5 void hal_set_ethernet_address( phw_data_t pHwData, u8 *current_address )
9 if( pHwData->SurpriseRemove ) return;
11 memcpy( pHwData->CurrentMacAddress, current_address, ETH_LENGTH_OF_ADDRESS );
13 ltmp[0]= cpu_to_le32( *(u32 *)pHwData->CurrentMacAddress );
14 ltmp[1]= cpu_to_le32( *(u32 *)(pHwData->CurrentMacAddress + 4) ) & 0xffff;
16 Wb35Reg_BurstWrite( pHwData, 0x03e8, ltmp, 2, AUTO_INCREMENT );
19 void hal_get_permanent_address( phw_data_t pHwData, u8 *pethernet_address )
21 if( pHwData->SurpriseRemove ) return;
23 memcpy( pethernet_address, pHwData->PermanentMacAddress, 6 );
26 static void hal_led_control(unsigned long data)
28 struct wbsoft_priv *adapter = (struct wbsoft_priv *) data;
29 phw_data_t pHwData = &adapter->sHwData;
30 struct wb35_reg *reg = &pHwData->reg;
31 u32 LEDSet = (pHwData->SoftwareSet & HAL_LED_SET_MASK) >> HAL_LED_SET_SHIFT;
32 u8 LEDgray[20] = { 0,3,4,6,8,10,11,12,13,14,15,14,13,12,11,10,8,6,4,2 };
33 u8 LEDgray2[30] = { 7,8,9,10,11,12,13,14,15,0,0,0,0,0,0,0,0,0,0,0,0,0,15,14,13,12,11,10,9,8 };
34 u32 TimeInterval = 500, ltmp, ltmp2;
37 if( pHwData->SurpriseRemove ) return;
39 if( pHwData->LED_control ) {
40 ltmp2 = pHwData->LED_control & 0xff;
41 if( ltmp2 == 5 ) // 5 is WPS mode
44 ltmp2 = (pHwData->LED_control>>8) & 0xff;
47 case 1: // [0.2 On][0.1 Off]...
48 pHwData->LED_Blinking %= 3;
49 ltmp = 0x1010; // Led 1 & 0 Green and Red
50 if( pHwData->LED_Blinking == 2 ) // Turn off
53 case 2: // [0.1 On][0.1 Off]...
54 pHwData->LED_Blinking %= 2;
55 ltmp = 0x0010; // Led 0 red color
56 if( pHwData->LED_Blinking ) // Turn off
59 case 3: // [0.1 On][0.1 Off][0.1 On][0.1 Off][0.1 On][0.1 Off][0.1 On][0.1 Off][0.1 On][0.1 Off][0.5 Off]...
60 pHwData->LED_Blinking %= 15;
61 ltmp = 0x0010; // Led 0 red color
62 if( (pHwData->LED_Blinking >= 9) || (pHwData->LED_Blinking%2) ) // Turn off 0.6 sec
65 case 4: // [300 On][ off ]
66 ltmp = 0x1000; // Led 1 Green color
67 if( pHwData->LED_Blinking >= 3000 )
68 ltmp = 0; // led maybe on after 300sec * 32bit counter overlap.
71 pHwData->LED_Blinking++;
73 reg->U1BC_LEDConfigure = ltmp;
74 if( LEDSet != 7 ) // Only 111 mode has 2 LEDs on PCB.
76 reg->U1BC_LEDConfigure |= (ltmp &0xff)<<8; // Copy LED result to each LED control register
77 reg->U1BC_LEDConfigure |= (ltmp &0xff00)>>8;
79 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure );
82 else if( pHwData->CurrentRadioSw || pHwData->CurrentRadioHw ) // If radio off
84 if( reg->U1BC_LEDConfigure & 0x1010 )
86 reg->U1BC_LEDConfigure &= ~0x1010;
87 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure );
94 case 4: // [100] Only 1 Led be placed on PCB and use pin 21 of IC. Use LED_0 for showing
95 if( !pHwData->LED_LinkOn ) // Blink only if not Link On
97 // Blinking if scanning is on progress
98 if( pHwData->LED_Scanning )
100 if( pHwData->LED_Blinking == 0 )
102 reg->U1BC_LEDConfigure |= 0x10;
103 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 On
104 pHwData->LED_Blinking = 1;
109 reg->U1BC_LEDConfigure &= ~0x10;
110 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 Off
111 pHwData->LED_Blinking = 0;
118 if( reg->U1BC_LEDConfigure & 0x10 )
120 reg->U1BC_LEDConfigure &= ~0x10;
121 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 Off
128 if( (reg->U1BC_LEDConfigure & 0x10) == 0 )
130 reg->U1BC_LEDConfigure |= 0x10;
131 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 Off
136 case 6: // [110] Only 1 Led be placed on PCB and use pin 21 of IC. Use LED_0 for showing
137 if( !pHwData->LED_LinkOn ) // Blink only if not Link On
139 // Blinking if scanning is on progress
140 if( pHwData->LED_Scanning )
142 if( pHwData->LED_Blinking == 0 )
144 reg->U1BC_LEDConfigure &= ~0xf;
145 reg->U1BC_LEDConfigure |= 0x10;
146 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 On
147 pHwData->LED_Blinking = 1;
152 reg->U1BC_LEDConfigure &= ~0x1f;
153 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 Off
154 pHwData->LED_Blinking = 0;
160 // 20060901 Gray blinking if in disconnect state and not scanning
161 ltmp = reg->U1BC_LEDConfigure;
162 reg->U1BC_LEDConfigure &= ~0x1f;
163 if( LEDgray2[(pHwData->LED_Blinking%30)] )
165 reg->U1BC_LEDConfigure |= 0x10;
166 reg->U1BC_LEDConfigure |= LEDgray2[ (pHwData->LED_Blinking%30) ];
168 pHwData->LED_Blinking++;
169 if( reg->U1BC_LEDConfigure != ltmp )
170 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 Off
177 if( (reg->U1BC_LEDConfigure & 0x10) == 0 )
179 reg->U1BC_LEDConfigure |= 0x10;
180 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_0 Off
185 case 5: // [101] Only 1 Led be placed on PCB and use LED_1 for showing
186 if( !pHwData->LED_LinkOn ) // Blink only if not Link On
188 // Blinking if scanning is on progress
189 if( pHwData->LED_Scanning )
191 if( pHwData->LED_Blinking == 0 )
193 reg->U1BC_LEDConfigure |= 0x1000;
194 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_1 On
195 pHwData->LED_Blinking = 1;
200 reg->U1BC_LEDConfigure &= ~0x1000;
201 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_1 Off
202 pHwData->LED_Blinking = 0;
209 if( reg->U1BC_LEDConfigure & 0x1000 )
211 reg->U1BC_LEDConfigure &= ~0x1000;
212 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_1 Off
218 // Is transmitting/receiving ??
219 if( (adapter->RxByteCount != pHwData->RxByteCountLast ) ||
220 (adapter->TxByteCount != pHwData->TxByteCountLast ) )
222 if( (reg->U1BC_LEDConfigure & 0x3000) != 0x3000 )
224 reg->U1BC_LEDConfigure |= 0x3000;
225 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_1 On
229 pHwData->RxByteCountLast = adapter->RxByteCount;
230 pHwData->TxByteCountLast = adapter->TxByteCount;
235 // Turn On LED_1 and blinking if transmitting/receiving
236 if( (reg->U1BC_LEDConfigure & 0x3000) != 0x1000 )
238 reg->U1BC_LEDConfigure &= ~0x3000;
239 reg->U1BC_LEDConfigure |= 0x1000;
240 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure ); // LED_1 On
246 default: // Default setting. 2 LED be placed on PCB. LED_0: Link On LED_1 Active
247 if( (reg->U1BC_LEDConfigure & 0x3000) != 0x3000 )
249 reg->U1BC_LEDConfigure |= 0x3000;// LED_1 is always on and event enable
250 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure );
253 if( pHwData->LED_Blinking )
256 reg->U1BC_LEDConfigure &= ~0x0f;
257 reg->U1BC_LEDConfigure |= 0x10;
258 reg->U1BC_LEDConfigure |= LEDgray[ (pHwData->LED_Blinking-1)%20 ];
259 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure );
261 pHwData->LED_Blinking += 2;
262 if( pHwData->LED_Blinking < 40 )
266 pHwData->LED_Blinking = 0; // Stop blinking
267 reg->U1BC_LEDConfigure &= ~0x0f;
268 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure );
273 if( pHwData->LED_LinkOn )
275 if( !(reg->U1BC_LEDConfigure & 0x10) ) // Check the LED_0
277 //Try to turn ON LED_0 after gray blinking
278 reg->U1BC_LEDConfigure |= 0x10;
279 pHwData->LED_Blinking = 1; //Start blinking
285 if( reg->U1BC_LEDConfigure & 0x10 ) // Check the LED_0
287 reg->U1BC_LEDConfigure &= ~0x10;
288 Wb35Reg_Write( pHwData, 0x03bc, reg->U1BC_LEDConfigure );
294 //20060828.1 Active send null packet to avoid AP disconnect
295 if( pHwData->LED_LinkOn )
297 pHwData->NullPacketCount += TimeInterval;
298 if( pHwData->NullPacketCount >= DEFAULT_NULL_PACKET_COUNT )
300 pHwData->NullPacketCount = 0;
305 pHwData->time_count += TimeInterval;
306 Wb35Tx_CurrentTime(adapter, pHwData->time_count); // 20060928 add
307 pHwData->LEDTimer.expires = jiffies + msecs_to_jiffies(TimeInterval);
308 add_timer(&pHwData->LEDTimer);
311 u8 hal_init_hardware(struct ieee80211_hw *hw)
313 struct wbsoft_priv *priv = hw->priv;
314 phw_data_t pHwData = &priv->sHwData;
317 // Initial the variable
318 pHwData->MaxReceiveLifeTime = DEFAULT_MSDU_LIFE_TIME; // Setting Rx maximum MSDU life time
319 pHwData->FragmentThreshold = DEFAULT_FRAGMENT_THRESHOLD; // Setting default fragment threshold
321 pHwData->InitialResource = 1;
322 if( Wb35Reg_initial(pHwData)) {
323 pHwData->InitialResource = 2;
324 if (Wb35Tx_initial(pHwData)) {
325 pHwData->InitialResource = 3;
326 if (Wb35Rx_initial(pHwData)) {
327 pHwData->InitialResource = 4;
328 init_timer(&pHwData->LEDTimer);
329 pHwData->LEDTimer.function = hal_led_control;
330 pHwData->LEDTimer.data = (unsigned long) priv;
331 pHwData->LEDTimer.expires = jiffies + msecs_to_jiffies(1000);
332 add_timer(&pHwData->LEDTimer);
335 // For restrict to vendor's hardware
337 SoftwareSet = hal_software_set( pHwData );
340 // Try to make sure the EEPROM contain
342 if( SoftwareSet != 0x82 )
347 Wb35Tx_EP2VM_start(priv);
354 pHwData->SurpriseRemove = 1;
359 void hal_halt(phw_data_t pHwData, void *ppa_data)
361 switch( pHwData->InitialResource )
364 case 3: del_timer_sync(&pHwData->LEDTimer);
365 msleep(100); // Wait for Timer DPC exit 940623.2
366 Wb35Rx_destroy( pHwData ); // Release the Rx
367 case 2: Wb35Tx_destroy( pHwData ); // Release the Tx
368 case 1: Wb35Reg_destroy( pHwData ); // Release the Wb35 Regisster resources
372 //---------------------------------------------------------------------------------------------------
373 void hal_set_beacon_period( phw_data_t pHwData, u16 beacon_period )
377 if( pHwData->SurpriseRemove ) return;
379 pHwData->BeaconPeriod = beacon_period;
380 tmp = pHwData->BeaconPeriod << 16;
381 tmp |= pHwData->ProbeDelay;
382 Wb35Reg_Write( pHwData, 0x0848, tmp );
386 static void hal_set_current_channel_ex( phw_data_t pHwData, ChanInfo channel )
388 struct wb35_reg *reg = &pHwData->reg;
390 if( pHwData->SurpriseRemove )
393 printk("Going to channel: %d/%d\n", channel.band, channel.ChanNo);
395 RFSynthesizer_SwitchingChannel( pHwData, channel );// Switch channel
396 pHwData->Channel = channel.ChanNo;
397 pHwData->band = channel.band;
398 #ifdef _PE_STATE_DUMP_
399 WBDEBUG(("Set channel is %d, band =%d\n", pHwData->Channel, pHwData->band));
401 reg->M28_MacControl &= ~0xff; // Clean channel information field
402 reg->M28_MacControl |= channel.ChanNo;
403 Wb35Reg_WriteWithCallbackValue( pHwData, 0x0828, reg->M28_MacControl,
404 (s8 *)&channel, sizeof(ChanInfo));
406 //---------------------------------------------------------------------------------------------------
407 void hal_set_current_channel( phw_data_t pHwData, ChanInfo channel )
409 hal_set_current_channel_ex( pHwData, channel );
411 //---------------------------------------------------------------------------------------------------
412 void hal_set_accept_broadcast( phw_data_t pHwData, u8 enable )
414 struct wb35_reg *reg = &pHwData->reg;
416 if( pHwData->SurpriseRemove ) return;
418 reg->M00_MacControl &= ~0x02000000;//The HW value
421 reg->M00_MacControl |= 0x02000000;//The HW value
423 Wb35Reg_Write( pHwData, 0x0800, reg->M00_MacControl );
426 //for wep key error detection, we need to accept broadcast packets to be received temporary.
427 void hal_set_accept_promiscuous( phw_data_t pHwData, u8 enable)
429 struct wb35_reg *reg = &pHwData->reg;
431 if (pHwData->SurpriseRemove) return;
433 reg->M00_MacControl |= 0x00400000;
434 Wb35Reg_Write( pHwData, 0x0800, reg->M00_MacControl );
436 reg->M00_MacControl&=~0x00400000;
437 Wb35Reg_Write( pHwData, 0x0800, reg->M00_MacControl );
441 void hal_set_accept_multicast( phw_data_t pHwData, u8 enable )
443 struct wb35_reg *reg = &pHwData->reg;
445 if( pHwData->SurpriseRemove ) return;
447 reg->M00_MacControl &= ~0x01000000;//The HW value
448 if (enable) reg->M00_MacControl |= 0x01000000;//The HW value
449 Wb35Reg_Write( pHwData, 0x0800, reg->M00_MacControl );
452 void hal_set_accept_beacon( phw_data_t pHwData, u8 enable )
454 struct wb35_reg *reg = &pHwData->reg;
456 if( pHwData->SurpriseRemove ) return;
459 if( !enable )//Due to SME and MLME are not suitable for 35
462 reg->M00_MacControl &= ~0x04000000;//The HW value
464 reg->M00_MacControl |= 0x04000000;//The HW value
466 Wb35Reg_Write( pHwData, 0x0800, reg->M00_MacControl );
468 //---------------------------------------------------------------------------------------------------
470 void hal_stop( phw_data_t pHwData )
472 struct wb35_reg *reg = &pHwData->reg;
474 pHwData->Wb35Rx.rx_halt = 1;
475 Wb35Rx_stop( pHwData );
477 pHwData->Wb35Tx.tx_halt = 1;
478 Wb35Tx_stop( pHwData );
480 reg->D00_DmaControl &= ~0xc0000000;//Tx Off, Rx Off
481 Wb35Reg_Write( pHwData, 0x0400, reg->D00_DmaControl );
484 unsigned char hal_idle(phw_data_t pHwData)
486 struct wb35_reg *reg = &pHwData->reg;
487 PWBUSB pWbUsb = &pHwData->WbUsb;
489 if( !pHwData->SurpriseRemove && ( pWbUsb->DetectCount || reg->EP0vm_state!=VM_STOP ) )
494 //---------------------------------------------------------------------------------------------------
495 void hal_set_phy_type( phw_data_t pHwData, u8 PhyType )
497 pHwData->phy_type = PhyType;
500 void hal_set_radio_mode( phw_data_t pHwData, unsigned char radio_off)
502 struct wb35_reg *reg = &pHwData->reg;
504 if( pHwData->SurpriseRemove ) return;
506 if (radio_off) //disable Baseband receive off
508 pHwData->CurrentRadioSw = 1; // off
509 reg->M24_MacControl &= 0xffffffbf;
513 pHwData->CurrentRadioSw = 0; // on
514 reg->M24_MacControl |= 0x00000040;
516 Wb35Reg_Write( pHwData, 0x0824, reg->M24_MacControl );
519 u8 hal_get_antenna_number( phw_data_t pHwData )
521 struct wb35_reg *reg = &pHwData->reg;
523 if ((reg->BB2C & BIT(11)) == 0)
529 //----------------------------------------------------------------------------------------------------
530 //0 : radio on; 1: radio off
531 u8 hal_get_hw_radio_off( phw_data_t pHwData )
533 struct wb35_reg *reg = &pHwData->reg;
535 if( pHwData->SurpriseRemove ) return 1;
537 //read the bit16 of register U1B0
538 Wb35Reg_Read( pHwData, 0x3b0, ®->U1B0 );
539 if ((reg->U1B0 & 0x00010000)) {
540 pHwData->CurrentRadioHw = 1;
543 pHwData->CurrentRadioHw = 0;
548 unsigned char hal_get_dxx_reg( phw_data_t pHwData, u16 number, u32 * pValue )
550 if( number < 0x1000 )
552 return Wb35Reg_ReadSync( pHwData, number, pValue );
555 unsigned char hal_set_dxx_reg( phw_data_t pHwData, u16 number, u32 value )
559 if( number < 0x1000 )
561 ret = Wb35Reg_WriteSync( pHwData, number, value );
565 void hal_set_rf_power(phw_data_t pHwData, u8 PowerIndex)
567 RFSynthesizer_SetPowerIndex( pHwData, PowerIndex );