mirror of
https://github.com/lwfinger/rtl8188eu.git
synced 2024-11-23 13:03:39 +00:00
307 lines
8.8 KiB
C
307 lines
8.8 KiB
C
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/******************************************************************************
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*
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* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of version 2 of the GNU General Public License as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License along with
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* this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
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*
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*
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******************************************************************************/
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#define _RTL8188E_XMIT_C_
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#include <drv_types.h>
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#include <rtl8188e_hal.h>
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#ifdef CONFIG_XMIT_ACK
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void dump_txrpt_ccx_88e(void *buf)
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{
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struct txrpt_ccx_88e *txrpt_ccx = (struct txrpt_ccx_88e *)buf;
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RTW_INFO("%s:\n"
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"tag1:%u, pkt_num:%u, txdma_underflow:%u, int_bt:%u, int_tri:%u, int_ccx:%u\n"
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"mac_id:%u, pkt_ok:%u, bmc:%u\n"
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"retry_cnt:%u, lifetime_over:%u, retry_over:%u\n"
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"ccx_qtime:%u\n"
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"final_data_rate:0x%02x\n"
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"qsel:%u, sw:0x%03x\n"
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, __func__
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, txrpt_ccx->tag1, txrpt_ccx->pkt_num, txrpt_ccx->txdma_underflow, txrpt_ccx->int_bt, txrpt_ccx->int_tri, txrpt_ccx->int_ccx
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, txrpt_ccx->mac_id, txrpt_ccx->pkt_ok, txrpt_ccx->bmc
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, txrpt_ccx->retry_cnt, txrpt_ccx->lifetime_over, txrpt_ccx->retry_over
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, txrpt_ccx_qtime_88e(txrpt_ccx)
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, txrpt_ccx->final_data_rate
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, txrpt_ccx->qsel, txrpt_ccx_sw_88e(txrpt_ccx)
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);
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}
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void handle_txrpt_ccx_88e(_adapter *adapter, u8 *buf)
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{
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struct txrpt_ccx_88e *txrpt_ccx = (struct txrpt_ccx_88e *)buf;
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#ifdef DBG_CCX
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dump_txrpt_ccx_88e(buf);
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#endif
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if (txrpt_ccx->int_ccx) {
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if (txrpt_ccx->pkt_ok)
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rtw_ack_tx_done(&adapter->xmitpriv, RTW_SCTX_DONE_SUCCESS);
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else
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rtw_ack_tx_done(&adapter->xmitpriv, RTW_SCTX_DONE_CCX_PKT_FAIL);
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}
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}
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#endif /* CONFIG_XMIT_ACK */
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void _dbg_dump_tx_info(_adapter *padapter, int frame_tag, struct tx_desc *ptxdesc)
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{
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u8 bDumpTxPkt;
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u8 bDumpTxDesc = _FALSE;
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rtw_hal_get_def_var(padapter, HAL_DEF_DBG_DUMP_TXPKT, &(bDumpTxPkt));
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if (bDumpTxPkt == 1) { /* dump txdesc for data frame */
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RTW_INFO("dump tx_desc for data frame\n");
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if ((frame_tag & 0x0f) == DATA_FRAMETAG)
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bDumpTxDesc = _TRUE;
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} else if (bDumpTxPkt == 2) { /* dump txdesc for mgnt frame */
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RTW_INFO("dump tx_desc for mgnt frame\n");
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if ((frame_tag & 0x0f) == MGNT_FRAMETAG)
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bDumpTxDesc = _TRUE;
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} else if (bDumpTxPkt == 3) { /* dump early info */
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}
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if (bDumpTxDesc) {
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/* ptxdesc->txdw4 = cpu_to_le32(0x00001006); */ /* RTS Rate=24M */
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/* ptxdesc->txdw6 = 0x6666f800; */
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RTW_INFO("=====================================\n");
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RTW_INFO("txdw0(0x%08x)\n", ptxdesc->txdw0);
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RTW_INFO("txdw1(0x%08x)\n", ptxdesc->txdw1);
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RTW_INFO("txdw2(0x%08x)\n", ptxdesc->txdw2);
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RTW_INFO("txdw3(0x%08x)\n", ptxdesc->txdw3);
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RTW_INFO("txdw4(0x%08x)\n", ptxdesc->txdw4);
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RTW_INFO("txdw5(0x%08x)\n", ptxdesc->txdw5);
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RTW_INFO("txdw6(0x%08x)\n", ptxdesc->txdw6);
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RTW_INFO("txdw7(0x%08x)\n", ptxdesc->txdw7);
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RTW_INFO("=====================================\n");
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}
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}
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/*
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* Description:
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* Aggregation packets and send to hardware
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*
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* Return:
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* 0 Success
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* -1 Hardware resource(TX FIFO) not ready
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* -2 Software resource(xmitbuf) not ready
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*/
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#ifdef CONFIG_TX_EARLY_MODE
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/* #define DBG_EMINFO */
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#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
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#define EARLY_MODE_MAX_PKT_NUM 10
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#else
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#define EARLY_MODE_MAX_PKT_NUM 5
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#endif
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struct EMInfo {
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u8 EMPktNum;
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u16 EMPktLen[EARLY_MODE_MAX_PKT_NUM];
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};
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void
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InsertEMContent_8188E(
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struct EMInfo *pEMInfo,
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IN pu1Byte VirtualAddress)
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{
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#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
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u1Byte index = 0;
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u4Byte dwtmp = 0;
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#endif
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_rtw_memset(VirtualAddress, 0, EARLY_MODE_INFO_SIZE);
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if (pEMInfo->EMPktNum == 0)
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return;
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#ifdef DBG_EMINFO
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{
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int i;
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RTW_INFO("\n%s ==> pEMInfo->EMPktNum =%d\n", __FUNCTION__, pEMInfo->EMPktNum);
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for (i = 0; i < EARLY_MODE_MAX_PKT_NUM; i++)
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RTW_INFO("%s ==> pEMInfo->EMPktLen[%d] =%d\n", __FUNCTION__, i, pEMInfo->EMPktLen[i]);
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}
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#endif
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#if RTL8188E_EARLY_MODE_PKT_NUM_10 == 1
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SET_EARLYMODE_PKTNUM(VirtualAddress, pEMInfo->EMPktNum);
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if (pEMInfo->EMPktNum == 1)
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dwtmp = pEMInfo->EMPktLen[0];
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else {
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dwtmp = pEMInfo->EMPktLen[0];
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dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
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dwtmp += pEMInfo->EMPktLen[1];
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}
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SET_EARLYMODE_LEN0(VirtualAddress, dwtmp);
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if (pEMInfo->EMPktNum <= 3)
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dwtmp = pEMInfo->EMPktLen[2];
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else {
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dwtmp = pEMInfo->EMPktLen[2];
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dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
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dwtmp += pEMInfo->EMPktLen[3];
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}
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SET_EARLYMODE_LEN1(VirtualAddress, dwtmp);
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if (pEMInfo->EMPktNum <= 5)
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dwtmp = pEMInfo->EMPktLen[4];
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else {
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dwtmp = pEMInfo->EMPktLen[4];
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dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
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dwtmp += pEMInfo->EMPktLen[5];
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}
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SET_EARLYMODE_LEN2_1(VirtualAddress, dwtmp & 0xF);
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SET_EARLYMODE_LEN2_2(VirtualAddress, dwtmp >> 4);
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if (pEMInfo->EMPktNum <= 7)
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dwtmp = pEMInfo->EMPktLen[6];
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else {
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dwtmp = pEMInfo->EMPktLen[6];
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dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
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dwtmp += pEMInfo->EMPktLen[7];
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}
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SET_EARLYMODE_LEN3(VirtualAddress, dwtmp);
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if (pEMInfo->EMPktNum <= 9)
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dwtmp = pEMInfo->EMPktLen[8];
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else {
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dwtmp = pEMInfo->EMPktLen[8];
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dwtmp += ((dwtmp % 4) ? (4 - dwtmp % 4) : 0) + 4;
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dwtmp += pEMInfo->EMPktLen[9];
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}
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SET_EARLYMODE_LEN4(VirtualAddress, dwtmp);
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#else
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SET_EARLYMODE_PKTNUM(VirtualAddress, pEMInfo->EMPktNum);
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SET_EARLYMODE_LEN0(VirtualAddress, pEMInfo->EMPktLen[0]);
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SET_EARLYMODE_LEN1(VirtualAddress, pEMInfo->EMPktLen[1]);
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SET_EARLYMODE_LEN2_1(VirtualAddress, pEMInfo->EMPktLen[2] & 0xF);
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SET_EARLYMODE_LEN2_2(VirtualAddress, pEMInfo->EMPktLen[2] >> 4);
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SET_EARLYMODE_LEN3(VirtualAddress, pEMInfo->EMPktLen[3]);
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SET_EARLYMODE_LEN4(VirtualAddress, pEMInfo->EMPktLen[4]);
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#endif
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}
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void UpdateEarlyModeInfo8188E(struct xmit_priv *pxmitpriv, struct xmit_buf *pxmitbuf)
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{
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/* _adapter *padapter, struct xmit_frame *pxmitframe,struct tx_servq *ptxservq */
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int index, j;
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u16 offset, pktlen;
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PTXDESC_8188E ptxdesc;
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u8 *pmem, *pEMInfo_mem;
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s8 node_num_0 = 0, node_num_1 = 0;
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struct EMInfo eminfo;
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struct agg_pkt_info *paggpkt;
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struct xmit_frame *pframe = (struct xmit_frame *)pxmitbuf->priv_data;
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pmem = pframe->buf_addr;
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#ifdef DBG_EMINFO
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RTW_INFO("\n%s ==> agg_num:%d\n", __FUNCTION__, pframe->agg_num);
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for (index = 0; index < pframe->agg_num; index++) {
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offset = pxmitpriv->agg_pkt[index].offset;
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pktlen = pxmitpriv->agg_pkt[index].pkt_len;
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RTW_INFO("%s ==> agg_pkt[%d].offset=%d\n", __FUNCTION__, index, offset);
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RTW_INFO("%s ==> agg_pkt[%d].pkt_len=%d\n", __FUNCTION__, index, pktlen);
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}
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#endif
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if (pframe->agg_num > EARLY_MODE_MAX_PKT_NUM) {
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node_num_0 = pframe->agg_num;
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node_num_1 = EARLY_MODE_MAX_PKT_NUM - 1;
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}
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for (index = 0; index < pframe->agg_num; index++) {
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offset = pxmitpriv->agg_pkt[index].offset;
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pktlen = pxmitpriv->agg_pkt[index].pkt_len;
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_rtw_memset(&eminfo, 0, sizeof(struct EMInfo));
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if (pframe->agg_num > EARLY_MODE_MAX_PKT_NUM) {
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if (node_num_0 > EARLY_MODE_MAX_PKT_NUM) {
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eminfo.EMPktNum = EARLY_MODE_MAX_PKT_NUM;
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node_num_0--;
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} else {
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eminfo.EMPktNum = node_num_1;
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node_num_1--;
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}
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} else
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eminfo.EMPktNum = pframe->agg_num - (index + 1);
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for (j = 0; j < eminfo.EMPktNum ; j++) {
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eminfo.EMPktLen[j] = pxmitpriv->agg_pkt[index + 1 + j].pkt_len + 4; /* 4 bytes CRC */
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}
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if (pmem) {
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if (index == 0) {
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ptxdesc = (PTXDESC_8188E)(pmem);
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pEMInfo_mem = ((u8 *)ptxdesc) + TXDESC_SIZE;
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} else {
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pmem = pmem + pxmitpriv->agg_pkt[index - 1].offset;
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ptxdesc = (PTXDESC_8188E)(pmem);
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pEMInfo_mem = ((u8 *)ptxdesc) + TXDESC_SIZE;
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}
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#ifdef DBG_EMINFO
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RTW_INFO("%s ==> desc.pkt_len=%d\n", __FUNCTION__, ptxdesc->pktlen);
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#endif
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InsertEMContent_8188E(&eminfo, pEMInfo_mem);
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}
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}
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_rtw_memset(pxmitpriv->agg_pkt, 0, sizeof(struct agg_pkt_info) * MAX_AGG_PKT_NUM);
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}
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#endif
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#if defined(CONFIG_CONCURRENT_MODE)
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void fill_txdesc_force_bmc_camid(struct pkt_attrib *pattrib, struct tx_desc *ptxdesc)
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{
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if ((pattrib->encrypt > 0) && (!pattrib->bswenc)
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&& (pattrib->bmc_camid != INVALID_SEC_MAC_CAM_ID)) {
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ptxdesc->txdw1 |= cpu_to_le32((0x01 << 21) & 0x00200000);
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ptxdesc->txdw1 |= cpu_to_le32((pattrib->bmc_camid) & 0x1f);
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}
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}
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#endif
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void rtl8188e_cal_txdesc_chksum(struct tx_desc *ptxdesc)
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{
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u16 *usPtr = (u16 *)ptxdesc;
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u32 count = 16; /* (32 bytes / 2 bytes per XOR) => 16 times */
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u32 index;
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u16 checksum = 0;
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/* Clear first */
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ptxdesc->txdw7 &= cpu_to_le32(0xffff0000);
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for (index = 0; index < count; index++)
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checksum ^= le16_to_cpu(*(usPtr + index));
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ptxdesc->txdw7 |= cpu_to_le32(checksum & 0x0000ffff);
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}
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