1 /******************************************************************************
2 * Copyright(c) 2008 - 2010 Realtek Corporation. All rights reserved.
3 * Linux device driver for RTL8192U
5 * Based on the r8187 driver, which is:
6 * Copyright 2004-2005 Andrea Merello <andreamrl@tiscali.it>, et al.
7 * This program is free software; you can redistribute it and/or modify it
8 * under the terms of version 2 of the GNU General Public License as
9 * published by the Free Software Foundation.
11 * This program is distributed in the hope that it will be useful, but WITHOUT
12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
16 * You should have received a copy of the GNU General Public License along with
17 * this program; if not, write to the Free Software Foundation, Inc.,
18 * 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
20 * The full GNU General Public License is included in this distribution in the
21 * file called LICENSE.
23 * Contact Information:
24 * Jerry chuang <wlanfae@realtek.com>
27 #include <linux/vmalloc.h>
33 #undef RX_DONT_PASS_UL
35 #undef DEBUG_RX_VERBOSE
41 #undef DEBUG_TX_FILLDESC
46 #undef DEBUG_REGISTERS
48 #undef DEBUG_IRQ_TASKLET
52 #define CONFIG_RTL8192_IO_MAP
54 #include <asm/uaccess.h>
56 #include "r8180_93cx6.h" /* Card EEPROM */
57 #include "r8192U_wx.h"
59 #include "r8192S_rtl8225.h"
60 #include "r8192S_hw.h"
61 #include "r8192S_phy.h"
62 #include "r8192S_phyreg.h"
63 #include "r8192S_Efuse.h"
65 #include "r819xU_cmdpkt.h"
66 #include "r8192U_dm.h"
67 //#include "r8192xU_phyreg.h"
68 #include <linux/usb.h>
70 #include "r8192U_pm.h"
72 #include "ieee80211/dot11d.h"
76 u32 rt_global_debug_component = \
108 COMP_ERR; //always open err flags on
110 #define TOTAL_CAM_ENTRY 32
111 #define CAM_CONTENT_COUNT 8
113 static const struct usb_device_id rtl8192_usb_id_tbl[] = {
115 {USB_DEVICE(0x0bda, 0x8192)},
116 {USB_DEVICE(0x0bda, 0x8709)},
118 {USB_DEVICE(0x07aa, 0x0043)},
120 {USB_DEVICE(0x050d, 0x805E)},
122 {USB_DEVICE(0x0df6, 0x0031)},
124 {USB_DEVICE(0x1740, 0x9201)},
126 {USB_DEVICE(0x2001, 0x3301)},
128 {USB_DEVICE(0x5a57, 0x0290)},
130 {USB_DEVICE(0x06f8, 0xe031)},
132 {USB_DEVICE(0x0bda, 0x8172)},
136 MODULE_LICENSE("GPL");
137 MODULE_VERSION("V 1.1");
138 MODULE_DEVICE_TABLE(usb, rtl8192_usb_id_tbl);
139 MODULE_DESCRIPTION("Linux driver for Realtek RTL8192 USB WiFi cards");
141 static char* ifname = "wlan%d";
142 static int hwwep = 1; //default use hw. set 0 to use software security
143 static int channels = 0x3fff;
147 module_param(ifname, charp, S_IRUGO|S_IWUSR );
148 //module_param(hwseqnum,int, S_IRUGO|S_IWUSR);
149 module_param(hwwep,int, S_IRUGO|S_IWUSR);
150 module_param(channels,int, S_IRUGO|S_IWUSR);
152 MODULE_PARM_DESC(ifname," Net interface name, wlan%d=default");
153 //MODULE_PARM_DESC(hwseqnum," Try to use hardware 802.11 header sequence numbers. Zero=default");
154 MODULE_PARM_DESC(hwwep," Try to use hardware security support. ");
155 MODULE_PARM_DESC(channels," Channel bitmask for specific locales. NYI");
157 static int __devinit rtl8192_usb_probe(struct usb_interface *intf,
158 const struct usb_device_id *id);
159 static void __devexit rtl8192_usb_disconnect(struct usb_interface *intf);
161 static struct usb_driver rtl8192_usb_driver = {
162 .name = RTL819xU_MODULE_NAME, /* Driver name */
163 .id_table = rtl8192_usb_id_tbl, /* PCI_ID table */
164 .probe = rtl8192_usb_probe, /* probe fn */
165 .disconnect = rtl8192_usb_disconnect, /* remove fn */
166 .suspend = rtl8192U_suspend, /* PM suspend fn */
167 .resume = rtl8192U_resume, /* PM resume fn */
168 .reset_resume = rtl8192U_resume, /* PM reset resume fn */
172 static void rtl8192SU_read_eeprom_info(struct net_device *dev);
173 short rtl8192SU_tx(struct net_device *dev, struct sk_buff* skb);
174 void rtl8192SU_rx_nomal(struct sk_buff* skb);
175 void rtl8192SU_rx_cmd(struct sk_buff *skb);
176 bool rtl8192SU_adapter_start(struct net_device *dev);
177 short rtl8192SU_tx_cmd(struct net_device *dev, struct sk_buff *skb);
178 void rtl8192SU_link_change(struct net_device *dev);
179 void InitialGain8192S(struct net_device *dev,u8 Operation);
180 void rtl8192SU_query_rxdesc_status(struct sk_buff *skb, struct ieee80211_rx_stats *stats, bool bIsRxAggrSubframe);
182 struct rtl819x_ops rtl8192su_ops = {
183 .nic_type = NIC_8192SU,
184 .rtl819x_read_eeprom_info = rtl8192SU_read_eeprom_info,
185 .rtl819x_tx = rtl8192SU_tx,
186 .rtl819x_tx_cmd = rtl8192SU_tx_cmd,
187 .rtl819x_rx_nomal = rtl8192SU_rx_nomal,
188 .rtl819x_rx_cmd = rtl8192SU_rx_cmd,
189 .rtl819x_adapter_start = rtl8192SU_adapter_start,
190 .rtl819x_link_change = rtl8192SU_link_change,
191 .rtl819x_initial_gain = InitialGain8192S,
192 .rtl819x_query_rxdesc_status = rtl8192SU_query_rxdesc_status,
196 typedef struct _CHANNEL_LIST
200 }CHANNEL_LIST, *PCHANNEL_LIST;
202 static CHANNEL_LIST ChannelPlan[] = {
203 {{1,2,3,4,5,6,7,8,9,10,11,36,40,44,48,52,56,60,64,149,153,157,161,165},24}, //FCC
204 {{1,2,3,4,5,6,7,8,9,10,11},11}, //IC
205 {{1,2,3,4,5,6,7,8,9,10,11,12,13,36,40,44,48,52,56,60,64},21}, //ETSI
206 {{1,2,3,4,5,6,7,8,9,10,11,12,13},13}, //Spain. Change to ETSI.
207 {{1,2,3,4,5,6,7,8,9,10,11,12,13},13}, //France. Change to ETSI.
208 {{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,40,44,48,52,56,60,64},22}, //MKK //MKK
209 {{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,40,44,48,52,56,60,64},22},//MKK1
210 {{1,2,3,4,5,6,7,8,9,10,11,12,13},13}, //Israel.
211 {{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,40,44,48,52,56,60,64},22}, // For 11a , TELEC
212 {{1,2,3,4,5,6,7,8,9,10,11,12,13,14,36,40,44,48,52,56,60,64}, 22}, //MIC
213 {{1,2,3,4,5,6,7,8,9,10,11,12,13,14},14} //For Global Domain. 1-11:active scan, 12-14 passive scan. //+YJ, 080626
216 static void rtl819x_set_channel_map(u8 channel_plan, struct r8192_priv* priv)
218 int i, max_chan=-1, min_chan=-1;
219 struct ieee80211_device* ieee = priv->ieee80211;
220 switch (channel_plan)
222 case COUNTRY_CODE_FCC:
223 case COUNTRY_CODE_IC:
224 case COUNTRY_CODE_ETSI:
225 case COUNTRY_CODE_SPAIN:
226 case COUNTRY_CODE_FRANCE:
227 case COUNTRY_CODE_MKK:
228 case COUNTRY_CODE_MKK1:
229 case COUNTRY_CODE_ISRAEL:
230 case COUNTRY_CODE_TELEC:
231 case COUNTRY_CODE_MIC:
234 ieee->bGlobalDomain = false;
235 //acturally 8225 & 8256 rf chip only support B,G,24N mode
236 if ((priv->rf_chip == RF_8225) || (priv->rf_chip == RF_8256) || (priv->rf_chip == RF_6052))
243 RT_TRACE(COMP_ERR, "unknown rf chip, can't set channel map in function:%s()\n", __FUNCTION__);
245 if (ChannelPlan[channel_plan].Len != 0){
246 // Clear old channel map
247 memset(GET_DOT11D_INFO(ieee)->channel_map, 0, sizeof(GET_DOT11D_INFO(ieee)->channel_map));
248 // Set new channel map
249 for (i=0;i<ChannelPlan[channel_plan].Len;i++)
251 if (ChannelPlan[channel_plan].Channel[i] < min_chan || ChannelPlan[channel_plan].Channel[i] > max_chan)
253 GET_DOT11D_INFO(ieee)->channel_map[ChannelPlan[channel_plan].Channel[i]] = 1;
258 case COUNTRY_CODE_GLOBAL_DOMAIN:
260 GET_DOT11D_INFO(ieee)->bEnabled = 0;//this flag enabled to follow 11d country IE setting, otherwise, it shall follow global domain settings.
262 ieee->bGlobalDomain = true;
271 #define eqMacAddr(a,b) ( ((a)[0]==(b)[0] && (a)[1]==(b)[1] && (a)[2]==(b)[2] && (a)[3]==(b)[3] && (a)[4]==(b)[4] && (a)[5]==(b)[5]) ? 1:0 )
273 #define rx_hal_is_cck_rate(_pDesc)\
274 ((_pDesc->RxMCS == DESC92S_RATE1M ||\
275 _pDesc->RxMCS == DESC92S_RATE2M ||\
276 _pDesc->RxMCS == DESC92S_RATE5_5M ||\
277 _pDesc->RxMCS == DESC92S_RATE11M) &&\
280 #define tx_hal_is_cck_rate(_DataRate)\
281 ( _DataRate == MGN_1M ||\
282 _DataRate == MGN_2M ||\
283 _DataRate == MGN_5_5M ||\
284 _DataRate == MGN_11M )
289 void CamResetAllEntry(struct net_device *dev)
293 //2004/02/11 In static WEP, OID_ADD_KEY or OID_ADD_WEP are set before STA associate to AP.
294 // However, ResetKey is called on OID_802_11_INFRASTRUCTURE_MODE and MlmeAssociateRequest
295 // In this condition, Cam can not be reset because upper layer will not set this static key again.
296 //if(Adapter->EncAlgorithm == WEP_Encryption)
299 //DbgPrint("========================================\n");
300 //DbgPrint(" Call ResetAllEntry \n");
301 //DbgPrint("========================================\n\n");
302 ulcommand |= BIT31|BIT30;
303 write_nic_dword(dev, RWCAM, ulcommand);
305 for(ucIndex=0;ucIndex<TOTAL_CAM_ENTRY;ucIndex++)
306 CAM_mark_invalid(dev, ucIndex);
307 for(ucIndex=0;ucIndex<TOTAL_CAM_ENTRY;ucIndex++)
308 CAM_empty_entry(dev, ucIndex);
314 void write_cam(struct net_device *dev, u8 addr, u32 data)
316 write_nic_dword(dev, WCAMI, data);
317 write_nic_dword(dev, RWCAM, BIT31|BIT16|(addr&0xff) );
320 u32 read_cam(struct net_device *dev, u8 addr)
322 write_nic_dword(dev, RWCAM, 0x80000000|(addr&0xff) );
323 return read_nic_dword(dev, 0xa8);
326 void write_nic_byte_E(struct net_device *dev, int indx, u8 data)
329 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
330 struct usb_device *udev = priv->udev;
332 status = usb_control_msg(udev, usb_sndctrlpipe(udev, 0),
333 RTL8187_REQ_SET_REGS, RTL8187_REQT_WRITE,
334 indx|0xfe00, 0, &data, 1, HZ / 2);
338 printk("write_nic_byte_E TimeOut! status:%d\n", status);
342 u8 read_nic_byte_E(struct net_device *dev, int indx)
346 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
347 struct usb_device *udev = priv->udev;
349 status = usb_control_msg(udev, usb_rcvctrlpipe(udev, 0),
350 RTL8187_REQ_GET_REGS, RTL8187_REQT_READ,
351 indx|0xfe00, 0, &data, 1, HZ / 2);
355 printk("read_nic_byte_E TimeOut! status:%d\n", status);
360 //as 92U has extend page from 4 to 16, so modify functions below.
361 void write_nic_byte(struct net_device *dev, int indx, u8 data)
365 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
366 struct usb_device *udev = priv->udev;
368 status = usb_control_msg(udev, usb_sndctrlpipe(udev, 0),
369 RTL8187_REQ_SET_REGS, RTL8187_REQT_WRITE,
370 indx, 0, &data, 1, HZ / 2);
374 printk("write_nic_byte TimeOut! status:%d\n", status);
381 void write_nic_word(struct net_device *dev, int indx, u16 data)
386 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
387 struct usb_device *udev = priv->udev;
389 status = usb_control_msg(udev, usb_sndctrlpipe(udev, 0),
390 RTL8187_REQ_SET_REGS, RTL8187_REQT_WRITE,
391 indx, 0, &data, 2, HZ / 2);
395 printk("write_nic_word TimeOut! status:%d\n", status);
401 void write_nic_dword(struct net_device *dev, int indx, u32 data)
406 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
407 struct usb_device *udev = priv->udev;
409 status = usb_control_msg(udev, usb_sndctrlpipe(udev, 0),
410 RTL8187_REQ_SET_REGS, RTL8187_REQT_WRITE,
411 indx, 0, &data, 4, HZ / 2);
416 printk("write_nic_dword TimeOut! status:%d\n", status);
423 u8 read_nic_byte(struct net_device *dev, int indx)
427 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
428 struct usb_device *udev = priv->udev;
430 status = usb_control_msg(udev, usb_rcvctrlpipe(udev, 0),
431 RTL8187_REQ_GET_REGS, RTL8187_REQT_READ,
432 indx, 0, &data, 1, HZ / 2);
436 printk("read_nic_byte TimeOut! status:%d\n", status);
444 u16 read_nic_word(struct net_device *dev, int indx)
448 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
449 struct usb_device *udev = priv->udev;
451 status = usb_control_msg(udev, usb_rcvctrlpipe(udev, 0),
452 RTL8187_REQ_GET_REGS, RTL8187_REQT_READ,
453 indx, 0, &data, 2, HZ / 2);
457 printk("read_nic_word TimeOut! status:%d\n", status);
464 u16 read_nic_word_E(struct net_device *dev, int indx)
468 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
469 struct usb_device *udev = priv->udev;
471 status = usb_control_msg(udev, usb_rcvctrlpipe(udev, 0),
472 RTL8187_REQ_GET_REGS, RTL8187_REQT_READ,
473 indx|0xfe00, 0, &data, 2, HZ / 2);
477 printk("read_nic_word TimeOut! status:%d\n", status);
484 u32 read_nic_dword(struct net_device *dev, int indx)
490 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
491 struct usb_device *udev = priv->udev;
493 status = usb_control_msg(udev, usb_rcvctrlpipe(udev, 0),
494 RTL8187_REQ_GET_REGS, RTL8187_REQT_READ,
495 indx, 0, &data, 4, HZ / 2);
497 // printk(KERN_WARNING "read size of data = %d\, date = %d\n", result, data);
502 printk("read_nic_dword TimeOut! status:%d\n", status);
503 if(status == -ENODEV) {
504 priv->usb_error = true;
514 //u8 read_phy_cck(struct net_device *dev, u8 adr);
515 //u8 read_phy_ofdm(struct net_device *dev, u8 adr);
516 /* this might still called in what was the PHY rtl8185/rtl8192 common code
517 * plans are to possibilty turn it again in one common code...
519 inline void force_pci_posting(struct net_device *dev)
524 static struct net_device_stats *rtl8192_stats(struct net_device *dev);
525 void rtl8192_commit(struct net_device *dev);
526 //void rtl8192_restart(struct net_device *dev);
527 void rtl8192_restart(struct work_struct *work);
528 //void rtl8192_rq_tx_ack(struct work_struct *work);
530 void watch_dog_timer_callback(unsigned long data);
532 /****************************************************************************
533 -----------------------------PROCFS STUFF-------------------------
534 *****************************************************************************/
536 static struct proc_dir_entry *rtl8192_proc = NULL;
540 static int proc_get_stats_ap(char *page, char **start,
541 off_t offset, int count,
542 int *eof, void *data)
544 struct net_device *dev = data;
545 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
546 struct ieee80211_device *ieee = priv->ieee80211;
547 struct ieee80211_network *target;
551 list_for_each_entry(target, &ieee->network_list, list) {
553 len += snprintf(page + len, count - len,
554 "%s ", target->ssid);
556 if(target->wpa_ie_len>0 || target->rsn_ie_len>0){
557 len += snprintf(page + len, count - len,
561 len += snprintf(page + len, count - len,
571 static int proc_get_registers(char *page, char **start,
572 off_t offset, int count,
573 int *eof, void *data)
575 struct net_device *dev = data;
576 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
579 int i,n,page0,page1,page2;
586 /* This dump the current register page */
587 if(!IS_BB_REG_OFFSET_92S(page0)){
588 len += snprintf(page + len, count - len,
589 "\n####################page %x##################\n ", (page0>>8));
592 len += snprintf(page + len, count - len,
594 for(i=0;i<16 && n<=max;i++,n++)
595 len += snprintf(page + len, count - len,
596 "%2.2x ",read_nic_byte(dev,(page0|n)));
599 len += snprintf(page + len, count - len,
600 "\n####################page %x##################\n ", (page0>>8));
603 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
604 for(i=0;i<4 && n<=max;n+=4,i++)
605 len += snprintf(page + len, count - len,
606 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
609 len += snprintf(page + len, count - len,"\n");
614 static int proc_get_registers_1(char *page, char **start,
615 off_t offset, int count,
616 int *eof, void *data)
618 struct net_device *dev = data;
619 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
627 /* This dump the current register page */
628 len += snprintf(page + len, count - len,
629 "\n####################page %x##################\n ", (page0>>8));
632 len += snprintf(page + len, count - len,
634 for(i=0;i<16 && n<=max;i++,n++)
635 len += snprintf(page + len, count - len,
636 "%2.2x ",read_nic_byte(dev,(page0|n)));
638 len += snprintf(page + len, count - len,"\n");
643 static int proc_get_registers_2(char *page, char **start,
644 off_t offset, int count,
645 int *eof, void *data)
647 struct net_device *dev = data;
648 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
656 /* This dump the current register page */
657 len += snprintf(page + len, count - len,
658 "\n####################page %x##################\n ", (page0>>8));
661 len += snprintf(page + len, count - len,
663 for(i=0;i<16 && n<=max;i++,n++)
664 len += snprintf(page + len, count - len,
665 "%2.2x ",read_nic_byte(dev,(page0|n)));
667 len += snprintf(page + len, count - len,"\n");
672 static int proc_get_registers_8(char *page, char **start,
673 off_t offset, int count,
674 int *eof, void *data)
676 struct net_device *dev = data;
684 /* This dump the current register page */
685 len += snprintf(page + len, count - len,
686 "\n####################page %x##################\n ", (page0>>8));
689 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
690 for(i=0;i<4 && n<=max;n+=4,i++)
691 len += snprintf(page + len, count - len,
692 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
694 len += snprintf(page + len, count - len,"\n");
699 static int proc_get_registers_9(char *page, char **start,
700 off_t offset, int count,
701 int *eof, void *data)
703 struct net_device *dev = data;
704 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
712 /* This dump the current register page */
713 len += snprintf(page + len, count - len,
714 "\n####################page %x##################\n ", (page0>>8));
717 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
718 for(i=0;i<4 && n<=max;n+=4,i++)
719 len += snprintf(page + len, count - len,
720 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
722 len += snprintf(page + len, count - len,"\n");
726 static int proc_get_registers_a(char *page, char **start,
727 off_t offset, int count,
728 int *eof, void *data)
730 struct net_device *dev = data;
731 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
739 /* This dump the current register page */
740 len += snprintf(page + len, count - len,
741 "\n####################page %x##################\n ", (page0>>8));
744 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
745 for(i=0;i<4 && n<=max;n+=4,i++)
746 len += snprintf(page + len, count - len,
747 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
749 len += snprintf(page + len, count - len,"\n");
753 static int proc_get_registers_b(char *page, char **start,
754 off_t offset, int count,
755 int *eof, void *data)
757 struct net_device *dev = data;
758 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
766 /* This dump the current register page */
767 len += snprintf(page + len, count - len,
768 "\n####################page %x##################\n ", (page0>>8));
771 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
772 for(i=0;i<4 && n<=max;n+=4,i++)
773 len += snprintf(page + len, count - len,
774 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
776 len += snprintf(page + len, count - len,"\n");
780 static int proc_get_registers_c(char *page, char **start,
781 off_t offset, int count,
782 int *eof, void *data)
784 struct net_device *dev = data;
785 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
793 /* This dump the current register page */
794 len += snprintf(page + len, count - len,
795 "\n####################page %x##################\n ", (page0>>8));
798 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
799 for(i=0;i<4 && n<=max;n+=4,i++)
800 len += snprintf(page + len, count - len,
801 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
803 len += snprintf(page + len, count - len,"\n");
807 static int proc_get_registers_d(char *page, char **start,
808 off_t offset, int count,
809 int *eof, void *data)
811 struct net_device *dev = data;
812 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
820 /* This dump the current register page */
821 len += snprintf(page + len, count - len,
822 "\n####################page %x##################\n ", (page0>>8));
825 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
826 for(i=0;i<4 && n<=max;n+=4,i++)
827 len += snprintf(page + len, count - len,
828 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
830 len += snprintf(page + len, count - len,"\n");
834 static int proc_get_registers_e(char *page, char **start,
835 off_t offset, int count,
836 int *eof, void *data)
838 struct net_device *dev = data;
839 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
847 /* This dump the current register page */
848 len += snprintf(page + len, count - len,
849 "\n####################page %x##################\n ", (page0>>8));
852 len += snprintf(page + len, count - len, "\nD: %2x > ",n);
853 for(i=0;i<4 && n<=max;n+=4,i++)
854 len += snprintf(page + len, count - len,
855 "%8.8x ",rtl8192_QueryBBReg(dev,(page0|n), bMaskDWord));
857 len += snprintf(page + len, count - len,"\n");
862 static int proc_get_stats_tx(char *page, char **start,
863 off_t offset, int count,
864 int *eof, void *data)
866 struct net_device *dev = data;
867 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
871 len += snprintf(page + len, count - len,
872 "TX VI priority ok int: %lu\n"
873 "TX VI priority error int: %lu\n"
874 "TX VO priority ok int: %lu\n"
875 "TX VO priority error int: %lu\n"
876 "TX BE priority ok int: %lu\n"
877 "TX BE priority error int: %lu\n"
878 "TX BK priority ok int: %lu\n"
879 "TX BK priority error int: %lu\n"
880 "TX MANAGE priority ok int: %lu\n"
881 "TX MANAGE priority error int: %lu\n"
882 "TX BEACON priority ok int: %lu\n"
883 "TX BEACON priority error int: %lu\n"
884 // "TX high priority ok int: %lu\n"
885 // "TX high priority failed error int: %lu\n"
886 "TX queue resume: %lu\n"
887 "TX queue stopped?: %d\n"
888 "TX fifo overflow: %lu\n"
889 // "TX beacon: %lu\n"
894 // "TX HW queue: %d\n"
895 "TX VI dropped: %lu\n"
896 "TX VO dropped: %lu\n"
897 "TX BE dropped: %lu\n"
898 "TX BK dropped: %lu\n"
899 "TX total data packets %lu\n",
900 // "TX beacon aborted: %lu\n",
901 priv->stats.txviokint,
903 priv->stats.txvookint,
905 priv->stats.txbeokint,
907 priv->stats.txbkokint,
909 priv->stats.txmanageokint,
910 priv->stats.txmanageerr,
911 priv->stats.txbeaconokint,
912 priv->stats.txbeaconerr,
913 // priv->stats.txhpokint,
914 // priv->stats.txhperr,
915 priv->stats.txresumed,
916 netif_queue_stopped(dev),
917 priv->stats.txoverflow,
918 // priv->stats.txbeacon,
919 atomic_read(&(priv->tx_pending[VI_PRIORITY])),
920 atomic_read(&(priv->tx_pending[VO_PRIORITY])),
921 atomic_read(&(priv->tx_pending[BE_PRIORITY])),
922 atomic_read(&(priv->tx_pending[BK_PRIORITY])),
923 // read_nic_byte(dev, TXFIFOCOUNT),
924 priv->stats.txvidrop,
925 priv->stats.txvodrop,
926 priv->stats.txbedrop,
927 priv->stats.txbkdrop,
928 priv->stats.txdatapkt
929 // priv->stats.txbeaconerr
938 static int proc_get_stats_rx(char *page, char **start,
939 off_t offset, int count,
940 int *eof, void *data)
942 struct net_device *dev = data;
943 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
947 len += snprintf(page + len, count - len,
949 "RX urb status error: %lu\n"
950 "RX invalid urb error: %lu\n",
951 priv->stats.rxoktotal,
952 priv->stats.rxstaterr,
953 priv->stats.rxurberr);
959 void rtl8192_proc_module_init(void)
961 RT_TRACE(COMP_INIT, "Initializing proc filesystem");
962 rtl8192_proc=create_proc_entry(RTL819xU_MODULE_NAME, S_IFDIR, init_net.proc_net);
966 void rtl8192_proc_module_remove(void)
968 remove_proc_entry(RTL819xU_MODULE_NAME, init_net.proc_net);
972 void rtl8192_proc_remove_one(struct net_device *dev)
974 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
978 // remove_proc_entry("stats-hw", priv->dir_dev);
979 remove_proc_entry("stats-tx", priv->dir_dev);
980 remove_proc_entry("stats-rx", priv->dir_dev);
981 // remove_proc_entry("stats-ieee", priv->dir_dev);
982 remove_proc_entry("stats-ap", priv->dir_dev);
983 remove_proc_entry("registers", priv->dir_dev);
984 remove_proc_entry("registers-1", priv->dir_dev);
985 remove_proc_entry("registers-2", priv->dir_dev);
986 remove_proc_entry("registers-8", priv->dir_dev);
987 remove_proc_entry("registers-9", priv->dir_dev);
988 remove_proc_entry("registers-a", priv->dir_dev);
989 remove_proc_entry("registers-b", priv->dir_dev);
990 remove_proc_entry("registers-c", priv->dir_dev);
991 remove_proc_entry("registers-d", priv->dir_dev);
992 remove_proc_entry("registers-e", priv->dir_dev);
993 // remove_proc_entry("cck-registers",priv->dir_dev);
994 // remove_proc_entry("ofdm-registers",priv->dir_dev);
995 //remove_proc_entry(dev->name, rtl8192_proc);
996 remove_proc_entry("wlan0", rtl8192_proc);
997 priv->dir_dev = NULL;
1002 void rtl8192_proc_init_one(struct net_device *dev)
1004 struct proc_dir_entry *e;
1005 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
1006 priv->dir_dev = create_proc_entry(dev->name,
1007 S_IFDIR | S_IRUGO | S_IXUGO,
1009 if (!priv->dir_dev) {
1010 RT_TRACE(COMP_ERR, "Unable to initialize /proc/net/rtl8192/%s\n",
1014 e = create_proc_read_entry("stats-rx", S_IFREG | S_IRUGO,
1015 priv->dir_dev, proc_get_stats_rx, dev);
1018 RT_TRACE(COMP_ERR,"Unable to initialize "
1019 "/proc/net/rtl8192/%s/stats-rx\n",
1024 e = create_proc_read_entry("stats-tx", S_IFREG | S_IRUGO,
1025 priv->dir_dev, proc_get_stats_tx, dev);
1028 RT_TRACE(COMP_ERR, "Unable to initialize "
1029 "/proc/net/rtl8192/%s/stats-tx\n",
1033 e = create_proc_read_entry("stats-ap", S_IFREG | S_IRUGO,
1034 priv->dir_dev, proc_get_stats_ap, dev);
1037 RT_TRACE(COMP_ERR, "Unable to initialize "
1038 "/proc/net/rtl8192/%s/stats-ap\n",
1042 e = create_proc_read_entry("registers", S_IFREG | S_IRUGO,
1043 priv->dir_dev, proc_get_registers, dev);
1045 RT_TRACE(COMP_ERR, "Unable to initialize "
1046 "/proc/net/rtl8192/%s/registers\n",
1049 e = create_proc_read_entry("registers-1", S_IFREG | S_IRUGO,
1050 priv->dir_dev, proc_get_registers_1, dev);
1052 RT_TRACE(COMP_ERR, "Unable to initialize "
1053 "/proc/net/rtl8192/%s/registers-1\n",
1056 e = create_proc_read_entry("registers-2", S_IFREG | S_IRUGO,
1057 priv->dir_dev, proc_get_registers_2, dev);
1059 RT_TRACE(COMP_ERR, "Unable to initialize "
1060 "/proc/net/rtl8192/%s/registers-2\n",
1063 e = create_proc_read_entry("registers-8", S_IFREG | S_IRUGO,
1064 priv->dir_dev, proc_get_registers_8, dev);
1066 RT_TRACE(COMP_ERR, "Unable to initialize "
1067 "/proc/net/rtl8192/%s/registers-8\n",
1070 e = create_proc_read_entry("registers-9", S_IFREG | S_IRUGO,
1071 priv->dir_dev, proc_get_registers_9, dev);
1073 RT_TRACE(COMP_ERR, "Unable to initialize "
1074 "/proc/net/rtl8192/%s/registers-9\n",
1077 e = create_proc_read_entry("registers-a", S_IFREG | S_IRUGO,
1078 priv->dir_dev, proc_get_registers_a, dev);
1080 RT_TRACE(COMP_ERR, "Unable to initialize "
1081 "/proc/net/rtl8192/%s/registers-a\n",
1084 e = create_proc_read_entry("registers-b", S_IFREG | S_IRUGO,
1085 priv->dir_dev, proc_get_registers_b, dev);
1087 RT_TRACE(COMP_ERR, "Unable to initialize "
1088 "/proc/net/rtl8192/%s/registers-b\n",
1091 e = create_proc_read_entry("registers-c", S_IFREG | S_IRUGO,
1092 priv->dir_dev, proc_get_registers_c, dev);
1094 RT_TRACE(COMP_ERR, "Unable to initialize "
1095 "/proc/net/rtl8192/%s/registers-c\n",
1098 e = create_proc_read_entry("registers-d", S_IFREG | S_IRUGO,
1099 priv->dir_dev, proc_get_registers_d, dev);
1101 RT_TRACE(COMP_ERR, "Unable to initialize "
1102 "/proc/net/rtl8192/%s/registers-d\n",
1105 e = create_proc_read_entry("registers-e", S_IFREG | S_IRUGO,
1106 priv->dir_dev, proc_get_registers_e, dev);
1108 RT_TRACE(COMP_ERR, "Unable to initialize "
1109 "/proc/net/rtl8192/%s/registers-e\n",
1113 /****************************************************************************
1114 -----------------------------MISC STUFF-------------------------
1115 *****************************************************************************/
1117 /* this is only for debugging */
1118 void print_buffer(u32 *buffer, int len)
1121 u8 *buf =(u8*)buffer;
1123 printk("ASCII BUFFER DUMP (len: %x):\n",len);
1126 printk("%c",buf[i]);
1128 printk("\nBINARY BUFFER DUMP (len: %x):\n",len);
1131 printk("%x",buf[i]);
1136 //short check_nic_enough_desc(struct net_device *dev, priority_t priority)
1137 short check_nic_enough_desc(struct net_device *dev,int queue_index)
1139 struct r8192_priv *priv = ieee80211_priv(dev);
1140 int used = atomic_read(&priv->tx_pending[queue_index]);
1142 return (used < MAX_TX_URB);
1145 void tx_timeout(struct net_device *dev)
1147 struct r8192_priv *priv = ieee80211_priv(dev);
1148 //rtl8192_commit(dev);
1150 schedule_work(&priv->reset_wq);
1151 //DMESG("TXTIMEOUT");
1155 /* this is only for debug */
1156 void dump_eprom(struct net_device *dev)
1160 RT_TRACE(COMP_EPROM, "EEPROM addr %x : %x", i, eprom_read(dev,i));
1163 /* this is only for debug */
1164 void rtl8192_dump_reg(struct net_device *dev)
1170 RT_TRACE(COMP_PHY, "Dumping NIC register map");
1174 printk( "\nD: %2x> ", n);
1175 for(i=0;i<16 && n<=max;i++,n++)
1176 printk("%2x ",read_nic_byte(dev,n));
1181 /****************************************************************************
1182 ------------------------------HW STUFF---------------------------
1183 *****************************************************************************/
1185 void rtl8192_set_mode(struct net_device *dev,int mode)
1188 ecmd=read_nic_byte(dev, EPROM_CMD);
1189 ecmd=ecmd &~ EPROM_CMD_OPERATING_MODE_MASK;
1190 ecmd=ecmd | (mode<<EPROM_CMD_OPERATING_MODE_SHIFT);
1191 ecmd=ecmd &~ (1<<EPROM_CS_SHIFT);
1192 ecmd=ecmd &~ (1<<EPROM_CK_SHIFT);
1193 write_nic_byte(dev, EPROM_CMD, ecmd);
1197 void rtl8192_update_msr(struct net_device *dev)
1199 struct r8192_priv *priv = ieee80211_priv(dev);
1202 msr = read_nic_byte(dev, MSR);
1203 msr &= ~ MSR_LINK_MASK;
1205 /* do not change in link_state != WLAN_LINK_ASSOCIATED.
1206 * msr must be updated if the state is ASSOCIATING.
1207 * this is intentional and make sense for ad-hoc and
1208 * master (see the create BSS/IBSS func)
1210 if (priv->ieee80211->state == IEEE80211_LINKED){
1212 if (priv->ieee80211->iw_mode == IW_MODE_INFRA)
1213 msr |= (MSR_LINK_MANAGED<<MSR_LINK_SHIFT);
1214 else if (priv->ieee80211->iw_mode == IW_MODE_ADHOC)
1215 msr |= (MSR_LINK_ADHOC<<MSR_LINK_SHIFT);
1216 else if (priv->ieee80211->iw_mode == IW_MODE_MASTER)
1217 msr |= (MSR_LINK_MASTER<<MSR_LINK_SHIFT);
1220 msr |= (MSR_LINK_NONE<<MSR_LINK_SHIFT);
1222 write_nic_byte(dev, MSR, msr);
1225 void rtl8192_set_chan(struct net_device *dev,short ch)
1227 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
1229 RT_TRACE(COMP_CH, "=====>%s()====ch:%d\n", __FUNCTION__, ch);
1230 //printk("=====>%s()====ch:%d\n", __FUNCTION__, ch);
1233 /* this hack should avoid frame TX during channel setting*/
1236 // tx = read_nic_dword(dev,TX_CONF);
1237 // tx &= ~TX_LOOPBACK_MASK;
1240 // write_nic_dword(dev,TX_CONF, tx |( TX_LOOPBACK_MAC<<TX_LOOPBACK_SHIFT));
1242 //need to implement rf set channel here WB
1244 if (priv->rf_set_chan)
1245 priv->rf_set_chan(dev,priv->chan);
1247 // write_nic_dword(dev,TX_CONF,tx | (TX_LOOPBACK_NONE<<TX_LOOPBACK_SHIFT));
1251 static void rtl8192_rx_isr(struct urb *urb);
1253 u32 get_rxpacket_shiftbytes_819xusb(struct ieee80211_rx_stats *pstats)
1256 return (sizeof(rx_desc_819x_usb) + pstats->RxDrvInfoSize
1257 + pstats->RxBufShift);
1260 static int rtl8192_rx_initiate(struct net_device*dev)
1262 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
1264 struct sk_buff *skb;
1265 struct rtl8192_rx_info *info;
1267 /* nomal packet rx procedure */
1268 while (skb_queue_len(&priv->rx_queue) < MAX_RX_URB) {
1269 skb = __dev_alloc_skb(RX_URB_SIZE, GFP_KERNEL);
1272 entry = usb_alloc_urb(0, GFP_KERNEL);
1277 // printk("nomal packet IN request!\n");
1278 usb_fill_bulk_urb(entry, priv->udev,
1279 usb_rcvbulkpipe(priv->udev, 3), skb_tail_pointer(skb),
1280 RX_URB_SIZE, rtl8192_rx_isr, skb);
1281 info = (struct rtl8192_rx_info *) skb->cb;
1284 info->out_pipe = 3; //denote rx normal packet queue
1285 skb_queue_tail(&priv->rx_queue, skb);
1286 usb_submit_urb(entry, GFP_KERNEL);
1289 /* command packet rx procedure */
1290 while (skb_queue_len(&priv->rx_queue) < MAX_RX_URB + 3) {
1291 // printk("command packet IN request!\n");
1292 skb = __dev_alloc_skb(RX_URB_SIZE ,GFP_KERNEL);
1295 entry = usb_alloc_urb(0, GFP_KERNEL);
1300 usb_fill_bulk_urb(entry, priv->udev,
1301 usb_rcvbulkpipe(priv->udev, 9), skb_tail_pointer(skb),
1302 RX_URB_SIZE, rtl8192_rx_isr, skb);
1303 info = (struct rtl8192_rx_info *) skb->cb;
1306 info->out_pipe = 9; //denote rx cmd packet queue
1307 skb_queue_tail(&priv->rx_queue, skb);
1308 usb_submit_urb(entry, GFP_KERNEL);
1314 void rtl8192_set_rxconf(struct net_device *dev)
1316 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
1319 rxconf=read_nic_dword(dev,RCR);
1320 rxconf = rxconf &~ MAC_FILTER_MASK;
1321 rxconf = rxconf | RCR_AMF;
1322 rxconf = rxconf | RCR_ADF;
1323 rxconf = rxconf | RCR_AB;
1324 rxconf = rxconf | RCR_AM;
1325 //rxconf = rxconf | RCR_ACF;
1327 if (dev->flags & IFF_PROMISC) {DMESG ("NIC in promisc mode");}
1329 if(priv->ieee80211->iw_mode == IW_MODE_MONITOR || \
1330 dev->flags & IFF_PROMISC){
1331 rxconf = rxconf | RCR_AAP;
1332 } /*else if(priv->ieee80211->iw_mode == IW_MODE_MASTER){
1333 rxconf = rxconf | (1<<ACCEPT_ALLMAC_FRAME_SHIFT);
1334 rxconf = rxconf | (1<<RX_CHECK_BSSID_SHIFT);
1336 rxconf = rxconf | RCR_APM;
1337 rxconf = rxconf | RCR_CBSSID;
1341 if(priv->ieee80211->iw_mode == IW_MODE_MONITOR){
1342 rxconf = rxconf | RCR_AICV;
1343 rxconf = rxconf | RCR_APWRMGT;
1346 if( priv->crcmon == 1 && priv->ieee80211->iw_mode == IW_MODE_MONITOR)
1347 rxconf = rxconf | RCR_ACRC32;
1350 rxconf = rxconf &~ RX_FIFO_THRESHOLD_MASK;
1351 rxconf = rxconf | (RX_FIFO_THRESHOLD_NONE<<RX_FIFO_THRESHOLD_SHIFT);
1352 rxconf = rxconf &~ MAX_RX_DMA_MASK;
1353 rxconf = rxconf | ((u32)7<<RCR_MXDMA_OFFSET);
1355 // rxconf = rxconf | (1<<RX_AUTORESETPHY_SHIFT);
1356 rxconf = rxconf | RCR_ONLYERLPKT;
1358 // rxconf = rxconf &~ RCR_CS_MASK;
1359 // rxconf = rxconf | (1<<RCR_CS_SHIFT);
1361 write_nic_dword(dev, RCR, rxconf);
1364 DMESG("rxconf: %x %x",rxconf ,read_nic_dword(dev,RCR));
1367 //wait to be removed
1368 void rtl8192_rx_enable(struct net_device *dev)
1372 //struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
1374 rtl8192_rx_initiate(dev);
1376 // rtl8192_set_rxconf(dev);
1380 void rtl8192_tx_enable(struct net_device *dev)
1384 void rtl8192_rtx_disable(struct net_device *dev)
1387 struct r8192_priv *priv = ieee80211_priv(dev);
1388 struct sk_buff *skb;
1389 struct rtl8192_rx_info *info;
1391 cmd=read_nic_byte(dev,CMDR);
1392 write_nic_byte(dev, CMDR, cmd &~ \
1394 force_pci_posting(dev);
1397 while ((skb = __skb_dequeue(&priv->rx_queue))) {
1398 info = (struct rtl8192_rx_info *) skb->cb;
1402 usb_kill_urb(info->urb);
1406 if (skb_queue_len(&priv->skb_queue)) {
1407 printk(KERN_WARNING "skb_queue not empty\n");
1410 skb_queue_purge(&priv->skb_queue);
1415 int alloc_tx_beacon_desc_ring(struct net_device *dev, int count)
1420 inline u16 ieeerate2rtlrate(int rate)
1452 static u16 rtl_rate[] = {10,20,55,110,60,90,120,180,240,360,480,540};
1453 inline u16 rtl8192_rate2rate(short rate)
1455 if (rate >11) return 0;
1456 return rtl_rate[rate];
1459 static void rtl8192_rx_isr(struct urb *urb)
1461 struct sk_buff *skb = (struct sk_buff *) urb->context;
1462 struct rtl8192_rx_info *info = (struct rtl8192_rx_info *)skb->cb;
1463 struct net_device *dev = info->dev;
1464 struct r8192_priv *priv = ieee80211_priv(dev);
1465 int out_pipe = info->out_pipe;
1469 if (unlikely(urb->status)) {
1471 priv->stats.rxstaterr++;
1472 priv->ieee80211->stats.rx_errors++;
1474 // printk("%s():rx status err\n",__FUNCTION__);
1478 skb_unlink(skb, &priv->rx_queue);
1479 skb_put(skb, urb->actual_length);
1481 skb_queue_tail(&priv->skb_queue, skb);
1482 tasklet_schedule(&priv->irq_rx_tasklet);
1484 skb = dev_alloc_skb(RX_URB_SIZE);
1485 if (unlikely(!skb)) {
1487 printk("%s():can,t alloc skb\n",__FUNCTION__);
1488 /* TODO check rx queue length and refill *somewhere* */
1492 usb_fill_bulk_urb(urb, priv->udev,
1493 usb_rcvbulkpipe(priv->udev, out_pipe),
1494 skb_tail_pointer(skb),
1495 RX_URB_SIZE, rtl8192_rx_isr, skb);
1497 info = (struct rtl8192_rx_info *) skb->cb;
1500 info->out_pipe = out_pipe;
1502 urb->transfer_buffer = skb_tail_pointer(skb);
1504 skb_queue_tail(&priv->rx_queue, skb);
1505 err = usb_submit_urb(urb, GFP_ATOMIC);
1506 if(err && err != -EPERM)
1507 printk("can not submit rxurb, err is %x,URB status is %x\n",err,urb->status);
1511 rtl819xusb_rx_command_packet(
1512 struct net_device *dev,
1513 struct ieee80211_rx_stats *pstats
1518 //RT_TRACE(COMP_RECV, DBG_TRACE, ("---> RxCommandPacketHandle819xUsb()\n"));
1520 status = cmpk_message_handle_rx(dev, pstats);
1523 DMESG("rxcommandpackethandle819xusb: It is a command packet\n");
1527 //RT_TRACE(COMP_RECV, DBG_TRACE, ("RxCommandPacketHandle819xUsb: It is not a command packet\n"));
1530 //RT_TRACE(COMP_RECV, DBG_TRACE, ("<--- RxCommandPacketHandle819xUsb()\n"));
1534 void rtl8192_data_hard_stop(struct net_device *dev)
1540 void rtl8192_data_hard_resume(struct net_device *dev)
1545 /* this function TX data frames when the ieee80211 stack requires this.
1546 * It checks also if we need to stop the ieee tx queue, eventually do it
1548 void rtl8192_hard_data_xmit(struct sk_buff *skb, struct net_device *dev, int rate)
1550 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
1552 unsigned long flags;
1553 cb_desc *tcb_desc = (cb_desc *)(skb->cb + MAX_DEV_ADDR_SIZE);
1554 u8 queue_index = tcb_desc->queue_index;
1556 /* shall not be referred by command packet */
1557 assert(queue_index != TXCMD_QUEUE);
1559 spin_lock_irqsave(&priv->tx_lock,flags);
1561 memcpy((unsigned char *)(skb->cb),&dev,sizeof(dev));
1562 // tcb_desc->RATRIndex = 7;
1563 // tcb_desc->bTxDisableRateFallBack = 1;
1564 // tcb_desc->bTxUseDriverAssingedRate = 1;
1565 tcb_desc->bTxEnableFwCalcDur = 1;
1566 skb_push(skb, priv->ieee80211->tx_headroom);
1567 ret = priv->ops->rtl819x_tx(dev, skb);
1569 //priv->ieee80211->stats.tx_bytes+=(skb->len - priv->ieee80211->tx_headroom);
1570 //priv->ieee80211->stats.tx_packets++;
1572 spin_unlock_irqrestore(&priv->tx_lock,flags);
1578 /* This is a rough attempt to TX a frame
1579 * This is called by the ieee 80211 stack to TX management frames.
1580 * If the ring is full packet are dropped (for data frame the queue
1581 * is stopped before this can happen).
1583 int rtl8192_hard_start_xmit(struct sk_buff *skb,struct net_device *dev)
1585 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
1587 unsigned long flags;
1588 cb_desc *tcb_desc = (cb_desc *)(skb->cb + MAX_DEV_ADDR_SIZE);
1589 u8 queue_index = tcb_desc->queue_index;
1592 spin_lock_irqsave(&priv->tx_lock,flags);
1594 memcpy((unsigned char *)(skb->cb),&dev,sizeof(dev));
1595 if(queue_index == TXCMD_QUEUE) {
1596 skb_push(skb, USB_HWDESC_HEADER_LEN);
1597 priv->ops->rtl819x_tx_cmd(dev, skb);
1599 spin_unlock_irqrestore(&priv->tx_lock,flags);
1602 skb_push(skb, priv->ieee80211->tx_headroom);
1603 ret = priv->ops->rtl819x_tx(dev, skb);
1606 spin_unlock_irqrestore(&priv->tx_lock,flags);
1612 void rtl8192_try_wake_queue(struct net_device *dev, int pri);
1615 static void rtl8192_tx_isr(struct urb *tx_urb)
1617 struct sk_buff *skb = (struct sk_buff*)tx_urb->context;
1618 struct net_device *dev = NULL;
1619 struct r8192_priv *priv = NULL;
1620 cb_desc *tcb_desc = (cb_desc *)(skb->cb + MAX_DEV_ADDR_SIZE);
1621 u8 queue_index = tcb_desc->queue_index;
1622 // bool bToSend0Byte;
1623 // u16 BufLen = skb->len;
1625 memcpy(&dev,(struct net_device*)(skb->cb),sizeof(struct net_device*));
1626 priv = ieee80211_priv(dev);
1628 if(tcb_desc->queue_index != TXCMD_QUEUE) {
1629 if(tx_urb->status == 0) {
1630 // dev->trans_start = jiffies;
1631 // As act as station mode, destion shall be unicast address.
1632 //priv->ieee80211->stats.tx_bytes+=(skb->len - priv->ieee80211->tx_headroom);
1633 //priv->ieee80211->stats.tx_packets++;
1634 priv->stats.txoktotal++;
1635 priv->ieee80211->LinkDetectInfo.NumTxOkInPeriod++;
1636 priv->stats.txbytesunicast += (skb->len - priv->ieee80211->tx_headroom);
1638 priv->ieee80211->stats.tx_errors++;
1639 //priv->stats.txmanageerr++;
1644 /* free skb and tx_urb */
1646 dev_kfree_skb_any(skb);
1647 usb_free_urb(tx_urb);
1648 atomic_dec(&priv->tx_pending[queue_index]);
1653 // Handle HW Beacon:
1654 // We had transfer our beacon frame to host controler at this moment.
1658 // Handling the wait queue of command packets.
1659 // For Tx command packets, we must not do TCB fragment because it is not handled right now.
1660 // We must cut the packets to match the size of TX_CMD_PKT before we send it.
1662 if (queue_index == MGNT_QUEUE){
1663 if (priv->ieee80211->ack_tx_to_ieee){
1664 if (rtl8192_is_tx_queue_empty(dev)){
1665 priv->ieee80211->ack_tx_to_ieee = 0;
1666 ieee80211_ps_tx_ack(priv->ieee80211, 1);
1670 /* Handle MPDU in wait queue. */
1671 if(queue_index != BEACON_QUEUE) {
1672 /* Don't send data frame during scanning.*/
1673 if((skb_queue_len(&priv->ieee80211->skb_waitQ[queue_index]) != 0)&&\
1674 (!(priv->ieee80211->queue_stop))) {
1675 if(NULL != (skb = skb_dequeue(&(priv->ieee80211->skb_waitQ[queue_index]))))
1676 priv->ieee80211->softmac_hard_start_xmit(skb, dev);
1678 return; //modified by david to avoid further processing AMSDU
1684 void rtl8192_beacon_stop(struct net_device *dev)
1687 struct r8192_priv *priv = ieee80211_priv(dev);
1689 msr = read_nic_byte(dev, MSR);
1690 msrm = msr & MSR_LINK_MASK;
1691 msr2 = msr & ~MSR_LINK_MASK;
1693 if(NIC_8192U == priv->card_8192) {
1694 usb_kill_urb(priv->rx_urb[MAX_RX_URB]);
1696 if ((msrm == (MSR_LINK_ADHOC<<MSR_LINK_SHIFT) ||
1697 (msrm == (MSR_LINK_MASTER<<MSR_LINK_SHIFT)))){
1698 write_nic_byte(dev, MSR, msr2 | MSR_LINK_NONE);
1699 write_nic_byte(dev, MSR, msr);
1703 void rtl8192_config_rate(struct net_device* dev, u16* rate_config)
1705 struct r8192_priv *priv = ieee80211_priv(dev);
1706 struct ieee80211_network *net;
1707 u8 i=0, basic_rate = 0;
1708 net = & priv->ieee80211->current_network;
1710 for (i=0; i<net->rates_len; i++)
1712 basic_rate = net->rates[i]&0x7f;
1715 case MGN_1M: *rate_config |= RRSR_1M; break;
1716 case MGN_2M: *rate_config |= RRSR_2M; break;
1717 case MGN_5_5M: *rate_config |= RRSR_5_5M; break;
1718 case MGN_11M: *rate_config |= RRSR_11M; break;
1719 case MGN_6M: *rate_config |= RRSR_6M; break;
1720 case MGN_9M: *rate_config |= RRSR_9M; break;
1721 case MGN_12M: *rate_config |= RRSR_12M; break;
1722 case MGN_18M: *rate_config |= RRSR_18M; break;
1723 case MGN_24M: *rate_config |= RRSR_24M; break;
1724 case MGN_36M: *rate_config |= RRSR_36M; break;
1725 case MGN_48M: *rate_config |= RRSR_48M; break;
1726 case MGN_54M: *rate_config |= RRSR_54M; break;
1729 for (i=0; i<net->rates_ex_len; i++)
1731 basic_rate = net->rates_ex[i]&0x7f;
1734 case MGN_1M: *rate_config |= RRSR_1M; break;
1735 case MGN_2M: *rate_config |= RRSR_2M; break;
1736 case MGN_5_5M: *rate_config |= RRSR_5_5M; break;
1737 case MGN_11M: *rate_config |= RRSR_11M; break;
1738 case MGN_6M: *rate_config |= RRSR_6M; break;
1739 case MGN_9M: *rate_config |= RRSR_9M; break;
1740 case MGN_12M: *rate_config |= RRSR_12M; break;
1741 case MGN_18M: *rate_config |= RRSR_18M; break;
1742 case MGN_24M: *rate_config |= RRSR_24M; break;
1743 case MGN_36M: *rate_config |= RRSR_36M; break;
1744 case MGN_48M: *rate_config |= RRSR_48M; break;
1745 case MGN_54M: *rate_config |= RRSR_54M; break;
1751 #define SHORT_SLOT_TIME 9
1752 #define NON_SHORT_SLOT_TIME 20
1754 void rtl8192_update_cap(struct net_device* dev, u16 cap)
1757 struct r8192_priv *priv = ieee80211_priv(dev);
1758 struct ieee80211_network *net = &priv->ieee80211->current_network;
1759 priv->short_preamble = cap & WLAN_CAPABILITY_SHORT_PREAMBLE;
1761 //LZM MOD 090303 HW_VAR_ACK_PREAMBLE
1765 tmp = ((priv->nCur40MhzPrimeSC) << 5);
1766 if (priv->short_preamble)
1768 write_nic_byte(dev, RRSR+2, tmp);
1771 if (net->mode & (IEEE_G|IEEE_N_24G))
1774 if ((cap & WLAN_CAPABILITY_SHORT_SLOT)&&(!priv->ieee80211->pHTInfo->bCurrentRT2RTLongSlotTime))
1776 slot_time = SHORT_SLOT_TIME;
1778 else //long slot time
1779 slot_time = NON_SHORT_SLOT_TIME;
1780 priv->slot_time = slot_time;
1781 write_nic_byte(dev, SLOT_TIME, slot_time);
1785 void rtl8192_net_update(struct net_device *dev)
1788 struct r8192_priv *priv = ieee80211_priv(dev);
1789 struct ieee80211_network *net;
1790 u16 BcnTimeCfg = 0, BcnCW = 6, BcnIFS = 0xf;
1791 u16 rate_config = 0;
1792 net = & priv->ieee80211->current_network;
1794 rtl8192_config_rate(dev, &rate_config);
1795 priv->basic_rate = rate_config &= 0x15f;
1797 write_nic_dword(dev,BSSIDR,((u32*)net->bssid)[0]);
1798 write_nic_word(dev,BSSIDR+4,((u16*)net->bssid)[2]);
1799 //for(i=0;i<ETH_ALEN;i++)
1800 // write_nic_byte(dev,BSSID+i,net->bssid[i]);
1802 rtl8192_update_msr(dev);
1803 // rtl8192_update_cap(dev, net->capability);
1804 if (priv->ieee80211->iw_mode == IW_MODE_ADHOC)
1806 write_nic_word(dev, ATIMWND, 2);
1807 write_nic_word(dev, BCN_DMATIME, 1023);
1808 write_nic_word(dev, BCN_INTERVAL, net->beacon_interval);
1809 // write_nic_word(dev, BcnIntTime, 100);
1810 write_nic_word(dev, BCN_DRV_EARLY_INT, 1);
1811 write_nic_byte(dev, BCN_ERR_THRESH, 100);
1812 BcnTimeCfg |= (BcnCW<<BCN_TCFG_CW_SHIFT);
1813 // TODO: BcnIFS may required to be changed on ASIC
1814 BcnTimeCfg |= BcnIFS<<BCN_TCFG_IFS;
1816 write_nic_word(dev, BCN_TCFG, BcnTimeCfg);
1823 //temporary hw beacon is not used any more.
1824 //open it when necessary
1826 void rtl819xusb_beacon_tx(struct net_device *dev,u16 tx_rate)
1830 inline u8 rtl8192_IsWirelessBMode(u16 rate)
1832 if( ((rate <= 110) && (rate != 60) && (rate != 90)) || (rate == 220) )
1837 u16 N_DBPSOfRate(u16 DataRate);
1842 u8 bManagementFrame,
1850 if( rtl8192_IsWirelessBMode(DataRate) )
1852 if( bManagementFrame || !bShortPreamble || DataRate == 10 )
1854 FrameTime = (u16)(144+48+(FrameLength*8/(DataRate/10)));
1858 FrameTime = (u16)(72+24+(FrameLength*8/(DataRate/10)));
1860 if( ( FrameLength*8 % (DataRate/10) ) != 0 ) //Get the Ceilling
1862 } else { //802.11g DSSS-OFDM PLCP length field calculation.
1863 N_DBPS = N_DBPSOfRate(DataRate);
1864 Ceiling = (16 + 8*FrameLength + 6) / N_DBPS
1865 + (((16 + 8*FrameLength + 6) % N_DBPS) ? 1 : 0);
1866 FrameTime = (u16)(16 + 4 + 4*Ceiling + 6);
1871 u16 N_DBPSOfRate(u16 DataRate)
1916 void rtl819xU_cmd_isr(struct urb *tx_cmd_urb, struct pt_regs *regs)
1918 usb_free_urb(tx_cmd_urb);
1921 unsigned int txqueue2outpipe(struct r8192_priv* priv,unsigned int tx_queue) {
1925 RT_TRACE(COMP_ERR,"%s():Unknown queue ID!!!\n",__FUNCTION__);
1928 return priv->txqueue_to_outpipemap[tx_queue];
1931 short rtl8192SU_tx_cmd(struct net_device *dev, struct sk_buff *skb)
1933 struct r8192_priv *priv = ieee80211_priv(dev);
1936 unsigned int idx_pipe;
1937 tx_desc_cmd_819x_usb *pdesc = (tx_desc_cmd_819x_usb *)skb->data;
1938 cb_desc *tcb_desc = (cb_desc *)(skb->cb + MAX_DEV_ADDR_SIZE);
1939 u8 queue_index = tcb_desc->queue_index;
1942 //printk("\n %s::::::::::::::::::::::queue_index = %d\n",__FUNCTION__, queue_index);
1943 atomic_inc(&priv->tx_pending[queue_index]);
1945 tx_urb = usb_alloc_urb(0,GFP_ATOMIC);
1951 memset(pdesc, 0, USB_HWDESC_HEADER_LEN);
1953 /* Tx descriptor ought to be set according to the skb->cb */
1954 pdesc->LINIP = tcb_desc->bLastIniPkt;
1955 PktSize = (u16)(skb->len - USB_HWDESC_HEADER_LEN);
1956 pdesc->PktSize = PktSize;
1957 //printk("PKTSize = %d %x\n",pdesc->PktSize,pdesc->PktSize);
1958 //----------------------------------------------------------------------------
1959 // Fill up USB_OUT_CONTEXT.
1960 //----------------------------------------------------------------------------
1961 // Get index to out pipe from specified QueueID.
1962 idx_pipe = txqueue2outpipe(priv,queue_index);
1963 //printk("=============>%s queue_index:%d, outpipe:%d\n", __func__,queue_index,priv->RtOutPipes[idx_pipe]);
1965 usb_fill_bulk_urb(tx_urb,
1967 usb_sndbulkpipe(priv->udev,priv->RtOutPipes[idx_pipe]),
1973 status = usb_submit_urb(tx_urb, GFP_ATOMIC);
1977 printk("Error TX CMD URB, error %d",
1984 * Mapping Software/Hardware descriptor queue id to "Queue Select Field"
1985 * in TxFwInfo data structure
1986 * 2006.10.30 by Emily
1988 * \param QUEUEID Software Queue
1990 u8 MapHwQueueToFirmwareQueue(u8 QueueID)
1992 u8 QueueSelect = 0x0; //defualt set to
1996 QueueSelect = QSLT_BE; //or QSelect = pTcb->priority;
2000 QueueSelect = QSLT_BK; //or QSelect = pTcb->priority;
2004 QueueSelect = QSLT_VO; //or QSelect = pTcb->priority;
2008 QueueSelect = QSLT_VI; //or QSelect = pTcb->priority;
2011 QueueSelect = QSLT_MGNT;
2015 QueueSelect = QSLT_BEACON;
2018 // TODO: 2006.10.30 mark other queue selection until we verify it is OK
2019 // TODO: Remove Assertions
2020 //#if (RTL819X_FPGA_VER & RTL819X_FPGA_GUANGAN_070502)
2022 QueueSelect = QSLT_CMD;
2026 QueueSelect = QSLT_HIGH;
2030 RT_TRACE(COMP_ERR, "TransmitTCB(): Impossible Queue Selection: %d \n", QueueID);
2036 u8 MRateToHwRate8190Pci(u8 rate)
2038 u8 ret = DESC92S_RATE1M;
2042 // CCK and OFDM non-HT rates
2043 case MGN_1M: ret = DESC92S_RATE1M; break;
2044 case MGN_2M: ret = DESC92S_RATE2M; break;
2045 case MGN_5_5M: ret = DESC92S_RATE5_5M; break;
2046 case MGN_11M: ret = DESC92S_RATE11M; break;
2047 case MGN_6M: ret = DESC92S_RATE6M; break;
2048 case MGN_9M: ret = DESC92S_RATE9M; break;
2049 case MGN_12M: ret = DESC92S_RATE12M; break;
2050 case MGN_18M: ret = DESC92S_RATE18M; break;
2051 case MGN_24M: ret = DESC92S_RATE24M; break;
2052 case MGN_36M: ret = DESC92S_RATE36M; break;
2053 case MGN_48M: ret = DESC92S_RATE48M; break;
2054 case MGN_54M: ret = DESC92S_RATE54M; break;
2056 // HT rates since here
2057 case MGN_MCS0: ret = DESC92S_RATEMCS0; break;
2058 case MGN_MCS1: ret = DESC92S_RATEMCS1; break;
2059 case MGN_MCS2: ret = DESC92S_RATEMCS2; break;
2060 case MGN_MCS3: ret = DESC92S_RATEMCS3; break;
2061 case MGN_MCS4: ret = DESC92S_RATEMCS4; break;
2062 case MGN_MCS5: ret = DESC92S_RATEMCS5; break;
2063 case MGN_MCS6: ret = DESC92S_RATEMCS6; break;
2064 case MGN_MCS7: ret = DESC92S_RATEMCS7; break;
2065 case MGN_MCS8: ret = DESC92S_RATEMCS8; break;
2066 case MGN_MCS9: ret = DESC92S_RATEMCS9; break;
2067 case MGN_MCS10: ret = DESC92S_RATEMCS10; break;
2068 case MGN_MCS11: ret = DESC92S_RATEMCS11; break;
2069 case MGN_MCS12: ret = DESC92S_RATEMCS12; break;
2070 case MGN_MCS13: ret = DESC92S_RATEMCS13; break;
2071 case MGN_MCS14: ret = DESC92S_RATEMCS14; break;
2072 case MGN_MCS15: ret = DESC92S_RATEMCS15; break;
2074 // Set the highest SG rate
2092 ret = DESC92S_RATEMCS15_SG;
2101 u8 QueryIsShort(u8 TxHT, u8 TxRate, cb_desc *tcb_desc)
2105 tmp_Short = (TxHT==1)?((tcb_desc->bUseShortGI)?1:0):((tcb_desc->bUseShortPreamble)?1:0);
2107 if(TxHT==1 && TxRate != DESC90_RATEMCS15)
2113 static void tx_zero_isr(struct urb *tx_urb)
2120 * The tx procedure is just as following, skb->cb will contain all the following
2121 *information: * priority, morefrag, rate, &dev.
2123 // <Note> Buffer format for 8192S Usb bulk out:
2125 // --------------------------------------------------
2126 // | 8192S Usb Tx Desc | 802_11_MAC_header | data |
2127 // --------------------------------------------------
2128 // | 32 bytes | 24 bytes |0-2318 bytes|
2129 // --------------------------------------------------
2130 // |<------------ BufferLen ------------------------->|
2132 short rtl8192SU_tx(struct net_device *dev, struct sk_buff* skb)
2134 struct r8192_priv *priv = ieee80211_priv(dev);
2135 cb_desc *tcb_desc = (cb_desc *)(skb->cb + MAX_DEV_ADDR_SIZE);
2136 tx_desc_819x_usb *tx_desc = (tx_desc_819x_usb *)skb->data;
2137 //tx_fwinfo_819x_usb *tx_fwinfo = (tx_fwinfo_819x_usb *)(skb->data + USB_HWDESC_HEADER_LEN);//92su del
2138 struct usb_device *udev = priv->udev;
2141 struct urb *tx_urb = NULL, *tx_urb_zero = NULL;
2143 unsigned int idx_pipe;
2144 u16 MPDUOverhead = 0;
2145 //RT_DEBUG_DATA(COMP_SEND, tcb_desc, sizeof(cb_desc));
2147 pend = atomic_read(&priv->tx_pending[tcb_desc->queue_index]);
2148 /* we are locked here so the two atomic_read and inc are executed
2149 * without interleaves * !!! For debug purpose */
2150 if( pend > MAX_TX_URB){
2151 switch (tcb_desc->queue_index) {
2153 priv->stats.txvodrop++;
2156 priv->stats.txvidrop++;
2159 priv->stats.txbedrop++;
2161 default://BK_PRIORITY
2162 priv->stats.txbkdrop++;
2165 printk("To discard skb packet!\n");
2166 dev_kfree_skb_any(skb);
2170 tx_urb = usb_alloc_urb(0,GFP_ATOMIC);
2172 dev_kfree_skb_any(skb);
2176 memset(tx_desc, 0, sizeof(tx_desc_819x_usb));
2179 tx_desc->NonQos = (IsQoSDataFrame(skb->data)==TRUE)? 0:1;
2181 /* Fill Tx descriptor */
2182 //memset(tx_fwinfo,0,sizeof(tx_fwinfo_819x_usb));
2184 // This part can just fill to the first descriptor of the frame.
2186 tx_desc->TxHT = (tcb_desc->data_rate&0x80)?1:0;
2189 tx_desc->TxRate = MRateToHwRate8190Pci(tcb_desc->data_rate);
2190 //tx_desc->EnableCPUDur = tcb_desc->bTxEnableFwCalcDur;
2191 tx_desc->TxShort = QueryIsShort(tx_desc->TxHT, tx_desc->TxRate, tcb_desc);
2194 // Aggregation related
2195 if(tcb_desc->bAMPDUEnable) {//AMPDU enabled
2196 tx_desc->AllowAggregation = 1;
2198 //tx_fwinfo->RxMF = tcb_desc->ampdu_factor;
2199 //tx_fwinfo->RxAMD = tcb_desc->ampdu_density&0x07;//ampdudensity
2201 tx_desc->AllowAggregation = 0;
2203 //tx_fwinfo->RxMF = 0;
2204 //tx_fwinfo->RxAMD = 0;
2208 // <Roger_Notes> For AMPDU case, we must insert SSN into TX_DESC,
2209 // FW according as this SSN to do necessary packet retry.
2215 //pSeq = (u8 *)(VirtualAddress+USB_HWDESC_HEADER_LEN + FRAME_OFFSET_SEQUENCE);
2216 pSeq = (u8 *)(skb->data+USB_HWDESC_HEADER_LEN + 22);
2219 Temp |= (*(u16 *)pSeq)>>4;
2220 tx_desc->Seq = Temp;
2223 /* Protection mode related */
2224 tx_desc->RTSEn = (tcb_desc->bRTSEnable)?1:0;
2225 tx_desc->CTS2Self = (tcb_desc->bCTSEnable)?1:0;
2226 tx_desc->RTSSTBC = (tcb_desc->bRTSSTBC)?1:0;
2227 tx_desc->RTSHT = (tcb_desc->rts_rate&0x80)?1:0;
2228 tx_desc->RTSRate = MRateToHwRate8190Pci((u8)tcb_desc->rts_rate);
2229 tx_desc->RTSSubcarrier = (tx_desc->RTSHT==0)?(tcb_desc->RTSSC):0;
2230 tx_desc->RTSBW = (tx_desc->RTSHT==1)?((tcb_desc->bRTSBW)?1:0):0;
2231 tx_desc->RTSShort = (tx_desc->RTSHT==0)?(tcb_desc->bRTSUseShortPreamble?1:0):\
2232 (tcb_desc->bRTSUseShortGI?1:0);
2234 tx_desc->DisRTSFB = 0;
2235 tx_desc->RTSRateFBLmt = 0xf;
2237 // <Roger_EXP> 2008.09.22. We disable RTS rate fallback temporarily.
2238 //tx_desc->DisRTSFB = 0x01;
2240 /* Set Bandwidth and sub-channel settings. */
2241 if(priv->CurrentChannelBW == HT_CHANNEL_WIDTH_20_40)
2243 if(tcb_desc->bPacketBW) {
2244 tx_desc->TxBandwidth = 1;
2245 tx_desc->TxSubCarrier = 0; //By SD3's Jerry suggestion, use duplicated mode
2247 tx_desc->TxBandwidth = 0;
2248 tx_desc->TxSubCarrier = priv->nCur40MhzPrimeSC;
2251 tx_desc->TxBandwidth = 0;
2252 tx_desc->TxSubCarrier = 0;
2256 //memset(tx_desc, 0, sizeof(tx_desc_819x_usb));
2259 //tx_desc->CmdInit = 1; //92su del
2260 tx_desc->Offset = USB_HWDESC_HEADER_LEN;
2263 tx_desc->PktSize = (skb->len - USB_HWDESC_HEADER_LEN) & 0xffff;
2267 //tx_desc->SecCAMID= 0;//92su del
2268 tx_desc->RaBRSRID= tcb_desc->RATRIndex;
2269 //#ifdef RTL8192S_PREPARE_FOR_NORMAL_RELEASE
2273 //tx_desc->NoEnc = 1;//92su del
2276 tx_desc->SecType = 0x0;
2278 if (tcb_desc->bHwSec)
2280 switch (priv->ieee80211->pairwise_key_type)
2282 case KEY_TYPE_WEP40:
2283 case KEY_TYPE_WEP104:
2284 tx_desc->SecType = 0x1;
2285 //tx_desc->NoEnc = 0;//92su del
2288 tx_desc->SecType = 0x2;
2289 //tx_desc->NoEnc = 0;//92su del
2292 tx_desc->SecType = 0x3;
2293 //tx_desc->NoEnc = 0;//92su del
2296 tx_desc->SecType = 0x0;
2297 //tx_desc->NoEnc = 1;//92su del
2300 tx_desc->SecType = 0x0;
2301 //tx_desc->NoEnc = 1;//92su del
2306 //tx_desc->TxFWInfoSize = sizeof(tx_fwinfo_819x_usb);//92su del
2309 tx_desc->USERATE = tcb_desc->bTxUseDriverAssingedRate;
2310 tx_desc->DISFB = tcb_desc->bTxDisableRateFallBack;
2311 tx_desc->DataRateFBLmt = 0x1F;// Alwasy enable all rate fallback range
2313 tx_desc->QueueSelect = MapHwQueueToFirmwareQueue(tcb_desc->queue_index);
2316 /* Fill fields that are required to be initialized in all of the descriptors */
2318 tx_desc->FirstSeg = 1;
2319 tx_desc->LastSeg = 1;
2324 //tx_desc->TxBufferSize = (u32)(skb->len - USB_HWDESC_HEADER_LEN);
2325 tx_desc->TxBufferSize = (u32)(skb->len);//92su mod FIXLZM
2328 /* Get index to out pipe from specified QueueID */
2329 idx_pipe = txqueue2outpipe(priv,tcb_desc->queue_index);
2330 //printk("=============>%s queue_index:%d, outpipe:%d\n", __func__,tcb_desc->queue_index,priv->RtOutPipes[idx_pipe]);
2332 //RT_DEBUG_DATA(COMP_SEND,tx_fwinfo,sizeof(tx_fwinfo_819x_usb));
2333 //RT_DEBUG_DATA(COMP_SEND,tx_desc,sizeof(tx_desc_819x_usb));
2335 /* To submit bulk urb */
2336 usb_fill_bulk_urb(tx_urb,
2338 usb_sndbulkpipe(udev,priv->RtOutPipes[idx_pipe]),
2340 skb->len, rtl8192_tx_isr, skb);
2342 status = usb_submit_urb(tx_urb, GFP_ATOMIC);
2345 * we need to send 0 byte packet whenever 512N bytes/64N(HIGN SPEED/NORMAL SPEED) bytes packet has been transmitted.
2346 * Otherwise, it will be halt to wait for another packet. WB. 2008.08.27
2348 bool bSend0Byte = false;
2350 if(udev->speed == USB_SPEED_HIGH) {
2351 if (skb->len > 0 && skb->len % 512 == 0)
2355 if (skb->len > 0 && skb->len % 64 == 0)
2359 tx_urb_zero = usb_alloc_urb(0,GFP_ATOMIC);
2361 RT_TRACE(COMP_ERR, "can't alloc urb for zero byte\n");
2364 usb_fill_bulk_urb(tx_urb_zero,udev,
2365 usb_sndbulkpipe(udev,idx_pipe), &zero,
2366 0, tx_zero_isr, dev);
2367 status = usb_submit_urb(tx_urb_zero, GFP_ATOMIC);
2376 RT_TRACE(COMP_ERR, "Error TX URB for zero byte %d, error %d",
2377 atomic_read(&priv->tx_pending[tcb_desc->queue_index]), status);
2381 dev->trans_start = jiffies;
2382 atomic_inc(&priv->tx_pending[tcb_desc->queue_index]);
2385 RT_TRACE(COMP_ERR, "Error TX URB %d, error %d", atomic_read(&priv->tx_pending[tcb_desc->queue_index]),
2391 void rtl8192SU_net_update(struct net_device *dev)
2394 struct r8192_priv *priv = ieee80211_priv(dev);
2395 struct ieee80211_device* ieee = priv->ieee80211;
2396 struct ieee80211_network *net = &priv->ieee80211->current_network;
2397 //u16 BcnTimeCfg = 0, BcnCW = 6, BcnIFS = 0xf;
2398 u16 rate_config = 0;
2401 u8 retrylimit = 0x30;
2402 u16 cap = net->capability;
2404 priv->short_preamble = cap & WLAN_CAPABILITY_SHORT_PREAMBLE;
2407 //update Basic rate: RR, BRSR
2408 rtl8192_config_rate(dev, &rate_config); //HalSetBrateCfg
2410 priv->basic_rate = rate_config = rate_config & 0x15f;
2412 // Set RRSR rate table.
2413 write_nic_byte(dev, RRSR, rate_config&0xff);
2414 write_nic_byte(dev, RRSR+1, (rate_config>>8)&0xff);
2416 // Set RTS initial rate
2417 while(rate_config > 0x1)
2419 rate_config = (rate_config>> 1);
2422 write_nic_byte(dev, INIRTSMCS_SEL, rateIndex);
2426 regTmp = (priv->nCur40MhzPrimeSC) << 5;
2427 if (priv->short_preamble)
2429 write_nic_byte(dev, RRSR+2, regTmp);
2431 write_nic_dword(dev,BSSIDR,((u32*)net->bssid)[0]);
2432 write_nic_word(dev,BSSIDR+4,((u16*)net->bssid)[2]);
2434 write_nic_word(dev, BCN_INTERVAL, net->beacon_interval);
2435 //2008.10.24 added by tynli for beacon changed.
2436 PHY_SetBeaconHwReg( dev, net->beacon_interval);
2438 rtl8192_update_cap(dev, cap);
2440 if (ieee->iw_mode == IW_MODE_ADHOC){
2442 //we should enable ibss interrupt here, but disable it temporarily
2444 priv->irq_mask |= (IMR_BcnInt | IMR_BcnInt | IMR_TBDOK | IMR_TBDER);
2445 //rtl8192_irq_disable(dev);
2446 //rtl8192_irq_enable(dev);
2451 priv->irq_mask &= ~(IMR_BcnInt | IMR_BcnInt | IMR_TBDOK | IMR_TBDER);
2452 //rtl8192_irq_disable(dev);
2453 //rtl8192_irq_enable(dev);
2457 priv->ShortRetryLimit = priv->LongRetryLimit = retrylimit;
2459 write_nic_word(dev, RETRY_LIMIT,
2460 retrylimit << RETRY_LIMIT_SHORT_SHIFT | \
2461 retrylimit << RETRY_LIMIT_LONG_SHIFT);
2464 void rtl8192SU_update_ratr_table(struct net_device* dev)
2466 struct r8192_priv* priv = ieee80211_priv(dev);
2467 struct ieee80211_device* ieee = priv->ieee80211;
2468 u8* pMcsRate = ieee->dot11HTOperationalRateSet;
2469 //struct ieee80211_network *net = &ieee->current_network;
2473 int WirelessMode = ieee->mode;
2474 u8 MimoPs = ieee->pHTInfo->PeerMimoPs;
2478 rtl8192_config_rate(dev, (u16*)(&ratr_value));
2479 ratr_value |= (*(u16*)(pMcsRate)) << 12;
2481 //switch (ieee->mode)
2482 switch (WirelessMode)
2485 ratr_value &= 0x00000FF0;
2488 ratr_value &= 0x0000000D;
2491 ratr_value &= 0x00000FF5;
2498 if (MimoPs == 0) //MIMO_PS_STATIC
2500 ratr_value &= 0x0007F005;
2503 { // MCS rate only => for 11N mode.
2506 // 1T2R or 1T1R, Spatial Stream 2 should be disabled
2507 if ( priv->rf_type == RF_1T2R ||
2508 priv->rf_type == RF_1T1R ||
2509 (ieee->pHTInfo->IOTAction & HT_IOT_ACT_DISABLE_TX_2SS) )
2510 ratr_mask = 0x000ff005;
2512 ratr_mask = 0x0f0ff005;
2514 if((ieee->pHTInfo->bCurTxBW40MHz) &&
2515 !(ieee->pHTInfo->IOTAction & HT_IOT_ACT_DISABLE_TX_40_MHZ))
2516 ratr_mask |= 0x00000010; // Set 6MBps
2518 // Select rates for rate adaptive mechanism.
2519 ratr_value &= ratr_mask;
2526 if(priv->rf_type == RF_1T2R) // 1T2R, Spatial Stream 2 should be disabled
2528 ratr_value &= 0x000ff0f5;
2532 ratr_value &= 0x0f0ff0f5;
2535 //printk("====>%s(), mode is not correct:%x\n", __FUNCTION__, ieee->mode);
2539 ratr_value &= 0x0FFFFFFF;
2541 // Get MAX MCS available.
2542 if ( (bNMode && ((ieee->pHTInfo->IOTAction & HT_IOT_ACT_DISABLE_SHORT_GI)==0)) &&
2543 ((ieee->pHTInfo->bCurBW40MHz && ieee->pHTInfo->bCurShortGI40MHz) ||
2544 (!ieee->pHTInfo->bCurBW40MHz && ieee->pHTInfo->bCurShortGI20MHz)))
2546 u8 shortGI_rate = 0;
2547 u32 tmp_ratr_value = 0;
2548 ratr_value |= 0x10000000;//???
2549 tmp_ratr_value = (ratr_value>>12);
2550 for(shortGI_rate=15; shortGI_rate>0; shortGI_rate--)
2552 if((1<<shortGI_rate) & tmp_ratr_value)
2555 shortGI_rate = (shortGI_rate<<12)|(shortGI_rate<<8)|(shortGI_rate<<4)|(shortGI_rate);
2556 write_nic_byte(dev, SG_RATE, shortGI_rate);
2557 //printk("==>SG_RATE:%x\n", read_nic_byte(dev, SG_RATE));
2559 write_nic_dword(dev, ARFR0+rate_index*4, ratr_value);
2560 printk("=============>ARFR0+rate_index*4:%#x\n", ratr_value);
2563 if (ratr_value & 0xfffff000){
2564 //printk("===>set to N mode\n");
2565 HalSetFwCmd8192S(dev, FW_CMD_RA_REFRESH_N);
2568 //printk("===>set to B/G mode\n");
2569 HalSetFwCmd8192S(dev, FW_CMD_RA_REFRESH_BG);
2573 void rtl8192SU_link_change(struct net_device *dev)
2575 struct r8192_priv *priv = ieee80211_priv(dev);
2576 struct ieee80211_device* ieee = priv->ieee80211;
2577 //unsigned long flags;
2580 printk("=====>%s 1\n", __func__);
2581 reg = read_nic_dword(dev, RCR);
2583 if (ieee->state == IEEE80211_LINKED)
2586 rtl8192SU_net_update(dev);
2587 rtl8192SU_update_ratr_table(dev);
2588 ieee->SetFwCmdHandler(dev, FW_CMD_HIGH_PWR_ENABLE);
2589 priv->ReceiveConfig = reg |= RCR_CBSSID;
2592 priv->ReceiveConfig = reg &= ~RCR_CBSSID;
2596 write_nic_dword(dev, RCR, reg);
2597 rtl8192_update_msr(dev);
2599 printk("<=====%s 2\n", __func__);
2602 static struct ieee80211_qos_parameters def_qos_parameters = {
2603 {3,3,3,3},/* cw_min */
2604 {7,7,7,7},/* cw_max */
2605 {2,2,2,2},/* aifs */
2606 {0,0,0,0},/* flags */
2607 {0,0,0,0} /* tx_op_limit */
2611 void rtl8192_update_beacon(struct work_struct * work)
2613 struct r8192_priv *priv = container_of(work, struct r8192_priv, update_beacon_wq.work);
2614 struct net_device *dev = priv->ieee80211->dev;
2615 struct ieee80211_device* ieee = priv->ieee80211;
2616 struct ieee80211_network* net = &ieee->current_network;
2618 if (ieee->pHTInfo->bCurrentHTSupport)
2619 HTUpdateSelfAndPeerSetting(ieee, net);
2620 ieee->pHTInfo->bCurrentRT2RTLongSlotTime = net->bssht.bdRT2RTLongSlotTime;
2621 // Joseph test for turbo mode with AP
2622 ieee->pHTInfo->RT2RT_HT_Mode = net->bssht.RT2RT_HT_Mode;
2623 rtl8192_update_cap(dev, net->capability);
2626 * background support to run QoS activate functionality
2628 int WDCAPARA_ADD[] = {EDCAPARA_BE,EDCAPARA_BK,EDCAPARA_VI,EDCAPARA_VO};
2630 void rtl8192_qos_activate(struct work_struct * work)
2632 struct r8192_priv *priv = container_of(work, struct r8192_priv, qos_activate);
2633 struct net_device *dev = priv->ieee80211->dev;
2634 struct ieee80211_qos_parameters *qos_parameters = &priv->ieee80211->current_network.qos_data.parameters;
2635 u8 mode = priv->ieee80211->current_network.mode;
2636 //u32 size = sizeof(struct ieee80211_qos_parameters);
2644 mutex_lock(&priv->mutex);
2646 if(priv->ieee80211->state != IEEE80211_LINKED)
2648 RT_TRACE(COMP_QOS,"qos active process with associate response received\n");
2649 /* It better set slot time at first */
2650 /* For we just support b/g mode at present, let the slot time at 9/20 selection */
2651 /* update the ac parameter to related registers */
2652 for(i = 0; i < QOS_QUEUE_NUM; i++) {
2653 //Mode G/A: slotTimeTimer = 9; Mode B: 20
2654 u1bAIFS = qos_parameters->aifs[i] * ((mode&(IEEE_G|IEEE_N_24G)) ?9:20) + aSifsTime;
2655 u4bAcParam = ((((u32)(qos_parameters->tx_op_limit[i]))<< AC_PARAM_TXOP_LIMIT_OFFSET)|
2656 (((u32)(qos_parameters->cw_max[i]))<< AC_PARAM_ECW_MAX_OFFSET)|
2657 (((u32)(qos_parameters->cw_min[i]))<< AC_PARAM_ECW_MIN_OFFSET)|
2658 ((u32)u1bAIFS << AC_PARAM_AIFS_OFFSET));
2660 write_nic_dword(dev, WDCAPARA_ADD[i], u4bAcParam);
2661 //write_nic_dword(dev, WDCAPARA_ADD[i], 0x005e4322);
2665 mutex_unlock(&priv->mutex);
2668 static int rtl8192_qos_handle_probe_response(struct r8192_priv *priv,
2670 struct ieee80211_network *network)
2673 u32 size = sizeof(struct ieee80211_qos_parameters);
2675 if(priv->ieee80211->state !=IEEE80211_LINKED)
2678 if ((priv->ieee80211->iw_mode != IW_MODE_INFRA))
2681 if (network->flags & NETWORK_HAS_QOS_MASK) {
2682 if (active_network &&
2683 (network->flags & NETWORK_HAS_QOS_PARAMETERS))
2684 network->qos_data.active = network->qos_data.supported;
2686 if ((network->qos_data.active == 1) && (active_network == 1) &&
2687 (network->flags & NETWORK_HAS_QOS_PARAMETERS) &&
2688 (network->qos_data.old_param_count !=
2689 network->qos_data.param_count)) {
2690 network->qos_data.old_param_count =
2691 network->qos_data.param_count;
2692 queue_work(priv->priv_wq, &priv->qos_activate);
2693 RT_TRACE (COMP_QOS, "QoS parameters change call "
2697 memcpy(&priv->ieee80211->current_network.qos_data.parameters,\
2698 &def_qos_parameters, size);
2700 if ((network->qos_data.active == 1) && (active_network == 1)) {
2701 queue_work(priv->priv_wq, &priv->qos_activate);
2702 RT_TRACE(COMP_QOS, "QoS was disabled call qos_activate \n");
2704 network->qos_data.active = 0;
2705 network->qos_data.supported = 0;
2711 /* handle manage frame frame beacon and probe response */
2712 static int rtl8192_handle_beacon(struct net_device * dev,
2713 struct ieee80211_probe_response *beacon,
2714 struct ieee80211_network *network)
2716 struct r8192_priv *priv = ieee80211_priv(dev);
2718 rtl8192_qos_handle_probe_response(priv,1,network);
2719 queue_delayed_work(priv->priv_wq, &priv->update_beacon_wq, 0);
2726 * handling the beaconing responses. if we get different QoS setting
2727 * off the network from the associated setting, adjust the QoS
2730 static int rtl8192_qos_association_resp(struct r8192_priv *priv,
2731 struct ieee80211_network *network)
2734 unsigned long flags;
2735 u32 size = sizeof(struct ieee80211_qos_parameters);
2736 int set_qos_param = 0;
2738 if ((priv == NULL) || (network == NULL))
2741 if(priv->ieee80211->state !=IEEE80211_LINKED)
2744 if ((priv->ieee80211->iw_mode != IW_MODE_INFRA))
2747 spin_lock_irqsave(&priv->ieee80211->lock, flags);
2748 if(network->flags & NETWORK_HAS_QOS_PARAMETERS) {
2749 memcpy(&priv->ieee80211->current_network.qos_data.parameters,\
2750 &network->qos_data.parameters,\
2751 sizeof(struct ieee80211_qos_parameters));
2752 priv->ieee80211->current_network.qos_data.active = 1;
2755 /* update qos parameter for current network */
2756 priv->ieee80211->current_network.qos_data.old_param_count = \
2757 priv->ieee80211->current_network.qos_data.param_count;
2758 priv->ieee80211->current_network.qos_data.param_count = \
2759 network->qos_data.param_count;
2762 memcpy(&priv->ieee80211->current_network.qos_data.parameters,\
2763 &def_qos_parameters, size);
2764 priv->ieee80211->current_network.qos_data.active = 0;
2765 priv->ieee80211->current_network.qos_data.supported = 0;
2769 spin_unlock_irqrestore(&priv->ieee80211->lock, flags);
2771 RT_TRACE(COMP_QOS, "%s: network->flags = %d,%d\n",__FUNCTION__,network->flags ,priv->ieee80211->current_network.qos_data.active);
2772 if (set_qos_param == 1)
2773 queue_work(priv->priv_wq, &priv->qos_activate);
2779 static int rtl8192_handle_assoc_response(struct net_device *dev,
2780 struct ieee80211_assoc_response_frame *resp,
2781 struct ieee80211_network *network)
2783 struct r8192_priv *priv = ieee80211_priv(dev);
2784 rtl8192_qos_association_resp(priv, network);
2789 void rtl8192_update_ratr_table(struct net_device* dev)
2790 // POCTET_STRING posLegacyRate,
2792 // PRT_WLAN_STA pEntry)
2794 struct r8192_priv* priv = ieee80211_priv(dev);
2795 struct ieee80211_device* ieee = priv->ieee80211;
2796 u8* pMcsRate = ieee->dot11HTOperationalRateSet;
2797 //struct ieee80211_network *net = &ieee->current_network;
2800 rtl8192_config_rate(dev, (u16*)(&ratr_value));
2801 ratr_value |= (*(u16*)(pMcsRate)) << 12;
2802 // switch (net->mode)
2806 ratr_value &= 0x00000FF0;
2809 ratr_value &= 0x0000000F;
2812 ratr_value &= 0x00000FF7;
2816 if (ieee->pHTInfo->PeerMimoPs == 0) //MIMO_PS_STATIC
2817 ratr_value &= 0x0007F007;
2819 if (priv->rf_type == RF_1T2R)
2820 ratr_value &= 0x000FF007;
2822 ratr_value &= 0x0F81F007;
2828 ratr_value &= 0x0FFFFFFF;
2829 if(ieee->pHTInfo->bCurTxBW40MHz && ieee->pHTInfo->bCurShortGI40MHz){
2830 ratr_value |= 0x80000000;
2831 }else if(!ieee->pHTInfo->bCurTxBW40MHz && ieee->pHTInfo->bCurShortGI20MHz){
2832 ratr_value |= 0x80000000;
2834 write_nic_dword(dev, RATR0+rate_index*4, ratr_value);
2835 write_nic_byte(dev, UFWP, 1);
2838 static u8 ccmp_ie[4] = {0x00,0x50,0xf2,0x04};
2839 static u8 ccmp_rsn_ie[4] = {0x00, 0x0f, 0xac, 0x04};
2840 bool GetNmodeSupportBySecCfg8192(struct net_device*dev)
2843 struct r8192_priv* priv = ieee80211_priv(dev);
2844 struct ieee80211_device* ieee = priv->ieee80211;
2845 struct ieee80211_network * network = &ieee->current_network;
2846 int wpa_ie_len= ieee->wpa_ie_len;
2847 struct ieee80211_crypt_data* crypt;
2851 crypt = ieee->crypt[ieee->tx_keyidx];
2852 //we use connecting AP's capability instead of only security config on our driver to distinguish whether it should use N mode or G mode
2853 encrypt = (network->capability & WLAN_CAPABILITY_PRIVACY) || (ieee->host_encrypt && crypt && crypt->ops && (0 == strcmp(crypt->ops->name,"WEP")));
2856 if(encrypt && (wpa_ie_len == 0)) {
2857 /* wep encryption, no N mode setting */
2859 // } else if((wpa_ie_len != 0)&&(memcmp(&(ieee->wpa_ie[14]),ccmp_ie,4))) {
2860 } else if((wpa_ie_len != 0)) {
2861 /* parse pairwise key type */
2862 //if((pairwisekey = WEP40)||(pairwisekey = WEP104)||(pairwisekey = TKIP))
2863 if (((ieee->wpa_ie[0] == 0xdd) && (!memcmp(&(ieee->wpa_ie[14]),ccmp_ie,4))) || ((ieee->wpa_ie[0] == 0x30) && (!memcmp(&ieee->wpa_ie[10],ccmp_rsn_ie, 4))))
2875 bool GetHalfNmodeSupportByAPs819xUsb(struct net_device* dev)
2878 struct r8192_priv* priv = ieee80211_priv(dev);
2879 struct ieee80211_device* ieee = priv->ieee80211;
2881 // Added by Roger, 2008.08.29.
2884 if(ieee->bHalfWirelessN24GMode == true)
2892 void rtl8192_refresh_supportrate(struct r8192_priv* priv)
2894 struct ieee80211_device* ieee = priv->ieee80211;
2895 //we donot consider set support rate for ABG mode, only HT MCS rate is set here.
2896 if (ieee->mode == WIRELESS_MODE_N_24G || ieee->mode == WIRELESS_MODE_N_5G)
2898 memcpy(ieee->Regdot11HTOperationalRateSet, ieee->RegHTSuppRateSet, 16);
2899 //RT_DEBUG_DATA(COMP_INIT, ieee->RegHTSuppRateSet, 16);
2900 //RT_DEBUG_DATA(COMP_INIT, ieee->Regdot11HTOperationalRateSet, 16);
2903 memset(ieee->Regdot11HTOperationalRateSet, 0, 16);
2907 u8 rtl8192_getSupportedWireleeMode(struct net_device*dev)
2909 struct r8192_priv *priv = ieee80211_priv(dev);
2911 switch(priv->rf_chip)
2917 ret = (WIRELESS_MODE_N_24G|WIRELESS_MODE_G|WIRELESS_MODE_B);
2920 ret = (WIRELESS_MODE_A|WIRELESS_MODE_N_5G);
2923 ret = WIRELESS_MODE_B;
2928 void rtl8192_SetWirelessMode(struct net_device* dev, u8 wireless_mode)
2930 struct r8192_priv *priv = ieee80211_priv(dev);
2931 u8 bSupportMode = rtl8192_getSupportedWireleeMode(dev);
2934 if ((wireless_mode == WIRELESS_MODE_AUTO) || ((wireless_mode&bSupportMode)==0))
2936 if(bSupportMode & WIRELESS_MODE_N_24G)
2938 wireless_mode = WIRELESS_MODE_N_24G;
2940 else if(bSupportMode & WIRELESS_MODE_N_5G)
2942 wireless_mode = WIRELESS_MODE_N_5G;
2944 else if((bSupportMode & WIRELESS_MODE_A))
2946 wireless_mode = WIRELESS_MODE_A;
2948 else if((bSupportMode & WIRELESS_MODE_G))
2950 wireless_mode = WIRELESS_MODE_G;
2952 else if((bSupportMode & WIRELESS_MODE_B))
2954 wireless_mode = WIRELESS_MODE_B;
2957 RT_TRACE(COMP_ERR, "%s(), No valid wireless mode supported, SupportedWirelessMode(%x)!!!\n", __FUNCTION__,bSupportMode);
2958 wireless_mode = WIRELESS_MODE_B;
2961 #ifdef TO_DO_LIST //// TODO: this function doesn't work well at this time, we should wait for FPGA
2962 ActUpdateChannelAccessSetting( pAdapter, pHalData->CurrentWirelessMode, &pAdapter->MgntInfo.Info8185.ChannelAccessSetting );
2964 //LZM 090306 usb crash here, mark it temp
2965 //write_nic_word(dev, SIFS_OFDM, 0x0e0e);
2966 priv->ieee80211->mode = wireless_mode;
2968 if ((wireless_mode == WIRELESS_MODE_N_24G) || (wireless_mode == WIRELESS_MODE_N_5G))
2969 priv->ieee80211->pHTInfo->bEnableHT = 1;
2971 priv->ieee80211->pHTInfo->bEnableHT = 0;
2972 RT_TRACE(COMP_INIT, "Current Wireless Mode is %x\n", wireless_mode);
2973 rtl8192_refresh_supportrate(priv);
2979 short rtl8192_is_tx_queue_empty(struct net_device *dev)
2982 struct r8192_priv *priv = ieee80211_priv(dev);
2983 //struct ieee80211_device* ieee = priv->ieee80211;
2984 for (i=0; i<=MGNT_QUEUE; i++)
2986 if ((i== TXCMD_QUEUE) || (i == HCCA_QUEUE) )
2988 if (atomic_read(&priv->tx_pending[i]))
2990 printk("===>tx queue is not empty:%d, %d\n", i, atomic_read(&priv->tx_pending[i]));
2997 void rtl8192_hw_sleep_down(struct net_device *dev)
2999 RT_TRACE(COMP_POWER, "%s()============>come to sleep down\n", __FUNCTION__);
3001 // MgntActSet_RF_State(dev, eRfSleep, RF_CHANGE_BY_PS);
3005 void rtl8192_hw_sleep_wq (struct work_struct *work)
3007 // struct r8180_priv *priv = container_of(work, struct r8180_priv, watch_dog_wq);
3008 // struct ieee80211_device * ieee = (struct ieee80211_device*)
3009 // container_of(work, struct ieee80211_device, watch_dog_wq);
3010 struct delayed_work *dwork = container_of(work,struct delayed_work,work);
3011 struct ieee80211_device *ieee = container_of(dwork,struct ieee80211_device,hw_sleep_wq);
3012 struct net_device *dev = ieee->dev;
3014 //printk("=========>%s()\n", __FUNCTION__);
3015 rtl8192_hw_sleep_down(dev);
3017 // printk("dev is %d\n",dev);
3018 // printk("&*&(^*(&(&=========>%s()\n", __FUNCTION__);
3019 void rtl8192_hw_wakeup(struct net_device* dev)
3023 // spin_lock_irqsave(&priv->ps_lock,flags);
3024 RT_TRACE(COMP_POWER, "%s()============>come to wake up\n", __FUNCTION__);
3026 // MgntActSet_RF_State(dev, eRfSleep, RF_CHANGE_BY_PS);
3028 //FIXME: will we send package stored while nic is sleep?
3029 // spin_unlock_irqrestore(&priv->ps_lock,flags);
3032 void rtl8192_hw_wakeup_wq (struct work_struct *work)
3034 // struct r8180_priv *priv = container_of(work, struct r8180_priv, watch_dog_wq);
3035 // struct ieee80211_device * ieee = (struct ieee80211_device*)
3036 // container_of(work, struct ieee80211_device, watch_dog_wq);
3037 struct delayed_work *dwork = container_of(work,struct delayed_work,work);
3038 struct ieee80211_device *ieee = container_of(dwork,struct ieee80211_device,hw_wakeup_wq);
3039 struct net_device *dev = ieee->dev;
3041 rtl8192_hw_wakeup(dev);
3044 #define MIN_SLEEP_TIME 50
3045 #define MAX_SLEEP_TIME 10000
3046 void rtl8192_hw_to_sleep(struct net_device *dev, u32 th, u32 tl)
3049 struct r8192_priv *priv = ieee80211_priv(dev);
3052 unsigned long flags;
3054 spin_lock_irqsave(&priv->ps_lock,flags);
3056 /* Writing HW register with 0 equals to disable
3057 * the timer, that is not really what we want
3059 tl -= MSECS(4+16+7);
3061 //if(tl == 0) tl = 1;
3063 /* FIXME HACK FIXME HACK */
3064 // force_pci_posting(dev);
3067 // rb = read_nic_dword(dev, TSFTR);
3069 /* If the interval in witch we are requested to sleep is too
3070 * short then give up and remain awake
3072 if(((tl>=rb)&& (tl-rb) <= MSECS(MIN_SLEEP_TIME))
3073 ||((rb>tl)&& (rb-tl) < MSECS(MIN_SLEEP_TIME))) {
3074 spin_unlock_irqrestore(&priv->ps_lock,flags);
3075 printk("too short to sleep\n");
3079 // write_nic_dword(dev, TimerInt, tl);
3080 // rb = read_nic_dword(dev, TSFTR);
3082 u32 tmp = (tl>rb)?(tl-rb):(rb-tl);
3085 queue_delayed_work(priv->ieee80211->wq, &priv->ieee80211->hw_wakeup_wq, tmp); //as tl may be less than rb
3087 /* if we suspect the TimerInt is gone beyond tl
3088 * while setting it, then give up
3091 if(((tl > rb) && ((tl-rb) > MSECS(MAX_SLEEP_TIME)))||
3092 ((tl < rb) && ((rb-tl) > MSECS(MAX_SLEEP_TIME)))) {
3093 printk("========>too long to sleep:%x, %x, %lx\n", tl, rb, MSECS(MAX_SLEEP_TIME));
3094 spin_unlock_irqrestore(&priv->ps_lock,flags);
3098 // if(priv->rf_sleep)
3099 // priv->rf_sleep(dev);
3101 //printk("<=========%s()\n", __FUNCTION__);
3102 queue_delayed_work(priv->ieee80211->wq, (void *)&priv->ieee80211->hw_sleep_wq,0);
3104 spin_unlock_irqrestore(&priv->ps_lock,flags);
3106 //init priv variables here. only non_zero value should be initialized here.
3107 static void rtl8192_init_priv_variable(struct net_device* dev)
3109 struct r8192_priv *priv = ieee80211_priv(dev);
3111 priv->card_8192 = NIC_8192U;
3112 priv->chan = 1; //set to channel 1
3113 priv->ieee80211->mode = WIRELESS_MODE_AUTO; //SET AUTO
3114 priv->ieee80211->iw_mode = IW_MODE_INFRA;
3115 priv->ieee80211->ieee_up=0;
3116 priv->retry_rts = DEFAULT_RETRY_RTS;
3117 priv->retry_data = DEFAULT_RETRY_DATA;
3118 priv->ieee80211->rts = DEFAULT_RTS_THRESHOLD;
3119 priv->ieee80211->rate = 110; //11 mbps
3120 priv->ieee80211->short_slot = 1;
3121 priv->promisc = (dev->flags & IFF_PROMISC) ? 1:0;
3124 priv->IrpPendingCount = 1;
3125 priv->ResetProgress = RESET_TYPE_NORESET;
3126 priv->bForcedSilentReset = 0;
3127 priv->bDisableNormalResetCheck = false;
3128 priv->force_reset = false;
3130 priv->ieee80211->FwRWRF = 0; //we don't use FW read/write RF until stable firmware is available.
3131 priv->ieee80211->current_network.beacon_interval = DEFAULT_BEACONINTERVAL;
3132 priv->ieee80211->iw_mode = IW_MODE_INFRA;
3133 priv->ieee80211->softmac_features = IEEE_SOFTMAC_SCAN |
3134 IEEE_SOFTMAC_ASSOCIATE | IEEE_SOFTMAC_PROBERQ |
3135 IEEE_SOFTMAC_PROBERS | IEEE_SOFTMAC_TX_QUEUE |
3136 IEEE_SOFTMAC_BEACONS;//added by amy 080604 //| //IEEE_SOFTMAC_SINGLE_QUEUE;
3138 priv->ieee80211->active_scan = 1;
3139 priv->ieee80211->modulation = IEEE80211_CCK_MODULATION | IEEE80211_OFDM_MODULATION;
3140 priv->ieee80211->host_encrypt = 1;
3141 priv->ieee80211->host_decrypt = 1;
3142 priv->ieee80211->start_send_beacons = NULL;//rtl819xusb_beacon_tx;//-by amy 080604
3143 priv->ieee80211->stop_send_beacons = NULL;//rtl8192_beacon_stop;//-by amy 080604
3144 priv->ieee80211->softmac_hard_start_xmit = rtl8192_hard_start_xmit;
3145 priv->ieee80211->set_chan = rtl8192_set_chan;
3146 priv->ieee80211->link_change = priv->ops->rtl819x_link_change;
3147 priv->ieee80211->softmac_data_hard_start_xmit = rtl8192_hard_data_xmit;
3148 priv->ieee80211->data_hard_stop = rtl8192_data_hard_stop;
3149 priv->ieee80211->data_hard_resume = rtl8192_data_hard_resume;
3150 priv->ieee80211->init_wmmparam_flag = 0;
3151 priv->ieee80211->fts = DEFAULT_FRAG_THRESHOLD;
3152 priv->ieee80211->check_nic_enough_desc = check_nic_enough_desc;
3153 priv->ieee80211->tx_headroom = TX_PACKET_SHIFT_BYTES;
3154 priv->ieee80211->qos_support = 1;
3157 // priv->ieee80211->SwChnlByTimerHandler = rtl8192_phy_SwChnl;
3158 priv->ieee80211->SetBWModeHandler = rtl8192_SetBWMode;
3159 priv->ieee80211->handle_assoc_response = rtl8192_handle_assoc_response;
3160 priv->ieee80211->handle_beacon = rtl8192_handle_beacon;
3162 priv->ieee80211->sta_wake_up = rtl8192_hw_wakeup;
3163 // priv->ieee80211->ps_request_tx_ack = rtl8192_rq_tx_ack;
3164 priv->ieee80211->enter_sleep_state = rtl8192_hw_to_sleep;
3165 priv->ieee80211->ps_is_queue_empty = rtl8192_is_tx_queue_empty;
3167 priv->ieee80211->GetNmodeSupportBySecCfg = GetNmodeSupportBySecCfg8192;
3168 priv->ieee80211->GetHalfNmodeSupportByAPsHandler = GetHalfNmodeSupportByAPs819xUsb;
3169 priv->ieee80211->SetWirelessMode = rtl8192_SetWirelessMode;
3171 priv->ieee80211->InitialGainHandler = priv->ops->rtl819x_initial_gain;
3172 priv->card_type = USB;
3175 priv->ieee80211->current_network.beacon_interval = DEFAULT_BEACONINTERVAL;
3176 priv->ieee80211->SetFwCmdHandler = HalSetFwCmd8192S;
3177 priv->bRFSiOrPi = 0;//o=si,1=pi;
3179 priv->bInHctTest = false;
3181 priv->MidHighPwrTHR_L1 = 0x3B;
3182 priv->MidHighPwrTHR_L2 = 0x40;
3184 if(priv->bInHctTest)
3186 priv->ShortRetryLimit = HAL_RETRY_LIMIT_AP_ADHOC;
3187 priv->LongRetryLimit = HAL_RETRY_LIMIT_AP_ADHOC;
3191 priv->ShortRetryLimit = HAL_RETRY_LIMIT_INFRA;
3192 priv->LongRetryLimit = HAL_RETRY_LIMIT_INFRA;
3195 priv->SetFwCmdInProgress = false; //is set FW CMD in Progress? 92S only
3196 priv->CurrentFwCmdIO = 0;
3198 priv->MinSpaceCfg = 0;
3200 priv->EarlyRxThreshold = 7;
3201 priv->enable_gpio0 = 0;
3202 priv->TransmitConfig =
3203 ((u32)TCR_MXDMA_2048<<TCR_MXDMA_OFFSET) | // Max DMA Burst Size per Tx DMA Burst, 7: reservied.
3204 (priv->ShortRetryLimit<<TCR_SRL_OFFSET) | // Short retry limit
3205 (priv->LongRetryLimit<<TCR_LRL_OFFSET) | // Long retry limit
3206 (false ? TCR_SAT : 0); // FALSE: HW provies PLCP length and LENGEXT, TURE: SW proiveds them
3207 if(priv->bInHctTest)
3208 priv->ReceiveConfig = //priv->CSMethod |
3209 RCR_AMF | RCR_ADF | //RCR_AAP | //accept management/data
3210 RCR_ACF |RCR_APPFCS| //accept control frame for SW AP needs PS-poll, 2005.07.07, by rcnjko.
3211 RCR_AB | RCR_AM | RCR_APM | //accept BC/MC/UC
3212 RCR_AICV | RCR_ACRC32 | //accept ICV/CRC error packet
3213 RCR_APP_PHYST_STAFF | RCR_APP_PHYST_RXFF | // Accept PHY status
3214 ((u32)7<<RCR_MXDMA_OFFSET) | // Max DMA Burst Size per Rx DMA Burst, 7: unlimited.
3215 (priv->EarlyRxThreshold<<RCR_FIFO_OFFSET) | // Rx FIFO Threshold, 7: No Rx threshold.
3216 (priv->EarlyRxThreshold == 7 ? RCR_OnlyErlPkt:0);
3218 priv->ReceiveConfig = //priv->CSMethod |
3219 RCR_AMF | RCR_ADF | RCR_AB |
3220 RCR_AM | RCR_APM |RCR_AAP |RCR_ADD3|RCR_APP_ICV|
3221 RCR_APP_PHYST_STAFF | RCR_APP_PHYST_RXFF | // Accept PHY status
3222 RCR_APP_MIC | RCR_APPFCS;
3224 // <Roger_EXP> 2008.06.16.
3225 priv->IntrMask = (u16)(IMR_ROK | IMR_VODOK | IMR_VIDOK | IMR_BEDOK | IMR_BKDOK | \
3226 IMR_HCCADOK | IMR_MGNTDOK | IMR_COMDOK | IMR_HIGHDOK | \
3227 IMR_BDOK | IMR_RXCMDOK | /*IMR_TIMEOUT0 |*/ IMR_RDU | IMR_RXFOVW | \
3228 IMR_TXFOVW | IMR_BcnInt | IMR_TBDOK | IMR_TBDER);
3233 priv->AcmControl = 0;
3234 priv->pFirmware = (rt_firmware*)vmalloc(sizeof(rt_firmware));
3235 if (priv->pFirmware)
3236 memset(priv->pFirmware, 0, sizeof(rt_firmware));
3238 /* rx related queue */
3239 skb_queue_head_init(&priv->rx_queue);
3240 skb_queue_head_init(&priv->skb_queue);
3242 /* Tx related queue */
3243 for(i = 0; i < MAX_QUEUE_SIZE; i++) {
3244 skb_queue_head_init(&priv->ieee80211->skb_waitQ [i]);
3246 for(i = 0; i < MAX_QUEUE_SIZE; i++) {
3247 skb_queue_head_init(&priv->ieee80211->skb_aggQ [i]);
3249 for(i = 0; i < MAX_QUEUE_SIZE; i++) {
3250 skb_queue_head_init(&priv->ieee80211->skb_drv_aggQ [i]);
3252 priv->rf_set_chan = rtl8192_phy_SwChnl;
3256 static void rtl8192_init_priv_lock(struct r8192_priv* priv)
3258 spin_lock_init(&priv->tx_lock);
3259 spin_lock_init(&priv->irq_lock);//added by thomas
3260 //spin_lock_init(&priv->rf_lock);//use rf_sem, or will crash in some OS.
3261 sema_init(&priv->wx_sem,1);
3262 sema_init(&priv->rf_sem,1);
3263 spin_lock_init(&priv->ps_lock);
3264 mutex_init(&priv->mutex);
3267 extern void rtl819x_watchdog_wqcallback(struct work_struct *work);
3269 void rtl8192_irq_rx_tasklet(struct r8192_priv *priv);
3270 //init tasklet and wait_queue here. only 2.6 above kernel is considered
3271 #define DRV_NAME "wlan0"
3272 static void rtl8192_init_priv_task(struct net_device* dev)
3274 struct r8192_priv *priv = ieee80211_priv(dev);
3276 #ifdef PF_SYNCTHREAD
3277 priv->priv_wq = create_workqueue(DRV_NAME,0);
3279 priv->priv_wq = create_workqueue(DRV_NAME);
3282 INIT_WORK(&priv->reset_wq, rtl8192_restart);
3284 //INIT_DELAYED_WORK(&priv->watch_dog_wq, hal_dm_watchdog);
3285 INIT_DELAYED_WORK(&priv->watch_dog_wq, rtl819x_watchdog_wqcallback);
3286 INIT_DELAYED_WORK(&priv->txpower_tracking_wq, dm_txpower_trackingcallback);
3287 // INIT_DELAYED_WORK(&priv->gpio_change_rf_wq, dm_gpio_change_rf_callback);
3288 INIT_DELAYED_WORK(&priv->rfpath_check_wq, dm_rf_pathcheck_workitemcallback);
3289 INIT_DELAYED_WORK(&priv->update_beacon_wq, rtl8192_update_beacon);
3290 INIT_DELAYED_WORK(&priv->initialgain_operate_wq, InitialGainOperateWorkItemCallBack);
3291 //INIT_WORK(&priv->SwChnlWorkItem, rtl8192_SwChnl_WorkItem);
3292 //INIT_WORK(&priv->SetBWModeWorkItem, rtl8192_SetBWModeWorkItem);
3293 INIT_WORK(&priv->qos_activate, rtl8192_qos_activate);
3294 INIT_DELAYED_WORK(&priv->ieee80211->hw_wakeup_wq,(void*) rtl8192_hw_wakeup_wq);
3295 INIT_DELAYED_WORK(&priv->ieee80211->hw_sleep_wq,(void*) rtl8192_hw_sleep_wq);
3297 tasklet_init(&priv->irq_rx_tasklet,
3298 (void(*)(unsigned long))rtl8192_irq_rx_tasklet,
3299 (unsigned long)priv);
3302 static void rtl8192_get_eeprom_size(struct net_device* dev)
3305 struct r8192_priv *priv = ieee80211_priv(dev);
3306 RT_TRACE(COMP_EPROM, "===========>%s()\n", __FUNCTION__);
3307 curCR = read_nic_word_E(dev,EPROM_CMD);
3308 RT_TRACE(COMP_EPROM, "read from Reg EPROM_CMD(%x):%x\n", EPROM_CMD, curCR);
3309 //whether need I consider BIT5?
3310 priv->epromtype = (curCR & Cmd9346CR_9356SEL) ? EPROM_93c56 : EPROM_93c46;
3311 RT_TRACE(COMP_EPROM, "<===========%s(), epromtype:%d\n", __FUNCTION__, priv->epromtype);
3314 //used to swap endian. as ntohl & htonl are not neccessary to swap endian, so use this instead.
3315 static inline u16 endian_swap(u16* data)
3318 *data = (tmp >> 8) | (tmp << 8);
3322 u8 rtl8192SU_UsbOptionToEndPointNumber(u8 UsbOption)
3337 RT_TRACE(COMP_INIT, "UsbOptionToEndPointNumber(): Invalid UsbOption(%#x)\n", UsbOption);
3343 u8 rtl8192SU_BoardTypeToRFtype(struct net_device* dev, u8 Boardtype)
3345 u8 RFtype = RF_1T2R;
3359 RFtype = RF_2T2R_GREEN;
3368 void update_hal_variables(struct r8192_priv *priv)
3374 for (rf_path = 0; rf_path < 2; rf_path++) {
3375 for (i = 0; i < 3; i++) {
3376 RT_TRACE((COMP_INIT), "CCK RF-%d CHan_Area-%d = 0x%x\n", rf_path, i, priv->RfCckChnlAreaTxPwr[rf_path][i]);
3377 RT_TRACE((COMP_INIT), "OFDM-1T RF-%d CHan_Area-%d = 0x%x\n", rf_path, i, priv->RfOfdmChnlAreaTxPwr1T[rf_path][i]);
3378 RT_TRACE((COMP_INIT), "OFDM-2T RF-%d CHan_Area-%d = 0x%x\n", rf_path, i, priv->RfOfdmChnlAreaTxPwr2T[rf_path][i]);
3380 /* Assign dedicated channel tx power */
3381 for(i = 0; i < 14; i++) {
3382 /* channel 1-3 use the same Tx Power Level. */
3383 if (i < 3) /* Channel 1-3 */
3385 else if (i < 9) /* Channel 4-9 */
3387 else /* Channel 10-14 */
3389 /* Record A & B CCK /OFDM - 1T/2T Channel area tx power */
3390 priv->RfTxPwrLevelCck[rf_path][i] = priv->RfCckChnlAreaTxPwr[rf_path][index];
3391 priv->RfTxPwrLevelOfdm1T[rf_path][i] = priv->RfOfdmChnlAreaTxPwr1T[rf_path][index];
3392 priv->RfTxPwrLevelOfdm2T[rf_path][i] = priv->RfOfdmChnlAreaTxPwr2T[rf_path][index];
3394 priv->TxPowerLevelOFDM24G[i] = priv->RfTxPwrLevelOfdm1T[rf_path][i] ;
3395 priv->TxPowerLevelCCK[i] = priv->RfTxPwrLevelCck[rf_path][i];
3398 for(i = 0; i < 14; i++) {
3399 RT_TRACE((COMP_INIT),
3400 "Rf-%d TxPwr CH-%d CCK OFDM_1T OFDM_2T= 0x%x/0x%x/0x%x\n",
3401 rf_path, i, priv->RfTxPwrLevelCck[rf_path][i],
3402 priv->RfTxPwrLevelOfdm1T[rf_path][i] ,
3403 priv->RfTxPwrLevelOfdm2T[rf_path][i] );
3410 // Config HW adapter information into initial value.
3413 // 1. After Auto load fail(i.e, check CR9346 fail)
3415 // Created by Roger, 2008.10.21.
3418 rtl8192SU_ConfigAdapterInfo8192SForAutoLoadFail(struct net_device* dev)
3420 struct r8192_priv *priv = ieee80211_priv(dev);
3422 //u8 sMacAddr[6] = {0x00, 0xE0, 0x4C, 0x81, 0x92, 0x00};
3423 u8 rf_path; // For EEPROM/EFUSE After V0.6_1117
3426 RT_TRACE(COMP_INIT, "====> ConfigAdapterInfo8192SForAutoLoadFail\n");
3428 write_nic_byte(dev, SYS_ISO_CTRL+1, 0xE8); // Isolation signals from Loader
3429 //PlatformStallExecution(10000);
3431 write_nic_byte(dev, PMC_FSM, 0x02); // Enable Loader Data Keep
3433 //RT_ASSERT(priv->AutoloadFailFlag==TRUE, ("ReadAdapterInfo8192SEEPROM(): AutoloadFailFlag !=TRUE\n"));
3435 // Initialize IC Version && Channel Plan
3436 priv->eeprom_vid = 0;
3437 priv->eeprom_pid = 0;
3438 priv->card_8192_version = 0;
3439 priv->eeprom_ChannelPlan = 0;
3440 priv->eeprom_CustomerID = 0;
3441 priv->eeprom_SubCustomerID = 0;
3442 priv->bIgnoreDiffRateTxPowerOffset = false;
3444 RT_TRACE(COMP_INIT, "EEPROM VID = 0x%4x\n", priv->eeprom_vid);
3445 RT_TRACE(COMP_INIT, "EEPROM PID = 0x%4x\n", priv->eeprom_pid);
3446 RT_TRACE(COMP_INIT, "EEPROM Customer ID: 0x%2x\n", priv->eeprom_CustomerID);
3447 RT_TRACE(COMP_INIT, "EEPROM SubCustomer ID: 0x%2x\n", priv->eeprom_SubCustomerID);
3448 RT_TRACE(COMP_INIT, "EEPROM ChannelPlan = 0x%4x\n", priv->eeprom_ChannelPlan);
3449 RT_TRACE(COMP_INIT, "IgnoreDiffRateTxPowerOffset = %d\n", priv->bIgnoreDiffRateTxPowerOffset);
3453 priv->EEPROMUsbOption = EEPROM_USB_Default_OPTIONAL_FUNC;
3454 RT_TRACE(COMP_INIT, "USB Option = %#x\n", priv->EEPROMUsbOption);
3457 priv->EEPROMUsbPhyParam[i] = EEPROM_USB_Default_PHY_PARAM;
3459 //RT_PRINT_DATA(COMP_INIT|COMP_EFUSE, DBG_LOUD, ("EFUSE USB PHY Param: \n"), priv->EEPROMUsbPhyParam, 5);
3462 //<Roger_Notes> In this case, we random assigh MAC address here. 2008.10.15.
3463 static u8 sMacAddr[6] = {0x00, 0xE0, 0x4C, 0x81, 0x92, 0x00};
3466 //sMacAddr[5] = (u8)GetRandomNumber(1, 254);
3468 for(i = 0; i < 6; i++)
3469 dev->dev_addr[i] = sMacAddr[i];
3471 //NicIFSetMacAddress(Adapter, Adapter->PermanentAddress);
3472 write_nic_dword(dev, IDR0, ((u32*)dev->dev_addr)[0]);
3473 write_nic_word(dev, IDR4, ((u16*)(dev->dev_addr + 4))[0]);
3476 "ReadAdapterInfo8192SEFuse(), Permanent Address = %pM\n",
3479 priv->EEPROMBoardType = EEPROM_Default_BoardType;
3480 priv->rf_type = RF_1T2R; //RF_2T2R
3481 priv->EEPROMTxPowerDiff = EEPROM_Default_PwDiff;
3482 priv->EEPROMThermalMeter = EEPROM_Default_ThermalMeter;
3483 priv->EEPROMCrystalCap = EEPROM_Default_CrystalCap;
3484 priv->EEPROMTxPwrBase = EEPROM_Default_TxPowerBase;
3485 priv->EEPROMTSSI_A = EEPROM_Default_TSSI;
3486 priv->EEPROMTSSI_B = EEPROM_Default_TSSI;
3487 priv->EEPROMTxPwrTkMode = EEPROM_Default_TxPwrTkMode;
3491 for (rf_path = 0; rf_path < 2; rf_path++)
3493 for (i = 0; i < 3; i++)
3495 // Read CCK RF A & B Tx power
3496 priv->RfCckChnlAreaTxPwr[rf_path][i] =
3497 priv->RfOfdmChnlAreaTxPwr1T[rf_path][i] =
3498 priv->RfOfdmChnlAreaTxPwr2T[rf_path][i] =
3499 (u8)(EEPROM_Default_TxPower & 0xff);
3503 update_hal_variables(priv);
3506 // Update remained HAL variables.
3508 priv->TSSI_13dBm = priv->EEPROMThermalMeter *100;
3509 priv->LegacyHTTxPowerDiff = priv->EEPROMTxPowerDiff;//new
3510 priv->TxPowerDiff = priv->EEPROMTxPowerDiff;
3511 //priv->AntennaTxPwDiff[0] = (priv->EEPROMTxPowerDiff & 0xf);// Antenna B gain offset to antenna A, bit0~3
3512 //priv->AntennaTxPwDiff[1] = ((priv->EEPROMTxPowerDiff & 0xf0)>>4);// Antenna C gain offset to antenna A, bit4~7
3513 priv->CrystalCap = priv->EEPROMCrystalCap; // CrystalCap, bit12~15
3514 priv->ThermalMeter[0] = priv->EEPROMThermalMeter;// ThermalMeter, bit0~3 for RFIC1, bit4~7 for RFIC2
3515 priv->LedStrategy = SW_LED_MODE0;
3517 init_rate_adaptive(dev);
3519 RT_TRACE(COMP_INIT, "<==== ConfigAdapterInfo8192SForAutoLoadFail\n");
3525 // Read HW adapter information by E-Fuse or EEPROM according CR9346 reported.
3528 // 1. CR9346 regiser has verified.
3529 // 2. PASSIVE_LEVEL (USB interface)
3531 // Created by Roger, 2008.10.21.
3534 rtl8192SU_ReadAdapterInfo8192SUsb(struct net_device* dev)
3536 struct r8192_priv *priv = ieee80211_priv(dev);
3540 u8 hwinfo[HWSET_MAX_SIZE_92S];
3541 u8 rf_path, index; // For EEPROM/EFUSE After V0.6_1117
3544 RT_TRACE(COMP_INIT, "====> ReadAdapterInfo8192SUsb\n");
3547 // <Roger_Note> The following operation are prevent Efuse leakage by turn on 2.5V.
3550 tmpU1b = read_nic_byte(dev, EFUSE_TEST+3);
3551 write_nic_byte(dev, EFUSE_TEST+3, tmpU1b|0x80);
3552 //PlatformStallExecution(1000);
3554 write_nic_byte(dev, EFUSE_TEST+3, (tmpU1b&(~BIT7)));
3556 // Retrieve Chip version.
3557 priv->card_8192_version = (VERSION_8192S)((read_nic_dword(dev, PMC_FSM)>>16)&0xF);
3558 RT_TRACE(COMP_INIT, "Chip Version ID: 0x%2x\n", priv->card_8192_version);
3560 switch(priv->card_8192_version)
3563 RT_TRACE(COMP_INIT, "Chip Version ID: VERSION_8192S_ACUT.\n");
3566 RT_TRACE(COMP_INIT, "Chip Version ID: VERSION_8192S_BCUT.\n");
3569 RT_TRACE(COMP_INIT, "Chip Version ID: VERSION_8192S_CCUT.\n");
3572 RT_TRACE(COMP_INIT, "Unknown Chip Version!!\n");
3573 priv->card_8192_version = VERSION_8192S_BCUT;
3577 //if (IS_BOOT_FROM_EEPROM(Adapter))
3578 if(priv->EepromOrEfuse)
3579 { // Read frin EEPROM
3580 write_nic_byte(dev, SYS_ISO_CTRL+1, 0xE8); // Isolation signals from Loader
3581 //PlatformStallExecution(10000);
3583 write_nic_byte(dev, PMC_FSM, 0x02); // Enable Loader Data Keep
3584 // Read all Content from EEPROM or EFUSE.
3585 for(i = 0; i < HWSET_MAX_SIZE_92S; i += 2)
3587 usValue = eprom_read(dev, (u16) (i>>1));
3588 *((u16*)(&hwinfo[i])) = usValue;
3591 else if (!(priv->EepromOrEfuse))
3592 { // Read from EFUSE
3595 // <Roger_Notes> We set Isolation signals from Loader and reset EEPROM after system resuming
3596 // from suspend mode.
3599 //PlatformEFIOWrite1Byte(Adapter, SYS_ISO_CTRL+1, 0xE8); // Isolation signals from Loader
3600 //PlatformStallExecution(10000);
3601 //PlatformEFIOWrite1Byte(Adapter, SYS_FUNC_EN+1, 0x40);
3602 //PlatformEFIOWrite1Byte(Adapter, SYS_FUNC_EN+1, 0x50);
3604 //tmpU1b = PlatformEFIORead1Byte(Adapter, EFUSE_TEST+3);
3605 //PlatformEFIOWrite1Byte(Adapter, EFUSE_TEST+3, (tmpU1b | 0x80));
3606 //PlatformEFIOWrite1Byte(Adapter, EFUSE_TEST+3, 0x72);
3607 //PlatformEFIOWrite1Byte(Adapter, EFUSE_CLK, 0x03);
3609 // Read EFUSE real map to shadow.
3610 EFUSE_ShadowMapUpdate(dev);
3611 memcpy(hwinfo, &priv->EfuseMap[EFUSE_INIT_MAP][0], HWSET_MAX_SIZE_92S);
3615 RT_TRACE(COMP_INIT, "ReadAdapterInfo8192SUsb(): Invalid boot type!!\n");
3619 //dump_buf(hwinfo,HWSET_MAX_SIZE_92S);
3621 // <Roger_Notes> The following are EFUSE/EEPROM independent operations!!
3623 //RT_PRINT_DATA(COMP_EFUSE, DBG_LOUD, ("MAP: \n"), hwinfo, HWSET_MAX_SIZE_92S);
3626 // <Roger_Notes> Event though CR9346 regiser can verify whether Autoload is success or not, but we still
3627 // double check ID codes for 92S here(e.g., due to HW GPIO polling fail issue).
3630 EEPROMId = *((u16 *)&hwinfo[0]);
3632 if( EEPROMId != RTL8190_EEPROM_ID )
3634 RT_TRACE(COMP_INIT, "ID(%#x) is invalid!!\n", EEPROMId);
3635 priv->bTXPowerDataReadFromEEPORM = FALSE;
3636 priv->AutoloadFailFlag=TRUE;
3640 priv->AutoloadFailFlag=FALSE;
3641 priv->bTXPowerDataReadFromEEPORM = TRUE;
3643 // Read IC Version && Channel Plan
3644 if(!priv->AutoloadFailFlag)
3647 priv->eeprom_vid = *(u16 *)&hwinfo[EEPROM_VID];
3648 priv->eeprom_pid = *(u16 *)&hwinfo[EEPROM_PID];
3649 priv->bIgnoreDiffRateTxPowerOffset = false; //cosa for test
3652 // EEPROM Version ID, Channel plan
3653 priv->EEPROMVersion = *(u8 *)&hwinfo[EEPROM_Version];
3654 priv->eeprom_ChannelPlan = *(u8 *)&hwinfo[EEPROM_ChannelPlan];
3656 // Customer ID, 0x00 and 0xff are reserved for Realtek.
3657 priv->eeprom_CustomerID = *(u8 *)&hwinfo[EEPROM_CustomID];
3658 priv->eeprom_SubCustomerID = *(u8 *)&hwinfo[EEPROM_SubCustomID];
3662 //priv->eeprom_vid = 0;
3663 //priv->eeprom_pid = 0;
3664 //priv->EEPROMVersion = 0;
3665 //priv->eeprom_ChannelPlan = 0;
3666 //priv->eeprom_CustomerID = 0;
3667 //priv->eeprom_SubCustomerID = 0;
3669 rtl8192SU_ConfigAdapterInfo8192SForAutoLoadFail(dev);
3674 RT_TRACE(COMP_INIT, "EEPROM Id = 0x%4x\n", EEPROMId);
3675 RT_TRACE(COMP_INIT, "EEPROM VID = 0x%4x\n", priv->eeprom_vid);
3676 RT_TRACE(COMP_INIT, "EEPROM PID = 0x%4x\n", priv->eeprom_pid);
3677 RT_TRACE(COMP_INIT, "EEPROM Version ID: 0x%2x\n", priv->EEPROMVersion);
3678 RT_TRACE(COMP_INIT, "EEPROM Customer ID: 0x%2x\n", priv->eeprom_CustomerID);
3679 RT_TRACE(COMP_INIT, "EEPROM SubCustomer ID: 0x%2x\n", priv->eeprom_SubCustomerID);
3680 RT_TRACE(COMP_INIT, "EEPROM ChannelPlan = 0x%4x\n", priv->eeprom_ChannelPlan);
3681 RT_TRACE(COMP_INIT, "bIgnoreDiffRateTxPowerOffset = %d\n", priv->bIgnoreDiffRateTxPowerOffset);
3684 // Read USB optional function.
3685 if(!priv->AutoloadFailFlag)
3687 priv->EEPROMUsbOption = *(u8 *)&hwinfo[EEPROM_USB_OPTIONAL];
3691 priv->EEPROMUsbOption = EEPROM_USB_Default_OPTIONAL_FUNC;
3695 priv->EEPROMUsbEndPointNumber = rtl8192SU_UsbOptionToEndPointNumber((priv->EEPROMUsbOption&EEPROM_EP_NUMBER)>>3);
3697 RT_TRACE(COMP_INIT, "USB Option = %#x\n", priv->EEPROMUsbOption);
3698 RT_TRACE(COMP_INIT, "EndPoint Number = %#x\n", priv->EEPROMUsbEndPointNumber);
3702 // Decide CustomerID according to VID/DID or EEPROM
3704 switch(pHalData->EEPROMCustomerID)
3706 case EEPROM_CID_ALPHA:
3707 pMgntInfo->CustomerID = RT_CID_819x_ALPHA;
3710 case EEPROM_CID_CAMEO:
3711 pMgntInfo->CustomerID = RT_CID_819x_CAMEO;
3714 case EEPROM_CID_SITECOM:
3715 pMgntInfo->CustomerID = RT_CID_819x_Sitecom;
3716 RT_TRACE(COMP_INIT, DBG_LOUD, ("CustomerID = 0x%4x\n", pMgntInfo->CustomerID));
3720 case EEPROM_CID_WHQL:
3721 Adapter->bInHctTest = TRUE;
3723 pMgntInfo->bSupportTurboMode = FALSE;
3724 pMgntInfo->bAutoTurboBy8186 = FALSE;
3726 pMgntInfo->PowerSaveControl.bInactivePs = FALSE;
3727 pMgntInfo->PowerSaveControl.bIPSModeBackup = FALSE;
3728 pMgntInfo->PowerSaveControl.bLeisurePs = FALSE;
3729 pMgntInfo->keepAliveLevel = 0;
3733 pMgntInfo->CustomerID = RT_CID_DEFAULT;
3741 switch(pMgntInfo->CustomerID)
3743 case RT_CID_DEFAULT:
3744 case RT_CID_819x_ALPHA:
3745 pHalData->LedStrategy = SW_LED_MODE1;
3746 pHalData->bRegUseLed = TRUE;
3747 pHalData->SwLed1.bLedOn = TRUE;
3749 case RT_CID_819x_CAMEO:
3750 pHalData->LedStrategy = SW_LED_MODE1;
3751 pHalData->bRegUseLed = TRUE;
3754 case RT_CID_819x_Sitecom:
3755 pHalData->LedStrategy = SW_LED_MODE2;
3756 pHalData->bRegUseLed = TRUE;
3760 pHalData->LedStrategy = SW_LED_MODE0;
3765 // Read USB PHY parameters.
3767 priv->EEPROMUsbPhyParam[i] = *(u8 *)&hwinfo[EEPROM_USB_PHY_PARA1+i];
3769 //RT_PRINT_DATA(COMP_EFUSE, DBG_LOUD, ("USB PHY Param: \n"), pHalData->EEPROMUsbPhyParam, 5);
3772 //Read Permanent MAC address
3774 dev->dev_addr[i] = *(u8 *)&hwinfo[EEPROM_NODE_ADDRESS_BYTE_0+i];
3776 //NicIFSetMacAddress(Adapter, Adapter->PermanentAddress);
3777 write_nic_dword(dev, IDR0, ((u32*)dev->dev_addr)[0]);
3778 write_nic_word(dev, IDR4, ((u16*)(dev->dev_addr + 4))[0]);
3781 "ReadAdapterInfo8192SEFuse(), Permanent Address = %pM\n",
3785 // Get CustomerID(Boad Type)
3786 // i.e., 0x0: RTL8188SU, 0x1: RTL8191SU, 0x2: RTL8192SU, 0x3: RTL8191GU.
3787 // Others: Reserved. Default is 0x2: RTL8192SU.
3789 //if(!priv->AutoloadFailFlag)
3791 priv->EEPROMBoardType = *(u8 *)&hwinfo[EEPROM_BoardType];
3792 priv->rf_type = rtl8192SU_BoardTypeToRFtype(dev, priv->EEPROMBoardType);
3796 // priv->EEPROMBoardType = EEPROM_Default_BoardType;
3797 // priv->rf_type = RF_1T2R;
3800 priv->rf_chip = RF_6052;
3802 priv->rf_chip = RF_6052;//lzm test
3803 RT_TRACE(COMP_INIT, "BoardType = 0x%2x\n", priv->EEPROMBoardType);
3804 RT_TRACE(COMP_INIT, "RF_Type = 0x%2x\n", priv->rf_type);
3807 // Read antenna tx power offset of B/C/D to A from EEPROM
3808 // and read ThermalMeter from EEPROM
3810 //if(!priv->AutoloadFailFlag)
3812 priv->EEPROMTxPowerDiff = *(u8 *)&hwinfo[EEPROM_PwDiff];
3813 priv->EEPROMThermalMeter = *(u8 *)&hwinfo[EEPROM_ThermalMeter];
3817 // priv->EEPROMTxPowerDiff = EEPROM_Default_PwDiff;
3818 // priv->EEPROMThermalMeter = EEPROM_Default_ThermalMeter;
3821 RT_TRACE(COMP_INIT, "PwDiff = %#x\n", priv->EEPROMTxPowerDiff);
3822 RT_TRACE(COMP_INIT, "ThermalMeter = %#x\n", priv->EEPROMThermalMeter);
3825 // Read Tx Power gain offset of legacy OFDM to HT rate.
3826 // Read CrystalCap from EEPROM
3828 //if(!priv->AutoloadFailFlag)
3830 priv->EEPROMCrystalCap = *(u8 *)&hwinfo[EEPROM_CrystalCap];
3834 // priv->EEPROMCrystalCap = EEPROM_Default_CrystalCap;
3837 RT_TRACE(COMP_INIT, "CrystalCap = %#x\n", priv->EEPROMCrystalCap);
3840 // Get Tx Power Base.
3842 //if(!priv->AutoloadFailFlag)
3844 priv->EEPROMTxPwrBase = *(u8 *)&hwinfo[EEPROM_TxPowerBase];
3848 // priv->EEPROMTxPwrBase = EEPROM_Default_TxPowerBase;
3851 RT_TRACE(COMP_INIT, "TxPwrBase = %#x\n", priv->EEPROMTxPwrBase);
3855 // Get TSSI value for each path.
3857 //if(!priv->AutoloadFailFlag)
3859 priv->EEPROMTSSI_A = *(u8 *)&hwinfo[EEPROM_TSSI_A];
3860 priv->EEPROMTSSI_B = *(u8 *)&hwinfo[EEPROM_TSSI_B];
3863 //{ // Default setting for Empty EEPROM
3864 // priv->EEPROMTSSI_A = EEPROM_Default_TSSI;
3865 // priv->EEPROMTSSI_B = EEPROM_Default_TSSI;
3868 RT_TRACE(COMP_INIT, "TSSI_A = %#x, TSSI_B = %#x\n", priv->EEPROMTSSI_A, priv->EEPROMTSSI_B);
3871 // Get Tx Power tracking mode.
3873 //if(!priv->AutoloadFailFlag)
3875 priv->EEPROMTxPwrTkMode = *(u8 *)&hwinfo[EEPROM_TxPwTkMode];
3878 RT_TRACE(COMP_INIT, "TxPwrTkMod = %#x\n", priv->EEPROMTxPwrTkMode);
3883 // Buffer TxPwIdx(i.e., from offset 0x55~0x66, total 18Bytes)
3884 // Update CCK, OFDM (1T/2T)Tx Power Index from above buffer.
3888 // Get Tx Power Level by Channel
3890 //if(!priv->AutoloadFailFlag)
3892 // Read Tx power of Channel 1 ~ 14 from EFUSE.
3893 // 92S suupport RF A & B
3894 for (rf_path = 0; rf_path < 2; rf_path++)
3896 for (i = 0; i < 3; i++)
3898 // Read CCK RF A & B Tx power
3899 priv->RfCckChnlAreaTxPwr[rf_path][i] =
3900 hwinfo[EEPROM_TxPwIndex+rf_path*3+i];
3902 // Read OFDM RF A & B Tx power for 1T
3903 priv->RfOfdmChnlAreaTxPwr1T[rf_path][i] =
3904 hwinfo[EEPROM_TxPwIndex+6+rf_path*3+i];
3906 // Read OFDM RF A & B Tx power for 2T
3907 priv->RfOfdmChnlAreaTxPwr2T[rf_path][i] =
3908 hwinfo[EEPROM_TxPwIndex+12+rf_path*3+i];
3913 update_hal_variables(priv);
3917 // 2009/02/09 Cosa add for new EEPROM format
3919 for(i=0; i<14; i++) // channel 1~3 use the same Tx Power Level.
3921 // Read tx power difference between HT OFDM 20/40 MHZ
3922 if (i < 3) // Cjanel 1-3
3924 else if (i < 9) // Channel 4-9
3926 else // Channel 10-14
3929 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_HT20_DIFF+index])&0xff;
3930 priv->TxPwrHt20Diff[RF90_PATH_A][i] = (tempval&0xF);
3931 priv->TxPwrHt20Diff[RF90_PATH_B][i] = ((tempval>>4)&0xF);
3933 // Read OFDM<->HT tx power diff
3934 if (i < 3) // Cjanel 1-3
3935 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_OFDM_DIFF])&0xff;
3936 else if (i < 9) // Channel 4-9
3937 tempval = (*(u8 *)&hwinfo[EEPROM_PwDiff])&0xff;
3938 else // Channel 10-14
3939 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_OFDM_DIFF+1])&0xff;
3941 //cosa tempval = (*(u1Byte *)&hwinfo[EEPROM_TX_PWR_OFDM_DIFF+index])&0xff;
3942 priv->TxPwrLegacyHtDiff[RF90_PATH_A][i] = (tempval&0xF);
3943 priv->TxPwrLegacyHtDiff[RF90_PATH_B][i] = ((tempval>>4)&0xF);
3946 // Read Band Edge tx power offset and check if user enable the ability
3948 // HT 40 band edge channel
3949 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_BAND_EDGE])&0xff;
3950 priv->TxPwrbandEdgeHt40[RF90_PATH_A][0] = (tempval&0xF); // Band edge low channel
3951 priv->TxPwrbandEdgeHt40[RF90_PATH_A][1] = ((tempval>>4)&0xF); // Band edge high channel
3952 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_BAND_EDGE+1])&0xff;
3953 priv->TxPwrbandEdgeHt40[RF90_PATH_B][0] = (tempval&0xF); // Band edge low channel
3954 priv->TxPwrbandEdgeHt40[RF90_PATH_B][1] = ((tempval>>4)&0xF); // Band edge high channel
3955 // HT 20 band edge channel
3956 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_BAND_EDGE+2])&0xff;
3957 priv->TxPwrbandEdgeHt20[RF90_PATH_A][0] = (tempval&0xF); // Band edge low channel
3958 priv->TxPwrbandEdgeHt20[RF90_PATH_A][1] = ((tempval>>4)&0xF); // Band edge high channel
3959 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_BAND_EDGE+3])&0xff;
3960 priv->TxPwrbandEdgeHt20[RF90_PATH_B][0] = (tempval&0xF); // Band edge low channel
3961 priv->TxPwrbandEdgeHt20[RF90_PATH_B][1] = ((tempval>>4)&0xF); // Band edge high channel
3962 // OFDM band edge channel
3963 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_BAND_EDGE+4])&0xff;
3964 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_A][0] = (tempval&0xF); // Band edge low channel
3965 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_A][1] = ((tempval>>4)&0xF); // Band edge high channel
3966 tempval = (*(u8 *)&hwinfo[EEPROM_TX_PWR_BAND_EDGE+5])&0xff;
3967 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_B][0] = (tempval&0xF); // Band edge low channel
3968 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_B][1] = ((tempval>>4)&0xF); // Band edge high channel
3970 priv->TxPwrbandEdgeFlag = (*(u8 *)&hwinfo[TX_PWR_BAND_EDGE_CHK]);
3974 RT_TRACE(COMP_INIT, "RF-A Ht20 to HT40 Diff[%d] = 0x%x\n", i, priv->TxPwrHt20Diff[RF90_PATH_A][i]);
3976 RT_TRACE(COMP_INIT, "RF-A Legacy to Ht40 Diff[%d] = 0x%x\n", i, priv->TxPwrLegacyHtDiff[RF90_PATH_A][i]);
3978 RT_TRACE(COMP_INIT, "RF-B Ht20 to HT40 Diff[%d] = 0x%x\n", i, priv->TxPwrHt20Diff[RF90_PATH_B][i]);
3980 RT_TRACE(COMP_INIT, "RF-B Legacy to HT40 Diff[%d] = 0x%x\n", i, priv->TxPwrLegacyHtDiff[RF90_PATH_B][i]);
3981 RT_TRACE(COMP_INIT, "RF-A HT40 band-edge low/high power diff = 0x%x/0x%x\n",
3982 priv->TxPwrbandEdgeHt40[RF90_PATH_A][0],
3983 priv->TxPwrbandEdgeHt40[RF90_PATH_A][1]);
3984 RT_TRACE((COMP_INIT&COMP_DBG), "RF-B HT40 band-edge low/high power diff = 0x%x/0x%x\n",
3985 priv->TxPwrbandEdgeHt40[RF90_PATH_B][0],
3986 priv->TxPwrbandEdgeHt40[RF90_PATH_B][1]);
3988 RT_TRACE((COMP_INIT&COMP_DBG), "RF-A HT20 band-edge low/high power diff = 0x%x/0x%x\n",
3989 priv->TxPwrbandEdgeHt20[RF90_PATH_A][0],
3990 priv->TxPwrbandEdgeHt20[RF90_PATH_A][1]);
3991 RT_TRACE((COMP_INIT&COMP_DBG), "RF-B HT20 band-edge low/high power diff = 0x%x/0x%x\n",
3992 priv->TxPwrbandEdgeHt20[RF90_PATH_B][0],
3993 priv->TxPwrbandEdgeHt20[RF90_PATH_B][1]);
3995 RT_TRACE((COMP_INIT&COMP_DBG), "RF-A OFDM band-edge low/high power diff = 0x%x/0x%x\n",
3996 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_A][0],
3997 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_A][1]);
3998 RT_TRACE((COMP_INIT&COMP_DBG), "RF-B OFDM band-edge low/high power diff = 0x%x/0x%x\n",
3999 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_B][0],
4000 priv->TxPwrbandEdgeLegacyOfdm[RF90_PATH_B][1]);
4001 RT_TRACE((COMP_INIT&COMP_DBG), "Band-edge enable flag = %d\n", priv->TxPwrbandEdgeFlag);
4004 // Update remained HAL variables.
4006 priv->TSSI_13dBm = priv->EEPROMThermalMeter *100;
4007 priv->LegacyHTTxPowerDiff = priv->EEPROMTxPowerDiff;
4008 priv->TxPowerDiff = priv->EEPROMTxPowerDiff;
4009 //priv->AntennaTxPwDiff[0] = (priv->EEPROMTxPowerDiff & 0xf);// Antenna B gain offset to antenna A, bit[3:0]
4010 //priv->AntennaTxPwDiff[1] = ((priv->EEPROMTxPowerDiff & 0xf0)>>4);// Antenna C gain offset to antenna A, bit[7:4]
4011 priv->CrystalCap = priv->EEPROMCrystalCap; // CrystalCap, bit[15:12]
4012 priv->ThermalMeter[0] = (priv->EEPROMThermalMeter&0x1f);// ThermalMeter, bit0~3 for RFIC1, bit4~7 for RFIC2
4013 priv->LedStrategy = SW_LED_MODE0;
4015 init_rate_adaptive(dev);
4017 RT_TRACE(COMP_INIT, "<==== ReadAdapterInfo8192SUsb\n");
4019 //return RT_STATUS_SUCCESS;
4025 // Read HW adapter information by E-Fuse or EEPROM according CR9346 reported.
4028 // 1. CR9346 regiser has verified.
4029 // 2. PASSIVE_LEVEL (USB interface)
4031 // Created by Roger, 2008.10.21.
4033 static void rtl8192SU_read_eeprom_info(struct net_device *dev)
4035 struct r8192_priv *priv = ieee80211_priv(dev);
4038 RT_TRACE(COMP_INIT, "====> ReadAdapterInfo8192SUsb\n");
4040 // Retrieve Chip version.
4041 priv->card_8192_version = (VERSION_8192S)((read_nic_dword(dev, PMC_FSM)>>16)&0xF);
4042 RT_TRACE(COMP_INIT, "Chip Version ID: 0x%2x\n", priv->card_8192_version);
4044 tmpU1b = read_nic_byte(dev, EPROM_CMD);//CR9346
4046 // To check system boot selection.
4047 if (tmpU1b & CmdEERPOMSEL)
4049 RT_TRACE(COMP_INIT, "Boot from EEPROM\n");
4050 priv->EepromOrEfuse = TRUE;
4054 RT_TRACE(COMP_INIT, "Boot from EFUSE\n");
4055 priv->EepromOrEfuse = FALSE;
4058 // To check autoload success or not.
4059 if (tmpU1b & CmdEEPROM_En)
4061 RT_TRACE(COMP_INIT, "Autoload OK!!\n");
4062 priv->AutoloadFailFlag=FALSE;
4063 rtl8192SU_ReadAdapterInfo8192SUsb(dev);//eeprom or e-fuse
4066 { // Auto load fail.
4067 RT_TRACE(COMP_INIT, "AutoLoad Fail reported from CR9346!!\n");
4068 priv->AutoloadFailFlag=TRUE;
4069 rtl8192SU_ConfigAdapterInfo8192SForAutoLoadFail(dev);
4071 //if (IS_BOOT_FROM_EFUSE(Adapter))
4072 if(!priv->EepromOrEfuse)
4074 RT_TRACE(COMP_INIT, "Update shadow map for EFuse future use!!\n");
4075 EFUSE_ShadowMapUpdate(dev);
4079 if((priv->RegChannelPlan >= RT_CHANNEL_DOMAIN_MAX) || (pHalData->EEPROMChannelPlan & EEPROM_CHANNEL_PLAN_BY_HW_MASK))
4081 pMgntInfo->ChannelPlan = HalMapChannelPlan8192S(Adapter, (pHalData->EEPROMChannelPlan & (~(EEPROM_CHANNEL_PLAN_BY_HW_MASK))));
4082 pMgntInfo->bChnlPlanFromHW = (pHalData->EEPROMChannelPlan & EEPROM_CHANNEL_PLAN_BY_HW_MASK) ? TRUE : FALSE; // User cannot change channel plan.
4086 pMgntInfo->ChannelPlan = (RT_CHANNEL_DOMAIN)pMgntInfo->RegChannelPlan;
4089 switch(pMgntInfo->ChannelPlan)
4091 case RT_CHANNEL_DOMAIN_GLOBAL_DOAMIN:
4093 PRT_DOT11D_INFO pDot11dInfo = GET_DOT11D_INFO(pMgntInfo);
4095 pDot11dInfo->bEnabled = TRUE;
4097 RT_TRACE(COMP_INIT, DBG_LOUD, ("ReadAdapterInfo8187(): Enable dot11d when RT_CHANNEL_DOMAIN_GLOBAL_DOAMIN!\n"));
4101 RT_TRACE(COMP_INIT, DBG_LOUD, ("RegChannelPlan(%d) EEPROMChannelPlan(%d)", pMgntInfo->RegChannelPlan, pHalData->EEPROMChannelPlan));
4102 RT_TRACE(COMP_INIT, DBG_LOUD, ("ChannelPlan = %d\n" , pMgntInfo->ChannelPlan));
4104 RT_TRACE(COMP_INIT, DBG_LOUD, ("<==== ReadAdapterInfo8192S\n"));
4107 RT_TRACE(COMP_INIT, "<==== ReadAdapterInfo8192SUsb\n");
4109 //return RT_STATUS_SUCCESS;
4112 short rtl8192_get_channel_map(struct net_device * dev)
4114 struct r8192_priv *priv = ieee80211_priv(dev);
4115 if(priv->ChannelPlan > COUNTRY_CODE_GLOBAL_DOMAIN){
4116 printk("rtl8180_init:Error channel plan! Set to default.\n");
4117 priv->ChannelPlan= 0;
4119 RT_TRACE(COMP_INIT, "Channel plan is %d\n",priv->ChannelPlan);
4121 rtl819x_set_channel_map(priv->ChannelPlan, priv);
4125 short rtl8192_init(struct net_device *dev)
4128 struct r8192_priv *priv = ieee80211_priv(dev);
4130 rtl8192_init_priv_variable(dev);
4131 rtl8192_init_priv_lock(priv);
4132 rtl8192_init_priv_task(dev);
4133 rtl8192_get_eeprom_size(dev);
4134 priv->ops->rtl819x_read_eeprom_info(dev);
4135 rtl8192_get_channel_map(dev);
4137 init_timer(&priv->watch_dog_timer);
4138 priv->watch_dog_timer.data = (unsigned long)dev;
4139 priv->watch_dog_timer.function = watch_dog_timer_callback;
4141 //rtl8192_adapter_start(dev);
4148 /******************************************************************************
4149 *function: This function actually only set RRSR, RATR and BW_OPMODE registers
4150 * not to do all the hw config as its name says
4151 * input: net_device dev
4154 * notice: This part need to modified according to the rate set we filtered
4155 * ****************************************************************************/
4156 void rtl8192_hwconfig(struct net_device* dev)
4158 u32 regRATR = 0, regRRSR = 0;
4159 u8 regBwOpMode = 0, regTmp = 0;
4160 struct r8192_priv *priv = ieee80211_priv(dev);
4162 // Set RRSR, RATR, and BW_OPMODE registers
4164 switch(priv->ieee80211->mode)
4166 case WIRELESS_MODE_B:
4167 regBwOpMode = BW_OPMODE_20MHZ;
4168 regRATR = RATE_ALL_CCK;
4169 regRRSR = RATE_ALL_CCK;
4171 case WIRELESS_MODE_A:
4172 regBwOpMode = BW_OPMODE_5G |BW_OPMODE_20MHZ;
4173 regRATR = RATE_ALL_OFDM_AG;
4174 regRRSR = RATE_ALL_OFDM_AG;
4176 case WIRELESS_MODE_G:
4177 regBwOpMode = BW_OPMODE_20MHZ;
4178 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4179 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4181 case WIRELESS_MODE_AUTO:
4183 if (Adapter->bInHctTest)
4185 regBwOpMode = BW_OPMODE_20MHZ;
4186 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4187 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4192 regBwOpMode = BW_OPMODE_20MHZ;
4193 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
4194 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4197 case WIRELESS_MODE_N_24G:
4198 // It support CCK rate by default.
4199 // CCK rate will be filtered out only when associated AP does not support it.
4200 regBwOpMode = BW_OPMODE_20MHZ;
4201 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
4202 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4204 case WIRELESS_MODE_N_5G:
4205 regBwOpMode = BW_OPMODE_5G;
4206 regRATR = RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
4207 regRRSR = RATE_ALL_OFDM_AG;
4211 write_nic_byte(dev, BW_OPMODE, regBwOpMode);
4214 ratr_value = regRATR;
4215 if (priv->rf_type == RF_1T2R)
4217 ratr_value &= ~(RATE_ALL_OFDM_2SS);
4219 write_nic_dword(dev, RATR0, ratr_value);
4220 write_nic_byte(dev, UFWP, 1);
4222 regTmp = read_nic_byte(dev, 0x313);
4223 regRRSR = ((regTmp) << 24) | (regRRSR & 0x00ffffff);
4224 write_nic_dword(dev, RRSR, regRRSR);
4227 // Set Retry Limit here
4229 write_nic_word(dev, RETRY_LIMIT,
4230 priv->ShortRetryLimit << RETRY_LIMIT_SHORT_SHIFT | \
4231 priv->LongRetryLimit << RETRY_LIMIT_LONG_SHIFT);
4232 // Set Contention Window here
4236 // Set Tx Antenna including Feedback control
4238 // Set Auto Rate fallback control
4246 // Initial HW relted registers.
4249 // Config RTL8192S USB MAC, we should config MAC before download FW.
4251 // 2008.09.03, Added by Roger.
4253 static void rtl8192SU_MacConfigBeforeFwDownloadASIC(struct net_device *dev)
4260 RT_TRACE(COMP_INIT, "--->MacConfigBeforeFwDownloadASIC()\n");
4262 //2MAC Initialization for power on sequence, Revised by Roger. 2008.09.03.
4265 //<Roger_Notes> Set control path switch to HW control and reset Digital Core, CPU Core and
4266 // MAC I/O to solve FW download fail when system from resume sate.
4269 tmpU1b = read_nic_byte(dev, SYS_CLKR+1);
4273 write_nic_byte(dev, SYS_CLKR+1, tmpU1b);
4275 // Clear FW RPWM for FW control LPS. by tynli. 2009.02.23
4276 write_nic_byte(dev, RPWM, 0x0);
4278 tmpU1b = read_nic_byte(dev, SYS_FUNC_EN+1);
4280 write_nic_byte(dev, SYS_FUNC_EN+1, tmpU1b);
4283 //Revised POS, suggested by SD1 Alex, 2008.09.27.
4284 write_nic_byte(dev, SPS0_CTRL+1, 0x53);
4285 write_nic_byte(dev, SPS0_CTRL, 0x57);
4287 //Enable AFE Macro Block's Bandgap adn Enable AFE Macro Block's Mbias
4288 tmpU1b = read_nic_byte(dev, AFE_MISC);
4289 write_nic_byte(dev, AFE_MISC, (tmpU1b|AFE_BGEN|AFE_MBEN));
4291 //Enable PLL Power (LDOA15V)
4292 tmpU1b = read_nic_byte(dev, LDOA15_CTRL);
4293 write_nic_byte(dev, LDOA15_CTRL, (tmpU1b|LDA15_EN));
4295 //Enable LDOV12D block
4296 tmpU1b = read_nic_byte(dev, LDOV12D_CTRL);
4297 write_nic_byte(dev, LDOV12D_CTRL, (tmpU1b|LDV12_EN));
4299 //mpU1b = read_nic_byte(Adapter, SPS1_CTRL);
4300 //write_nic_byte(dev, SPS1_CTRL, (tmpU1b|SPS1_LDEN));
4302 //PlatformSleepUs(2000);
4304 //Enable Switch Regulator Block
4305 //tmpU1b = read_nic_byte(Adapter, SPS1_CTRL);
4306 //write_nic_byte(dev, SPS1_CTRL, (tmpU1b|SPS1_SWEN));
4308 //write_nic_dword(Adapter, SPS1_CTRL, 0x00a7b267);
4310 tmpU1b = read_nic_byte(dev, SYS_ISO_CTRL+1);
4311 write_nic_byte(dev, SYS_ISO_CTRL+1, (tmpU1b|0x08));
4313 //Engineer Packet CP test Enable
4314 tmpU1b = read_nic_byte(dev, SYS_FUNC_EN+1);
4315 write_nic_byte(dev, SYS_FUNC_EN+1, (tmpU1b|0x20));
4317 //Support 64k IMEM, suggested by SD1 Alex.
4318 tmpU1b = read_nic_byte(dev, SYS_ISO_CTRL+1);
4319 write_nic_byte(dev, SYS_ISO_CTRL+1, (tmpU1b& 0x68));
4322 tmpU1b = read_nic_byte(dev, AFE_XTAL_CTRL+1);
4323 write_nic_byte(dev, AFE_XTAL_CTRL+1, (tmpU1b& 0xfb));
4325 //Enable AFE PLL Macro Block
4326 tmpU1b = read_nic_byte(dev, AFE_PLL_CTRL);
4327 write_nic_byte(dev, AFE_PLL_CTRL, (tmpU1b|0x11));
4329 //Attatch AFE PLL to MACTOP/BB/PCIe Digital
4330 tmpU1b = read_nic_byte(dev, SYS_ISO_CTRL);
4331 write_nic_byte(dev, SYS_ISO_CTRL, (tmpU1b&0xEE));
4333 // Switch to 40M clock
4334 write_nic_byte(dev, SYS_CLKR, 0x00);
4337 tmpU1b = read_nic_byte(dev, SYS_CLKR);
4338 //write_nic_byte(dev, SYS_CLKR, (tmpU1b&0x5f));
4339 write_nic_byte(dev, SYS_CLKR, (tmpU1b|0xa0));
4342 tmpU1b = read_nic_byte(dev, SYS_CLKR+1);
4343 write_nic_byte(dev, SYS_CLKR+1, (tmpU1b|0x18));
4345 //Revised POS, suggested by SD1 Alex, 2008.09.27.
4346 write_nic_byte(dev, PMC_FSM, 0x02);
4348 //Enable Core digital and enable IOREG R/W
4349 tmpU1b = read_nic_byte(dev, SYS_FUNC_EN+1);
4350 write_nic_byte(dev, SYS_FUNC_EN+1, (tmpU1b|0x08));
4353 tmpU1b = read_nic_byte(dev, SYS_FUNC_EN+1);
4354 write_nic_byte(dev, SYS_FUNC_EN+1, (tmpU1b|0x80));
4356 //Switch the control path to FW
4357 tmpU1b = read_nic_byte(dev, SYS_CLKR+1);
4358 write_nic_byte(dev, SYS_CLKR+1, (tmpU1b|0x80)& 0xBF);
4360 write_nic_byte(dev, CMDR, 0xFC);
4361 write_nic_byte(dev, CMDR+1, 0x37);
4363 //Fix the RX FIFO issue(usb error), 970410
4364 tmpU1b = read_nic_byte_E(dev, 0x5c);
4365 write_nic_byte_E(dev, 0x5c, (tmpU1b|BIT7));
4367 //For power save, used this in the bit file after 970621
4368 tmpU1b = read_nic_byte(dev, SYS_CLKR);
4369 write_nic_byte(dev, SYS_CLKR, tmpU1b&(~SYS_CPU_CLKSEL));
4371 // Revised for 8051 ROM code wrong operation. Added by Roger. 2008.10.16.
4372 write_nic_byte_E(dev, 0x1c, 0x80);
4375 // <Roger_EXP> To make sure that TxDMA can ready to download FW.
4376 // We should reset TxDMA if IMEM RPT was not ready.
4377 // Suggested by SD1 Alex. 2008.10.23.
4381 tmpU1b = read_nic_byte(dev, TCR);
4382 if((tmpU1b & TXDMA_INIT_VALUE) == TXDMA_INIT_VALUE)
4384 //PlatformStallExecution(5);
4386 }while(PollingCnt--); // Delay 1ms
4388 if(PollingCnt <= 0 )
4390 RT_TRACE(COMP_INIT, "MacConfigBeforeFwDownloadASIC(): Polling TXDMA_INIT_VALUE timeout!! Current TCR(%#x)\n", tmpU1b);
4391 tmpU1b = read_nic_byte(dev, CMDR);
4392 write_nic_byte(dev, CMDR, tmpU1b&(~TXDMA_EN));
4394 write_nic_byte(dev, CMDR, tmpU1b|TXDMA_EN);// Reset TxDMA
4398 RT_TRACE(COMP_INIT, "<---MacConfigBeforeFwDownloadASIC()\n");
4403 // Initial HW relted registers.
4406 // 1. This function is only invoked at driver intialization once.
4407 // 2. PASSIVE LEVEL.
4409 // 2008.06.10, Added by Roger.
4411 static void rtl8192SU_MacConfigAfterFwDownload(struct net_device *dev)
4413 struct r8192_priv *priv = ieee80211_priv((struct net_device *)dev);
4414 //PRT_HIGH_THROUGHPUT pHTInfo = priv->ieee80211->pHTInfo;
4415 //u8 tmpU1b, RxPageCfg, i;
4420 RT_TRACE(COMP_INIT, "--->MacConfigAfterFwDownload()\n");
4423 tmpU2b = (BBRSTn|BB_GLB_RSTn|SCHEDULE_EN|MACRXEN|MACTXEN|DDMA_EN|
4424 FW2HW_EN|RXDMA_EN|TXDMA_EN|HCI_RXDMA_EN|HCI_TXDMA_EN); //3
4425 //Adapter->HalFunc.SetHwRegHandler( Adapter, HW_VAR_COMMAND, &tmpU1b );
4426 write_nic_word(dev, CMDR, tmpU2b); //LZM REGISTER COM 090305
4428 // Loopback mode or not
4429 priv->LoopbackMode = RTL8192SU_NO_LOOPBACK; // Set no loopback as default.
4430 if(priv->LoopbackMode == RTL8192SU_NO_LOOPBACK)
4431 tmpU1b = LBK_NORMAL;
4432 else if (priv->LoopbackMode == RTL8192SU_MAC_LOOPBACK )
4433 tmpU1b = LBK_MAC_DLB;
4435 RT_TRACE(COMP_INIT, "Serious error: wrong loopback mode setting\n");
4437 //Adapter->HalFunc.SetHwRegHandler( Adapter, HW_VAR_LBK_MODE, &tmpU1b);
4438 write_nic_byte(dev, LBKMD_SEL, tmpU1b);
4441 write_nic_dword(dev, RCR, priv->ReceiveConfig);
4442 RT_TRACE(COMP_INIT, "MacConfigAfterFwDownload(): Current RCR settings(%#x)\n", priv->ReceiveConfig);
4447 // <Roger_Notes> 2008.08.18.
4449 // (1) Page number on CMDQ is 0x03.
4450 // (2) Page number on BCNQ, HQ and MGTQ is 0.
4451 // (3) Page number on BKQ, BEQ, VIQ and VOQ are 0x07.
4452 // (4) Page number on PUBQ is 0xdd
4455 // (1) Page number on CMDQ is 0x00.
4456 // (2) Page number on BCNQ is 0x02, HQ and MGTQ are 0x03.
4457 // (3) Page number on BKQ, BEQ, VIQ and VOQ are 0x07.
4458 // (4) Page number on PUBQ is 0xd8
4460 //write_nic_dword(Adapter, 0xa0, 0x07070707); //BKQ, BEQ, VIQ and VOQ
4461 //write_nic_byte(dev, 0xa4, 0x00); // HCCAQ
4463 // Fix the RX FIFO issue(USB error), Rivesed by Roger, 2008-06-14
4464 tmpU1b = read_nic_byte_E(dev, 0x5C);
4465 write_nic_byte_E(dev, 0x5C, tmpU1b|BIT7);
4467 // For EFUSE init configuration.
4468 //if (IS_BOOT_FROM_EFUSE(Adapter)) // We may R/W EFUSE in EFUSE mode
4469 if (priv->bBootFromEfuse)
4473 tempval = read_nic_byte(dev, SYS_ISO_CTRL+1);
4475 write_nic_byte(dev, SYS_ISO_CTRL+1, tempval);
4477 // Enable LDO 2.5V for write action
4478 //tempval = read_nic_byte(Adapter, EFUSE_TEST+3);
4479 //write_nic_byte(Adapter, EFUSE_TEST+3, (tempval | 0x80));
4481 // Change Efuse Clock for write action
4482 //write_nic_byte(Adapter, EFUSE_CLK, 0x03);
4484 // Change Program timing
4485 write_nic_byte(dev, EFUSE_CTRL+3, 0x72);
4486 //printk("!!!!!!!!!!!!!!!!!!!!!%s: write 0x33 with 0x72\n",__FUNCTION__);
4487 RT_TRACE(COMP_INIT, "EFUSE CONFIG OK\n");
4491 RT_TRACE(COMP_INIT, "<---MacConfigAfterFwDownload()\n");
4494 void rtl8192SU_HwConfigureRTL8192SUsb(struct net_device *dev)
4497 struct r8192_priv *priv = ieee80211_priv(dev);
4499 u32 regRATR = 0, regRRSR = 0;
4503 //1 This part need to modified according to the rate set we filtered!!
4505 // Set RRSR, RATR, and BW_OPMODE registers
4507 switch(priv->ieee80211->mode)
4509 case WIRELESS_MODE_B:
4510 regBwOpMode = BW_OPMODE_20MHZ;
4511 regRATR = RATE_ALL_CCK;
4512 regRRSR = RATE_ALL_CCK;
4514 case WIRELESS_MODE_A:
4515 regBwOpMode = BW_OPMODE_5G |BW_OPMODE_20MHZ;
4516 regRATR = RATE_ALL_OFDM_AG;
4517 regRRSR = RATE_ALL_OFDM_AG;
4519 case WIRELESS_MODE_G:
4520 regBwOpMode = BW_OPMODE_20MHZ;
4521 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4522 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4524 case WIRELESS_MODE_AUTO:
4525 if (priv->bInHctTest)
4527 regBwOpMode = BW_OPMODE_20MHZ;
4528 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4529 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4533 regBwOpMode = BW_OPMODE_20MHZ;
4534 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
4535 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4538 case WIRELESS_MODE_N_24G:
4539 // It support CCK rate by default.
4540 // CCK rate will be filtered out only when associated AP does not support it.
4541 regBwOpMode = BW_OPMODE_20MHZ;
4542 regRATR = RATE_ALL_CCK | RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
4543 regRRSR = RATE_ALL_CCK | RATE_ALL_OFDM_AG;
4545 case WIRELESS_MODE_N_5G:
4546 regBwOpMode = BW_OPMODE_5G;
4547 regRATR = RATE_ALL_OFDM_AG | RATE_ALL_OFDM_1SS | RATE_ALL_OFDM_2SS;
4548 regRRSR = RATE_ALL_OFDM_AG;
4553 // <Roger_Notes> We disable CCK response rate until FIB CCK rate IC's back.
4556 regTmp = read_nic_byte(dev, INIRTSMCS_SEL);
4557 regRRSR = ((regRRSR & 0x000fffff)<<8) | regTmp;
4560 // Update SIFS timing.
4562 //priv->SifsTime = 0x0e0e0a0a;
4563 //Adapter->HalFunc.SetHwRegHandler( Adapter, HW_VAR_SIFS, (pu1Byte)&pHalData->SifsTime);
4564 { u8 val[4] = {0x0e, 0x0e, 0x0a, 0x0a};
4565 // SIFS for CCK Data ACK
4566 write_nic_byte(dev, SIFS_CCK, val[0]);
4567 // SIFS for CCK consecutive tx like CTS data!
4568 write_nic_byte(dev, SIFS_CCK+1, val[1]);
4570 // SIFS for OFDM Data ACK
4571 write_nic_byte(dev, SIFS_OFDM, val[2]);
4572 // SIFS for OFDM consecutive tx like CTS data!
4573 write_nic_byte(dev, SIFS_OFDM+1, val[3]);
4576 write_nic_dword(dev, INIRTSMCS_SEL, regRRSR);
4577 write_nic_byte(dev, BW_OPMODE, regBwOpMode);
4580 // Suggested by SD1 Alex, 2008-06-14.
4582 //PlatformEFIOWrite1Byte(Adapter, TXOP_STALL_CTRL, 0x80);//NAV to protect all TXOP.
4585 // Set Data Auto Rate Fallback Retry Count register.
4587 write_nic_dword(dev, DARFRC, 0x02010000);
4588 write_nic_dword(dev, DARFRC+4, 0x06050403);
4589 write_nic_dword(dev, RARFRC, 0x02010000);
4590 write_nic_dword(dev, RARFRC+4, 0x06050403);
4592 // Set Data Auto Rate Fallback Reg. Added by Roger, 2008.09.22.
4593 for (i = 0; i < 8; i++)
4594 write_nic_dword(dev, ARFR0+i*4, 0x1f0ffff0);
4597 // Aggregation length limit. Revised by Roger. 2008.09.22.
4599 write_nic_byte(dev, AGGLEN_LMT_H, 0x0f); // Set AMPDU length to 12Kbytes for ShortGI case.
4600 write_nic_dword(dev, AGGLEN_LMT_L, 0xddd77442); // Long GI
4601 write_nic_dword(dev, AGGLEN_LMT_L+4, 0xfffdd772);
4603 // Set NAV protection length
4604 write_nic_word(dev, NAV_PROT_LEN, 0x0080);
4606 // Set TXOP stall control for several queue/HI/BCN/MGT/
4607 write_nic_byte(dev, TXOP_STALL_CTRL, 0x00); // NAV Protect next packet.
4609 // Set MSDU lifetime.
4610 write_nic_byte(dev, MLT, 0x8f);
4612 // Set CCK/OFDM SIFS
4613 write_nic_word(dev, SIFS_CCK, 0x0a0a); // CCK SIFS shall always be 10us.
4614 write_nic_word(dev, SIFS_OFDM, 0x0e0e);
4616 write_nic_byte(dev, ACK_TIMEOUT, 0x40);
4619 write_nic_byte(dev, CFEND_TH, 0xFF);
4622 // For Min Spacing configuration.
4624 switch(priv->rf_type)
4628 RT_TRACE(COMP_INIT, "Initializeadapter: RF_Type%s\n", (priv->rf_type==RF_1T1R? "(1T1R)":"(1T2R)"));
4629 priv->MinSpaceCfg = (MAX_MSS_DENSITY_1T<<3);
4633 RT_TRACE(COMP_INIT, "Initializeadapter:RF_Type(2T2R)\n");
4634 priv->MinSpaceCfg = (MAX_MSS_DENSITY_2T<<3);
4637 write_nic_byte(dev, AMPDU_MIN_SPACE, priv->MinSpaceCfg);
4641 // For Min Spacing configuration.
4643 //priv->MinSpaceCfg = 0x00;
4644 //rtl8192SU_SetHwRegAmpduMinSpace(dev, priv->MinSpaceCfg);
4648 // Description: Initial HW relted registers.
4650 // Assumption: This function is only invoked at driver intialization once.
4652 // 2008.06.10, Added by Roger.
4653 bool rtl8192SU_adapter_start(struct net_device *dev)
4655 struct r8192_priv *priv = ieee80211_priv(dev);
4656 //u32 dwRegRead = 0;
4657 //bool init_status = true;
4659 bool rtStatus = true;
4661 //u8 eRFPath, tmpU1b;
4662 u8 fw_download_times = 1;
4665 RT_TRACE(COMP_INIT, "--->InitializeAdapter8192SUsb()\n");
4667 //pHalData->bGPIOChangeRF = FALSE;
4671 // <Roger_Notes> 2008.06.15.
4673 // Initialization Steps on RTL8192SU:
4674 // a. MAC initialization prior to sending down firmware code.
4675 // b. Download firmware code step by step(i.e., IMEM, EMEM, DMEM).
4676 // c. MAC configuration after firmware has been download successfully.
4677 // d. Initialize BB related configurations.
4678 // e. Initialize RF related configurations.
4679 // f. Start to BulkIn transfer.
4683 //a. MAC initialization prior to send down firmware code.
4686 rtl8192SU_MacConfigBeforeFwDownloadASIC(dev);
4689 //b. Download firmware code step by step(i.e., IMEM, EMEM, DMEM).
4691 rtStatus = FirmwareDownload92S(dev);
4692 if(rtStatus != true)
4694 if(fw_download_times == 1){
4695 RT_TRACE(COMP_INIT, "InitializeAdapter8192SUsb(): Download Firmware failed once, Download again!!\n");
4696 fw_download_times = fw_download_times + 1;
4699 RT_TRACE(COMP_INIT, "InitializeAdapter8192SUsb(): Download Firmware failed twice, end!!\n");
4704 //c. MAC configuration after firmware has been download successfully.
4706 rtl8192SU_MacConfigAfterFwDownload(dev);
4708 //priv->bLbusEnable = TRUE;
4709 //if(priv->RegRfOff == TRUE)
4710 // priv->eRFPowerState = eRfOff;
4712 // Save target channel
4713 // <Roger_Notes> Current Channel will be updated again later.
4714 //priv->CurrentChannel = Channel;
4715 rtStatus = PHY_MACConfig8192S(dev);//===>ok
4716 if(rtStatus != true)
4718 RT_TRACE(COMP_INIT, "InitializeAdapter8192SUsb(): Fail to configure MAC!!\n");
4724 write_nic_dword(dev,WDCAPARA_ADD[i], 0x5e4322);
4725 write_nic_byte(dev,AcmHwCtrl, 0x01);
4730 //d. Initialize BB related configurations.
4733 rtStatus = PHY_BBConfig8192S(dev);//===>ok
4734 if(rtStatus != true)
4736 RT_TRACE(COMP_INIT, "InitializeAdapter8192SUsb(): Fail to configure BB!!\n");
4740 rtl8192_setBBreg(dev, rFPGA0_AnalogParameter2, 0xff, 0x58);//===>ok
4743 // e. Initialize RF related configurations.
4745 // 2007/11/02 MH Before initalizing RF. We can not use FW to do RF-R/W.
4746 priv->Rf_Mode = RF_OP_By_SW_3wire;
4748 // For RF test only from Scott's suggestion
4749 //write_nic_byte(dev, 0x27, 0xDB);
4750 //write_nic_byte(dev, 0x1B, 0x07);
4753 write_nic_byte(dev, AFE_XTAL_CTRL+1, 0xDB);
4755 // <Roger_Notes> The following IOs are configured for each RF modules.
4756 // Enable RF module and reset RF and SDM module. 2008.11.17.
4757 if(priv->card_8192_version == VERSION_8192S_ACUT)
4758 write_nic_byte(dev, SPS1_CTRL+3, (u8)(RF_EN|RF_RSTB|RF_SDMRSTB)); // Fix A-Cut bug.
4760 write_nic_byte(dev, RF_CTRL, (u8)(RF_EN|RF_RSTB|RF_SDMRSTB));
4762 rtStatus = PHY_RFConfig8192S(dev);//===>ok
4763 if(rtStatus != true)
4765 RT_TRACE(COMP_INIT, "InitializeAdapter8192SUsb(): Fail to configure RF!!\n");
4770 // Set CCK and OFDM Block "ON"
4771 rtl8192_setBBreg(dev, rFPGA0_RFMOD, bCCKEn, 0x1);
4772 rtl8192_setBBreg(dev, rFPGA0_RFMOD, bOFDMEn, 0x1);
4775 // Turn off Radio B while RF type is 1T1R by SD3 Wilsion's request.
4776 // Revised by Roger, 2008.12.18.
4778 if(priv->rf_type == RF_1T1R)
4780 // This is needed for PHY_REG after 20081219
4781 rtl8192_setBBreg(dev, rFPGA0_RFMOD, 0xff000000, 0x03);
4782 // This is needed for PHY_REG before 20081219
4783 //PHY_SetBBReg(Adapter, rOFDM0_TRxPathEnable, bMaskByte0, 0x11);
4788 // Set CCK and OFDM Block "ON"
4789 //rtl8192_setBBreg(dev, rFPGA0_RFMOD, bCCKEn, 0x1);
4790 //rtl8192_setBBreg(dev, rFPGA0_RFMOD, bOFDMEn, 0x1);
4793 //3//Get hardware version, do it in read eeprom?
4794 //GetHardwareVersion819xUsb(Adapter);
4799 rtl8192SU_HwConfigureRTL8192SUsb(dev);//==>ok
4802 // <Roger_Notes> We set MAC address here if autoload was failed before,
4803 // otherwise IDR0 will NOT contain any value.
4805 write_nic_dword(dev, IDR0, ((u32*)dev->dev_addr)[0]);
4806 write_nic_word(dev, IDR4, ((u16*)(dev->dev_addr + 4))[0]);
4807 if(!priv->bInHctTest)
4809 if(priv->ResetProgress == RESET_TYPE_NORESET)
4811 //RT_TRACE(COMP_MLME, DBG_LOUD, ("Initializeadapter8192SUsb():RegWirelessMode(%#x) \n", Adapter->RegWirelessMode));
4812 //Adapter->HalFunc.SetWirelessModeHandler(Adapter, Adapter->RegWirelessMode);
4813 rtl8192_SetWirelessMode(dev, priv->ieee80211->mode);//===>ok
4818 priv->ieee80211->mode = WIRELESS_MODE_G;
4819 rtl8192_SetWirelessMode(dev, WIRELESS_MODE_G);
4823 //-----------------------------------------------------------------------------
4824 // Set up security related. 070106, by rcnjko:
4825 // 1. Clear all H/W keys.
4826 // 2. Enable H/W encryption/decryption.
4827 //-----------------------------------------------------------------------------
4828 //CamResetAllEntry(Adapter);
4829 //Adapter->HalFunc.EnableHWSecCfgHandler(Adapter);
4831 //SecClearAllKeys(Adapter);
4832 CamResetAllEntry(dev);
4835 u8 SECR_value = 0x0;
4836 SECR_value |= SCR_TxEncEnable;
4837 SECR_value |= SCR_RxDecEnable;
4838 SECR_value |= SCR_NoSKMC;
4839 write_nic_byte(dev, SECR, SECR_value);
4844 //PHY_UpdateInitialGain(dev);
4846 if(priv->RegRfOff == true)
4847 { // User disable RF via registry.
4850 RT_TRACE((COMP_INIT|COMP_RF), "InitializeAdapter8192SUsb(): Turn off RF for RegRfOff ----------\n");
4851 MgntActSet_RF_State(dev, eRfOff, RF_CHANGE_BY_SW);
4852 // Those action will be discard in MgntActSet_RF_State because off the same state
4853 for(eRFPath = 0; eRFPath <priv->NumTotalRFPath; eRFPath++)
4854 rtl8192_setBBreg(dev, (RF90_RADIO_PATH_E)eRFPath, 0x4, 0xC00, 0x0);
4856 else if(priv->RfOffReason > RF_CHANGE_BY_PS)
4857 { // H/W or S/W RF OFF before sleep.
4858 RT_TRACE((COMP_INIT|COMP_RF), "InitializeAdapter8192SUsb(): Turn off RF for RfOffReason(%d) ----------\n", priv->RfOffReason);
4859 MgntActSet_RF_State(dev, eRfOff, priv->RfOffReason);
4863 priv->eRFPowerState = eRfOn;
4864 priv->RfOffReason = 0;
4865 RT_TRACE((COMP_INIT|COMP_RF), "InitializeAdapter8192SUsb(): RF is on ----------\n");
4872 // f. Start to BulkIn transfer.
4879 PlatformAcquireSpinLock(Adapter, RT_RX_SPINLOCK);
4881 for(PipeIndex=0; PipeIndex < MAX_RX_QUEUE; PipeIndex++)
4886 HalUsbInMpdu(Adapter, PipeIndex);
4890 //HalUsbInMpdu(Adapter, PipeIndex);
4891 //HalUsbInMpdu(Adapter, PipeIndex);
4892 //HalUsbInMpdu(Adapter, PipeIndex);
4895 PlatformReleaseSpinLock(Adapter, RT_RX_SPINLOCK);
4898 // Joseph add to 819X code base for Vista USB platform.
4899 // This part may need to be add to Hal819xU code base. too.
4900 PlatformUsbEnableInPipes(Adapter);
4903 RT_TRACE(COMP_INIT, "HighestOperaRate = %x\n", Adapter->MgntInfo.HighestOperaRate);
4905 PlatformStartWorkItem( &(pHalData->RtUsbCheckForHangWorkItem) );
4908 // <Roger_EXP> The following configurations are for ASIC verification temporally.
4915 // Read EEPROM TX power index and PHY_REG_PG.txt to capture correct
4916 // TX power index for different rate set.
4918 //if(priv->card_8192_version >= VERSION_8192S_ACUT)
4920 // Get original hw reg values
4921 PHY_GetHWRegOriginalValue(dev);
4923 // Write correct tx power index//FIXLZM
4924 PHY_SetTxPowerLevel8192S(dev, priv->chan);
4929 // EEPROM R/W workaround
4930 tmpU1b = read_nic_byte(dev, MAC_PINMUX_CFG);
4931 write_nic_byte(dev, MAC_PINMUX_CFG, tmpU1b&(~GPIOMUX_EN));
4935 //<Roger_Notes> 2008.08.19.
4936 // We return status here for temporal FPGA verification, 2008.08.19.
4938 #ifdef RTL8192SU_FW_IQK
4939 write_nic_dword(dev, WFM5, FW_IQK_ENABLE);
4940 ChkFwCmdIoDone(dev);
4944 // <Roger_Notes> We enable high power mechanism after NIC initialized.
4947 write_nic_dword(dev, WFM5, FW_RA_RESET);
4948 ChkFwCmdIoDone(dev);
4949 write_nic_dword(dev, WFM5, FW_RA_ACTIVE);
4950 ChkFwCmdIoDone(dev);
4951 write_nic_dword(dev, WFM5, FW_RA_REFRESH);
4952 ChkFwCmdIoDone(dev);
4953 write_nic_dword(dev, WFM5, FW_BB_RESET_ENABLE);
4955 // <Roger_Notes> We return status here for temporal FPGA verification. 2008.05.12.
4962 /***************************************************************************
4963 -------------------------------NET STUFF---------------------------
4964 ***************************************************************************/
4966 static struct net_device_stats *rtl8192_stats(struct net_device *dev)
4968 struct r8192_priv *priv = ieee80211_priv(dev);
4970 return &priv->ieee80211->stats;
4974 HalTxCheckStuck819xUsb(
4975 struct net_device *dev
4978 struct r8192_priv *priv = ieee80211_priv(dev);
4979 u16 RegTxCounter = read_nic_word(dev, 0x128);
4980 bool bStuck = FALSE;
4981 RT_TRACE(COMP_RESET,"%s():RegTxCounter is %d,TxCounter is %d\n",__FUNCTION__,RegTxCounter,priv->TxCounter);
4982 if(priv->TxCounter==RegTxCounter)
4985 priv->TxCounter = RegTxCounter;
4991 * <Assumption: RT_TX_SPINLOCK is acquired.>
4992 * First added: 2006.11.19 by emily
4995 TxCheckStuck(struct net_device *dev)
4997 struct r8192_priv *priv = ieee80211_priv(dev);
5000 // u8 ResetThreshold;
5001 bool bCheckFwTxCnt = false;
5002 //unsigned long flags;
5005 // Decide Stuch threshold according to current power save mode
5008 // RT_TRACE(COMP_RESET, " ==> TxCheckStuck()\n");
5009 // PlatformAcquireSpinLock(Adapter, RT_TX_SPINLOCK);
5010 // spin_lock_irqsave(&priv->ieee80211->lock,flags);
5011 for (QueueID = 0; QueueID<=BEACON_QUEUE;QueueID ++)
5013 if(QueueID == TXCMD_QUEUE)
5016 if((skb_queue_len(&priv->ieee80211->skb_waitQ[QueueID]) == 0) && (skb_queue_len(&priv->ieee80211->skb_aggQ[QueueID]) == 0))
5020 bCheckFwTxCnt = true;
5022 // PlatformReleaseSpinLock(Adapter, RT_TX_SPINLOCK);
5023 // spin_unlock_irqrestore(&priv->ieee80211->lock,flags);
5024 // RT_TRACE(COMP_RESET,"bCheckFwTxCnt is %d\n",bCheckFwTxCnt);
5028 if(HalTxCheckStuck819xUsb(dev))
5030 RT_TRACE(COMP_RESET, "TxCheckStuck(): Fw indicates no Tx condition! \n");
5031 return RESET_TYPE_SILENT;
5035 return RESET_TYPE_NORESET;
5039 HalRxCheckStuck819xUsb(struct net_device *dev)
5041 u16 RegRxCounter = read_nic_word(dev, 0x130);
5042 struct r8192_priv *priv = ieee80211_priv(dev);
5043 bool bStuck = FALSE;
5047 static u8 rx_chk_cnt = 0;
5048 RT_TRACE(COMP_RESET,"%s(): RegRxCounter is %d,RxCounter is %d\n",__FUNCTION__,RegRxCounter,priv->RxCounter);
5049 // If rssi is small, we should check rx for long time because of bad rx.
5050 // or maybe it will continuous silent reset every 2 seconds.
5052 if(priv->undecorated_smoothed_pwdb >= (RateAdaptiveTH_High+5))
5054 rx_chk_cnt = 0; //high rssi, check rx stuck right now.
5056 else if(priv->undecorated_smoothed_pwdb < (RateAdaptiveTH_High+5) &&
5057 ((priv->CurrentChannelBW!=HT_CHANNEL_WIDTH_20&&priv->undecorated_smoothed_pwdb>=RateAdaptiveTH_Low_40M) ||
5058 (priv->CurrentChannelBW==HT_CHANNEL_WIDTH_20&&priv->undecorated_smoothed_pwdb>=RateAdaptiveTH_Low_20M)) )
5069 else if(((priv->CurrentChannelBW!=HT_CHANNEL_WIDTH_20&&priv->undecorated_smoothed_pwdb<RateAdaptiveTH_Low_40M) ||
5070 (priv->CurrentChannelBW==HT_CHANNEL_WIDTH_20&&priv->undecorated_smoothed_pwdb<RateAdaptiveTH_Low_20M)) &&
5071 priv->undecorated_smoothed_pwdb >= VeryLowRSSI)
5075 //DbgPrint("RSSI < %d && RSSI >= %d, no check this time \n", RateAdaptiveTH_Low, VeryLowRSSI);
5081 //DbgPrint("RSSI < %d && RSSI >= %d, check this time \n", RateAdaptiveTH_Low, VeryLowRSSI);
5088 //DbgPrint("RSSI <= %d, no check this time \n", VeryLowRSSI);
5094 //DbgPrint("RSSI <= %d, check this time \n", VeryLowRSSI);
5099 if(priv->RxCounter==RegRxCounter)
5102 priv->RxCounter = RegRxCounter;
5108 RxCheckStuck(struct net_device *dev)
5110 struct r8192_priv *priv = ieee80211_priv(dev);
5112 bool bRxCheck = FALSE;
5114 // RT_TRACE(COMP_RESET," ==> RxCheckStuck()\n");
5115 //PlatformAcquireSpinLock(Adapter, RT_RX_SPINLOCK);
5117 if(priv->IrpPendingCount > 1)
5119 //PlatformReleaseSpinLock(Adapter, RT_RX_SPINLOCK);
5121 // RT_TRACE(COMP_RESET,"bRxCheck is %d \n",bRxCheck);
5124 if(HalRxCheckStuck819xUsb(dev))
5126 RT_TRACE(COMP_RESET, "RxStuck Condition\n");
5127 return RESET_TYPE_SILENT;
5130 return RESET_TYPE_NORESET;
5135 * This function is called by Checkforhang to check whether we should ask OS to reset driver
5137 * \param pAdapter The adapter context for this miniport
5139 * Note:NIC with USB interface sholud not call this function because we cannot scan descriptor
5140 * to judge whether there is tx stuck.
5141 * Note: This function may be required to be rewrite for Vista OS.
5142 * <<<Assumption: Tx spinlock has been acquired >>>
5144 * 8185 and 8185b does not implement this function. This is added by Emily at 2006.11.24
5147 rtl819x_ifcheck_resetornot(struct net_device *dev)
5149 struct r8192_priv *priv = ieee80211_priv(dev);
5150 RESET_TYPE TxResetType = RESET_TYPE_NORESET;
5151 RESET_TYPE RxResetType = RESET_TYPE_NORESET;
5152 RT_RF_POWER_STATE rfState;
5154 return RESET_TYPE_NORESET;
5156 rfState = priv->ieee80211->eRFPowerState;
5158 TxResetType = TxCheckStuck(dev);
5160 if( rfState != eRfOff ||
5161 /*ADAPTER_TEST_STATUS_FLAG(Adapter, ADAPTER_STATUS_FW_DOWNLOAD_FAILURE)) &&*/
5162 (priv->ieee80211->iw_mode != IW_MODE_ADHOC))
5164 // If driver is in the status of firmware download failure , driver skips RF initialization and RF is
5165 // in turned off state. Driver should check whether Rx stuck and do silent reset. And
5166 // if driver is in firmware download failure status, driver should initialize RF in the following
5167 // silent reset procedure Emily, 2008.01.21
5169 // Driver should not check RX stuck in IBSS mode because it is required to
5170 // set Check BSSID in order to send beacon, however, if check BSSID is
5171 // set, STA cannot hear any packet a all. Emily, 2008.04.12
5172 RxResetType = RxCheckStuck(dev);
5175 if(TxResetType==RESET_TYPE_NORMAL || RxResetType==RESET_TYPE_NORMAL)
5176 return RESET_TYPE_NORMAL;
5177 else if(TxResetType==RESET_TYPE_SILENT || RxResetType==RESET_TYPE_SILENT){
5178 RT_TRACE(COMP_RESET,"%s():silent reset\n",__FUNCTION__);
5179 return RESET_TYPE_SILENT;
5182 return RESET_TYPE_NORESET;
5186 void rtl8192_cancel_deferred_work(struct r8192_priv* priv);
5187 int _rtl8192_up(struct net_device *dev);
5188 int rtl8192_close(struct net_device *dev);
5193 CamRestoreAllEntry( struct net_device *dev)
5196 struct r8192_priv *priv = ieee80211_priv(dev);
5197 u8* MacAddr = priv->ieee80211->current_network.bssid;
5199 static u8 CAM_CONST_ADDR[4][6] = {
5200 {0x00, 0x00, 0x00, 0x00, 0x00, 0x00},
5201 {0x00, 0x00, 0x00, 0x00, 0x00, 0x01},
5202 {0x00, 0x00, 0x00, 0x00, 0x00, 0x02},
5203 {0x00, 0x00, 0x00, 0x00, 0x00, 0x03}};
5204 static u8 CAM_CONST_BROAD[] =
5205 {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
5207 RT_TRACE(COMP_SEC, "CamRestoreAllEntry: \n");
5210 if ((priv->ieee80211->pairwise_key_type == KEY_TYPE_WEP40)||
5211 (priv->ieee80211->pairwise_key_type == KEY_TYPE_WEP104))
5214 for(EntryId=0; EntryId<4; EntryId++)
5217 MacAddr = CAM_CONST_ADDR[EntryId];
5221 priv->ieee80211->pairwise_key_type,
5229 else if(priv->ieee80211->pairwise_key_type == KEY_TYPE_TKIP)
5233 if(priv->ieee80211->iw_mode == IW_MODE_ADHOC)
5237 priv->ieee80211->pairwise_key_type,
5245 priv->ieee80211->pairwise_key_type,
5251 else if(priv->ieee80211->pairwise_key_type == KEY_TYPE_CCMP)
5255 if(priv->ieee80211->iw_mode == IW_MODE_ADHOC)
5259 priv->ieee80211->pairwise_key_type,
5267 priv->ieee80211->pairwise_key_type,
5276 if(priv->ieee80211->group_key_type == KEY_TYPE_TKIP)
5278 MacAddr = CAM_CONST_BROAD;
5279 for(EntryId=1 ; EntryId<4 ; EntryId++)
5285 priv->ieee80211->group_key_type,
5291 if(priv->ieee80211->iw_mode == IW_MODE_ADHOC)
5295 priv->ieee80211->group_key_type,
5300 else if(priv->ieee80211->group_key_type == KEY_TYPE_CCMP)
5302 MacAddr = CAM_CONST_BROAD;
5303 for(EntryId=1; EntryId<4 ; EntryId++)
5309 priv->ieee80211->group_key_type,
5316 if(priv->ieee80211->iw_mode == IW_MODE_ADHOC)
5320 priv->ieee80211->group_key_type,
5326 //////////////////////////////////////////////////////////////
5327 // This function is used to fix Tx/Rx stop bug temporarily.
5328 // This function will do "system reset" to NIC when Tx or Rx is stuck.
5329 // The method checking Tx/Rx stuck of this function is supported by FW,
5330 // which reports Tx and Rx counter to register 0x128 and 0x130.
5331 //////////////////////////////////////////////////////////////
5333 rtl819x_ifsilentreset(struct net_device *dev)
5335 //OCTET_STRING asocpdu;
5336 struct r8192_priv *priv = ieee80211_priv(dev);
5338 int reset_status = 0;
5339 struct ieee80211_device *ieee = priv->ieee80211;
5342 // 2007.07.20. If we need to check CCK stop, please uncomment this line.
5343 //bStuck = Adapter->HalFunc.CheckHWStopHandler(Adapter);
5345 if(priv->ResetProgress==RESET_TYPE_NORESET)
5349 RT_TRACE(COMP_RESET,"=========>Reset progress!! \n");
5351 // Set the variable for reset.
5352 priv->ResetProgress = RESET_TYPE_SILENT;
5353 // rtl8192_close(dev);
5355 down(&priv->wx_sem);
5358 RT_TRACE(COMP_ERR,"%s():the driver is not up! return\n",__FUNCTION__);
5363 RT_TRACE(COMP_RESET,"%s():======>start to down the driver\n",__FUNCTION__);
5364 // if(!netif_queue_stopped(dev))
5365 // netif_stop_queue(dev);
5367 rtl8192_rtx_disable(dev);
5368 rtl8192_cancel_deferred_work(priv);
5370 del_timer_sync(&priv->watch_dog_timer);
5372 ieee->sync_scan_hurryup = 1;
5373 if(ieee->state == IEEE80211_LINKED)
5375 down(&ieee->wx_sem);
5376 printk("ieee->state is IEEE80211_LINKED\n");
5377 ieee80211_stop_send_beacons(priv->ieee80211);
5378 del_timer_sync(&ieee->associate_timer);
5379 cancel_delayed_work(&ieee->associate_retry_wq);
5380 ieee80211_stop_scan(ieee);
5381 netif_carrier_off(dev);
5385 printk("ieee->state is NOT LINKED\n");
5386 ieee80211_softmac_stop_protocol(priv->ieee80211); }
5388 RT_TRACE(COMP_RESET,"%s():<==========down process is finished\n",__FUNCTION__);
5389 //rtl8192_irq_disable(dev);
5390 RT_TRACE(COMP_RESET,"%s():===========>start to up the driver\n",__FUNCTION__);
5391 reset_status = _rtl8192_up(dev);
5393 RT_TRACE(COMP_RESET,"%s():<===========up process is finished\n",__FUNCTION__);
5394 if(reset_status == -EAGAIN)
5403 RT_TRACE(COMP_ERR," ERR!!! %s(): Reset Failed!!\n", __FUNCTION__);
5407 ieee->is_silent_reset = 1;
5409 EnableHWSecurityConfig8192(dev);
5411 if(ieee->state == IEEE80211_LINKED && ieee->iw_mode == IW_MODE_INFRA)
5413 ieee->set_chan(ieee->dev, ieee->current_network.channel);
5416 queue_work(ieee->wq, &ieee->associate_complete_wq);
5420 else if(ieee->state == IEEE80211_LINKED && ieee->iw_mode == IW_MODE_ADHOC)
5422 ieee->set_chan(ieee->dev, ieee->current_network.channel);
5423 ieee->link_change(ieee->dev);
5425 // notify_wx_assoc_event(ieee);
5427 ieee80211_start_send_beacons(ieee);
5429 if (ieee->data_hard_resume)
5430 ieee->data_hard_resume(ieee->dev);
5431 netif_carrier_on(ieee->dev);
5435 CamRestoreAllEntry(dev);
5437 priv->ResetProgress = RESET_TYPE_NORESET;
5438 priv->reset_count++;
5440 priv->bForcedSilentReset =false;
5441 priv->bResetInProgress = false;
5443 // For test --> force write UFWP.
5444 write_nic_byte(dev, UFWP, 1);
5445 RT_TRACE(COMP_RESET, "Reset finished!! ====>[%d]\n", priv->reset_count);
5450 void CAM_read_entry(
5451 struct net_device *dev,
5455 u32 target_command=0;
5456 u32 target_content=0;
5460 // printk("=======>start read CAM\n");
5461 for(entry_i=0;entry_i<CAM_CONTENT_COUNT;entry_i++)
5463 // polling bit, and No Write enable, and address
5464 target_command= entry_i+CAM_CONTENT_COUNT*iIndex;
5465 target_command= target_command | BIT31;
5467 //Check polling bit is clear
5472 ulStatus = read_nic_dword(dev, RWCAM);
5473 if(ulStatus & BIT31){
5481 write_nic_dword(dev, RWCAM, target_command);
5482 RT_TRACE(COMP_SEC,"CAM_read_entry(): WRITE A0: %x \n",target_command);
5483 // printk("CAM_read_entry(): WRITE A0: %lx \n",target_command);
5484 target_content = read_nic_dword(dev, RCAMO);
5485 RT_TRACE(COMP_SEC, "CAM_read_entry(): WRITE A8: %x \n",target_content);
5486 // printk("CAM_read_entry(): WRITE A8: %lx \n",target_content);
5491 void rtl819x_update_rxcounts(
5492 struct r8192_priv *priv,
5501 *TotalRxDataNum = 0;
5503 SlotIndex = (priv->ieee80211->LinkDetectInfo.SlotIndex++)%(priv->ieee80211->LinkDetectInfo.SlotNum);
5504 priv->ieee80211->LinkDetectInfo.RxBcnNum[SlotIndex] = priv->ieee80211->LinkDetectInfo.NumRecvBcnInPeriod;
5505 priv->ieee80211->LinkDetectInfo.RxDataNum[SlotIndex] = priv->ieee80211->LinkDetectInfo.NumRecvDataInPeriod;
5506 for( i=0; i<priv->ieee80211->LinkDetectInfo.SlotNum; i++ ){
5507 *TotalRxBcnNum += priv->ieee80211->LinkDetectInfo.RxBcnNum[i];
5508 *TotalRxDataNum += priv->ieee80211->LinkDetectInfo.RxDataNum[i];
5512 extern void rtl819x_watchdog_wqcallback(struct work_struct *work)
5514 struct delayed_work *dwork = container_of(work,struct delayed_work,work);
5515 struct r8192_priv *priv = container_of(dwork,struct r8192_priv,watch_dog_wq);
5516 struct net_device *dev = priv->ieee80211->dev;
5517 struct ieee80211_device* ieee = priv->ieee80211;
5518 RESET_TYPE ResetType = RESET_TYPE_NORESET;
5519 static u8 check_reset_cnt=0;
5520 bool bBusyTraffic = false;
5524 hal_dm_watchdog(dev);
5526 {//to get busy traffic condition
5527 if(ieee->state == IEEE80211_LINKED)
5529 //windows mod 666 to 100.
5530 //if( ieee->LinkDetectInfo.NumRxOkInPeriod> 666 ||
5531 // ieee->LinkDetectInfo.NumTxOkInPeriod> 666 ) {
5532 if( ieee->LinkDetectInfo.NumRxOkInPeriod> 100 ||
5533 ieee->LinkDetectInfo.NumTxOkInPeriod> 100 ) {
5534 bBusyTraffic = true;
5536 ieee->LinkDetectInfo.NumRxOkInPeriod = 0;
5537 ieee->LinkDetectInfo.NumTxOkInPeriod = 0;
5538 ieee->LinkDetectInfo.bBusyTraffic = bBusyTraffic;
5541 //added by amy for AP roaming
5543 if(priv->ieee80211->state == IEEE80211_LINKED && priv->ieee80211->iw_mode == IW_MODE_INFRA)
5545 u32 TotalRxBcnNum = 0;
5546 u32 TotalRxDataNum = 0;
5548 rtl819x_update_rxcounts(priv, &TotalRxBcnNum, &TotalRxDataNum);
5549 if((TotalRxBcnNum+TotalRxDataNum) == 0)
5552 if(rfState == eRfOff)
5553 RT_TRACE(COMP_ERR,"========>%s()\n",__FUNCTION__);
5555 printk("===>%s(): AP is power off,connect another one\n",__FUNCTION__);
5556 // Dot11d_Reset(dev);
5557 priv->ieee80211->state = IEEE80211_ASSOCIATING;
5558 notify_wx_assoc_event(priv->ieee80211);
5559 RemovePeerTS(priv->ieee80211,priv->ieee80211->current_network.bssid);
5560 ieee->is_roaming = true;
5561 priv->ieee80211->link_change(dev);
5562 queue_work(priv->ieee80211->wq, &priv->ieee80211->associate_procedure_wq);
5565 priv->ieee80211->LinkDetectInfo.NumRecvBcnInPeriod=0;
5566 priv->ieee80211->LinkDetectInfo.NumRecvDataInPeriod=0;
5568 // CAM_read_entry(dev,4);
5569 //check if reset the driver
5570 if(check_reset_cnt++ >= 3 && !ieee->is_roaming)
5572 ResetType = rtl819x_ifcheck_resetornot(dev);
5573 check_reset_cnt = 3;
5574 //DbgPrint("Start to check silent reset\n");
5576 // RT_TRACE(COMP_RESET,"%s():priv->force_reset is %d,priv->ResetProgress is %d, priv->bForcedSilentReset is %d,priv->bDisableNormalResetCheck is %d,ResetType is %d\n",__FUNCTION__,priv->force_reset,priv->ResetProgress,priv->bForcedSilentReset,priv->bDisableNormalResetCheck,ResetType);
5578 if( (priv->force_reset) || (priv->ResetProgress==RESET_TYPE_NORESET &&
5579 (priv->bForcedSilentReset ||
5580 (!priv->bDisableNormalResetCheck && ResetType==RESET_TYPE_SILENT)))) // This is control by OID set in Pomelo
5582 RT_TRACE(COMP_RESET,"%s():priv->force_reset is %d,priv->ResetProgress is %d, priv->bForcedSilentReset is %d,priv->bDisableNormalResetCheck is %d,ResetType is %d\n",__FUNCTION__,priv->force_reset,priv->ResetProgress,priv->bForcedSilentReset,priv->bDisableNormalResetCheck,ResetType);
5583 rtl819x_ifsilentreset(dev);
5586 priv->force_reset = false;
5587 priv->bForcedSilentReset = false;
5588 priv->bResetInProgress = false;
5589 RT_TRACE(COMP_TRACE, " <==RtUsbCheckForHangWorkItemCallback()\n");
5593 void watch_dog_timer_callback(unsigned long data)
5595 struct r8192_priv *priv = ieee80211_priv((struct net_device *) data);
5596 //printk("===============>watch_dog timer\n");
5597 queue_delayed_work(priv->priv_wq,&priv->watch_dog_wq, 0);
5598 mod_timer(&priv->watch_dog_timer, jiffies + MSECS(IEEE80211_WATCH_DOG_TIME));
5600 int _rtl8192_up(struct net_device *dev)
5602 struct r8192_priv *priv = ieee80211_priv(dev);
5604 int init_status = 0;
5606 priv->ieee80211->ieee_up=1;
5607 RT_TRACE(COMP_INIT, "Bringing up iface");
5608 init_status = priv->ops->rtl819x_adapter_start(dev);
5611 RT_TRACE(COMP_ERR,"ERR!!! %s(): initialization is failed!\n", __FUNCTION__);
5612 priv->up=priv->ieee80211->ieee_up = 0;
5615 RT_TRACE(COMP_INIT, "start adapter finished\n");
5616 rtl8192_rx_enable(dev);
5617 // rtl8192_tx_enable(dev);
5618 if(priv->ieee80211->state != IEEE80211_LINKED)
5619 ieee80211_softmac_start_protocol(priv->ieee80211);
5620 ieee80211_reset_queue(priv->ieee80211);
5621 watch_dog_timer_callback((unsigned long) dev);
5622 if(!netif_queue_stopped(dev))
5623 netif_start_queue(dev);
5625 netif_wake_queue(dev);
5628 * Make sure that drop_unencrypted is initialized as "0"
5629 * No packets will be sent in non-security mode if we had set drop_unencrypted.
5630 * ex, After kill wpa_supplicant process, make the driver up again.
5631 * drop_unencrypted remains as "1", which is set by wpa_supplicant. 2008/12/04.john
5633 priv->ieee80211->drop_unencrypted = 0;
5639 int rtl8192_open(struct net_device *dev)
5641 struct r8192_priv *priv = ieee80211_priv(dev);
5643 down(&priv->wx_sem);
5644 ret = rtl8192_up(dev);
5651 int rtl8192_up(struct net_device *dev)
5653 struct r8192_priv *priv = ieee80211_priv(dev);
5655 if (priv->up == 1) return -1;
5657 return _rtl8192_up(dev);
5661 int rtl8192_close(struct net_device *dev)
5663 struct r8192_priv *priv = ieee80211_priv(dev);
5666 down(&priv->wx_sem);
5668 ret = rtl8192_down(dev);
5676 int rtl8192_down(struct net_device *dev)
5678 struct r8192_priv *priv = ieee80211_priv(dev);
5681 if (priv->up == 0) return -1;
5684 priv->ieee80211->ieee_up = 0;
5685 RT_TRACE(COMP_DOWN, "==========>%s()\n", __FUNCTION__);
5687 if (!netif_queue_stopped(dev))
5688 netif_stop_queue(dev);
5690 rtl8192_rtx_disable(dev);
5691 //rtl8192_irq_disable(dev);
5693 /* Tx related queue release */
5694 for(i = 0; i < MAX_QUEUE_SIZE; i++) {
5695 skb_queue_purge(&priv->ieee80211->skb_waitQ [i]);
5697 for(i = 0; i < MAX_QUEUE_SIZE; i++) {
5698 skb_queue_purge(&priv->ieee80211->skb_aggQ [i]);
5701 for(i = 0; i < MAX_QUEUE_SIZE; i++) {
5702 skb_queue_purge(&priv->ieee80211->skb_drv_aggQ [i]);
5705 //as cancel_delayed_work will del work->timer, so if work is not definedas struct delayed_work, it will corrupt
5706 // flush_scheduled_work();
5707 rtl8192_cancel_deferred_work(priv);
5709 del_timer_sync(&priv->watch_dog_timer);
5712 ieee80211_softmac_stop_protocol(priv->ieee80211);
5713 memset(&priv->ieee80211->current_network, 0 , offsetof(struct ieee80211_network, list));
5714 RT_TRACE(COMP_DOWN, "<==========%s()\n", __FUNCTION__);
5720 void rtl8192_commit(struct net_device *dev)
5722 struct r8192_priv *priv = ieee80211_priv(dev);
5723 int reset_status = 0;
5724 //u8 reset_times = 0;
5725 if (priv->up == 0) return ;
5728 rtl8192_cancel_deferred_work(priv);
5729 del_timer_sync(&priv->watch_dog_timer);
5730 //cancel_delayed_work(&priv->SwChnlWorkItem);
5732 ieee80211_softmac_stop_protocol(priv->ieee80211);
5734 //rtl8192_irq_disable(dev);
5735 rtl8192_rtx_disable(dev);
5736 reset_status = _rtl8192_up(dev);
5741 void rtl8192_restart(struct net_device *dev)
5743 struct r8192_priv *priv = ieee80211_priv(dev);
5745 void rtl8192_restart(struct work_struct *work)
5747 struct r8192_priv *priv = container_of(work, struct r8192_priv, reset_wq);
5748 struct net_device *dev = priv->ieee80211->dev;
5750 down(&priv->wx_sem);
5752 rtl8192_commit(dev);
5757 static void r8192_set_multicast(struct net_device *dev)
5759 struct r8192_priv *priv = ieee80211_priv(dev);
5762 //down(&priv->wx_sem);
5766 promisc = (dev->flags & IFF_PROMISC) ? 1:0;
5768 if (promisc != priv->promisc)
5769 // rtl8192_commit(dev);
5771 priv->promisc = promisc;
5773 //schedule_work(&priv->reset_wq);
5774 //up(&priv->wx_sem);
5778 int r8192_set_mac_adr(struct net_device *dev, void *mac)
5780 struct r8192_priv *priv = ieee80211_priv(dev);
5781 struct sockaddr *addr = mac;
5783 down(&priv->wx_sem);
5785 memcpy(dev->dev_addr, addr->sa_data, ETH_ALEN);
5787 schedule_work(&priv->reset_wq);
5794 /* based on ipw2200 driver */
5795 int rtl8192_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
5797 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
5798 struct iwreq *wrq = (struct iwreq *)rq;
5800 struct ieee80211_device *ieee = priv->ieee80211;
5802 u8 broadcast_addr[6] = {0xff,0xff,0xff,0xff,0xff,0xff};
5803 u8 zero_addr[6] = {0};
5804 struct iw_point *p = &wrq->u.data;
5805 struct ieee_param *ipw = NULL;//(struct ieee_param *)wrq->u.data.pointer;
5807 down(&priv->wx_sem);
5810 if (p->length < sizeof(struct ieee_param) || !p->pointer){
5815 ipw = (struct ieee_param *)kmalloc(p->length, GFP_KERNEL);
5820 if (copy_from_user(ipw, p->pointer, p->length)) {
5827 case RTL_IOCTL_WPA_SUPPLICANT:
5828 //parse here for HW security
5829 if (ipw->cmd == IEEE_CMD_SET_ENCRYPTION)
5831 if (ipw->u.crypt.set_tx)
5833 if (strcmp(ipw->u.crypt.alg, "CCMP") == 0)
5834 ieee->pairwise_key_type = KEY_TYPE_CCMP;
5835 else if (strcmp(ipw->u.crypt.alg, "TKIP") == 0)
5836 ieee->pairwise_key_type = KEY_TYPE_TKIP;
5837 else if (strcmp(ipw->u.crypt.alg, "WEP") == 0)
5839 if (ipw->u.crypt.key_len == 13)
5840 ieee->pairwise_key_type = KEY_TYPE_WEP104;
5841 else if (ipw->u.crypt.key_len == 5)
5842 ieee->pairwise_key_type = KEY_TYPE_WEP40;
5845 ieee->pairwise_key_type = KEY_TYPE_NA;
5847 if (ieee->pairwise_key_type)
5849 // FIXME:these two lines below just to fix ipw interface bug, that is, it will never set mode down to driver. So treat it as ADHOC mode, if no association procedure. WB. 2009.02.04
5850 if (memcmp(ieee->ap_mac_addr, zero_addr, 6) == 0)
5851 ieee->iw_mode = IW_MODE_ADHOC;
5852 memcpy((u8*)key, ipw->u.crypt.key, 16);
5853 EnableHWSecurityConfig8192(dev);
5854 //we fill both index entry and 4th entry for pairwise key as in IPW interface, adhoc will only get here, so we need index entry for its default key serching!
5856 setKey(dev, 4, ipw->u.crypt.idx, ieee->pairwise_key_type, (u8*)ieee->ap_mac_addr, 0, key);
5857 if (ieee->iw_mode == IW_MODE_ADHOC)
5858 setKey(dev, ipw->u.crypt.idx, ipw->u.crypt.idx, ieee->pairwise_key_type, (u8*)ieee->ap_mac_addr, 0, key);
5861 else //if (ipw->u.crypt.idx) //group key use idx > 0
5863 memcpy((u8*)key, ipw->u.crypt.key, 16);
5864 if (strcmp(ipw->u.crypt.alg, "CCMP") == 0)
5865 ieee->group_key_type= KEY_TYPE_CCMP;
5866 else if (strcmp(ipw->u.crypt.alg, "TKIP") == 0)
5867 ieee->group_key_type = KEY_TYPE_TKIP;
5868 else if (strcmp(ipw->u.crypt.alg, "WEP") == 0)
5870 if (ipw->u.crypt.key_len == 13)
5871 ieee->group_key_type = KEY_TYPE_WEP104;
5872 else if (ipw->u.crypt.key_len == 5)
5873 ieee->group_key_type = KEY_TYPE_WEP40;
5876 ieee->group_key_type = KEY_TYPE_NA;
5878 if (ieee->group_key_type)
5882 ipw->u.crypt.idx, //KeyIndex
5883 ieee->group_key_type, //KeyType
5884 broadcast_addr, //MacAddr
5890 #ifdef JOHN_HWSEC_DEBUG
5892 printk("@@ wrq->u pointer = ");
5893 for(i=0;i<wrq->u.data.length;i++){
5894 if(i%10==0) printk("\n");
5895 printk( "%8x|", ((u32*)wrq->u.data.pointer)[i] );
5898 #endif /*JOHN_HWSEC_DEBUG*/
5899 ret = ieee80211_wpa_supplicant_ioctl(priv->ieee80211, &wrq->u.data);
5913 u8 rtl8192SU_HwRateToMRate(bool bIsHT, u8 rate,bool bFirstAMPDU)
5925 case DESC92S_RATE1M: ret_rate = MGN_1M; break;
5926 case DESC92S_RATE2M: ret_rate = MGN_2M; break;
5927 case DESC92S_RATE5_5M: ret_rate = MGN_5_5M; break;
5928 case DESC92S_RATE11M: ret_rate = MGN_11M; break;
5929 case DESC92S_RATE6M: ret_rate = MGN_6M; break;
5930 case DESC92S_RATE9M: ret_rate = MGN_9M; break;
5931 case DESC92S_RATE12M: ret_rate = MGN_12M; break;
5932 case DESC92S_RATE18M: ret_rate = MGN_18M; break;
5933 case DESC92S_RATE24M: ret_rate = MGN_24M; break;
5934 case DESC92S_RATE36M: ret_rate = MGN_36M; break;
5935 case DESC92S_RATE48M: ret_rate = MGN_48M; break;
5936 case DESC92S_RATE54M: ret_rate = MGN_54M; break;
5939 RT_TRACE(COMP_RECV, "HwRateToMRate90(): Non supported Rate [%x], bIsHT = %d!!!\n", rate, bIsHT);
5948 case DESC92S_RATEMCS0: ret_rate = MGN_MCS0; break;
5949 case DESC92S_RATEMCS1: ret_rate = MGN_MCS1; break;
5950 case DESC92S_RATEMCS2: ret_rate = MGN_MCS2; break;
5951 case DESC92S_RATEMCS3: ret_rate = MGN_MCS3; break;
5952 case DESC92S_RATEMCS4: ret_rate = MGN_MCS4; break;
5953 case DESC92S_RATEMCS5: ret_rate = MGN_MCS5; break;
5954 case DESC92S_RATEMCS6: ret_rate = MGN_MCS6; break;
5955 case DESC92S_RATEMCS7: ret_rate = MGN_MCS7; break;
5956 case DESC92S_RATEMCS8: ret_rate = MGN_MCS8; break;
5957 case DESC92S_RATEMCS9: ret_rate = MGN_MCS9; break;
5958 case DESC92S_RATEMCS10: ret_rate = MGN_MCS10; break;
5959 case DESC92S_RATEMCS11: ret_rate = MGN_MCS11; break;
5960 case DESC92S_RATEMCS12: ret_rate = MGN_MCS12; break;
5961 case DESC92S_RATEMCS13: ret_rate = MGN_MCS13; break;
5962 case DESC92S_RATEMCS14: ret_rate = MGN_MCS14; break;
5963 case DESC92S_RATEMCS15: ret_rate = MGN_MCS15; break;
5964 case DESC92S_RATEMCS32: ret_rate = (0x80|0x20); break;
5967 RT_TRACE(COMP_RECV, "HwRateToMRate92S(): Non supported Rate [%x], bIsHT = %d!!!\n",rate, bIsHT );
5978 case DESC92S_RATE1M: ret_rate = MGN_1M; break;
5979 case DESC92S_RATE2M: ret_rate = MGN_2M; break;
5980 case DESC92S_RATE5_5M: ret_rate = MGN_5_5M; break;
5981 case DESC92S_RATE11M: ret_rate = MGN_11M; break;
5982 case DESC92S_RATE6M: ret_rate = MGN_6M; break;
5983 case DESC92S_RATE9M: ret_rate = MGN_9M; break;
5984 case DESC92S_RATE12M: ret_rate = MGN_12M; break;
5985 case DESC92S_RATE18M: ret_rate = MGN_18M; break;
5986 case DESC92S_RATE24M: ret_rate = MGN_24M; break;
5987 case DESC92S_RATE36M: ret_rate = MGN_36M; break;
5988 case DESC92S_RATE48M: ret_rate = MGN_48M; break;
5989 case DESC92S_RATE54M: ret_rate = MGN_54M; break;
5990 case DESC92S_RATEMCS0: ret_rate = MGN_MCS0; break;
5991 case DESC92S_RATEMCS1: ret_rate = MGN_MCS1; break;
5992 case DESC92S_RATEMCS2: ret_rate = MGN_MCS2; break;
5993 case DESC92S_RATEMCS3: ret_rate = MGN_MCS3; break;
5994 case DESC92S_RATEMCS4: ret_rate = MGN_MCS4; break;
5995 case DESC92S_RATEMCS5: ret_rate = MGN_MCS5; break;
5996 case DESC92S_RATEMCS6: ret_rate = MGN_MCS6; break;
5997 case DESC92S_RATEMCS7: ret_rate = MGN_MCS7; break;
5998 case DESC92S_RATEMCS8: ret_rate = MGN_MCS8; break;
5999 case DESC92S_RATEMCS9: ret_rate = MGN_MCS9; break;
6000 case DESC92S_RATEMCS10: ret_rate = MGN_MCS10; break;
6001 case DESC92S_RATEMCS11: ret_rate = MGN_MCS11; break;
6002 case DESC92S_RATEMCS12: ret_rate = MGN_MCS12; break;
6003 case DESC92S_RATEMCS13: ret_rate = MGN_MCS13; break;
6004 case DESC92S_RATEMCS14: ret_rate = MGN_MCS14; break;
6005 case DESC92S_RATEMCS15: ret_rate = MGN_MCS15; break;
6006 case DESC92S_RATEMCS32: ret_rate = (0x80|0x20); break;
6009 RT_TRACE(COMP_RECV, "HwRateToMRate92S(): Non supported Rate [%x], bIsHT = %d!!!\n",rate, bIsHT );
6016 u8 HwRateToMRate90(bool bIsHT, u8 rate)
6022 case DESC90_RATE1M: ret_rate = MGN_1M; break;
6023 case DESC90_RATE2M: ret_rate = MGN_2M; break;
6024 case DESC90_RATE5_5M: ret_rate = MGN_5_5M; break;
6025 case DESC90_RATE11M: ret_rate = MGN_11M; break;
6026 case DESC90_RATE6M: ret_rate = MGN_6M; break;
6027 case DESC90_RATE9M: ret_rate = MGN_9M; break;
6028 case DESC90_RATE12M: ret_rate = MGN_12M; break;
6029 case DESC90_RATE18M: ret_rate = MGN_18M; break;
6030 case DESC90_RATE24M: ret_rate = MGN_24M; break;
6031 case DESC90_RATE36M: ret_rate = MGN_36M; break;
6032 case DESC90_RATE48M: ret_rate = MGN_48M; break;
6033 case DESC90_RATE54M: ret_rate = MGN_54M; break;
6037 RT_TRACE(COMP_RECV, "HwRateToMRate90(): Non supported Rate [%x], bIsHT = %d!!!\n", rate, bIsHT);
6043 case DESC90_RATEMCS0: ret_rate = MGN_MCS0; break;
6044 case DESC90_RATEMCS1: ret_rate = MGN_MCS1; break;
6045 case DESC90_RATEMCS2: ret_rate = MGN_MCS2; break;
6046 case DESC90_RATEMCS3: ret_rate = MGN_MCS3; break;
6047 case DESC90_RATEMCS4: ret_rate = MGN_MCS4; break;
6048 case DESC90_RATEMCS5: ret_rate = MGN_MCS5; break;
6049 case DESC90_RATEMCS6: ret_rate = MGN_MCS6; break;
6050 case DESC90_RATEMCS7: ret_rate = MGN_MCS7; break;
6051 case DESC90_RATEMCS8: ret_rate = MGN_MCS8; break;
6052 case DESC90_RATEMCS9: ret_rate = MGN_MCS9; break;
6053 case DESC90_RATEMCS10: ret_rate = MGN_MCS10; break;
6054 case DESC90_RATEMCS11: ret_rate = MGN_MCS11; break;
6055 case DESC90_RATEMCS12: ret_rate = MGN_MCS12; break;
6056 case DESC90_RATEMCS13: ret_rate = MGN_MCS13; break;
6057 case DESC90_RATEMCS14: ret_rate = MGN_MCS14; break;
6058 case DESC90_RATEMCS15: ret_rate = MGN_MCS15; break;
6059 case DESC90_RATEMCS32: ret_rate = (0x80|0x20); break;
6063 RT_TRACE(COMP_RECV, "HwRateToMRate90(): Non supported Rate [%x], bIsHT = %d!!!\n",rate, bIsHT);
6072 * Function: UpdateRxPktTimeStamp
6073 * Overview: Recored down the TSF time stamp when receiving a packet
6081 * (pRfd->Status.TimeStampHigh is updated)
6082 * (pRfd->Status.TimeStampLow is updated)
6086 void UpdateRxPktTimeStamp8190 (struct net_device *dev, struct ieee80211_rx_stats *stats)
6088 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
6090 if(stats->bIsAMPDU && !stats->bFirstMPDU) {
6091 stats->mac_time[0] = priv->LastRxDescTSFLow;
6092 stats->mac_time[1] = priv->LastRxDescTSFHigh;
6094 priv->LastRxDescTSFLow = stats->mac_time[0];
6095 priv->LastRxDescTSFHigh = stats->mac_time[1];
6101 long rtl819x_translate_todbm(u8 signal_strength_index )// 0-100 index.
6103 long signal_power; // in dBm.
6105 // Translate to dBm (x=0.5y-95).
6106 signal_power = (long)((signal_strength_index + 1) >> 1);
6109 return signal_power;
6113 /* 2008/01/22 MH We can not delcare RSSI/EVM total value of sliding window to
6114 be a local static. Otherwise, it may increase when we return from S3/S4. The
6115 value will be kept in memory or disk. We must delcare the value in adapter
6116 and it will be reinitialized when return from S3/S4. */
6117 void rtl8192_process_phyinfo(struct r8192_priv * priv,u8* buffer, struct ieee80211_rx_stats * pprevious_stats, struct ieee80211_rx_stats * pcurrent_stats)
6119 bool bcheck = false;
6121 u32 nspatial_stream, tmp_val;
6123 static u32 slide_rssi_index=0, slide_rssi_statistics=0;
6124 static u32 slide_evm_index=0, slide_evm_statistics=0;
6125 static u32 last_rssi=0, last_evm=0;
6127 static u32 slide_beacon_adc_pwdb_index=0, slide_beacon_adc_pwdb_statistics=0;
6128 static u32 last_beacon_adc_pwdb=0;
6130 struct ieee80211_hdr_3addr *hdr;
6132 unsigned int frag,seq;
6133 hdr = (struct ieee80211_hdr_3addr *)buffer;
6134 sc = le16_to_cpu(hdr->seq_ctrl);
6135 frag = WLAN_GET_SEQ_FRAG(sc);
6136 seq = WLAN_GET_SEQ_SEQ(sc);
6137 //cosa add 04292008 to record the sequence number
6138 pcurrent_stats->Seq_Num = seq;
6140 // Check whether we should take the previous packet into accounting
6142 if(!pprevious_stats->bIsAMPDU)
6144 // if previous packet is not aggregated packet
6151 if(slide_rssi_statistics++ >= PHY_RSSI_SLID_WIN_MAX)
6153 slide_rssi_statistics = PHY_RSSI_SLID_WIN_MAX;
6154 last_rssi = priv->stats.slide_signal_strength[slide_rssi_index];
6155 priv->stats.slide_rssi_total -= last_rssi;
6157 priv->stats.slide_rssi_total += pprevious_stats->SignalStrength;
6159 priv->stats.slide_signal_strength[slide_rssi_index++] = pprevious_stats->SignalStrength;
6160 if(slide_rssi_index >= PHY_RSSI_SLID_WIN_MAX)
6161 slide_rssi_index = 0;
6163 // <1> Showed on UI for user, in dbm
6164 tmp_val = priv->stats.slide_rssi_total/slide_rssi_statistics;
6165 priv->stats.signal_strength = rtl819x_translate_todbm((u8)tmp_val);
6166 pcurrent_stats->rssi = priv->stats.signal_strength;
6168 // If the previous packet does not match the criteria, neglect it
6170 if(!pprevious_stats->bPacketMatchBSSID)
6172 if(!pprevious_stats->bToSelfBA)
6180 //rtl8190_process_cck_rxpathsel(priv,pprevious_stats);//only rtl8190 supported
6185 priv->stats.num_process_phyinfo++;
6187 /* record the general signal strength to the sliding window. */
6190 // <2> Showed on UI for engineering
6191 // hardware does not provide rssi information for each rf path in CCK
6192 if(!pprevious_stats->bIsCCK && (pprevious_stats->bPacketToSelf || pprevious_stats->bToSelfBA))
6194 for (rfpath = RF90_PATH_A; rfpath < priv->NumTotalRFPath; rfpath++)
6196 if (!rtl8192_phy_CheckIsLegalRFPath(priv->ieee80211->dev, rfpath))
6199 //Fixed by Jacken 2008-03-20
6200 if(priv->stats.rx_rssi_percentage[rfpath] == 0)
6202 priv->stats.rx_rssi_percentage[rfpath] = pprevious_stats->RxMIMOSignalStrength[rfpath];
6203 //DbgPrint("MIMO RSSI initialize \n");
6205 if(pprevious_stats->RxMIMOSignalStrength[rfpath] > priv->stats.rx_rssi_percentage[rfpath])
6207 priv->stats.rx_rssi_percentage[rfpath] =
6208 ( (priv->stats.rx_rssi_percentage[rfpath]*(Rx_Smooth_Factor-1)) +
6209 (pprevious_stats->RxMIMOSignalStrength[rfpath])) /(Rx_Smooth_Factor);
6210 priv->stats.rx_rssi_percentage[rfpath] = priv->stats.rx_rssi_percentage[rfpath] + 1;
6214 priv->stats.rx_rssi_percentage[rfpath] =
6215 ( (priv->stats.rx_rssi_percentage[rfpath]*(Rx_Smooth_Factor-1)) +
6216 (pprevious_stats->RxMIMOSignalStrength[rfpath])) /(Rx_Smooth_Factor);
6218 RT_TRACE(COMP_DBG,"priv->stats.rx_rssi_percentage[rfPath] = %d \n" ,priv->stats.rx_rssi_percentage[rfpath] );
6226 RT_TRACE(COMP_RXDESC, "Smooth %s PWDB = %d\n",
6227 pprevious_stats->bIsCCK? "CCK": "OFDM",
6228 pprevious_stats->RxPWDBAll);
6230 if(pprevious_stats->bPacketBeacon)
6232 /* record the beacon pwdb to the sliding window. */
6233 if(slide_beacon_adc_pwdb_statistics++ >= PHY_Beacon_RSSI_SLID_WIN_MAX)
6235 slide_beacon_adc_pwdb_statistics = PHY_Beacon_RSSI_SLID_WIN_MAX;
6236 last_beacon_adc_pwdb = priv->stats.Slide_Beacon_pwdb[slide_beacon_adc_pwdb_index];
6237 priv->stats.Slide_Beacon_Total -= last_beacon_adc_pwdb;
6238 //DbgPrint("slide_beacon_adc_pwdb_index = %d, last_beacon_adc_pwdb = %d, Adapter->RxStats.Slide_Beacon_Total = %d\n",
6239 // slide_beacon_adc_pwdb_index, last_beacon_adc_pwdb, Adapter->RxStats.Slide_Beacon_Total);
6241 priv->stats.Slide_Beacon_Total += pprevious_stats->RxPWDBAll;
6242 priv->stats.Slide_Beacon_pwdb[slide_beacon_adc_pwdb_index] = pprevious_stats->RxPWDBAll;
6243 //DbgPrint("slide_beacon_adc_pwdb_index = %d, pPreviousRfd->Status.RxPWDBAll = %d\n", slide_beacon_adc_pwdb_index, pPreviousRfd->Status.RxPWDBAll);
6244 slide_beacon_adc_pwdb_index++;
6245 if(slide_beacon_adc_pwdb_index >= PHY_Beacon_RSSI_SLID_WIN_MAX)
6246 slide_beacon_adc_pwdb_index = 0;
6247 pprevious_stats->RxPWDBAll = priv->stats.Slide_Beacon_Total/slide_beacon_adc_pwdb_statistics;
6248 if(pprevious_stats->RxPWDBAll >= 3)
6249 pprevious_stats->RxPWDBAll -= 3;
6252 RT_TRACE(COMP_RXDESC, "Smooth %s PWDB = %d\n",
6253 pprevious_stats->bIsCCK? "CCK": "OFDM",
6254 pprevious_stats->RxPWDBAll);
6257 if(pprevious_stats->bPacketToSelf || pprevious_stats->bPacketBeacon || pprevious_stats->bToSelfBA)
6259 if(priv->undecorated_smoothed_pwdb < 0) // initialize
6261 priv->undecorated_smoothed_pwdb = pprevious_stats->RxPWDBAll;
6262 //DbgPrint("First pwdb initialize \n");
6265 if(pprevious_stats->RxPWDBAll > (u32)priv->undecorated_smoothed_pwdb)
6267 priv->undecorated_smoothed_pwdb =
6268 ( ((priv->undecorated_smoothed_pwdb)*(Rx_Smooth_Factor-1)) +
6269 (pprevious_stats->RxPWDBAll)) /(Rx_Smooth_Factor);
6270 priv->undecorated_smoothed_pwdb = priv->undecorated_smoothed_pwdb + 1;
6274 priv->undecorated_smoothed_pwdb =
6275 ( ((priv->undecorated_smoothed_pwdb)*(Rx_Smooth_Factor-1)) +
6276 (pprevious_stats->RxPWDBAll)) /(Rx_Smooth_Factor);
6279 //Fixed by Jacken 2008-03-20
6280 if(pPreviousRfd->Status.RxPWDBAll > (u32)pHalData->UndecoratedSmoothedPWDB)
6282 pHalData->UndecoratedSmoothedPWDB =
6283 ( ((pHalData->UndecoratedSmoothedPWDB)* 5) + (pPreviousRfd->Status.RxPWDBAll)) / 6;
6284 pHalData->UndecoratedSmoothedPWDB = pHalData->UndecoratedSmoothedPWDB + 1;
6288 pHalData->UndecoratedSmoothedPWDB =
6289 ( ((pHalData->UndecoratedSmoothedPWDB)* 5) + (pPreviousRfd->Status.RxPWDBAll)) / 6;
6298 /* record the general EVM to the sliding window. */
6299 if(pprevious_stats->SignalQuality == 0)
6304 if(pprevious_stats->bPacketToSelf || pprevious_stats->bPacketBeacon || pprevious_stats->bToSelfBA){
6305 if(slide_evm_statistics++ >= PHY_RSSI_SLID_WIN_MAX){
6306 slide_evm_statistics = PHY_RSSI_SLID_WIN_MAX;
6307 last_evm = priv->stats.slide_evm[slide_evm_index];
6308 priv->stats.slide_evm_total -= last_evm;
6311 priv->stats.slide_evm_total += pprevious_stats->SignalQuality;
6313 priv->stats.slide_evm[slide_evm_index++] = pprevious_stats->SignalQuality;
6314 if(slide_evm_index >= PHY_RSSI_SLID_WIN_MAX)
6315 slide_evm_index = 0;
6317 // <1> Showed on UI for user, in percentage.
6318 tmp_val = priv->stats.slide_evm_total/slide_evm_statistics;
6319 priv->stats.signal_quality = tmp_val;
6320 //cosa add 10/11/2007, Showed on UI for user in Windows Vista, for Link quality.
6321 priv->stats.last_signal_strength_inpercent = tmp_val;
6324 // <2> Showed on UI for engineering
6325 if(pprevious_stats->bPacketToSelf || pprevious_stats->bPacketBeacon || pprevious_stats->bToSelfBA)
6327 for(nspatial_stream = 0; nspatial_stream<2 ; nspatial_stream++) // 2 spatial stream
6329 if(pprevious_stats->RxMIMOSignalQuality[nspatial_stream] != -1)
6331 if(priv->stats.rx_evm_percentage[nspatial_stream] == 0) // initialize
6333 priv->stats.rx_evm_percentage[nspatial_stream] = pprevious_stats->RxMIMOSignalQuality[nspatial_stream];
6335 priv->stats.rx_evm_percentage[nspatial_stream] =
6336 ( (priv->stats.rx_evm_percentage[nspatial_stream]* (Rx_Smooth_Factor-1)) +
6337 (pprevious_stats->RxMIMOSignalQuality[nspatial_stream]* 1)) / (Rx_Smooth_Factor);
6346 /*-----------------------------------------------------------------------------
6347 * Function: rtl819x_query_rxpwrpercentage()
6351 * Input: char antpower
6355 * Return: 0-100 percentage
6359 * 05/26/2008 amy Create Version 0 porting from windows code.
6361 *---------------------------------------------------------------------------*/
6362 static u8 rtl819x_query_rxpwrpercentage(
6366 if ((antpower <= -100) || (antpower >= 20))
6370 else if (antpower >= 0)
6376 return (100+antpower);
6379 } /* QueryRxPwrPercentage */
6382 rtl819x_evm_dbtopercentage(
6394 ret_val = 0 - ret_val;
6402 // We want good-looking for signal strength/quality
6403 // 2007/7/19 01:09, by cosa.
6406 rtl819x_signal_scale_mapping(
6412 // Step 1. Scale mapping.
6413 if(currsig >= 61 && currsig <= 100)
6415 retsig = 90 + ((currsig - 60) / 4);
6417 else if(currsig >= 41 && currsig <= 60)
6419 retsig = 78 + ((currsig - 40) / 2);
6421 else if(currsig >= 31 && currsig <= 40)
6423 retsig = 66 + (currsig - 30);
6425 else if(currsig >= 21 && currsig <= 30)
6427 retsig = 54 + (currsig - 20);
6429 else if(currsig >= 5 && currsig <= 20)
6431 retsig = 42 + (((currsig - 5) * 2) / 3);
6433 else if(currsig == 4)
6437 else if(currsig == 3)
6441 else if(currsig == 2)
6445 else if(currsig == 1)
6457 /*-----------------------------------------------------------------------------
6458 * Function: QueryRxPhyStatus8192S()
6470 * 06/01/2007 MHC Create Version 0.
6471 * 06/05/2007 MHC Accordign to HW's new data sheet, we add CCK and OFDM
6472 * descriptor definition.
6473 * 07/04/2007 MHC According to Jerry and Bryant's document. We read
6474 * ir_isolation and ext_lna for RF's init value and use
6475 * to compensate RSSI after receiving packets.
6476 * 09/10/2008 MHC Modify name and PHY status field for 92SE.
6477 * 09/19/2008 MHC Add CCK/OFDM SS/SQ for 92S series.
6479 *---------------------------------------------------------------------------*/
6480 static void rtl8192SU_query_rxphystatus(
6481 struct r8192_priv * priv,
6482 struct ieee80211_rx_stats * pstats,
6483 rx_desc_819x_usb *pDesc,
6484 rx_drvinfo_819x_usb * pdrvinfo,
6485 struct ieee80211_rx_stats * precord_stats,
6486 bool bpacket_match_bssid,
6487 bool bpacket_toself,
6492 //PRT_RFD_STATUS pRtRfdStatus = &(pRfd->Status);
6493 //PHY_STS_CCK_8192S_T *pCck_buf;
6494 phy_sts_cck_819xusb_t * pcck_buf;
6495 phy_ofdm_rx_status_rxsc_sgien_exintfflag* prxsc;
6497 //u8 i, max_spatial_stream, tmp_rxsnr, tmp_rxevm, rxsc_sgien_exflg;
6498 u8 i, max_spatial_stream, rxsc_sgien_exflg;
6499 char rx_pwr[4], rx_pwr_all=0;
6500 //long rx_avg_pwr = 0;
6501 //char rx_snrX, rx_evmX;
6503 u32 RSSI, total_rssi=0;//, total_evm=0;
6504 // long signal_strength_index = 0;
6510 priv->stats.numqry_phystatus++;
6512 is_cck_rate = rx_hal_is_cck_rate(pDesc);
6514 // Record it for next packet processing
6515 memset(precord_stats, 0, sizeof(struct ieee80211_rx_stats));
6516 pstats->bPacketMatchBSSID = precord_stats->bPacketMatchBSSID = bpacket_match_bssid;
6517 pstats->bPacketToSelf = precord_stats->bPacketToSelf = bpacket_toself;
6518 pstats->bIsCCK = precord_stats->bIsCCK = is_cck_rate;//RX_HAL_IS_CCK_RATE(pDrvInfo);
6519 pstats->bPacketBeacon = precord_stats->bPacketBeacon = bPacketBeacon;
6520 pstats->bToSelfBA = precord_stats->bToSelfBA = bToSelfBA;
6523 pstats->RxMIMOSignalQuality[0] = -1;
6524 pstats->RxMIMOSignalQuality[1] = -1;
6525 precord_stats->RxMIMOSignalQuality[0] = -1;
6526 precord_stats->RxMIMOSignalQuality[1] = -1;
6530 u8 report;//, tmp_pwdb;
6531 //char cck_adc_pwdb[4];
6533 // CCK Driver info Structure is not the same as OFDM packet.
6534 pcck_buf = (phy_sts_cck_819xusb_t *)pdrvinfo;
6537 // (1)Hardware does not provide RSSI for CCK
6541 // (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive)
6544 priv->stats.numqry_phystatusCCK++;
6546 if(!priv->bCckHighPower)
6548 report = pcck_buf->cck_agc_rpt & 0xc0;
6552 //Fixed by Jacken from Bryant 2008-03-20
6553 //Original value is -38 , -26 , -14 , -2
6554 //Fixed value is -35 , -23 , -11 , 6
6556 rx_pwr_all = -35 - (pcck_buf->cck_agc_rpt & 0x3e);
6559 rx_pwr_all = -23 - (pcck_buf->cck_agc_rpt & 0x3e);
6562 rx_pwr_all = -11 - (pcck_buf->cck_agc_rpt & 0x3e);
6565 rx_pwr_all = 8 - (pcck_buf->cck_agc_rpt & 0x3e);//6->8
6571 report = pdrvinfo->cfosho[0] & 0x60;
6576 rx_pwr_all = -35 - ((pcck_buf->cck_agc_rpt & 0x1f)<<1) ;
6579 rx_pwr_all = -23 - ((pcck_buf->cck_agc_rpt & 0x1f)<<1);
6582 rx_pwr_all = -11 - ((pcck_buf->cck_agc_rpt & 0x1f)<<1) ;
6585 rx_pwr_all = -8 - ((pcck_buf->cck_agc_rpt & 0x1f)<<1) ;//6->-8
6590 pwdb_all = rtl819x_query_rxpwrpercentage(rx_pwr_all);//check it
6591 pstats->RxPWDBAll = precord_stats->RxPWDBAll = pwdb_all;
6592 //pstats->RecvSignalPower = pwdb_all;
6593 pstats->RecvSignalPower = rx_pwr_all;
6596 // (3) Get Signal Quality (EVM)
6598 //if(bpacket_match_bssid)
6602 if(pstats->RxPWDBAll > 40)
6607 sq = pcck_buf->sq_rpt;
6609 if(pcck_buf->sq_rpt > 64)
6611 else if (pcck_buf->sq_rpt < 20)
6614 sq = ((64-sq) * 100) / 44;
6616 pstats->SignalQuality = precord_stats->SignalQuality = sq;
6617 pstats->RxMIMOSignalQuality[0] = precord_stats->RxMIMOSignalQuality[0] = sq;
6618 pstats->RxMIMOSignalQuality[1] = precord_stats->RxMIMOSignalQuality[1] = -1;
6623 priv->stats.numqry_phystatusHT++;
6625 // 2008/09/19 MH For 92S debug, RX RF path always enable!!
6626 priv->brfpath_rxenable[0] = priv->brfpath_rxenable[1] = TRUE;
6629 // (1)Get RSSI for HT rate
6631 //for(i=RF90_PATH_A; i<priv->NumTotalRFPath; i++)
6632 for(i=RF90_PATH_A; i<RF90_PATH_MAX; i++)
6634 // 2008/01/30 MH we will judge RF RX path now.
6635 if (priv->brfpath_rxenable[i])
6640 //if (!rtl8192_phy_CheckIsLegalRFPath(priv->ieee80211->dev, i))
6643 //Fixed by Jacken from Bryant 2008-03-20
6644 //Original value is 106
6645 //rx_pwr[i] = ((pofdm_buf->trsw_gain_X[i]&0x3F)*2) - 106;
6646 rx_pwr[i] = ((pdrvinfo->gain_trsw[i]&0x3F)*2) - 110;
6648 /* Translate DBM to percentage. */
6649 RSSI = rtl819x_query_rxpwrpercentage(rx_pwr[i]); //check ok
6651 RT_TRACE(COMP_RF, "RF-%d RXPWR=%x RSSI=%d\n", i, rx_pwr[i], RSSI);
6653 //Get Rx snr value in DB
6654 //tmp_rxsnr = pofdm_buf->rxsnr_X[i];
6655 //rx_snrX = (char)(tmp_rxsnr);
6657 //priv->stats.rxSNRdB[i] = (long)rx_snrX;
6658 priv->stats.rxSNRdB[i] = (long)(pdrvinfo->rxsnr[i]/2);
6660 /* Translate DBM to percentage. */
6661 //RSSI = rtl819x_query_rxpwrpercentage(rx_pwr[i]);
6662 //total_rssi += RSSI;
6664 /* Record Signal Strength for next packet */
6665 //if(bpacket_match_bssid)
6667 pstats->RxMIMOSignalStrength[i] =(u8) RSSI;
6668 precord_stats->RxMIMOSignalStrength[i] =(u8) RSSI;
6674 // (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive)
6676 //Fixed by Jacken from Bryant 2008-03-20
6677 //Original value is 106
6678 //rx_pwr_all = (((pofdm_buf->pwdb_all ) >> 1 )& 0x7f) -106;
6679 rx_pwr_all = (((pdrvinfo->pwdb_all ) >> 1 )& 0x7f) -106;
6680 pwdb_all = rtl819x_query_rxpwrpercentage(rx_pwr_all);
6682 pstats->RxPWDBAll = precord_stats->RxPWDBAll = pwdb_all;
6683 pstats->RxPower = precord_stats->RxPower = rx_pwr_all;
6684 pstats->RecvSignalPower = rx_pwr_all;
6687 // (3)EVM of HT rate
6689 //if(pdrvinfo->RxHT && pdrvinfo->RxRate>=DESC90_RATEMCS8 &&
6690 // pdrvinfo->RxRate<=DESC90_RATEMCS15)
6691 if(pDesc->RxHT && pDesc->RxMCS>=DESC92S_RATEMCS8 &&
6692 pDesc->RxMCS<=DESC92S_RATEMCS15)
6693 max_spatial_stream = 2; //both spatial stream make sense
6695 max_spatial_stream = 1; //only spatial stream 1 makes sense
6697 for(i=0; i<max_spatial_stream; i++)
6699 //tmp_rxevm = pofdm_buf->rxevm_X[i];
6700 //rx_evmX = (char)(tmp_rxevm);
6702 // Do not use shift operation like "rx_evmX >>= 1" because the compilor of free build environment
6703 // fill most significant bit to "zero" when doing shifting operation which may change a negative
6704 // value to positive one, then the dbm value (which is supposed to be negative) is not correct anymore.
6705 //rx_evmX /= 2; //dbm
6707 //evm = rtl819x_evm_dbtopercentage(rx_evmX);
6708 evm = rtl819x_evm_dbtopercentage( (pdrvinfo->rxevm[i] /*/ 2*/)); //dbm
6709 RT_TRACE(COMP_RF, "RXRATE=%x RXEVM=%x EVM=%s%d\n", pDesc->RxMCS, pdrvinfo->rxevm[i], "%", evm);
6711 //if(bpacket_match_bssid)
6713 if(i==0) // Fill value in RFD, Get the first spatial stream only
6714 pstats->SignalQuality = precord_stats->SignalQuality = (u8)(evm & 0xff);
6715 pstats->RxMIMOSignalQuality[i] = precord_stats->RxMIMOSignalQuality[i] = (u8)(evm & 0xff);
6720 /* record rx statistics for debug */
6721 //rxsc_sgien_exflg = pofdm_buf->rxsc_sgien_exflg;
6722 prxsc = (phy_ofdm_rx_status_rxsc_sgien_exintfflag *)&rxsc_sgien_exflg;
6723 //if(pdrvinfo->BW) //40M channel
6724 if(pDesc->BW) //40M channel
6725 priv->stats.received_bwtype[1+pdrvinfo->rxsc]++;
6727 priv->stats.received_bwtype[0]++;
6730 //UI BSS List signal strength(in percentage), make it good looking, from 0~100.
6731 //It is assigned to the BSS List in GetValueFromBeaconOrProbeRsp().
6734 pstats->SignalStrength = precord_stats->SignalStrength = (u8)(rtl819x_signal_scale_mapping((long)pwdb_all));//PWDB_ALL;//check ok
6739 //pRfd->Status.SignalStrength = pRecordRfd->Status.SignalStrength = (u8)(SignalScaleMapping(total_rssi/=RF90_PATH_MAX));//(u8)(total_rssi/=RF90_PATH_MAX);
6740 // We can judge RX path number now.
6742 pstats->SignalStrength = precord_stats->SignalStrength = (u8)(rtl819x_signal_scale_mapping((long)(total_rssi/=rf_rx_num)));
6744 }/* QueryRxPhyStatus8192S */
6747 rtl8192_record_rxdesc_forlateruse(
6748 struct ieee80211_rx_stats * psrc_stats,
6749 struct ieee80211_rx_stats * ptarget_stats
6752 ptarget_stats->bIsAMPDU = psrc_stats->bIsAMPDU;
6753 ptarget_stats->bFirstMPDU = psrc_stats->bFirstMPDU;
6754 ptarget_stats->Seq_Num = psrc_stats->Seq_Num;
6757 static void rtl8192SU_query_rxphystatus(
6758 struct r8192_priv * priv,
6759 struct ieee80211_rx_stats * pstats,
6760 rx_desc_819x_usb *pDesc,
6761 rx_drvinfo_819x_usb * pdrvinfo,
6762 struct ieee80211_rx_stats * precord_stats,
6763 bool bpacket_match_bssid,
6764 bool bpacket_toself,
6768 void rtl8192SU_TranslateRxSignalStuff(struct sk_buff *skb,
6769 struct ieee80211_rx_stats * pstats,
6770 rx_desc_819x_usb *pDesc,
6771 rx_drvinfo_819x_usb *pdrvinfo)
6773 // TODO: We must only check packet for current MAC address. Not finish
6774 rtl8192_rx_info *info = (struct rtl8192_rx_info *)skb->cb;
6775 struct net_device *dev=info->dev;
6776 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
6777 bool bpacket_match_bssid, bpacket_toself;
6778 bool bPacketBeacon=FALSE, bToSelfBA=FALSE;
6779 static struct ieee80211_rx_stats previous_stats;
6780 struct ieee80211_hdr_3addr *hdr;//by amy
6783 // Get Signal Quality for only RX data queue (but not command queue)
6786 //u16 tmp_buf_len = 0;
6789 /* Get MAC frame start address. */
6790 tmp_buf = (u8*)skb->data;// + get_rxpacket_shiftbytes_819xusb(pstats);
6792 hdr = (struct ieee80211_hdr_3addr *)tmp_buf;
6793 fc = le16_to_cpu(hdr->frame_control);
6794 type = WLAN_FC_GET_TYPE(fc);
6795 praddr = hdr->addr1;
6797 /* Check if the received packet is acceptabe. */
6798 bpacket_match_bssid = ((IEEE80211_FTYPE_CTL != type) &&
6799 (eqMacAddr(priv->ieee80211->current_network.bssid, (fc & IEEE80211_FCTL_TODS)? hdr->addr1 : (fc & IEEE80211_FCTL_FROMDS )? hdr->addr2 : hdr->addr3))
6800 && (!pstats->bHwError) && (!pstats->bCRC)&& (!pstats->bICV));
6801 bpacket_toself = bpacket_match_bssid & (eqMacAddr(praddr, priv->ieee80211->dev->dev_addr));
6804 if(WLAN_FC_GET_FRAMETYPE(fc)== IEEE80211_STYPE_BEACON)
6806 bPacketBeacon = true;
6807 //DbgPrint("Beacon 2, MatchBSSID = %d, ToSelf = %d \n", bPacketMatchBSSID, bPacketToSelf);
6809 if(WLAN_FC_GET_FRAMETYPE(fc) == IEEE80211_STYPE_BLOCKACK)
6811 if((eqMacAddr(praddr,dev->dev_addr)))
6813 //DbgPrint("BlockAck, MatchBSSID = %d, ToSelf = %d \n", bPacketMatchBSSID, bPacketToSelf);
6819 if(bpacket_match_bssid)
6821 priv->stats.numpacket_matchbssid++;
6824 priv->stats.numpacket_toself++;
6827 // Process PHY information for previous packet (RSSI/PWDB/EVM)
6829 // Because phy information is contained in the last packet of AMPDU only, so driver
6830 // should process phy information of previous packet
6831 rtl8192_process_phyinfo(priv, tmp_buf, &previous_stats, pstats);
6832 rtl8192SU_query_rxphystatus(priv, pstats, pDesc, pdrvinfo, &previous_stats, bpacket_match_bssid,bpacket_toself,bPacketBeacon,bToSelfBA);
6833 rtl8192_record_rxdesc_forlateruse(pstats, &previous_stats);
6838 * Function: UpdateReceivedRateHistogramStatistics
6839 * Overview: Recored down the received data rate
6842 * struct net_device *dev
6843 * struct ieee80211_rx_stats *stats
6847 * (priv->stats.ReceivedRateHistogram[] is updated)
6852 UpdateReceivedRateHistogramStatistics8190(
6853 struct net_device *dev,
6854 struct ieee80211_rx_stats *stats
6857 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
6858 u32 rcvType=1; //0: Total, 1:OK, 2:CRC, 3:ICV
6860 u32 preamble_guardinterval; //1: short preamble/GI, 0: long preamble/GI
6865 else if(stats->bICV)
6868 if(stats->bShortPreamble)
6869 preamble_guardinterval = 1;// short
6871 preamble_guardinterval = 0;// long
6878 case MGN_1M: rateIndex = 0; break;
6879 case MGN_2M: rateIndex = 1; break;
6880 case MGN_5_5M: rateIndex = 2; break;
6881 case MGN_11M: rateIndex = 3; break;
6885 case MGN_6M: rateIndex = 4; break;
6886 case MGN_9M: rateIndex = 5; break;
6887 case MGN_12M: rateIndex = 6; break;
6888 case MGN_18M: rateIndex = 7; break;
6889 case MGN_24M: rateIndex = 8; break;
6890 case MGN_36M: rateIndex = 9; break;
6891 case MGN_48M: rateIndex = 10; break;
6892 case MGN_54M: rateIndex = 11; break;
6894 // 11n High throughput rate
6896 case MGN_MCS0: rateIndex = 12; break;
6897 case MGN_MCS1: rateIndex = 13; break;
6898 case MGN_MCS2: rateIndex = 14; break;
6899 case MGN_MCS3: rateIndex = 15; break;
6900 case MGN_MCS4: rateIndex = 16; break;
6901 case MGN_MCS5: rateIndex = 17; break;
6902 case MGN_MCS6: rateIndex = 18; break;
6903 case MGN_MCS7: rateIndex = 19; break;
6904 case MGN_MCS8: rateIndex = 20; break;
6905 case MGN_MCS9: rateIndex = 21; break;
6906 case MGN_MCS10: rateIndex = 22; break;
6907 case MGN_MCS11: rateIndex = 23; break;
6908 case MGN_MCS12: rateIndex = 24; break;
6909 case MGN_MCS13: rateIndex = 25; break;
6910 case MGN_MCS14: rateIndex = 26; break;
6911 case MGN_MCS15: rateIndex = 27; break;
6912 default: rateIndex = 28; break;
6914 priv->stats.received_preamble_GI[preamble_guardinterval][rateIndex]++;
6915 priv->stats.received_rate_histogram[0][rateIndex]++; //total
6916 priv->stats.received_rate_histogram[rcvType][rateIndex]++;
6919 void rtl8192SU_query_rxdesc_status(struct sk_buff *skb, struct ieee80211_rx_stats *stats, bool bIsRxAggrSubframe)
6921 rtl8192_rx_info *info = (struct rtl8192_rx_info *)skb->cb;
6922 struct net_device *dev=info->dev;
6923 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
6924 //rx_desc_819x_usb *desc = (rx_desc_819x_usb *)skb->data;
6925 rx_drvinfo_819x_usb *driver_info = NULL;
6927 //PRT_RFD_STATUS pRtRfdStatus = &pRfd->Status;
6928 //PHAL_DATA_8192SUSB pHalData = GET_HAL_DATA(Adapter);
6929 //pu1Byte pDesc = (pu1Byte)pDescIn;
6930 //PRX_DRIVER_INFO_8192S pDrvInfo;
6932 rx_desc_819x_usb *desc = (rx_desc_819x_usb *)skb->data;
6937 printk("========================");
6938 for(m=0; m<skb->len; m++){
6941 printk("%2x ",((u8*)skb->data)[m]);
6943 printk("\n========================\n");
6949 //Get Rx Descriptor Raw Information
6951 stats->Length = desc->Length ;
6952 stats->RxDrvInfoSize = desc->RxDrvInfoSize*RX_DRV_INFO_SIZE_UNIT;
6953 stats->RxBufShift = (desc->Shift)&0x03;
6954 stats->bICV = desc->ICV;
6955 stats->bCRC = desc->CRC32;
6956 stats->bHwError = stats->bCRC|stats->bICV;
6957 stats->Decrypted = !desc->SWDec;//RTL8190 set this bit to indicate that Hw does not decrypt packet
6958 stats->bIsAMPDU = (desc->AMSDU==1);
6959 stats->bFirstMPDU = (desc->PAGGR==1) && (desc->FAGGR==1);
6960 stats->bShortPreamble = desc->SPLCP;
6961 stats->RxIs40MHzPacket = (desc->BW==1);
6962 stats->TimeStampLow = desc->TSFL;
6964 if((desc->FAGGR==1) || (desc->PAGGR==1))
6966 RT_TRACE(COMP_RXDESC, "FirstAGGR = %d, PartAggr = %d\n", desc->FAGGR, desc->PAGGR);
6972 printk("%s: Receive ICV error!!!!!!!!!!!!!!!!!!!!!!\n", __FUNCTION__);
6974 printk("%s: Receive CRC error!!!!!!!!!!!!!!!!!!!!!!\n", __FUNCTION__);
6977 if(IS_UNDER_11N_AES_MODE(priv->ieee80211))
6979 // Always received ICV error packets in AES mode.
6980 // This fixed HW later MIC write bug.
6981 if(stats->bICV && !stats->bCRC)
6983 stats->bICV = FALSE;
6984 stats->bHwError = FALSE;
6988 // Transform HwRate to MRate
6989 if(!stats->bHwError)
6990 //stats->DataRate = HwRateToMRate(
6991 // (BOOLEAN)GET_RX_DESC_RXHT(pDesc),
6992 // (u1Byte)GET_RX_DESC_RXMCS(pDesc),
6993 // (BOOLEAN)GET_RX_DESC_PAGGR(pDesc));
6994 stats->rate = rtl8192SU_HwRateToMRate(desc->RxHT, desc->RxMCS, desc->PAGGR);
6996 stats->rate = MGN_1M;
6999 // Collect Rx rate/AMPDU/TSFL
7001 //UpdateRxdRateHistogramStatistics8192S(Adapter, pRfd);
7002 //UpdateRxAMPDUHistogramStatistics8192S(Adapter, pRfd);
7003 //UpdateRxPktTimeStamp8192S(Adapter, pRfd);
7004 UpdateReceivedRateHistogramStatistics8190(dev, stats);
7005 //UpdateRxAMPDUHistogramStatistics8192S(dev, stats); //FIXLZM
7006 UpdateRxPktTimeStamp8190(dev, stats);
7009 // Get PHY Status and RSVD parts.
7010 // <Roger_Notes> It only appears on last aggregated packet.
7012 if (desc->PHYStatus)
7014 //driver_info = (rx_drvinfo_819x_usb *)(skb->data + RX_DESC_SIZE + stats->RxBufShift);
7015 driver_info = (rx_drvinfo_819x_usb *)(skb->data + sizeof(rx_desc_819x_usb) + \
7020 printk("========================\n");
7021 printk("RX_DESC_SIZE:%d, RxBufShift:%d, RxDrvInfoSize:%d\n",
7022 RX_DESC_SIZE, stats->RxBufShift, stats->RxDrvInfoSize);
7023 for(m=0; m<32; m++){
7024 printk("%2x ",((u8*)driver_info)[m]);
7026 printk("\n========================\n");
7033 skb_pull(skb, sizeof(rx_desc_819x_usb));
7037 // Get Total offset of MPDU Frame Body
7039 if((stats->RxBufShift + stats->RxDrvInfoSize) > 0)
7043 skb_pull(skb, stats->RxBufShift + stats->RxDrvInfoSize);
7048 // Get PHY Status and RSVD parts.
7049 // <Roger_Notes> It only appears on last aggregated packet.
7051 if (desc->PHYStatus)
7053 rtl8192SU_TranslateRxSignalStuff(skb, stats, desc, driver_info);
7059 // The strarting address of wireless lan header will shift 1 or 2 or 3 or "more" bytes for the following reason :
7060 // (1) QoS control : shift 2 bytes
7061 // (2) Mesh Network : shift 1 or 3 bytes
7062 // (3) RxDriverInfo occupies the front parts of Rx Packets buffer(shift units is in 8Bytes)
7064 // It is because Lextra CPU used by 8186 or 865x series assert exception if the statrting address
7065 // of IP header is not double word alignment.
7066 // This features is supported in 818xb and 8190 only, but not 818x.
7068 // parameter: PRT_RFD, Pointer of Reeceive frame descriptor which is initialized according to
7070 // return value: unsigned int, number of total shifted bytes
7072 // Notes: 2008/06/28, created by Roger
7074 u32 GetRxPacketShiftBytes8192SU(struct ieee80211_rx_stats *Status, bool bIsRxAggrSubframe)
7076 //PRT_RFD_STATUS pRtRfdStatus = &pRfd->Status;
7078 return (sizeof(rx_desc_819x_usb) + Status->RxDrvInfoSize + Status->RxBufShift);
7081 void rtl8192SU_rx_nomal(struct sk_buff* skb)
7083 rtl8192_rx_info *info = (struct rtl8192_rx_info *)skb->cb;
7084 struct net_device *dev=info->dev;
7085 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
7086 struct ieee80211_rx_stats stats = {
7090 // .mac_time = jiffies,
7091 .freq = IEEE80211_24GHZ_BAND,
7094 struct ieee80211_hdr_1addr *ieee80211_hdr = NULL;
7095 bool unicast_packet = false;
7097 //printk("**********skb->len = %d\n", skb->len);
7098 /* 20 is for ps-poll */
7099 if((skb->len >=(20 + sizeof(rx_desc_819x_usb))) && (skb->len < RX_URB_SIZE)) {
7101 /* first packet should not contain Rx aggregation header */
7102 rtl8192SU_query_rxdesc_status(skb, &stats, false);
7105 /* hardware related info */
7106 priv->stats.rxoktotal++; //YJ,test,090108
7108 /* Process the MPDU recevied */
7109 skb_trim(skb, skb->len - 4/*sCrcLng*/);//FIXLZM
7111 rx_pkt_len = skb->len;
7112 ieee80211_hdr = (struct ieee80211_hdr_1addr *)skb->data;
7113 unicast_packet = false;
7114 if(is_broadcast_ether_addr(ieee80211_hdr->addr1)) {
7116 }else if(is_multicast_ether_addr(ieee80211_hdr->addr1)){
7119 /* unicast packet */
7120 unicast_packet = true;
7123 if(!ieee80211_rtl_rx(priv->ieee80211,skb, &stats)) {
7124 dev_kfree_skb_any(skb);
7126 // priv->stats.rxoktotal++; //YJ,test,090108
7127 if(unicast_packet) {
7128 priv->stats.rxbytesunicast += rx_pkt_len;
7132 //up is firs pkt, follow is next and next
7136 priv->stats.rxurberr++;
7137 printk("actual_length:%d\n", skb->len);
7138 dev_kfree_skb_any(skb);
7144 rtl819xusb_process_received_packet(
7145 struct net_device *dev,
7146 struct ieee80211_rx_stats *pstats
7149 // bool bfreerfd=false, bqueued=false;
7152 struct r8192_priv *priv = ieee80211_priv(dev);
7156 //PRX_TS_RECORD pts = NULL;
7158 // Get shifted bytes of Starting address of 802.11 header. 2006.09.28, by Emily
7159 //porting by amy 080508
7160 pstats->virtual_address += get_rxpacket_shiftbytes_819xusb(pstats);
7161 frame = pstats->virtual_address;
7162 frame_len = pstats->packetlength;
7163 #ifdef TODO // by amy about HCT
7164 if(!Adapter->bInHctTest)
7165 CountRxErrStatistics(Adapter, pRfd);
7168 #ifdef ENABLE_PS //by amy for adding ps function in future
7169 RT_RF_POWER_STATE rtState;
7170 // When RF is off, we should not count the packet for hw/sw synchronize
7171 // reason, ie. there may be a duration while sw switch is changed and hw
7172 // switch is being changed. 2006.12.04, by shien chang.
7173 Adapter->HalFunc.GetHwRegHandler(Adapter, HW_VAR_RF_STATE, (u8* )(&rtState));
7174 if (rtState == eRfOff)
7179 priv->stats.rxframgment++;
7183 RmMonitorSignalStrength(Adapter, pRfd);
7185 /* 2007/01/16 MH Add RX command packet handle here. */
7186 /* 2007/03/01 MH We have to release RFD and return if rx pkt is cmd pkt. */
7187 if (rtl819xusb_rx_command_packet(dev, pstats))
7199 void query_rx_cmdpkt_desc_status(struct sk_buff *skb, struct ieee80211_rx_stats *stats)
7201 // rtl8192_rx_info *info = (struct rtl8192_rx_info *)skb->cb;
7202 // struct net_device *dev=info->dev;
7203 // struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
7204 rx_desc_819x_usb *desc = (rx_desc_819x_usb *)skb->data;
7205 // rx_drvinfo_819x_usb *driver_info;
7208 //Get Rx Descriptor Information
7210 stats->virtual_address = (u8*)skb->data;
7211 stats->Length = desc->Length;
7212 stats->RxDrvInfoSize = 0;
7213 stats->RxBufShift = 0;
7214 stats->packetlength = stats->Length-scrclng;
7215 stats->fraglength = stats->packetlength;
7216 stats->fragoffset = 0;
7217 stats->ntotalfrag = 1;
7220 void rtl8192SU_rx_cmd(struct sk_buff *skb)
7222 struct rtl8192_rx_info *info = (struct rtl8192_rx_info *)skb->cb;
7223 struct net_device *dev = info->dev;
7226 struct ieee80211_rx_stats stats = {
7230 // .mac_time = jiffies,
7231 .freq = IEEE80211_24GHZ_BAND,
7235 // Check buffer length to determine if this is a valid MPDU.
7237 if( (skb->len >= sizeof(rx_desc_819x_usb)) && (skb->len <= RX_URB_SIZE) )//&&
7238 //(pHalData->SwChnlInProgress == FALSE))
7241 // Collection information in Rx descriptor.
7243 query_rx_cmdpkt_desc_status(skb,&stats);
7244 // this is to be done by amy 080508 prfd->queue_id = 1;
7247 // Process the MPDU recevied.
7249 rtl819xusb_process_received_packet(dev,&stats);
7251 dev_kfree_skb_any(skb);
7255 //RTInsertTailListWithCnt(&pAdapter->RfdIdleQueue, &pRfd->List, &pAdapter->NumIdleRfd);
7256 //RT_ASSERT(pAdapter->NumIdleRfd <= pAdapter->NumRfd, ("HalUsbInCommandComplete8192SUsb(): Adapter->NumIdleRfd(%d)\n", pAdapter->NumIdleRfd));
7257 //RT_TRACE(COMP_RECV, DBG_LOUD, ("HalUsbInCommandComplete8192SUsb(): NOT enough Resources!! BufLenUsed(%d), NumIdleRfd(%d)\n",
7258 //pContext->BufLenUsed, pAdapter->NumIdleRfd));
7262 // Reuse USB_IN_CONTEXT since we had finished processing the
7263 // buffer in USB_IN_CONTEXT.
7265 //HalUsbReturnInContext(pAdapter, pContext);
7268 // Issue another bulk IN transfer.
7270 //HalUsbInMpdu(pAdapter, PipeIndex);
7272 RT_TRACE(COMP_RECV, "<--- HalUsbInCommandComplete8192SUsb()\n");
7276 void rtl8192_irq_rx_tasklet(struct r8192_priv *priv)
7278 struct sk_buff *skb;
7279 struct rtl8192_rx_info *info;
7281 while (NULL != (skb = skb_dequeue(&priv->skb_queue))) {
7282 info = (struct rtl8192_rx_info *)skb->cb;
7283 switch (info->out_pipe) {
7284 /* Nomal packet pipe */
7286 //RT_TRACE(COMP_RECV, "normal in-pipe index(%d)\n",info->out_pipe);
7287 priv->IrpPendingCount--;
7288 priv->ops->rtl819x_rx_nomal(skb);
7291 /* Command packet pipe */
7293 RT_TRACE(COMP_RECV, "command in-pipe index(%d)\n",\
7295 priv->ops->rtl819x_rx_cmd(skb);
7298 default: /* should never get here! */
7299 RT_TRACE(COMP_ERR, "Unknown in-pipe index(%d)\n",\
7310 /****************************************************************************
7311 ---------------------------- USB_STUFF---------------------------
7312 *****************************************************************************/
7313 //LZM Merge from windows HalUsbSetQueuePipeMapping8192SUsb 090319
7314 static void HalUsbSetQueuePipeMapping8192SUsb(struct usb_interface *intf, struct net_device *dev)
7316 struct r8192_priv *priv = ieee80211_priv(dev);
7317 struct usb_host_interface *iface_desc;
7318 struct usb_endpoint_descriptor *endpoint;
7321 priv->ep_in_num = 0;
7322 priv->ep_out_num = 0;
7323 memset(priv->RtOutPipes,0,16);
7324 memset(priv->RtInPipes,0,16);
7326 iface_desc = intf->cur_altsetting;
7327 priv->ep_num = iface_desc->desc.bNumEndpoints;
7329 for (i = 0; i < priv->ep_num; ++i) {
7330 endpoint = &iface_desc->endpoint[i].desc;
7331 if (usb_endpoint_is_bulk_in(endpoint)) {
7332 priv->RtInPipes[priv->ep_in_num] = usb_endpoint_num(endpoint);
7334 //printk("in_endpoint_idx = %d\n", usb_endpoint_num(endpoint));
7335 } else if (usb_endpoint_is_bulk_out(endpoint)) {
7336 priv->RtOutPipes[priv->ep_out_num] = usb_endpoint_num(endpoint);
7337 priv->ep_out_num ++;
7338 //printk("out_endpoint_idx = %d\n", usb_endpoint_num(endpoint));
7342 memset(priv->txqueue_to_outpipemap,0,9);
7343 if (priv->ep_num == 6) {
7344 // BK, BE, VI, VO, HCCA, TXCMD, MGNT, HIGH, BEACON
7345 u8 queuetopipe[] = {3, 2, 1, 0, 4, 4, 4, 4, 4};
7347 memcpy(priv->txqueue_to_outpipemap,queuetopipe,9);
7348 } else if (priv->ep_num == 4) {
7349 // BK, BE, VI, VO, HCCA, TXCMD, MGNT, HIGH, BEACON
7350 u8 queuetopipe[] = {1, 1, 0, 0, 2, 2, 2, 2, 2};
7352 memcpy(priv->txqueue_to_outpipemap,queuetopipe,9);
7353 } else if (priv->ep_num > 9) {
7354 // BK, BE, VI, VO, HCCA, TXCMD, MGNT, HIGH, BEACON
7355 u8 queuetopipe[] = {3, 2, 1, 0, 4, 8, 7, 6, 5};
7357 memcpy(priv->txqueue_to_outpipemap,queuetopipe,9);
7358 } else {//use sigle pipe
7359 // BK, BE, VI, VO, HCCA, TXCMD, MGNT, HIGH, BEACON
7360 u8 queuetopipe[] = {0, 0, 0, 0, 0, 0, 0, 0, 0};
7361 memcpy(priv->txqueue_to_outpipemap,queuetopipe,9);
7364 printk("==>ep_num:%d, in_ep_num:%d, out_ep_num:%d\n", priv->ep_num, priv->ep_in_num, priv->ep_out_num);
7366 printk("==>RtInPipes:");
7367 for(i=0; i < priv->ep_in_num; i++)
7368 printk("%d ", priv->RtInPipes[i]);
7371 printk("==>RtOutPipes:");
7372 for(i=0; i < priv->ep_out_num; i++)
7373 printk("%d ", priv->RtOutPipes[i]);
7376 printk("==>txqueue_to_outpipemap for BK, BE, VI, VO, HCCA, TXCMD, MGNT, HIGH, BEACON:\n");
7377 for(i=0; i < 9; i++)
7378 printk("%d ", priv->txqueue_to_outpipemap[i]);
7384 static const struct net_device_ops rtl8192_netdev_ops = {
7385 .ndo_open = rtl8192_open,
7386 .ndo_stop = rtl8192_close,
7387 .ndo_get_stats = rtl8192_stats,
7388 .ndo_tx_timeout = tx_timeout,
7389 .ndo_do_ioctl = rtl8192_ioctl,
7390 .ndo_set_multicast_list = r8192_set_multicast,
7391 .ndo_set_mac_address = r8192_set_mac_adr,
7392 .ndo_validate_addr = eth_validate_addr,
7393 .ndo_change_mtu = eth_change_mtu,
7394 .ndo_start_xmit = rtl8192_ieee80211_rtl_xmit,
7397 static int __devinit rtl8192_usb_probe(struct usb_interface *intf,
7398 const struct usb_device_id *id)
7400 // unsigned long ioaddr = 0;
7401 struct net_device *dev = NULL;
7402 struct r8192_priv *priv= NULL;
7403 struct usb_device *udev = interface_to_usbdev(intf);
7405 RT_TRACE(COMP_INIT, "Oops: i'm coming\n");
7407 dev = alloc_ieee80211(sizeof(struct r8192_priv));
7409 usb_set_intfdata(intf, dev);
7410 SET_NETDEV_DEV(dev, &intf->dev);
7411 priv = ieee80211_priv(dev);
7412 priv->ieee80211 = netdev_priv(dev);
7415 HalUsbSetQueuePipeMapping8192SUsb(intf, dev);
7417 //printk("===============>NIC 8192SU\n");
7418 priv->ops = &rtl8192su_ops;
7420 dev->netdev_ops = &rtl8192_netdev_ops;
7422 //DMESG("Oops: i'm coming\n");
7423 dev->wireless_handlers = (struct iw_handler_def *) &r8192_wx_handlers_def;
7425 dev->type=ARPHRD_ETHER;
7427 dev->watchdog_timeo = HZ*3; //modified by john, 0805
7429 if (dev_alloc_name(dev, ifname) < 0){
7430 RT_TRACE(COMP_INIT, "Oops: devname already taken! Trying wlan%%d...\n");
7432 dev_alloc_name(dev, ifname);
7435 RT_TRACE(COMP_INIT, "Driver probe completed1\n");
7437 if(rtl8192_init(dev)!=0){
7438 RT_TRACE(COMP_ERR, "Initialization failed");
7442 netif_carrier_off(dev);
7443 netif_stop_queue(dev);
7445 register_netdev(dev);
7446 RT_TRACE(COMP_INIT, "dev name=======> %s\n",dev->name);
7447 rtl8192_proc_init_one(dev);
7450 RT_TRACE(COMP_INIT, "Driver probe completed\n");
7453 free_ieee80211(dev);
7455 RT_TRACE(COMP_ERR, "wlan driver load failed\n");
7459 //detach all the work and timer structure declared or inititialize in r8192U_init function.
7460 void rtl8192_cancel_deferred_work(struct r8192_priv* priv)
7462 cancel_work_sync(&priv->reset_wq);
7463 cancel_work_sync(&priv->qos_activate);
7464 cancel_delayed_work(&priv->watch_dog_wq);
7465 cancel_delayed_work(&priv->update_beacon_wq);
7466 cancel_delayed_work(&priv->ieee80211->hw_wakeup_wq);
7467 cancel_delayed_work(&priv->ieee80211->hw_sleep_wq);
7468 //cancel_work_sync(&priv->SetBWModeWorkItem);
7469 //cancel_work_sync(&priv->SwChnlWorkItem);
7472 static void __devexit rtl8192_usb_disconnect(struct usb_interface *intf)
7474 struct net_device *dev = usb_get_intfdata(intf);
7475 struct r8192_priv *priv = ieee80211_priv(dev);
7478 unregister_netdev(dev);
7480 RT_TRACE(COMP_DOWN, "=============>wlan driver to be removed\n");
7481 rtl8192_proc_remove_one(dev);
7484 if (priv->pFirmware)
7486 vfree(priv->pFirmware);
7487 priv->pFirmware = NULL;
7489 // priv->rf_close(dev);
7490 // rtl8192_SetRFPowerState(dev, eRfOff);
7491 destroy_workqueue(priv->priv_wq);
7492 //rtl8192_irq_disable(dev);
7493 //rtl8192_reset(dev);
7497 free_ieee80211(dev);
7498 RT_TRACE(COMP_DOWN, "wlan driver removed\n");
7501 /* fun with the built-in ieee80211 stack... */
7502 extern int ieee80211_debug_init(void);
7503 extern void ieee80211_debug_exit(void);
7504 extern int ieee80211_crypto_init(void);
7505 extern void ieee80211_crypto_deinit(void);
7506 extern int ieee80211_crypto_tkip_init(void);
7507 extern void ieee80211_crypto_tkip_exit(void);
7508 extern int ieee80211_crypto_ccmp_init(void);
7509 extern void ieee80211_crypto_ccmp_exit(void);
7510 extern int ieee80211_crypto_wep_init(void);
7511 extern void ieee80211_crypto_wep_exit(void);
7513 static int __init rtl8192_usb_module_init(void)
7517 #ifdef CONFIG_IEEE80211_DEBUG
7518 ret = ieee80211_debug_init();
7520 printk(KERN_ERR "ieee80211_debug_init() failed %d\n", ret);
7524 ret = ieee80211_crypto_init();
7526 printk(KERN_ERR "ieee80211_crypto_init() failed %d\n", ret);
7530 ret = ieee80211_crypto_tkip_init();
7532 printk(KERN_ERR "ieee80211_crypto_tkip_init() failed %d\n",
7537 ret = ieee80211_crypto_ccmp_init();
7539 printk(KERN_ERR "ieee80211_crypto_ccmp_init() failed %d\n",
7544 ret = ieee80211_crypto_wep_init();
7546 printk(KERN_ERR "ieee80211_crypto_wep_init() failed %d\n", ret);
7550 printk(KERN_INFO "\nLinux kernel driver for RTL8192 based WLAN cards\n");
7551 printk(KERN_INFO "Copyright (c) 2007-2008, Realsil Wlan\n");
7552 RT_TRACE(COMP_INIT, "Initializing module");
7553 RT_TRACE(COMP_INIT, "Wireless extensions version %d", WIRELESS_EXT);
7554 rtl8192_proc_module_init();
7555 return usb_register(&rtl8192_usb_driver);
7559 static void __exit rtl8192_usb_module_exit(void)
7561 usb_deregister(&rtl8192_usb_driver);
7563 RT_TRACE(COMP_DOWN, "Exiting");
7564 rtl8192_proc_module_remove();
7566 ieee80211_crypto_tkip_exit();
7567 ieee80211_crypto_ccmp_exit();
7568 ieee80211_crypto_wep_exit();
7569 ieee80211_crypto_deinit();
7570 #ifdef CONFIG_IEEE80211_DEBUG
7571 ieee80211_debug_exit();
7576 void rtl8192_try_wake_queue(struct net_device *dev, int pri)
7578 unsigned long flags;
7580 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
7582 spin_lock_irqsave(&priv->tx_lock,flags);
7583 enough_desc = check_nic_enough_desc(dev,pri);
7584 spin_unlock_irqrestore(&priv->tx_lock,flags);
7587 ieee80211_rtl_wake_queue(priv->ieee80211);
7590 void EnableHWSecurityConfig8192(struct net_device *dev)
7592 u8 SECR_value = 0x0;
7593 struct r8192_priv *priv = (struct r8192_priv *)ieee80211_priv(dev);
7594 struct ieee80211_device* ieee = priv->ieee80211;
7596 SECR_value = SCR_TxEncEnable | SCR_RxDecEnable;
7598 if (((KEY_TYPE_WEP40 == ieee->pairwise_key_type) || (KEY_TYPE_WEP104 == ieee->pairwise_key_type)) && (priv->ieee80211->auth_mode != 2))
7600 SECR_value |= SCR_RxUseDK;
7601 SECR_value |= SCR_TxUseDK;
7603 else if ((ieee->iw_mode == IW_MODE_ADHOC) && (ieee->pairwise_key_type & (KEY_TYPE_CCMP | KEY_TYPE_TKIP)))
7605 SECR_value |= SCR_RxUseDK;
7606 SECR_value |= SCR_TxUseDK;
7609 //add HWSec active enable here.
7610 //default using hwsec. when peer AP is in N mode only and pairwise_key_type is none_aes(which HT_IOT_ACT_PURE_N_MODE indicates it), use software security. when peer AP is in b,g,n mode mixed and pairwise_key_type is none_aes, use g mode hw security. WB on 2008.7.4
7612 ieee->hwsec_active = 1;
7614 if ((ieee->pHTInfo->IOTAction&HT_IOT_ACT_PURE_N_MODE) || !hwwep)//!ieee->hwsec_support) //add hwsec_support flag to totol control hw_sec on/off
7616 ieee->hwsec_active = 0;
7617 SECR_value &= ~SCR_RxDecEnable;
7620 RT_TRACE(COMP_SEC,"%s:, hwsec:%d, pairwise_key:%d, SECR_value:%x\n", __FUNCTION__, \
7621 ieee->hwsec_active, ieee->pairwise_key_type, SECR_value);
7623 write_nic_byte(dev, SECR, SECR_value);//SECR_value | SCR_UseDK );
7628 void setKey( struct net_device *dev,
7636 u32 TargetCommand = 0;
7637 u32 TargetContent = 0;
7640 if (EntryNo >= TOTAL_CAM_ENTRY)
7641 RT_TRACE(COMP_ERR, "cam entry exceeds in setKey()\n");
7643 RT_TRACE(COMP_SEC, "====>to setKey(), dev:%p, EntryNo:%d, KeyIndex:%d, KeyType:%d, MacAddr%pM\n", dev,EntryNo, KeyIndex, KeyType, MacAddr);
7646 usConfig |= BIT15 | (KeyType<<2);
7648 usConfig |= BIT15 | (KeyType<<2) | KeyIndex;
7649 // usConfig |= BIT15 | (KeyType<<2) | (DefaultKey<<5) | KeyIndex;
7652 for(i=0 ; i<CAM_CONTENT_COUNT; i++){
7653 TargetCommand = i+CAM_CONTENT_COUNT*EntryNo;
7654 TargetCommand |= BIT31|BIT16;
7656 if(i==0){//MAC|Config
7657 TargetContent = (u32)(*(MacAddr+0)) << 16|
7658 (u32)(*(MacAddr+1)) << 24|
7661 write_nic_dword(dev, WCAMI, TargetContent);
7662 write_nic_dword(dev, RWCAM, TargetCommand);
7663 // printk("setkey cam =%8x\n", read_cam(dev, i+6*EntryNo));
7666 TargetContent = (u32)(*(MacAddr+2)) |
7667 (u32)(*(MacAddr+3)) << 8|
7668 (u32)(*(MacAddr+4)) << 16|
7669 (u32)(*(MacAddr+5)) << 24;
7670 write_nic_dword(dev, WCAMI, TargetContent);
7671 write_nic_dword(dev, RWCAM, TargetCommand);
7675 if(KeyContent !=NULL){
7676 write_nic_dword(dev, WCAMI, (u32)(*(KeyContent+i-2)) );
7677 write_nic_dword(dev, RWCAM, TargetCommand);
7684 /***************************************************************************
7685 ------------------- module init / exit stubs ----------------
7686 ****************************************************************************/
7687 module_init(rtl8192_usb_module_init);
7688 module_exit(rtl8192_usb_module_exit);