1 // SPDX-License-Identifier: GPL-2.0
2 #include "r8192U.h"
3 #include "r8192U_hw.h"
4 #include "r819xU_phy.h"
5 #include "r819xU_phyreg.h"
6 #include "r8190_rtl8256.h"
7 #include "r8192U_dm.h"
8 #include "r819xU_firmware_img.h"
9 
10 #include "ieee80211/dot11d.h"
11 #include <linux/bitops.h>
12 
13 static u32 RF_CHANNEL_TABLE_ZEBRA[] = {
14 	0,
15 	0x085c, /* 2412 1  */
16 	0x08dc, /* 2417 2  */
17 	0x095c, /* 2422 3  */
18 	0x09dc, /* 2427 4  */
19 	0x0a5c, /* 2432 5  */
20 	0x0adc, /* 2437 6  */
21 	0x0b5c, /* 2442 7  */
22 	0x0bdc, /* 2447 8  */
23 	0x0c5c, /* 2452 9  */
24 	0x0cdc, /* 2457 10 */
25 	0x0d5c, /* 2462 11 */
26 	0x0ddc, /* 2467 12 */
27 	0x0e5c, /* 2472 13 */
28 	0x0f72, /* 2484    */
29 };
30 
31 #define rtl819XMACPHY_Array Rtl8192UsbMACPHY_Array
32 
33 /******************************************************************************
34  * function:  This function checks different RF type to execute legal judgement.
35  *            If RF Path is illegal, we will return false.
36  * input:     net_device	 *dev
37  *            u32		 e_rfpath
38  * output:    none
39  * return:    0(illegal, false), 1(legal, true)
40  *****************************************************************************/
rtl8192_phy_CheckIsLegalRFPath(struct net_device * dev,u32 e_rfpath)41 u8 rtl8192_phy_CheckIsLegalRFPath(struct net_device *dev, u32 e_rfpath)
42 {
43 	u8 ret = 1;
44 	struct r8192_priv *priv = ieee80211_priv(dev);
45 
46 	if (priv->rf_type == RF_2T4R) {
47 		ret = 0;
48 	} else if (priv->rf_type == RF_1T2R) {
49 		if (e_rfpath == RF90_PATH_A || e_rfpath == RF90_PATH_B)
50 			ret = 1;
51 		else if (e_rfpath == RF90_PATH_C || e_rfpath == RF90_PATH_D)
52 			ret = 0;
53 	}
54 	return ret;
55 }
56 
57 /******************************************************************************
58  * function:  This function sets specific bits to BB register
59  * input:     net_device *dev
60  *            u32        reg_addr   //target addr to be modified
61  *            u32        bitmask    //taget bit pos to be modified
62  *            u32        data       //value to be write
63  * output:    none
64  * return:    none
65  * notice:
66  ******************************************************************************/
rtl8192_setBBreg(struct net_device * dev,u32 reg_addr,u32 bitmask,u32 data)67 void rtl8192_setBBreg(struct net_device *dev, u32 reg_addr, u32 bitmask,
68 		      u32 data)
69 {
70 	u32 reg, bitshift;
71 
72 	if (bitmask != bMaskDWord) {
73 		read_nic_dword(dev, reg_addr, &reg);
74 		bitshift = ffs(bitmask) - 1;
75 		reg &= ~bitmask;
76 		reg |= data << bitshift;
77 		write_nic_dword(dev, reg_addr, reg);
78 	} else {
79 		write_nic_dword(dev, reg_addr, data);
80 	}
81 }
82 
83 /******************************************************************************
84  * function:  This function reads specific bits from BB register
85  * input:     net_device	*dev
86  *            u32		reg_addr   //target addr to be readback
87  *            u32		bitmask    //taget bit pos to be readback
88  * output:    none
89  * return:    u32		data       //the readback register value
90  * notice:
91  ******************************************************************************/
rtl8192_QueryBBReg(struct net_device * dev,u32 reg_addr,u32 bitmask)92 u32 rtl8192_QueryBBReg(struct net_device *dev, u32 reg_addr, u32 bitmask)
93 {
94 	u32 reg, bitshift;
95 
96 	read_nic_dword(dev, reg_addr, &reg);
97 	bitshift = ffs(bitmask) - 1;
98 
99 	return (reg & bitmask) >> bitshift;
100 }
101 
102 static u32 phy_FwRFSerialRead(struct net_device *dev,
103 			      enum rf90_radio_path_e e_rfpath,
104 			      u32 offset);
105 
106 static void phy_FwRFSerialWrite(struct net_device *dev,
107 				enum rf90_radio_path_e e_rfpath,
108 				u32  offset,
109 				u32  data);
110 
111 /******************************************************************************
112  * function:  This function reads register from RF chip
113  * input:     net_device        *dev
114  *            rf90_radio_path_e e_rfpath    //radio path of A/B/C/D
115  *            u32               offset     //target address to be read
116  * output:    none
117  * return:    u32               readback value
118  * notice:    There are three types of serial operations:
119  *            (1) Software serial write.
120  *            (2)Hardware LSSI-Low Speed Serial Interface.
121  *            (3)Hardware HSSI-High speed serial write.
122  *            Driver here need to implement (1) and (2)
123  *            ---need more spec for this information.
124  ******************************************************************************/
rtl8192_phy_RFSerialRead(struct net_device * dev,enum rf90_radio_path_e e_rfpath,u32 offset)125 static u32 rtl8192_phy_RFSerialRead(struct net_device *dev,
126 				    enum rf90_radio_path_e e_rfpath, u32 offset)
127 {
128 	struct r8192_priv *priv = ieee80211_priv(dev);
129 	u32 ret = 0;
130 	u32 new_offset = 0;
131 	BB_REGISTER_DEFINITION_T *pPhyReg = &priv->PHYRegDef[e_rfpath];
132 
133 	rtl8192_setBBreg(dev, pPhyReg->rfLSSIReadBack, bLSSIReadBackData, 0);
134 	/* Make sure RF register offset is correct */
135 	offset &= 0x3f;
136 
137 	/* Switch page for 8256 RF IC */
138 	if (priv->rf_chip == RF_8256) {
139 		if (offset >= 31) {
140 			priv->RfReg0Value[e_rfpath] |= 0x140;
141 			/* Switch to Reg_Mode2 for Reg 31-45 */
142 			rtl8192_setBBreg(dev, pPhyReg->rf3wireOffset,
143 					 bMaskDWord,
144 					 priv->RfReg0Value[e_rfpath]<<16);
145 			/* Modify offset */
146 			new_offset = offset - 30;
147 		} else if (offset >= 16) {
148 			priv->RfReg0Value[e_rfpath] |= 0x100;
149 			priv->RfReg0Value[e_rfpath] &= (~0x40);
150 			/* Switch to Reg_Mode1 for Reg16-30 */
151 			rtl8192_setBBreg(dev, pPhyReg->rf3wireOffset,
152 					 bMaskDWord,
153 					 priv->RfReg0Value[e_rfpath]<<16);
154 
155 			new_offset = offset - 15;
156 		} else {
157 			new_offset = offset;
158 		}
159 	} else {
160 		RT_TRACE((COMP_PHY|COMP_ERR),
161 			 "check RF type here, need to be 8256\n");
162 		new_offset = offset;
163 	}
164 	/* Put desired read addr to LSSI control Register */
165 	rtl8192_setBBreg(dev, pPhyReg->rfHSSIPara2, bLSSIReadAddress,
166 			 new_offset);
167 	/* Issue a posedge trigger */
168 	rtl8192_setBBreg(dev, pPhyReg->rfHSSIPara2,  bLSSIReadEdge, 0x0);
169 	rtl8192_setBBreg(dev, pPhyReg->rfHSSIPara2,  bLSSIReadEdge, 0x1);
170 
171 	/* TODO: we should not delay such a long time. Ask for help from SD3 */
172 	usleep_range(1000, 1000);
173 
174 	ret = rtl8192_QueryBBReg(dev, pPhyReg->rfLSSIReadBack,
175 				 bLSSIReadBackData);
176 
177 	/* Switch back to Reg_Mode0 */
178 	if (priv->rf_chip == RF_8256) {
179 		priv->RfReg0Value[e_rfpath] &= 0xebf;
180 
181 		rtl8192_setBBreg(dev, pPhyReg->rf3wireOffset, bMaskDWord,
182 				 priv->RfReg0Value[e_rfpath] << 16);
183 	}
184 
185 	return ret;
186 }
187 
188 /******************************************************************************
189  * function:  This function writes data to RF register
190  * input:     net_device        *dev
191  *            rf90_radio_path_e e_rfpath  //radio path of A/B/C/D
192  *            u32               offset   //target address to be written
193  *            u32               data	 //the new register data to be written
194  * output:    none
195  * return:    none
196  * notice:    For RF8256 only.
197  * ===========================================================================
198  * Reg Mode	RegCTL[1]	RegCTL[0]		Note
199  *		(Reg00[12])	(Reg00[10])
200  * ===========================================================================
201  * Reg_Mode0	0		x			Reg 0 ~ 15(0x0 ~ 0xf)
202  * ---------------------------------------------------------------------------
203  * Reg_Mode1	1		0			Reg 16 ~ 30(0x1 ~ 0xf)
204  * ---------------------------------------------------------------------------
205  * Reg_Mode2	1		1			Reg 31 ~ 45(0x1 ~ 0xf)
206  * ---------------------------------------------------------------------------
207  *****************************************************************************/
rtl8192_phy_RFSerialWrite(struct net_device * dev,enum rf90_radio_path_e e_rfpath,u32 offset,u32 data)208 static void rtl8192_phy_RFSerialWrite(struct net_device *dev,
209 				      enum rf90_radio_path_e e_rfpath,
210 				      u32 offset,
211 				      u32 data)
212 {
213 	struct r8192_priv *priv = ieee80211_priv(dev);
214 	u32 DataAndAddr = 0, new_offset = 0;
215 	BB_REGISTER_DEFINITION_T	*pPhyReg = &priv->PHYRegDef[e_rfpath];
216 
217 	offset &= 0x3f;
218 	if (priv->rf_chip == RF_8256) {
219 		if (offset >= 31) {
220 			priv->RfReg0Value[e_rfpath] |= 0x140;
221 			rtl8192_setBBreg(dev, pPhyReg->rf3wireOffset,
222 					 bMaskDWord,
223 					 priv->RfReg0Value[e_rfpath] << 16);
224 			new_offset = offset - 30;
225 		} else if (offset >= 16) {
226 			priv->RfReg0Value[e_rfpath] |= 0x100;
227 			priv->RfReg0Value[e_rfpath] &= (~0x40);
228 			rtl8192_setBBreg(dev, pPhyReg->rf3wireOffset,
229 					 bMaskDWord,
230 					 priv->RfReg0Value[e_rfpath]<<16);
231 			new_offset = offset - 15;
232 		} else {
233 			new_offset = offset;
234 		}
235 	} else {
236 		RT_TRACE((COMP_PHY|COMP_ERR),
237 			 "check RF type here, need to be 8256\n");
238 		new_offset = offset;
239 	}
240 
241 	/* Put write addr in [5:0] and write data in [31:16] */
242 	DataAndAddr = (data<<16) | (new_offset&0x3f);
243 
244 	/* Write operation */
245 	rtl8192_setBBreg(dev, pPhyReg->rf3wireOffset, bMaskDWord, DataAndAddr);
246 
247 	if (offset == 0x0)
248 		priv->RfReg0Value[e_rfpath] = data;
249 
250 	/* Switch back to Reg_Mode0 */
251 	if (priv->rf_chip == RF_8256) {
252 		if (offset != 0) {
253 			priv->RfReg0Value[e_rfpath] &= 0xebf;
254 			rtl8192_setBBreg(dev, pPhyReg->rf3wireOffset,
255 					 bMaskDWord,
256 					 priv->RfReg0Value[e_rfpath] << 16);
257 		}
258 	}
259 }
260 
261 /******************************************************************************
262  * function:  This function set specific bits to RF register
263  * input:     net_device        dev
264  *            rf90_radio_path_e e_rfpath  //radio path of A/B/C/D
265  *            u32               reg_addr //target addr to be modified
266  *            u32               bitmask  //taget bit pos to be modified
267  *            u32               data     //value to be written
268  * output:    none
269  * return:    none
270  * notice:
271  *****************************************************************************/
rtl8192_phy_SetRFReg(struct net_device * dev,enum rf90_radio_path_e e_rfpath,u32 reg_addr,u32 bitmask,u32 data)272 void rtl8192_phy_SetRFReg(struct net_device *dev,
273 			  enum rf90_radio_path_e e_rfpath,
274 			  u32 reg_addr, u32 bitmask, u32 data)
275 {
276 	struct r8192_priv *priv = ieee80211_priv(dev);
277 	u32 reg, bitshift;
278 
279 	if (!rtl8192_phy_CheckIsLegalRFPath(dev, e_rfpath))
280 		return;
281 
282 	if (priv->Rf_Mode == RF_OP_By_FW) {
283 		if (bitmask != bMask12Bits) {
284 			/* RF data is 12 bits only */
285 			reg = phy_FwRFSerialRead(dev, e_rfpath, reg_addr);
286 			bitshift =  ffs(bitmask) - 1;
287 			reg &= ~bitmask;
288 			reg |= data << bitshift;
289 
290 			phy_FwRFSerialWrite(dev, e_rfpath, reg_addr, reg);
291 		} else {
292 			phy_FwRFSerialWrite(dev, e_rfpath, reg_addr, data);
293 		}
294 
295 		udelay(200);
296 
297 	} else {
298 		if (bitmask != bMask12Bits) {
299 			/* RF data is 12 bits only */
300 			reg = rtl8192_phy_RFSerialRead(dev, e_rfpath, reg_addr);
301 			bitshift =  ffs(bitmask) - 1;
302 			reg &= ~bitmask;
303 			reg |= data << bitshift;
304 
305 			rtl8192_phy_RFSerialWrite(dev, e_rfpath, reg_addr, reg);
306 		} else {
307 			rtl8192_phy_RFSerialWrite(dev, e_rfpath, reg_addr, data);
308 		}
309 	}
310 }
311 
312 /******************************************************************************
313  * function:  This function reads specific bits from RF register
314  * input:     net_device        *dev
315  *            u32               reg_addr //target addr to be readback
316  *            u32               bitmask  //taget bit pos to be readback
317  * output:    none
318  * return:    u32               data     //the readback register value
319  * notice:
320  *****************************************************************************/
rtl8192_phy_QueryRFReg(struct net_device * dev,enum rf90_radio_path_e e_rfpath,u32 reg_addr,u32 bitmask)321 u32 rtl8192_phy_QueryRFReg(struct net_device *dev,
322 			   enum rf90_radio_path_e e_rfpath,
323 			   u32 reg_addr, u32 bitmask)
324 {
325 	u32 reg, bitshift;
326 	struct r8192_priv *priv = ieee80211_priv(dev);
327 
328 	if (!rtl8192_phy_CheckIsLegalRFPath(dev, e_rfpath))
329 		return 0;
330 	if (priv->Rf_Mode == RF_OP_By_FW) {
331 		reg = phy_FwRFSerialRead(dev, e_rfpath, reg_addr);
332 		udelay(200);
333 	} else {
334 		reg = rtl8192_phy_RFSerialRead(dev, e_rfpath, reg_addr);
335 	}
336 	bitshift =  ffs(bitmask) - 1;
337 	reg = (reg & bitmask) >> bitshift;
338 	return reg;
339 }
340 
341 /******************************************************************************
342  * function:  We support firmware to execute RF-R/W.
343  * input:     net_device        *dev
344  *            rf90_radio_path_e e_rfpath
345  *            u32               offset
346  * output:    none
347  * return:    u32
348  * notice:
349  ****************************************************************************/
phy_FwRFSerialRead(struct net_device * dev,enum rf90_radio_path_e e_rfpath,u32 offset)350 static u32 phy_FwRFSerialRead(struct net_device *dev,
351 			      enum rf90_radio_path_e e_rfpath,
352 			      u32 offset)
353 {
354 	u32		reg = 0;
355 	u32		data = 0;
356 	u8		time = 0;
357 	u32		tmp;
358 
359 	/* Firmware RF Write control.
360 	 * We can not execute the scheme in the initial step.
361 	 * Otherwise, RF-R/W will waste much time.
362 	 * This is only for site survey.
363 	 */
364 	/* 1. Read operation need not insert data. bit 0-11 */
365 	/* 2. Write RF register address. bit 12-19 */
366 	data |= ((offset&0xFF)<<12);
367 	/* 3. Write RF path.  bit 20-21 */
368 	data |= ((e_rfpath&0x3)<<20);
369 	/* 4. Set RF read indicator. bit 22=0 */
370 	/* 5. Trigger Fw to operate the command. bit 31 */
371 	data |= 0x80000000;
372 	/* 6. We can not execute read operation if bit 31 is 1. */
373 	read_nic_dword(dev, QPNR, &tmp);
374 	while (tmp & 0x80000000) {
375 		/* If FW can not finish RF-R/W for more than ?? times.
376 		 * We must reset FW.
377 		 */
378 		if (time++ < 100) {
379 			udelay(10);
380 			read_nic_dword(dev, QPNR, &tmp);
381 		} else {
382 			break;
383 		}
384 	}
385 	/* 7. Execute read operation. */
386 	write_nic_dword(dev, QPNR, data);
387 	/* 8. Check if firmware send back RF content. */
388 	read_nic_dword(dev, QPNR, &tmp);
389 	while (tmp & 0x80000000) {
390 		/* If FW can not finish RF-R/W for more than ?? times.
391 		 * We must reset FW.
392 		 */
393 		if (time++ < 100) {
394 			udelay(10);
395 			read_nic_dword(dev, QPNR, &tmp);
396 		} else {
397 			return 0;
398 		}
399 	}
400 	read_nic_dword(dev, RF_DATA, &reg);
401 
402 	return reg;
403 }
404 
405 /******************************************************************************
406  * function:  We support firmware to execute RF-R/W.
407  * input:     net_device        *dev
408  *            rf90_radio_path_e e_rfpath
409  *            u32               offset
410  *            u32               data
411  * output:    none
412  * return:    none
413  * notice:
414  ****************************************************************************/
phy_FwRFSerialWrite(struct net_device * dev,enum rf90_radio_path_e e_rfpath,u32 offset,u32 data)415 static void phy_FwRFSerialWrite(struct net_device *dev,
416 				enum rf90_radio_path_e e_rfpath,
417 				u32 offset, u32 data)
418 {
419 	u8	time = 0;
420 	u32	tmp;
421 
422 	/* Firmware RF Write control.
423 	 * We can not execute the scheme in the initial step.
424 	 * Otherwise, RF-R/W will waste much time.
425 	 * This is only for site survey.
426 	 */
427 
428 	/* 1. Set driver write bit and 12 bit data. bit 0-11 */
429 	/* 2. Write RF register address. bit 12-19 */
430 	data |= ((offset&0xFF)<<12);
431 	/* 3. Write RF path.  bit 20-21 */
432 	data |= ((e_rfpath&0x3)<<20);
433 	/* 4. Set RF write indicator. bit 22=1 */
434 	data |= 0x400000;
435 	/* 5. Trigger Fw to operate the command. bit 31=1 */
436 	data |= 0x80000000;
437 
438 	/* 6. Write operation. We can not write if bit 31 is 1. */
439 	read_nic_dword(dev, QPNR, &tmp);
440 	while (tmp & 0x80000000) {
441 		/* If FW can not finish RF-R/W for more than ?? times.
442 		 * We must reset FW.
443 		 */
444 		if (time++ < 100) {
445 			udelay(10);
446 			read_nic_dword(dev, QPNR, &tmp);
447 		} else {
448 			break;
449 		}
450 	}
451 	/* 7. No matter check bit. We always force the write.
452 	 * Because FW will not accept the command.
453 	 */
454 	write_nic_dword(dev, QPNR, data);
455 	/* According to test, we must delay 20us to wait firmware
456 	 * to finish RF write operation.
457 	 */
458 	/* We support delay in firmware side now. */
459 }
460 
461 /******************************************************************************
462  * function:  This function reads BB parameters from header file we generate,
463  *            and do register read/write
464  * input:     net_device	*dev
465  * output:    none
466  * return:    none
467  * notice:    BB parameters may change all the time, so please make
468  *            sure it has been synced with the newest.
469  *****************************************************************************/
rtl8192_phy_configmac(struct net_device * dev)470 void rtl8192_phy_configmac(struct net_device *dev)
471 {
472 	u32 dwArrayLen = 0, i;
473 	u32 *pdwArray = NULL;
474 	struct r8192_priv *priv = ieee80211_priv(dev);
475 
476 	if (priv->btxpowerdata_readfromEEPORM) {
477 		RT_TRACE(COMP_PHY, "Rtl819XMACPHY_Array_PG\n");
478 		dwArrayLen = MACPHY_Array_PGLength;
479 		pdwArray = Rtl8192UsbMACPHY_Array_PG;
480 
481 	} else {
482 		RT_TRACE(COMP_PHY, "Rtl819XMACPHY_Array\n");
483 		dwArrayLen = MACPHY_ArrayLength;
484 		pdwArray = rtl819XMACPHY_Array;
485 	}
486 	for (i = 0; i < dwArrayLen; i = i+3) {
487 		if (pdwArray[i] == 0x318)
488 			pdwArray[i+2] = 0x00000800;
489 
490 		RT_TRACE(COMP_DBG,
491 			 "Rtl8190MACPHY_Array[0]=%x Rtl8190MACPHY_Array[1]=%x Rtl8190MACPHY_Array[2]=%x\n",
492 			 pdwArray[i], pdwArray[i+1], pdwArray[i+2]);
493 		rtl8192_setBBreg(dev, pdwArray[i], pdwArray[i+1],
494 				 pdwArray[i+2]);
495 	}
496 }
497 
498 /******************************************************************************
499  * function:  This function does dirty work
500  * input:     net_device	*dev
501  *            u8                ConfigType
502  * output:    none
503  * return:    none
504  * notice:    BB parameters may change all the time, so please make
505  *            sure it has been synced with the newest.
506  *****************************************************************************/
rtl8192_phyConfigBB(struct net_device * dev,enum baseband_config_type ConfigType)507 static void rtl8192_phyConfigBB(struct net_device *dev,
508 				enum baseband_config_type ConfigType)
509 {
510 	u32 i;
511 
512 	if (ConfigType == BASEBAND_CONFIG_PHY_REG) {
513 		for (i = 0; i < PHY_REG_1T2RArrayLength; i += 2) {
514 			rtl8192_setBBreg(dev, Rtl8192UsbPHY_REG_1T2RArray[i],
515 					 bMaskDWord,
516 					 Rtl8192UsbPHY_REG_1T2RArray[i+1]);
517 			RT_TRACE(COMP_DBG,
518 				 "i: %x, Rtl819xUsbPHY_REGArray[0]=%x Rtl819xUsbPHY_REGArray[1]=%x\n",
519 				 i, Rtl8192UsbPHY_REG_1T2RArray[i],
520 				 Rtl8192UsbPHY_REG_1T2RArray[i+1]);
521 		}
522 	} else if (ConfigType == BASEBAND_CONFIG_AGC_TAB) {
523 		for (i = 0; i < AGCTAB_ArrayLength; i += 2) {
524 			rtl8192_setBBreg(dev, Rtl8192UsbAGCTAB_Array[i],
525 					 bMaskDWord, Rtl8192UsbAGCTAB_Array[i+1]);
526 			RT_TRACE(COMP_DBG,
527 				 "i: %x, Rtl8192UsbAGCTAB_Array[0]=%x Rtl8192UsbAGCTAB_Array[1]=%x\n",
528 				 i, Rtl8192UsbAGCTAB_Array[i],
529 				 Rtl8192UsbAGCTAB_Array[i+1]);
530 		}
531 	}
532 }
533 
534 /******************************************************************************
535  * function:  This function initializes Register definition offset for
536  *            Radio Path A/B/C/D
537  * input:     net_device	*dev
538  * output:    none
539  * return:    none
540  * notice:    Initialization value here is constant and it should never
541  *            be changed
542  *****************************************************************************/
rtl8192_InitBBRFRegDef(struct net_device * dev)543 static void rtl8192_InitBBRFRegDef(struct net_device *dev)
544 {
545 	struct r8192_priv *priv = ieee80211_priv(dev);
546 
547 	/* RF Interface Software Control */
548 	/* 16 LSBs if read 32-bit from 0x870 */
549 	priv->PHYRegDef[RF90_PATH_A].rfintfs = rFPGA0_XAB_RFInterfaceSW;
550 	/* 16 MSBs if read 32-bit from 0x870 (16-bit for 0x872) */
551 	priv->PHYRegDef[RF90_PATH_B].rfintfs = rFPGA0_XAB_RFInterfaceSW;
552 	/* 16 LSBs if read 32-bit from 0x874 */
553 	priv->PHYRegDef[RF90_PATH_C].rfintfs = rFPGA0_XCD_RFInterfaceSW;
554 	/* 16 MSBs if read 32-bit from 0x874 (16-bit for 0x876) */
555 	priv->PHYRegDef[RF90_PATH_D].rfintfs = rFPGA0_XCD_RFInterfaceSW;
556 
557 	/* RF Interface Readback Value */
558 	/* 16 LSBs if read 32-bit from 0x8E0 */
559 	priv->PHYRegDef[RF90_PATH_A].rfintfi = rFPGA0_XAB_RFInterfaceRB;
560 	/* 16 MSBs if read 32-bit from 0x8E0 (16-bit for 0x8E2) */
561 	priv->PHYRegDef[RF90_PATH_B].rfintfi = rFPGA0_XAB_RFInterfaceRB;
562 	/* 16 LSBs if read 32-bit from 0x8E4 */
563 	priv->PHYRegDef[RF90_PATH_C].rfintfi = rFPGA0_XCD_RFInterfaceRB;
564 	/* 16 MSBs if read 32-bit from 0x8E4 (16-bit for 0x8E6) */
565 	priv->PHYRegDef[RF90_PATH_D].rfintfi = rFPGA0_XCD_RFInterfaceRB;
566 
567 	/* RF Interface Output (and Enable) */
568 	/* 16 LSBs if read 32-bit from 0x860 */
569 	priv->PHYRegDef[RF90_PATH_A].rfintfo = rFPGA0_XA_RFInterfaceOE;
570 	/* 16 LSBs if read 32-bit from 0x864 */
571 	priv->PHYRegDef[RF90_PATH_B].rfintfo = rFPGA0_XB_RFInterfaceOE;
572 	/* 16 LSBs if read 32-bit from 0x868 */
573 	priv->PHYRegDef[RF90_PATH_C].rfintfo = rFPGA0_XC_RFInterfaceOE;
574 	/* 16 LSBs if read 32-bit from 0x86C */
575 	priv->PHYRegDef[RF90_PATH_D].rfintfo = rFPGA0_XD_RFInterfaceOE;
576 
577 	/* RF Interface (Output and) Enable */
578 	/* 16 MSBs if read 32-bit from 0x860 (16-bit for 0x862) */
579 	priv->PHYRegDef[RF90_PATH_A].rfintfe = rFPGA0_XA_RFInterfaceOE;
580 	/* 16 MSBs if read 32-bit from 0x864 (16-bit for 0x866) */
581 	priv->PHYRegDef[RF90_PATH_B].rfintfe = rFPGA0_XB_RFInterfaceOE;
582 	/* 16 MSBs if read 32-bit from 0x86A (16-bit for 0x86A) */
583 	priv->PHYRegDef[RF90_PATH_C].rfintfe = rFPGA0_XC_RFInterfaceOE;
584 	/* 16 MSBs if read 32-bit from 0x86C (16-bit for 0x86E) */
585 	priv->PHYRegDef[RF90_PATH_D].rfintfe = rFPGA0_XD_RFInterfaceOE;
586 
587 	/* Addr of LSSI. Write RF register by driver */
588 	priv->PHYRegDef[RF90_PATH_A].rf3wireOffset = rFPGA0_XA_LSSIParameter;
589 	priv->PHYRegDef[RF90_PATH_B].rf3wireOffset = rFPGA0_XB_LSSIParameter;
590 	priv->PHYRegDef[RF90_PATH_C].rf3wireOffset = rFPGA0_XC_LSSIParameter;
591 	priv->PHYRegDef[RF90_PATH_D].rf3wireOffset = rFPGA0_XD_LSSIParameter;
592 
593 	/* RF parameter */
594 	/* BB Band Select */
595 	priv->PHYRegDef[RF90_PATH_A].rfLSSI_Select = rFPGA0_XAB_RFParameter;
596 	priv->PHYRegDef[RF90_PATH_B].rfLSSI_Select = rFPGA0_XAB_RFParameter;
597 	priv->PHYRegDef[RF90_PATH_C].rfLSSI_Select = rFPGA0_XCD_RFParameter;
598 	priv->PHYRegDef[RF90_PATH_D].rfLSSI_Select = rFPGA0_XCD_RFParameter;
599 
600 	/* Tx AGC Gain Stage (same for all path. Should we remove this?) */
601 	priv->PHYRegDef[RF90_PATH_A].rfTxGainStage = rFPGA0_TxGainStage;
602 	priv->PHYRegDef[RF90_PATH_B].rfTxGainStage = rFPGA0_TxGainStage;
603 	priv->PHYRegDef[RF90_PATH_C].rfTxGainStage = rFPGA0_TxGainStage;
604 	priv->PHYRegDef[RF90_PATH_D].rfTxGainStage = rFPGA0_TxGainStage;
605 
606 	/* Tranceiver A~D HSSI Parameter-1 */
607 	/* wire control parameter1 */
608 	priv->PHYRegDef[RF90_PATH_A].rfHSSIPara1 = rFPGA0_XA_HSSIParameter1;
609 	priv->PHYRegDef[RF90_PATH_B].rfHSSIPara1 = rFPGA0_XB_HSSIParameter1;
610 	priv->PHYRegDef[RF90_PATH_C].rfHSSIPara1 = rFPGA0_XC_HSSIParameter1;
611 	priv->PHYRegDef[RF90_PATH_D].rfHSSIPara1 = rFPGA0_XD_HSSIParameter1;
612 
613 	/* Tranceiver A~D HSSI Parameter-2 */
614 	/* wire control parameter2 */
615 	priv->PHYRegDef[RF90_PATH_A].rfHSSIPara2 = rFPGA0_XA_HSSIParameter2;
616 	priv->PHYRegDef[RF90_PATH_B].rfHSSIPara2 = rFPGA0_XB_HSSIParameter2;
617 	priv->PHYRegDef[RF90_PATH_C].rfHSSIPara2 = rFPGA0_XC_HSSIParameter2;
618 	priv->PHYRegDef[RF90_PATH_D].rfHSSIPara2 = rFPGA0_XD_HSSIParameter2;
619 
620 	/* RF Switch Control */
621 	/* TR/Ant switch control */
622 	priv->PHYRegDef[RF90_PATH_A].rfSwitchControl = rFPGA0_XAB_SwitchControl;
623 	priv->PHYRegDef[RF90_PATH_B].rfSwitchControl = rFPGA0_XAB_SwitchControl;
624 	priv->PHYRegDef[RF90_PATH_C].rfSwitchControl = rFPGA0_XCD_SwitchControl;
625 	priv->PHYRegDef[RF90_PATH_D].rfSwitchControl = rFPGA0_XCD_SwitchControl;
626 
627 	/* AGC control 1 */
628 	priv->PHYRegDef[RF90_PATH_A].rfAGCControl1 = rOFDM0_XAAGCCore1;
629 	priv->PHYRegDef[RF90_PATH_B].rfAGCControl1 = rOFDM0_XBAGCCore1;
630 	priv->PHYRegDef[RF90_PATH_C].rfAGCControl1 = rOFDM0_XCAGCCore1;
631 	priv->PHYRegDef[RF90_PATH_D].rfAGCControl1 = rOFDM0_XDAGCCore1;
632 
633 	/* AGC control 2 */
634 	priv->PHYRegDef[RF90_PATH_A].rfAGCControl2 = rOFDM0_XAAGCCore2;
635 	priv->PHYRegDef[RF90_PATH_B].rfAGCControl2 = rOFDM0_XBAGCCore2;
636 	priv->PHYRegDef[RF90_PATH_C].rfAGCControl2 = rOFDM0_XCAGCCore2;
637 	priv->PHYRegDef[RF90_PATH_D].rfAGCControl2 = rOFDM0_XDAGCCore2;
638 
639 	/* RX AFE control 1 */
640 	priv->PHYRegDef[RF90_PATH_A].rfRxIQImbalance = rOFDM0_XARxIQImbalance;
641 	priv->PHYRegDef[RF90_PATH_B].rfRxIQImbalance = rOFDM0_XBRxIQImbalance;
642 	priv->PHYRegDef[RF90_PATH_C].rfRxIQImbalance = rOFDM0_XCRxIQImbalance;
643 	priv->PHYRegDef[RF90_PATH_D].rfRxIQImbalance = rOFDM0_XDRxIQImbalance;
644 
645 	/* RX AFE control 1 */
646 	priv->PHYRegDef[RF90_PATH_A].rfRxAFE = rOFDM0_XARxAFE;
647 	priv->PHYRegDef[RF90_PATH_B].rfRxAFE = rOFDM0_XBRxAFE;
648 	priv->PHYRegDef[RF90_PATH_C].rfRxAFE = rOFDM0_XCRxAFE;
649 	priv->PHYRegDef[RF90_PATH_D].rfRxAFE = rOFDM0_XDRxAFE;
650 
651 	/* Tx AFE control 1 */
652 	priv->PHYRegDef[RF90_PATH_A].rfTxIQImbalance = rOFDM0_XATxIQImbalance;
653 	priv->PHYRegDef[RF90_PATH_B].rfTxIQImbalance = rOFDM0_XBTxIQImbalance;
654 	priv->PHYRegDef[RF90_PATH_C].rfTxIQImbalance = rOFDM0_XCTxIQImbalance;
655 	priv->PHYRegDef[RF90_PATH_D].rfTxIQImbalance = rOFDM0_XDTxIQImbalance;
656 
657 	/* Tx AFE control 2 */
658 	priv->PHYRegDef[RF90_PATH_A].rfTxAFE = rOFDM0_XATxAFE;
659 	priv->PHYRegDef[RF90_PATH_B].rfTxAFE = rOFDM0_XBTxAFE;
660 	priv->PHYRegDef[RF90_PATH_C].rfTxAFE = rOFDM0_XCTxAFE;
661 	priv->PHYRegDef[RF90_PATH_D].rfTxAFE = rOFDM0_XDTxAFE;
662 
663 	/* Tranceiver LSSI Readback */
664 	priv->PHYRegDef[RF90_PATH_A].rfLSSIReadBack = rFPGA0_XA_LSSIReadBack;
665 	priv->PHYRegDef[RF90_PATH_B].rfLSSIReadBack = rFPGA0_XB_LSSIReadBack;
666 	priv->PHYRegDef[RF90_PATH_C].rfLSSIReadBack = rFPGA0_XC_LSSIReadBack;
667 	priv->PHYRegDef[RF90_PATH_D].rfLSSIReadBack = rFPGA0_XD_LSSIReadBack;
668 }
669 
670 /******************************************************************************
671  * function:  This function is to write register and then readback to make
672  *            sure whether BB and RF is OK
673  * input:     net_device        *dev
674  *            hw90_block_e      CheckBlock
675  *            rf90_radio_path_e e_rfpath  //only used when checkblock is
676  *                                       //HW90_BLOCK_RF
677  * output:    none
678  * return:    return whether BB and RF is ok (0:OK, 1:Fail)
679  * notice:    This function may be removed in the ASIC
680  ******************************************************************************/
rtl8192_phy_checkBBAndRF(struct net_device * dev,enum hw90_block_e CheckBlock,enum rf90_radio_path_e e_rfpath)681 u8 rtl8192_phy_checkBBAndRF(struct net_device *dev, enum hw90_block_e CheckBlock,
682 			    enum rf90_radio_path_e e_rfpath)
683 {
684 	u8 ret = 0;
685 	u32 i, CheckTimes = 4, reg = 0;
686 	u32 WriteAddr[4];
687 	u32 WriteData[] = {0xfffff027, 0xaa55a02f, 0x00000027, 0x55aa502f};
688 
689 	/* Initialize register address offset to be checked */
690 	WriteAddr[HW90_BLOCK_MAC] = 0x100;
691 	WriteAddr[HW90_BLOCK_PHY0] = 0x900;
692 	WriteAddr[HW90_BLOCK_PHY1] = 0x800;
693 	WriteAddr[HW90_BLOCK_RF] = 0x3;
694 	RT_TRACE(COMP_PHY, "%s(), CheckBlock: %d\n", __func__, CheckBlock);
695 	for (i = 0; i < CheckTimes; i++) {
696 		/* Write data to register and readback */
697 		switch (CheckBlock) {
698 		case HW90_BLOCK_MAC:
699 			RT_TRACE(COMP_ERR,
700 				 "PHY_CheckBBRFOK(): Never Write 0x100 here!\n");
701 			break;
702 
703 		case HW90_BLOCK_PHY0:
704 		case HW90_BLOCK_PHY1:
705 			write_nic_dword(dev, WriteAddr[CheckBlock],
706 					WriteData[i]);
707 			read_nic_dword(dev, WriteAddr[CheckBlock], &reg);
708 			break;
709 
710 		case HW90_BLOCK_RF:
711 			WriteData[i] &= 0xfff;
712 			rtl8192_phy_SetRFReg(dev, e_rfpath,
713 					     WriteAddr[HW90_BLOCK_RF],
714 					     bMask12Bits, WriteData[i]);
715 			/* TODO: we should not delay for such a long time.
716 			 * Ask SD3
717 			 */
718 			usleep_range(1000, 1000);
719 			reg = rtl8192_phy_QueryRFReg(dev, e_rfpath,
720 						     WriteAddr[HW90_BLOCK_RF],
721 						     bMask12Bits);
722 			usleep_range(1000, 1000);
723 			break;
724 
725 		default:
726 			ret = 1;
727 			break;
728 		}
729 
730 		/* Check whether readback data is correct */
731 		if (reg != WriteData[i]) {
732 			RT_TRACE((COMP_PHY|COMP_ERR),
733 				 "error reg: %x, WriteData: %x\n",
734 				 reg, WriteData[i]);
735 			ret = 1;
736 			break;
737 		}
738 	}
739 
740 	return ret;
741 }
742 
743 /******************************************************************************
744  * function:  This function initializes BB&RF
745  * input:     net_device	*dev
746  * output:    none
747  * return:    none
748  * notice:    Initialization value may change all the time, so please make
749  *            sure it has been synced with the newest.
750  ******************************************************************************/
rtl8192_BB_Config_ParaFile(struct net_device * dev)751 static void rtl8192_BB_Config_ParaFile(struct net_device *dev)
752 {
753 	struct r8192_priv *priv = ieee80211_priv(dev);
754 	u8 reg_u8 = 0, eCheckItem = 0, status = 0;
755 	u32 reg_u32 = 0;
756 
757 	/**************************************
758 	 * <1> Initialize BaseBand
759 	 *************************************/
760 
761 	/* --set BB Global Reset-- */
762 	read_nic_byte(dev, BB_GLOBAL_RESET, &reg_u8);
763 	write_nic_byte(dev, BB_GLOBAL_RESET, (reg_u8|BB_GLOBAL_RESET_BIT));
764 	mdelay(50);
765 	/* ---set BB reset Active--- */
766 	read_nic_dword(dev, CPU_GEN, &reg_u32);
767 	write_nic_dword(dev, CPU_GEN, (reg_u32&(~CPU_GEN_BB_RST)));
768 
769 	/* ----Ckeck FPGAPHY0 and PHY1 board is OK---- */
770 	/* TODO: this function should be removed on ASIC */
771 	for (eCheckItem = (enum hw90_block_e)HW90_BLOCK_PHY0;
772 	     eCheckItem <= HW90_BLOCK_PHY1; eCheckItem++) {
773 		/* don't care RF path */
774 		status = rtl8192_phy_checkBBAndRF(dev, (enum hw90_block_e)eCheckItem,
775 						  (enum rf90_radio_path_e)0);
776 		if (status != 0) {
777 			RT_TRACE((COMP_ERR | COMP_PHY),
778 				 "phy_rf8256_config(): Check PHY%d Fail!!\n",
779 				 eCheckItem-1);
780 			return;
781 		}
782 	}
783 	/* ---- Set CCK and OFDM Block "OFF"---- */
784 	rtl8192_setBBreg(dev, rFPGA0_RFMOD, bCCKEn|bOFDMEn, 0x0);
785 	/* ----BB Register Initilazation---- */
786 	/* ==m==>Set PHY REG From Header<==m== */
787 	rtl8192_phyConfigBB(dev, BASEBAND_CONFIG_PHY_REG);
788 
789 	/* ----Set BB reset de-Active---- */
790 	read_nic_dword(dev, CPU_GEN, &reg_u32);
791 	write_nic_dword(dev, CPU_GEN, (reg_u32|CPU_GEN_BB_RST));
792 
793 	/* ----BB AGC table Initialization---- */
794 	/* ==m==>Set PHY REG From Header<==m== */
795 	rtl8192_phyConfigBB(dev, BASEBAND_CONFIG_AGC_TAB);
796 
797 	/* ----Enable XSTAL ---- */
798 	write_nic_byte_E(dev, 0x5e, 0x00);
799 	if (priv->card_8192_version == VERSION_819XU_A) {
800 		/* Antenna gain offset from B/C/D to A */
801 		reg_u32 = priv->AntennaTxPwDiff[1]<<4 |
802 			   priv->AntennaTxPwDiff[0];
803 		rtl8192_setBBreg(dev, rFPGA0_TxGainStage, (bXBTxAGC|bXCTxAGC),
804 				 reg_u32);
805 
806 		/* XSTALLCap */
807 		reg_u32 = priv->CrystalCap & 0xf;
808 		rtl8192_setBBreg(dev, rFPGA0_AnalogParameter1, bXtalCap,
809 				 reg_u32);
810 	}
811 
812 	/* Check if the CCK HighPower is turned ON.
813 	 * This is used to calculate PWDB.
814 	 */
815 	priv->bCckHighPower = (u8)rtl8192_QueryBBReg(dev,
816 						     rFPGA0_XA_HSSIParameter2,
817 						     0x200);
818 }
819 
820 /******************************************************************************
821  * function:  This function initializes BB&RF
822  * input:     net_device	*dev
823  * output:    none
824  * return:    none
825  * notice:    Initialization value may change all the time, so please make
826  *            sure it has been synced with the newest.
827  *****************************************************************************/
rtl8192_BBConfig(struct net_device * dev)828 void rtl8192_BBConfig(struct net_device *dev)
829 {
830 	rtl8192_InitBBRFRegDef(dev);
831 	/* config BB&RF. As hardCode based initialization has not been well
832 	 * implemented, so use file first.
833 	 * FIXME: should implement it for hardcode?
834 	 */
835 	rtl8192_BB_Config_ParaFile(dev);
836 }
837 
838 /******************************************************************************
839  * function:  This function obtains the initialization value of Tx power Level
840  *            offset
841  * input:     net_device	*dev
842  * output:    none
843  * return:    none
844  *****************************************************************************/
rtl8192_phy_getTxPower(struct net_device * dev)845 void rtl8192_phy_getTxPower(struct net_device *dev)
846 {
847 	struct r8192_priv *priv = ieee80211_priv(dev);
848 	u8 tmp;
849 
850 	read_nic_dword(dev, rTxAGC_Rate18_06,
851 		       &priv->MCSTxPowerLevelOriginalOffset[0]);
852 	read_nic_dword(dev, rTxAGC_Rate54_24,
853 		       &priv->MCSTxPowerLevelOriginalOffset[1]);
854 	read_nic_dword(dev, rTxAGC_Mcs03_Mcs00,
855 		       &priv->MCSTxPowerLevelOriginalOffset[2]);
856 	read_nic_dword(dev, rTxAGC_Mcs07_Mcs04,
857 		       &priv->MCSTxPowerLevelOriginalOffset[3]);
858 	read_nic_dword(dev, rTxAGC_Mcs11_Mcs08,
859 		       &priv->MCSTxPowerLevelOriginalOffset[4]);
860 	read_nic_dword(dev, rTxAGC_Mcs15_Mcs12,
861 		       &priv->MCSTxPowerLevelOriginalOffset[5]);
862 
863 	/* Read rx initial gain */
864 	read_nic_byte(dev, rOFDM0_XAAGCCore1, &priv->DefaultInitialGain[0]);
865 	read_nic_byte(dev, rOFDM0_XBAGCCore1, &priv->DefaultInitialGain[1]);
866 	read_nic_byte(dev, rOFDM0_XCAGCCore1, &priv->DefaultInitialGain[2]);
867 	read_nic_byte(dev, rOFDM0_XDAGCCore1, &priv->DefaultInitialGain[3]);
868 	RT_TRACE(COMP_INIT,
869 		 "Default initial gain (c50=0x%x, c58=0x%x, c60=0x%x, c68=0x%x)\n",
870 		 priv->DefaultInitialGain[0], priv->DefaultInitialGain[1],
871 		 priv->DefaultInitialGain[2], priv->DefaultInitialGain[3]);
872 
873 	/* Read framesync */
874 	read_nic_byte(dev, rOFDM0_RxDetector3, &priv->framesync);
875 	read_nic_byte(dev, rOFDM0_RxDetector2, &tmp);
876 	priv->framesyncC34 = tmp;
877 	RT_TRACE(COMP_INIT, "Default framesync (0x%x) = 0x%x\n",
878 		rOFDM0_RxDetector3, priv->framesync);
879 
880 	/* Read SIFS (save the value read fome MACPHY_REG.txt) */
881 	read_nic_word(dev, SIFS, &priv->SifsTime);
882 }
883 
884 /******************************************************************************
885  * function:  This function sets the initialization value of Tx power Level
886  *            offset
887  * input:     net_device        *dev
888  *            u8                channel
889  * output:    none
890  * return:    none
891  ******************************************************************************/
rtl8192_phy_setTxPower(struct net_device * dev,u8 channel)892 void rtl8192_phy_setTxPower(struct net_device *dev, u8 channel)
893 {
894 	struct r8192_priv *priv = ieee80211_priv(dev);
895 	u8	powerlevel = priv->TxPowerLevelCCK[channel-1];
896 	u8	powerlevelOFDM24G = priv->TxPowerLevelOFDM24G[channel-1];
897 
898 	switch (priv->rf_chip) {
899 	case RF_8256:
900 		/* need further implement */
901 		phy_set_rf8256_cck_tx_power(dev, powerlevel);
902 		phy_set_rf8256_ofdm_tx_power(dev, powerlevelOFDM24G);
903 		break;
904 	default:
905 		RT_TRACE((COMP_PHY|COMP_ERR),
906 			 "error RF chipID(8225 or 8258) in function %s()\n",
907 			 __func__);
908 		break;
909 	}
910 }
911 
912 /******************************************************************************
913  * function:  This function checks Rf chip to do RF config
914  * input:     net_device	*dev
915  * output:    none
916  * return:    only 8256 is supported
917  ******************************************************************************/
rtl8192_phy_RFConfig(struct net_device * dev)918 void rtl8192_phy_RFConfig(struct net_device *dev)
919 {
920 	struct r8192_priv *priv = ieee80211_priv(dev);
921 
922 	switch (priv->rf_chip) {
923 	case RF_8256:
924 		phy_rf8256_config(dev);
925 		break;
926 	default:
927 		RT_TRACE(COMP_ERR, "error chip id\n");
928 		break;
929 	}
930 }
931 
932 /******************************************************************************
933  * function:  This function updates Initial gain
934  * input:     net_device	*dev
935  * output:    none
936  * return:    As Windows has not implemented this, wait for complement
937  ******************************************************************************/
rtl8192_phy_updateInitGain(struct net_device * dev)938 void rtl8192_phy_updateInitGain(struct net_device *dev)
939 {
940 }
941 
942 /******************************************************************************
943  * function:  This function read RF parameters from general head file,
944  *            and do RF 3-wire
945  * input:     net_device	*dev
946  *            rf90_radio_path_e e_rfpath
947  * output:    none
948  * return:    return code show if RF configuration is successful(0:pass, 1:fail)
949  * notice:    Delay may be required for RF configuration
950  *****************************************************************************/
rtl8192_phy_ConfigRFWithHeaderFile(struct net_device * dev,enum rf90_radio_path_e e_rfpath)951 u8 rtl8192_phy_ConfigRFWithHeaderFile(struct net_device *dev,
952 				      enum rf90_radio_path_e	e_rfpath)
953 {
954 	int i;
955 
956 	switch (e_rfpath) {
957 	case RF90_PATH_A:
958 		for (i = 0; i < RadioA_ArrayLength; i = i+2) {
959 			if (Rtl8192UsbRadioA_Array[i] == 0xfe) {
960 				mdelay(100);
961 				continue;
962 			}
963 			rtl8192_phy_SetRFReg(dev, e_rfpath,
964 					     Rtl8192UsbRadioA_Array[i],
965 					     bMask12Bits,
966 					     Rtl8192UsbRadioA_Array[i+1]);
967 			mdelay(1);
968 		}
969 		break;
970 	case RF90_PATH_B:
971 		for (i = 0; i < RadioB_ArrayLength; i = i+2) {
972 			if (Rtl8192UsbRadioB_Array[i] == 0xfe) {
973 				mdelay(100);
974 				continue;
975 			}
976 			rtl8192_phy_SetRFReg(dev, e_rfpath,
977 					     Rtl8192UsbRadioB_Array[i],
978 					     bMask12Bits,
979 					     Rtl8192UsbRadioB_Array[i+1]);
980 			mdelay(1);
981 		}
982 		break;
983 	case RF90_PATH_C:
984 		for (i = 0; i < RadioC_ArrayLength; i = i+2) {
985 			if (Rtl8192UsbRadioC_Array[i] == 0xfe) {
986 				mdelay(100);
987 				continue;
988 			}
989 			rtl8192_phy_SetRFReg(dev, e_rfpath,
990 					     Rtl8192UsbRadioC_Array[i],
991 					     bMask12Bits,
992 					     Rtl8192UsbRadioC_Array[i+1]);
993 			mdelay(1);
994 		}
995 		break;
996 	case RF90_PATH_D:
997 		for (i = 0; i < RadioD_ArrayLength; i = i+2) {
998 			if (Rtl8192UsbRadioD_Array[i] == 0xfe) {
999 				mdelay(100);
1000 				continue;
1001 			}
1002 			rtl8192_phy_SetRFReg(dev, e_rfpath,
1003 					     Rtl8192UsbRadioD_Array[i],
1004 					     bMask12Bits,
1005 					     Rtl8192UsbRadioD_Array[i+1]);
1006 			mdelay(1);
1007 		}
1008 		break;
1009 	default:
1010 		break;
1011 	}
1012 
1013 	return 0;
1014 }
1015 
1016 /******************************************************************************
1017  * function:  This function sets Tx Power of the channel
1018  * input:     net_device        *dev
1019  *            u8                channel
1020  * output:    none
1021  * return:    none
1022  * notice:
1023  ******************************************************************************/
rtl8192_SetTxPowerLevel(struct net_device * dev,u8 channel)1024 static void rtl8192_SetTxPowerLevel(struct net_device *dev, u8 channel)
1025 {
1026 	struct r8192_priv *priv = ieee80211_priv(dev);
1027 	u8	powerlevel = priv->TxPowerLevelCCK[channel-1];
1028 	u8	powerlevelOFDM24G = priv->TxPowerLevelOFDM24G[channel-1];
1029 
1030 	switch (priv->rf_chip) {
1031 	case RF_8225:
1032 		break;
1033 
1034 	case RF_8256:
1035 		phy_set_rf8256_cck_tx_power(dev, powerlevel);
1036 		phy_set_rf8256_ofdm_tx_power(dev, powerlevelOFDM24G);
1037 		break;
1038 
1039 	case RF_8258:
1040 		break;
1041 	default:
1042 		RT_TRACE(COMP_ERR, "unknown rf chip ID in %s()\n", __func__);
1043 		break;
1044 	}
1045 }
1046 
1047 /******************************************************************************
1048  * function:  This function sets RF state on or off
1049  * input:     net_device         *dev
1050  *            RT_RF_POWER_STATE  eRFPowerState  //Power State to set
1051  * output:    none
1052  * return:    none
1053  * notice:
1054  *****************************************************************************/
rtl8192_SetRFPowerState(struct net_device * dev,RT_RF_POWER_STATE eRFPowerState)1055 bool rtl8192_SetRFPowerState(struct net_device *dev,
1056 			     RT_RF_POWER_STATE eRFPowerState)
1057 {
1058 	bool				bResult = true;
1059 	struct r8192_priv *priv = ieee80211_priv(dev);
1060 
1061 	if (eRFPowerState == priv->ieee80211->eRFPowerState)
1062 		return false;
1063 
1064 	if (priv->SetRFPowerStateInProgress)
1065 		return false;
1066 
1067 	priv->SetRFPowerStateInProgress = true;
1068 
1069 	switch (priv->rf_chip) {
1070 	case RF_8256:
1071 		switch (eRFPowerState) {
1072 		case eRfOn:
1073 			/* RF-A, RF-B */
1074 			/* enable RF-Chip A/B - 0x860[4] */
1075 			rtl8192_setBBreg(dev, rFPGA0_XA_RFInterfaceOE, BIT(4),
1076 					 0x1);
1077 			/* analog to digital on - 0x88c[9:8] */
1078 			rtl8192_setBBreg(dev, rFPGA0_AnalogParameter4, 0x300,
1079 					 0x3);
1080 			/* digital to analog on - 0x880[4:3] */
1081 			rtl8192_setBBreg(dev, rFPGA0_AnalogParameter1, 0x18,
1082 					 0x3);
1083 			/* rx antenna on - 0xc04[1:0] */
1084 			rtl8192_setBBreg(dev, rOFDM0_TRxPathEnable, 0x3, 0x3);
1085 			/* rx antenna on - 0xd04[1:0] */
1086 			rtl8192_setBBreg(dev, rOFDM1_TRxPathEnable, 0x3, 0x3);
1087 			/* analog to digital part2 on - 0x880[6:5] */
1088 			rtl8192_setBBreg(dev, rFPGA0_AnalogParameter1, 0x60,
1089 					 0x3);
1090 
1091 			break;
1092 
1093 		case eRfSleep:
1094 
1095 			break;
1096 
1097 		case eRfOff:
1098 			/* RF-A, RF-B */
1099 			/* disable RF-Chip A/B - 0x860[4] */
1100 			rtl8192_setBBreg(dev, rFPGA0_XA_RFInterfaceOE, BIT(4),
1101 					 0x0);
1102 			/* analog to digital off, for power save */
1103 			rtl8192_setBBreg(dev, rFPGA0_AnalogParameter4, 0xf00,
1104 					 0x0); /* 0x88c[11:8] */
1105 			/* digital to analog off, for power save - 0x880[4:3] */
1106 			rtl8192_setBBreg(dev, rFPGA0_AnalogParameter1, 0x18,
1107 					 0x0);
1108 			/* rx antenna off - 0xc04[3:0] */
1109 			rtl8192_setBBreg(dev, rOFDM0_TRxPathEnable, 0xf, 0x0);
1110 			/* rx antenna off - 0xd04[3:0] */
1111 			rtl8192_setBBreg(dev, rOFDM1_TRxPathEnable, 0xf, 0x0);
1112 			/* analog to digital part2 off, for power save */
1113 			rtl8192_setBBreg(dev, rFPGA0_AnalogParameter1, 0x60,
1114 					 0x0); /* 0x880[6:5] */
1115 
1116 			break;
1117 
1118 		default:
1119 			bResult = false;
1120 			RT_TRACE(COMP_ERR, "%s(): unknown state to set: 0x%X\n",
1121 				 __func__, eRFPowerState);
1122 			break;
1123 		}
1124 		break;
1125 	default:
1126 		RT_TRACE(COMP_ERR, "Not support rf_chip(%x)\n", priv->rf_chip);
1127 		break;
1128 	}
1129 	priv->SetRFPowerStateInProgress = false;
1130 
1131 	return bResult;
1132 }
1133 
1134 /******************************************************************************
1135  * function:  This function sets command table variable (struct sw_chnl_cmd).
1136  * input:     sw_chnl_cmd      *CmdTable    //table to be set
1137  *            u32            CmdTableIdx  //variable index in table to be set
1138  *            u32            CmdTableSz   //table size
1139  *            switch_chan_cmd_id    CmdID        //command ID to set
1140  *            u32            Para1
1141  *            u32            Para2
1142  *            u32            msDelay
1143  * output:
1144  * return:    true if finished, false otherwise
1145  * notice:
1146  ******************************************************************************/
rtl8192_phy_SetSwChnlCmdArray(struct sw_chnl_cmd * CmdTable,u32 CmdTableIdx,u32 CmdTableSz,enum switch_chan_cmd_id CmdID,u32 Para1,u32 Para2,u32 msDelay)1147 static u8 rtl8192_phy_SetSwChnlCmdArray(struct sw_chnl_cmd *CmdTable, u32 CmdTableIdx,
1148 					u32 CmdTableSz, enum switch_chan_cmd_id CmdID,
1149 					u32 Para1, u32 Para2, u32 msDelay)
1150 {
1151 	struct sw_chnl_cmd *pCmd;
1152 
1153 	if (!CmdTable) {
1154 		RT_TRACE(COMP_ERR, "%s(): CmdTable cannot be NULL\n", __func__);
1155 		return false;
1156 	}
1157 	if (CmdTableIdx >= CmdTableSz) {
1158 		RT_TRACE(COMP_ERR, "%s(): Access invalid index, please check size of the table, CmdTableIdx:%d, CmdTableSz:%d\n",
1159 			 __func__, CmdTableIdx, CmdTableSz);
1160 		return false;
1161 	}
1162 
1163 	pCmd = CmdTable + CmdTableIdx;
1164 	pCmd->cmd_id = CmdID;
1165 	pCmd->para_1 = Para1;
1166 	pCmd->para_2 = Para2;
1167 	pCmd->ms_delay = msDelay;
1168 
1169 	return true;
1170 }
1171 
1172 /******************************************************************************
1173  * function:  This function sets channel step by step
1174  * input:     net_device        *dev
1175  *            u8                channel
1176  *            u8                *stage   //3 stages
1177  *            u8                *step
1178  *            u32               *delay   //whether need to delay
1179  * output:    store new stage, step and delay for next step
1180  *            (combine with function above)
1181  * return:    true if finished, false otherwise
1182  * notice:    Wait for simpler function to replace it
1183  *****************************************************************************/
rtl8192_phy_SwChnlStepByStep(struct net_device * dev,u8 channel,u8 * stage,u8 * step,u32 * delay)1184 static u8 rtl8192_phy_SwChnlStepByStep(struct net_device *dev, u8 channel,
1185 				       u8 *stage, u8 *step, u32 *delay)
1186 {
1187 	struct r8192_priv *priv = ieee80211_priv(dev);
1188 	struct sw_chnl_cmd *pre_cmd;
1189 	u32 pre_cmd_cnt = 0;
1190 	struct sw_chnl_cmd *post_cmd;
1191 	u32 post_cmd_cnt = 0;
1192 	struct sw_chnl_cmd *rf_cmd;
1193 	u32 rf_cmd_cnt = 0;
1194 	struct sw_chnl_cmd *current_cmd = NULL;
1195 	u8 e_rfpath;
1196 	bool ret;
1197 
1198 	pre_cmd = kcalloc(MAX_PRECMD_CNT, sizeof(*pre_cmd), GFP_KERNEL);
1199 	if (!pre_cmd)
1200 		return false;
1201 
1202 	post_cmd = kcalloc(MAX_POSTCMD_CNT, sizeof(*post_cmd), GFP_KERNEL);
1203 	if (!post_cmd) {
1204 		kfree(pre_cmd);
1205 		return false;
1206 	}
1207 
1208 	rf_cmd = kcalloc(MAX_RFDEPENDCMD_CNT, sizeof(*rf_cmd), GFP_KERNEL);
1209 	if (!rf_cmd) {
1210 		kfree(pre_cmd);
1211 		kfree(post_cmd);
1212 		return false;
1213 	}
1214 
1215 	RT_TRACE(COMP_CH, "%s() stage: %d, step: %d, channel: %d\n",
1216 		 __func__, *stage, *step, channel);
1217 	if (!is_legal_channel(priv->ieee80211, channel)) {
1218 		RT_TRACE(COMP_ERR, "set to illegal channel: %d\n", channel);
1219 		/* return true to tell upper caller function this channel
1220 		 * setting is finished! Or it will in while loop.
1221 		 */
1222 		ret = true;
1223 		goto out;
1224 	}
1225 	/* FIXME: need to check whether channel is legal or not here */
1226 
1227 	/* <1> Fill up pre common command. */
1228 	rtl8192_phy_SetSwChnlCmdArray(pre_cmd, pre_cmd_cnt++,
1229 				      MAX_PRECMD_CNT, CMD_ID_SET_TX_PWR_LEVEL,
1230 				      0, 0, 0);
1231 	rtl8192_phy_SetSwChnlCmdArray(pre_cmd, pre_cmd_cnt++,
1232 				      MAX_PRECMD_CNT, CMD_ID_END, 0, 0, 0);
1233 
1234 	/* <2> Fill up post common command. */
1235 	rtl8192_phy_SetSwChnlCmdArray(post_cmd, post_cmd_cnt++,
1236 				      MAX_POSTCMD_CNT, CMD_ID_END, 0, 0, 0);
1237 
1238 	/* <3> Fill up RF dependent command. */
1239 	switch (priv->rf_chip) {
1240 	case RF_8225:
1241 		if (!(channel >= 1 && channel <= 14)) {
1242 			RT_TRACE(COMP_ERR,
1243 				 "illegal channel for Zebra 8225: %d\n",
1244 				 channel);
1245 			ret = true;
1246 			goto out;
1247 		}
1248 		rtl8192_phy_SetSwChnlCmdArray(rf_cmd, rf_cmd_cnt++,
1249 					      MAX_RFDEPENDCMD_CNT,
1250 					      CMD_ID_RF_WRITE_REG,
1251 					      rZebra1_Channel,
1252 					      RF_CHANNEL_TABLE_ZEBRA[channel],
1253 					      10);
1254 		rtl8192_phy_SetSwChnlCmdArray(rf_cmd, rf_cmd_cnt++,
1255 					      MAX_RFDEPENDCMD_CNT,
1256 					      CMD_ID_END, 0, 0, 0);
1257 		break;
1258 
1259 	case RF_8256:
1260 		/* TEST!! This is not the table for 8256!! */
1261 		if (!(channel >= 1 && channel <= 14)) {
1262 			RT_TRACE(COMP_ERR,
1263 				 "illegal channel for Zebra 8256: %d\n",
1264 				 channel);
1265 			ret = true;
1266 			goto out;
1267 		}
1268 		rtl8192_phy_SetSwChnlCmdArray(rf_cmd, rf_cmd_cnt++,
1269 					      MAX_RFDEPENDCMD_CNT,
1270 					      CMD_ID_RF_WRITE_REG,
1271 					      rZebra1_Channel, channel, 10);
1272 		rtl8192_phy_SetSwChnlCmdArray(rf_cmd, rf_cmd_cnt++,
1273 					      MAX_RFDEPENDCMD_CNT,
1274 					      CMD_ID_END, 0, 0, 0);
1275 		break;
1276 
1277 	case RF_8258:
1278 		break;
1279 
1280 	default:
1281 		RT_TRACE(COMP_ERR, "Unknown RFChipID: %d\n", priv->rf_chip);
1282 		ret = true;
1283 		goto out;
1284 	}
1285 
1286 	do {
1287 		switch (*stage) {
1288 		case 0:
1289 			current_cmd = &pre_cmd[*step];
1290 			break;
1291 		case 1:
1292 			current_cmd = &rf_cmd[*step];
1293 			break;
1294 		case 2:
1295 			current_cmd = &post_cmd[*step];
1296 			break;
1297 		}
1298 
1299 		if (current_cmd->cmd_id == CMD_ID_END) {
1300 			if ((*stage) == 2) {
1301 				*delay = current_cmd->ms_delay;
1302 				ret = true;
1303 				goto out;
1304 			}
1305 			(*stage)++;
1306 			(*step) = 0;
1307 			continue;
1308 		}
1309 
1310 		switch (current_cmd->cmd_id) {
1311 		case CMD_ID_SET_TX_PWR_LEVEL:
1312 			if (priv->card_8192_version == VERSION_819XU_A)
1313 				/* consider it later! */
1314 				rtl8192_SetTxPowerLevel(dev, channel);
1315 			break;
1316 		case CMD_ID_WRITE_PORT_ULONG:
1317 			write_nic_dword(dev, current_cmd->para_1,
1318 					current_cmd->para_2);
1319 			break;
1320 		case CMD_ID_WRITE_PORT_USHORT:
1321 			write_nic_word(dev, current_cmd->para_1,
1322 				       (u16)current_cmd->para_2);
1323 			break;
1324 		case CMD_ID_WRITE_PORT_UCHAR:
1325 			write_nic_byte(dev, current_cmd->para_1,
1326 				       (u8)current_cmd->para_2);
1327 			break;
1328 		case CMD_ID_RF_WRITE_REG:
1329 			for (e_rfpath = 0; e_rfpath < RF90_PATH_MAX; e_rfpath++) {
1330 				rtl8192_phy_SetRFReg(dev,
1331 						     (enum rf90_radio_path_e)e_rfpath,
1332 						     current_cmd->para_1,
1333 						     bZebra1_ChannelNum,
1334 						     current_cmd->para_2);
1335 			}
1336 			break;
1337 		default:
1338 			break;
1339 		}
1340 
1341 		break;
1342 	} while (true);
1343 
1344 	*delay = current_cmd->ms_delay;
1345 	(*step)++;
1346 	ret = false;
1347 
1348 out:
1349 	kfree(pre_cmd);
1350 	kfree(post_cmd);
1351 	kfree(rf_cmd);
1352 
1353 	return ret;
1354 }
1355 
1356 /******************************************************************************
1357  * function:  This function does actually set channel work
1358  * input:     net_device        *dev
1359  *            u8                channel
1360  * output:    none
1361  * return:    none
1362  * notice:    We should not call this function directly
1363  *****************************************************************************/
rtl8192_phy_FinishSwChnlNow(struct net_device * dev,u8 channel)1364 static void rtl8192_phy_FinishSwChnlNow(struct net_device *dev, u8 channel)
1365 {
1366 	struct r8192_priv *priv = ieee80211_priv(dev);
1367 	u32	delay = 0;
1368 
1369 	while (!rtl8192_phy_SwChnlStepByStep(dev, channel, &priv->SwChnlStage,
1370 					     &priv->SwChnlStep, &delay)) {
1371 		if (!priv->up)
1372 			break;
1373 	}
1374 }
1375 
1376 /******************************************************************************
1377  * function:  Callback routine of the work item for switch channel.
1378  * input:     net_device	*dev
1379  *
1380  * output:    none
1381  * return:    none
1382  *****************************************************************************/
rtl8192_SwChnl_WorkItem(struct net_device * dev)1383 void rtl8192_SwChnl_WorkItem(struct net_device *dev)
1384 {
1385 	struct r8192_priv *priv = ieee80211_priv(dev);
1386 
1387 	RT_TRACE(COMP_CH, "==> SwChnlCallback819xUsbWorkItem(), chan:%d\n",
1388 		 priv->chan);
1389 
1390 	rtl8192_phy_FinishSwChnlNow(dev, priv->chan);
1391 
1392 	RT_TRACE(COMP_CH, "<== SwChnlCallback819xUsbWorkItem()\n");
1393 }
1394 
1395 /******************************************************************************
1396  * function:  This function scheduled actual work item to set channel
1397  * input:     net_device        *dev
1398  *            u8                channel   //channel to set
1399  * output:    none
1400  * return:    return code show if workitem is scheduled (1:pass, 0:fail)
1401  * notice:    Delay may be required for RF configuration
1402  ******************************************************************************/
rtl8192_phy_SwChnl(struct net_device * dev,u8 channel)1403 u8 rtl8192_phy_SwChnl(struct net_device *dev, u8 channel)
1404 {
1405 	struct r8192_priv *priv = ieee80211_priv(dev);
1406 
1407 	RT_TRACE(COMP_CH, "%s(), SwChnlInProgress: %d\n", __func__,
1408 		 priv->SwChnlInProgress);
1409 	if (!priv->up)
1410 		return false;
1411 	if (priv->SwChnlInProgress)
1412 		return false;
1413 
1414 	/* -------------------------------------------- */
1415 	switch (priv->ieee80211->mode) {
1416 	case WIRELESS_MODE_A:
1417 	case WIRELESS_MODE_N_5G:
1418 		if (channel <= 14) {
1419 			RT_TRACE(COMP_ERR, "WIRELESS_MODE_A but channel<=14\n");
1420 			return false;
1421 		}
1422 		break;
1423 	case WIRELESS_MODE_B:
1424 		if (channel > 14) {
1425 			RT_TRACE(COMP_ERR, "WIRELESS_MODE_B but channel>14\n");
1426 			return false;
1427 		}
1428 		break;
1429 	case WIRELESS_MODE_G:
1430 	case WIRELESS_MODE_N_24G:
1431 		if (channel > 14) {
1432 			RT_TRACE(COMP_ERR, "WIRELESS_MODE_G but channel>14\n");
1433 			return false;
1434 		}
1435 		break;
1436 	}
1437 	/* -------------------------------------------- */
1438 
1439 	priv->SwChnlInProgress = true;
1440 	if (channel == 0)
1441 		channel = 1;
1442 
1443 	priv->chan = channel;
1444 
1445 	priv->SwChnlStage = 0;
1446 	priv->SwChnlStep = 0;
1447 	if (priv->up)
1448 		rtl8192_SwChnl_WorkItem(dev);
1449 
1450 	priv->SwChnlInProgress = false;
1451 	return true;
1452 }
1453 
1454 /******************************************************************************
1455  * function:  Callback routine of the work item for set bandwidth mode.
1456  * input:     net_device	 *dev
1457  * output:    none
1458  * return:    none
1459  * notice:    I doubt whether SetBWModeInProgress flag is necessary as we can
1460  *            test whether current work in the queue or not.//do I?
1461  *****************************************************************************/
rtl8192_SetBWModeWorkItem(struct net_device * dev)1462 void rtl8192_SetBWModeWorkItem(struct net_device *dev)
1463 {
1464 	struct r8192_priv *priv = ieee80211_priv(dev);
1465 	u8 regBwOpMode;
1466 
1467 	RT_TRACE(COMP_SWBW, "%s()  Switch to %s bandwidth\n", __func__,
1468 		 priv->CurrentChannelBW == HT_CHANNEL_WIDTH_20?"20MHz":"40MHz");
1469 
1470 	if (priv->rf_chip == RF_PSEUDO_11N) {
1471 		priv->SetBWModeInProgress = false;
1472 		return;
1473 	}
1474 
1475 	/* <1> Set MAC register */
1476 	read_nic_byte(dev, BW_OPMODE, &regBwOpMode);
1477 
1478 	switch (priv->CurrentChannelBW) {
1479 	case HT_CHANNEL_WIDTH_20:
1480 		regBwOpMode |= BW_OPMODE_20MHZ;
1481 		/* We have not verify whether this register works */
1482 		write_nic_byte(dev, BW_OPMODE, regBwOpMode);
1483 		break;
1484 
1485 	case HT_CHANNEL_WIDTH_20_40:
1486 		regBwOpMode &= ~BW_OPMODE_20MHZ;
1487 		/* We have not verify whether this register works */
1488 		write_nic_byte(dev, BW_OPMODE, regBwOpMode);
1489 		break;
1490 
1491 	default:
1492 		RT_TRACE(COMP_ERR,
1493 			 "SetChannelBandwidth819xUsb(): unknown Bandwidth: %#X\n",
1494 			 priv->CurrentChannelBW);
1495 		break;
1496 	}
1497 
1498 	/* <2> Set PHY related register */
1499 	switch (priv->CurrentChannelBW) {
1500 	case HT_CHANNEL_WIDTH_20:
1501 		rtl8192_setBBreg(dev, rFPGA0_RFMOD, bRFMOD, 0x0);
1502 		rtl8192_setBBreg(dev, rFPGA1_RFMOD, bRFMOD, 0x0);
1503 		rtl8192_setBBreg(dev, rFPGA0_AnalogParameter1,
1504 				 0x00100000, 1);
1505 
1506 		/* Correct the tx power for CCK rate in 20M. */
1507 		priv->cck_present_attenuation =
1508 			priv->cck_present_attenuation_20Mdefault +
1509 			priv->cck_present_attenuation_difference;
1510 
1511 		if (priv->cck_present_attenuation > 22)
1512 			priv->cck_present_attenuation = 22;
1513 		if (priv->cck_present_attenuation < 0)
1514 			priv->cck_present_attenuation = 0;
1515 		RT_TRACE(COMP_INIT,
1516 			 "20M, pHalData->CCKPresentAttentuation = %d\n",
1517 			 priv->cck_present_attenuation);
1518 
1519 		if (priv->chan == 14 && !priv->bcck_in_ch14) {
1520 			priv->bcck_in_ch14 = true;
1521 			dm_cck_txpower_adjust(dev, priv->bcck_in_ch14);
1522 		} else if (priv->chan != 14 && priv->bcck_in_ch14) {
1523 			priv->bcck_in_ch14 = false;
1524 			dm_cck_txpower_adjust(dev, priv->bcck_in_ch14);
1525 		} else {
1526 			dm_cck_txpower_adjust(dev, priv->bcck_in_ch14);
1527 		}
1528 
1529 		break;
1530 	case HT_CHANNEL_WIDTH_20_40:
1531 		rtl8192_setBBreg(dev, rFPGA0_RFMOD, bRFMOD, 0x1);
1532 		rtl8192_setBBreg(dev, rFPGA1_RFMOD, bRFMOD, 0x1);
1533 		rtl8192_setBBreg(dev, rCCK0_System, bCCKSideBand,
1534 				 priv->nCur40MhzPrimeSC >> 1);
1535 		rtl8192_setBBreg(dev, rFPGA0_AnalogParameter1, 0x00100000, 0);
1536 		rtl8192_setBBreg(dev, rOFDM1_LSTF, 0xC00,
1537 				 priv->nCur40MhzPrimeSC);
1538 		priv->cck_present_attenuation =
1539 			priv->cck_present_attenuation_40Mdefault +
1540 			priv->cck_present_attenuation_difference;
1541 
1542 		if (priv->cck_present_attenuation > 22)
1543 			priv->cck_present_attenuation = 22;
1544 		if (priv->cck_present_attenuation < 0)
1545 			priv->cck_present_attenuation = 0;
1546 
1547 		RT_TRACE(COMP_INIT,
1548 			 "40M, pHalData->CCKPresentAttentuation = %d\n",
1549 			 priv->cck_present_attenuation);
1550 		if (priv->chan == 14 && !priv->bcck_in_ch14) {
1551 			priv->bcck_in_ch14 = true;
1552 			dm_cck_txpower_adjust(dev, priv->bcck_in_ch14);
1553 		} else if (priv->chan != 14 && priv->bcck_in_ch14) {
1554 			priv->bcck_in_ch14 = false;
1555 			dm_cck_txpower_adjust(dev, priv->bcck_in_ch14);
1556 		} else {
1557 			dm_cck_txpower_adjust(dev, priv->bcck_in_ch14);
1558 		}
1559 
1560 		break;
1561 	default:
1562 		RT_TRACE(COMP_ERR,
1563 			 "SetChannelBandwidth819xUsb(): unknown Bandwidth: %#X\n",
1564 			 priv->CurrentChannelBW);
1565 		break;
1566 	}
1567 	/* Skip over setting of J-mode in BB register here.
1568 	 * Default value is "None J mode".
1569 	 */
1570 
1571 	/* <3> Set RF related register */
1572 	switch (priv->rf_chip) {
1573 	case RF_8225:
1574 		break;
1575 
1576 	case RF_8256:
1577 		phy_set_rf8256_bandwidth(dev, priv->CurrentChannelBW);
1578 		break;
1579 
1580 	case RF_8258:
1581 		break;
1582 
1583 	case RF_PSEUDO_11N:
1584 		break;
1585 
1586 	default:
1587 		RT_TRACE(COMP_ERR, "Unknown RFChipID: %d\n", priv->rf_chip);
1588 		break;
1589 	}
1590 	priv->SetBWModeInProgress = false;
1591 
1592 	RT_TRACE(COMP_SWBW, "<==SetBWMode819xUsb(), %d\n",
1593 		 atomic_read(&priv->ieee80211->atm_swbw));
1594 }
1595 
1596 /******************************************************************************
1597  * function:  This function schedules bandwidth switch work.
1598  * input:     struct net_deviceq   *dev
1599  *            HT_CHANNEL_WIDTH     bandwidth  //20M or 40M
1600  *            HT_EXTCHNL_OFFSET    offset     //Upper, Lower, or Don't care
1601  * output:    none
1602  * return:    none
1603  * notice:    I doubt whether SetBWModeInProgress flag is necessary as we can
1604  *	      test whether current work in the queue or not.//do I?
1605  *****************************************************************************/
rtl8192_SetBWMode(struct net_device * dev,enum ht_channel_width bandwidth,enum ht_extension_chan_offset offset)1606 void rtl8192_SetBWMode(struct net_device *dev,
1607 		       enum ht_channel_width bandwidth,
1608 		       enum ht_extension_chan_offset offset)
1609 {
1610 	struct r8192_priv *priv = ieee80211_priv(dev);
1611 
1612 	if (priv->SetBWModeInProgress)
1613 		return;
1614 	priv->SetBWModeInProgress = true;
1615 
1616 	priv->CurrentChannelBW = bandwidth;
1617 
1618 	if (offset == HT_EXTCHNL_OFFSET_LOWER)
1619 		priv->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_UPPER;
1620 	else if (offset == HT_EXTCHNL_OFFSET_UPPER)
1621 		priv->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_LOWER;
1622 	else
1623 		priv->nCur40MhzPrimeSC = HAL_PRIME_CHNL_OFFSET_DONT_CARE;
1624 
1625 	rtl8192_SetBWModeWorkItem(dev);
1626 }
1627 
InitialGain819xUsb(struct net_device * dev,u8 Operation)1628 void InitialGain819xUsb(struct net_device *dev,	u8 Operation)
1629 {
1630 	struct r8192_priv *priv = ieee80211_priv(dev);
1631 
1632 	priv->InitialGainOperateType = Operation;
1633 
1634 	if (priv->up)
1635 		queue_delayed_work(priv->priv_wq, &priv->initialgain_operate_wq, 0);
1636 }
1637 
InitialGainOperateWorkItemCallBack(struct work_struct * work)1638 void InitialGainOperateWorkItemCallBack(struct work_struct *work)
1639 {
1640 	struct delayed_work *dwork = to_delayed_work(work);
1641 	struct r8192_priv *priv = container_of(dwork, struct r8192_priv,
1642 					       initialgain_operate_wq);
1643 	struct net_device *dev = priv->ieee80211->dev;
1644 #define SCAN_RX_INITIAL_GAIN	0x17
1645 #define POWER_DETECTION_TH	0x08
1646 	u32	bitmask;
1647 	u8	initial_gain;
1648 	u8	Operation;
1649 
1650 	Operation = priv->InitialGainOperateType;
1651 
1652 	switch (Operation) {
1653 	case IG_Backup:
1654 		RT_TRACE(COMP_SCAN, "IG_Backup, backup the initial gain.\n");
1655 		initial_gain = SCAN_RX_INITIAL_GAIN;
1656 		bitmask = bMaskByte0;
1657 		if (dm_digtable.dig_algorithm == DIG_ALGO_BY_FALSE_ALARM)
1658 			/* FW DIG OFF */
1659 			rtl8192_setBBreg(dev, UFWP, bMaskByte1, 0x8);
1660 		priv->initgain_backup.xaagccore1 =
1661 			(u8)rtl8192_QueryBBReg(dev, rOFDM0_XAAGCCore1, bitmask);
1662 		priv->initgain_backup.xbagccore1 =
1663 			(u8)rtl8192_QueryBBReg(dev, rOFDM0_XBAGCCore1, bitmask);
1664 		priv->initgain_backup.xcagccore1 =
1665 			(u8)rtl8192_QueryBBReg(dev, rOFDM0_XCAGCCore1, bitmask);
1666 		priv->initgain_backup.xdagccore1 =
1667 			(u8)rtl8192_QueryBBReg(dev, rOFDM0_XDAGCCore1, bitmask);
1668 		bitmask = bMaskByte2;
1669 		priv->initgain_backup.cca =
1670 			(u8)rtl8192_QueryBBReg(dev, rCCK0_CCA, bitmask);
1671 
1672 		RT_TRACE(COMP_SCAN, "Scan InitialGainBackup 0xc50 is %x\n",
1673 			 priv->initgain_backup.xaagccore1);
1674 		RT_TRACE(COMP_SCAN, "Scan InitialGainBackup 0xc58 is %x\n",
1675 			 priv->initgain_backup.xbagccore1);
1676 		RT_TRACE(COMP_SCAN, "Scan InitialGainBackup 0xc60 is %x\n",
1677 			 priv->initgain_backup.xcagccore1);
1678 		RT_TRACE(COMP_SCAN, "Scan InitialGainBackup 0xc68 is %x\n",
1679 			 priv->initgain_backup.xdagccore1);
1680 		RT_TRACE(COMP_SCAN, "Scan InitialGainBackup 0xa0a is %x\n",
1681 			 priv->initgain_backup.cca);
1682 
1683 		RT_TRACE(COMP_SCAN, "Write scan initial gain = 0x%x\n",
1684 			 initial_gain);
1685 		write_nic_byte(dev, rOFDM0_XAAGCCore1, initial_gain);
1686 		write_nic_byte(dev, rOFDM0_XBAGCCore1, initial_gain);
1687 		write_nic_byte(dev, rOFDM0_XCAGCCore1, initial_gain);
1688 		write_nic_byte(dev, rOFDM0_XDAGCCore1, initial_gain);
1689 		RT_TRACE(COMP_SCAN, "Write scan 0xa0a = 0x%x\n",
1690 			 POWER_DETECTION_TH);
1691 		write_nic_byte(dev, 0xa0a, POWER_DETECTION_TH);
1692 		break;
1693 	case IG_Restore:
1694 		RT_TRACE(COMP_SCAN, "IG_Restore, restore the initial gain.\n");
1695 		bitmask = 0x7f; /* Bit0 ~ Bit6 */
1696 		if (dm_digtable.dig_algorithm == DIG_ALGO_BY_FALSE_ALARM)
1697 			/* FW DIG OFF */
1698 			rtl8192_setBBreg(dev, UFWP, bMaskByte1, 0x8);
1699 
1700 		rtl8192_setBBreg(dev, rOFDM0_XAAGCCore1, bitmask,
1701 				 (u32)priv->initgain_backup.xaagccore1);
1702 		rtl8192_setBBreg(dev, rOFDM0_XBAGCCore1, bitmask,
1703 				 (u32)priv->initgain_backup.xbagccore1);
1704 		rtl8192_setBBreg(dev, rOFDM0_XCAGCCore1, bitmask,
1705 				 (u32)priv->initgain_backup.xcagccore1);
1706 		rtl8192_setBBreg(dev, rOFDM0_XDAGCCore1, bitmask,
1707 				 (u32)priv->initgain_backup.xdagccore1);
1708 		bitmask  = bMaskByte2;
1709 		rtl8192_setBBreg(dev, rCCK0_CCA, bitmask,
1710 				 (u32)priv->initgain_backup.cca);
1711 
1712 		RT_TRACE(COMP_SCAN, "Scan BBInitialGainRestore 0xc50 is %x\n",
1713 			 priv->initgain_backup.xaagccore1);
1714 		RT_TRACE(COMP_SCAN, "Scan BBInitialGainRestore 0xc58 is %x\n",
1715 			 priv->initgain_backup.xbagccore1);
1716 		RT_TRACE(COMP_SCAN, "Scan BBInitialGainRestore 0xc60 is %x\n",
1717 			 priv->initgain_backup.xcagccore1);
1718 		RT_TRACE(COMP_SCAN, "Scan BBInitialGainRestore 0xc68 is %x\n",
1719 			 priv->initgain_backup.xdagccore1);
1720 		RT_TRACE(COMP_SCAN, "Scan BBInitialGainRestore 0xa0a is %x\n",
1721 			 priv->initgain_backup.cca);
1722 
1723 		rtl8192_phy_setTxPower(dev, priv->ieee80211->current_network.channel);
1724 
1725 		if (dm_digtable.dig_algorithm == DIG_ALGO_BY_FALSE_ALARM)
1726 			/* FW DIG ON */
1727 			rtl8192_setBBreg(dev, UFWP, bMaskByte1, 0x1);
1728 		break;
1729 	default:
1730 		RT_TRACE(COMP_SCAN, "Unknown IG Operation.\n");
1731 		break;
1732 	}
1733 }
1734