartCmdMgr_p->getCommandStatus());
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
snic_core_p->freeCmdBuf( payload_buf_p );
return ret;
}
int C_SNIC_WifiInterface::getRssi( signed char *rssi_p )
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
if( rssi_p == NULL )
{
DEBUG_PRINT("getRssi parameter error\r\n");
return -1;
}
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("getRssi payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagWIFI_GET_STA_RSSI_REQ_T req;
// Make request
req.cmd_sid = UART_CMD_SID_WIFI_GET_STA_RSSI_REQ;
req.seq = mUartRequestSeq++;
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_WIFI, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagWIFI_GET_STA_RSSI_REQ_T), payload_buf_p->buf, command_array_p );
int ret;
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "getRssi failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
*rssi_p = (signed char)payload_buf_p->buf[2];
snic_core_p->freeCmdBuf( payload_buf_p );
return 0;
}
int C_SNIC_WifiInterface::getWifiStatus( tagWIFI_STATUS_T *status_p)
{
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
if( status_p == NULL )
{
DEBUG_PRINT("getWifiStatus parameter error\r\n");
return -1;
}
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("getWifiStatus payload_buf_p NULL\r\n");
return -1;
}
C_SNIC_Core::tagWIFI_GET_STATUS_REQ_T req;
// Make request
req.cmd_sid = UART_CMD_SID_WIFI_GET_STATUS_REQ;
req.seq = mUartRequestSeq++;
req.interface = 0;
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_WIFI, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagWIFI_GET_STATUS_REQ_T), payload_buf_p->buf, command_array_p );
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "getWifiStatus failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
// set status
status_p->status = (E_WIFI_STATUS)payload_buf_p->buf[2];
// set Mac address
if( status_p->status != e_STATUS_OFF )
{
memcpy( status_p->mac_address, &payload_buf_p->buf[3], BSSID_MAC_LENTH );
}
// set SSID
if( ( status_p->status == e_STA_JOINED ) || ( status_p->status == e_AP_STARTED ) )
{
memcpy( status_p->ssid, &payload_buf_p->buf[9], strlen( (char *)&payload_buf_p->buf[9]) );
}
snic_core_p->freeCmdBuf( payload_buf_p );
return 0;
}
int C_SNIC_WifiInterface::setIPConfig( bool is_DHCP
, const char *ip_p, const char *mask_p, const char *gateway_p )
{
// Parameter check
if( is_DHCP == false )
{
if( (ip_p == NULL) || (mask_p == NULL) ||(gateway_p == NULL) )
{
DEBUG_PRINT("setIPConfig parameter error\r\n");
return -1;
}
}
C_SNIC_Core *snic_core_p = C_SNIC_Core::getInstance();
C_SNIC_UartCommandManager *uartCmdMgr_p = snic_core_p->getUartCommand();
// Get buffer for response payload from MemoryPool
tagMEMPOOL_BLOCK_T *payload_buf_p = snic_core_p->allocCmdBuf();
if( payload_buf_p == NULL )
{
DEBUG_PRINT("setIPConfig payload_buf_p NULL\r\n");
return -1;
}
unsigned char *command_array_p = snic_core_p->getCommandBuf();
unsigned int command_len;
if( is_DHCP == true )
{
C_SNIC_Core::tagSNIC_IP_CONFIG_REQ_DHCP_T req;
// Make request
req.cmd_sid = UART_CMD_SID_SNIC_IP_CONFIG_REQ;
req.seq = mUartRequestSeq++;
req.interface = 0;
req.dhcp = 1;
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_SNIC, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagSNIC_IP_CONFIG_REQ_DHCP_T), payload_buf_p->buf, command_array_p );
}
else
{
C_SNIC_Core::tagSNIC_IP_CONFIG_REQ_STATIC_T req;
// Make request
req.cmd_sid = UART_CMD_SID_SNIC_IP_CONFIG_REQ;
req.seq = mUartRequestSeq++;
req.interface = 0;
req.dhcp = 0;
// Set paramter of address
int addr_temp;
addr_temp = C_SNIC_UartMsgUtil::addrToInteger( ip_p );
C_SNIC_UartMsgUtil::convertIntToByteAdday( addr_temp, (char *)req.ip_addr );
addr_temp = C_SNIC_UartMsgUtil::addrToInteger( mask_p );
C_SNIC_UartMsgUtil::convertIntToByteAdday( addr_temp, (char *)req.netmask );
addr_temp = C_SNIC_UartMsgUtil::addrToInteger( gateway_p );
C_SNIC_UartMsgUtil::convertIntToByteAdday( addr_temp, (char *)req.gateway );
// Preparation of command
command_len = snic_core_p->preparationSendCommand( UART_CMD_ID_SNIC, req.cmd_sid, (unsigned char *)&req
, sizeof(C_SNIC_Core::tagSNIC_IP_CONFIG_REQ_STATIC_T), payload_buf_p->buf, command_array_p );
}
// Send uart command request
snic_core_p->sendUart( command_len, command_array_p );
int ret;
// Wait UART response
ret = uartCmdMgr_p->wait();
if( ret != 0 )
{
DEBUG_PRINT( "setIPConfig failed\r\n" );
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
if( uartCmdMgr_p->getCommandStatus() != 0 )
{
DEBUG_PRINT("setIPConfig status:%02x\r\n", uartCmdMgr_p->getCommandStatus());
snic_core_p->freeCmdBuf( payload_buf_p );
return -1;
}
snic_core_p->freeCmdBuf( payload_buf_p );
return ret;
}