2 * Copyright (c) 1996, 2003 VIA Networking Technologies, Inc.
5 * This program is free software; you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation; either version 2 of the License, or
8 * (at your option) any later version.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License along
16 * with this program; if not, write to the Free Software Foundation, Inc.,
17 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
22 * Purpose: Handle USB interrupt endpoint
31 * 04-02-2004 Jerry Chen: Initial release
43 /*--------------------- Static Definitions -------------------------*/
44 /* static int msglevel = MSG_LEVEL_DEBUG; */
45 static int msglevel = MSG_LEVEL_INFO;
48 /*--------------------- Static Classes ----------------------------*/
50 /*--------------------- Static Variables --------------------------*/
52 /*--------------------- Static Functions --------------------------*/
54 /*--------------------- Export Variables --------------------------*/
57 /*--------------------- Export Functions --------------------------*/
62 * Function: InterruptPollingThread
64 * Synopsis: Thread running at IRQL PASSIVE_LEVEL.
66 * Arguments: Device Extension
70 * Algorithm: Call USBD for input data;
72 * History: dd-mm-yyyy Author Comment
77 * USB reads are by nature 'Blocking', and when in a read, the device looks
78 * like it's in a 'stall' condition, so we deliberately time out every second
79 * if we've gotten no data
82 void INTvWorkItem(void *Context)
84 PSDevice pDevice = (PSDevice) Context;
87 DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"---->Interrupt Polling Thread\n");
89 spin_lock_irq(&pDevice->lock);
90 if (pDevice->fKillEventPollingThread != TRUE)
91 ntStatus = PIPEnsInterruptRead(pDevice);
92 spin_unlock_irq(&pDevice->lock);
95 void INTnsProcessData(PSDevice pDevice)
98 PSMgmtObject pMgmt = &(pDevice->sMgmtObj);
99 struct net_device_stats *pStats = &pDevice->stats;
101 DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"---->s_nsInterruptProcessData\n");
103 pINTData = (PSINTData) pDevice->intBuf.pDataBuf;
104 if (pINTData->byTSR0 & TSR_VALID) {
105 STAvUpdateTDStatCounter(&(pDevice->scStatistic),
106 (BYTE) (pINTData->byPkt0 & 0x0F),
107 (BYTE) (pINTData->byPkt0>>4),
109 BSSvUpdateNodeTxCounter(pDevice,
110 &(pDevice->scStatistic),
113 /*DBG_PRN_GRP01(("TSR0 %02x\n", pINTData->byTSR0));*/
115 if (pINTData->byTSR1 & TSR_VALID) {
116 STAvUpdateTDStatCounter(&(pDevice->scStatistic),
117 (BYTE) (pINTData->byPkt1 & 0x0F),
118 (BYTE) (pINTData->byPkt1>>4),
120 BSSvUpdateNodeTxCounter(pDevice,
121 &(pDevice->scStatistic),
124 /*DBG_PRN_GRP01(("TSR1 %02x\n", pINTData->byTSR1));*/
126 if (pINTData->byTSR2 & TSR_VALID) {
127 STAvUpdateTDStatCounter(&(pDevice->scStatistic),
128 (BYTE) (pINTData->byPkt2 & 0x0F),
129 (BYTE) (pINTData->byPkt2>>4),
131 BSSvUpdateNodeTxCounter(pDevice,
132 &(pDevice->scStatistic),
135 /*DBG_PRN_GRP01(("TSR2 %02x\n", pINTData->byTSR2));*/
137 if (pINTData->byTSR3 & TSR_VALID) {
138 STAvUpdateTDStatCounter(&(pDevice->scStatistic),
139 (BYTE) (pINTData->byPkt3 & 0x0F),
140 (BYTE) (pINTData->byPkt3>>4),
142 BSSvUpdateNodeTxCounter(pDevice,
143 &(pDevice->scStatistic),
146 /*DBG_PRN_GRP01(("TSR3 %02x\n", pINTData->byTSR3));*/
148 if (pINTData->byISR0 != 0) {
149 if (pINTData->byISR0 & ISR_BNTX) {
150 if (pDevice->eOPMode == OP_MODE_AP) {
151 if (pMgmt->byDTIMCount > 0) {
152 pMgmt->byDTIMCount--;
153 pMgmt->sNodeDBTable[0].bRxPSPoll =
155 } else if (pMgmt->byDTIMCount == 0) {
156 /* check if mutltcast tx bufferring */
158 pMgmt->byDTIMPeriod-1;
159 pMgmt->sNodeDBTable[0].bRxPSPoll = TRUE;
160 if (pMgmt->sNodeDBTable[0].bPSEnable)
161 bScheduleCommand((void *) pDevice,
165 bScheduleCommand((void *) pDevice,
168 } /* if (pDevice->eOPMode == OP_MODE_AP) */
169 pDevice->bBeaconSent = TRUE;
171 pDevice->bBeaconSent = FALSE;
173 if (pINTData->byISR0 & ISR_TBTT) {
174 if (pDevice->bEnablePSMode)
175 bScheduleCommand((void *) pDevice,
176 WLAN_CMD_TBTT_WAKEUP,
178 if (pDevice->bChannelSwitch) {
179 pDevice->byChannelSwitchCount--;
180 if (pDevice->byChannelSwitchCount == 0)
181 bScheduleCommand((void *) pDevice,
186 LODWORD(pDevice->qwCurrTSF) = pINTData->dwLoTSF;
187 HIDWORD(pDevice->qwCurrTSF) = pINTData->dwHiTSF;
188 /*DBG_PRN_GRP01(("ISR0 = %02x ,
193 pINTData->dwHiTSF)); */
195 STAvUpdate802_11Counter(&pDevice->s802_11Counter,
196 &pDevice->scStatistic,
197 pINTData->byRTSSuccess,
201 STAvUpdateIsrStatCounter(&pDevice->scStatistic,
206 if (pINTData->byISR1 != 0)
207 if (pINTData->byISR1 & ISR_GPIO3)
208 bScheduleCommand((void *) pDevice,
211 pDevice->intBuf.uDataLen = 0;
212 pDevice->intBuf.bInUse = FALSE;
214 pStats->tx_packets = pDevice->scStatistic.ullTsrOK;
215 pStats->tx_bytes = pDevice->scStatistic.ullTxDirectedBytes +
216 pDevice->scStatistic.ullTxMulticastBytes +
217 pDevice->scStatistic.ullTxBroadcastBytes;
218 pStats->tx_errors = pDevice->scStatistic.dwTsrErr;
219 pStats->tx_dropped = pDevice->scStatistic.dwTsrErr;
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