Commit 6dc1585f authored by Bartlomiej Zolnierkiewicz's avatar Bartlomiej Zolnierkiewicz Committed by Greg Kroah-Hartman

Staging: rtl8187se: remove unused radio frontends

Signed-off-by: default avatarBartlomiej Zolnierkiewicz <bzolnier@gmail.com>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@suse.de>
parent 5521a513
......@@ -20,13 +20,9 @@ EXTRA_CFLAGS += -DENABLE_LPS
rtl8187se-objs := \
r8180_core.o \
r8180_sa2400.o \
r8180_93cx6.o \
r8180_wx.o \
r8180_max2820.o \
r8180_gct.o \
r8180_rtl8225.o \
r8180_rtl8255.o \
r8180_rtl8225z2.o \
r8185b_init.o \
r8180_dm.o \
......
......@@ -54,11 +54,7 @@
//#include <asm/uaccess.h>
#include "r8180_hw.h"
#include "r8180.h"
#include "r8180_sa2400.h" /* PHILIPS Radio frontend */
#include "r8180_max2820.h" /* MAXIM Radio frontend */
#include "r8180_gct.h" /* GCT Radio frontend */
#include "r8180_rtl8225.h" /* RTL8225 Radio frontend */
#include "r8180_rtl8255.h" /* RTL8255 Radio frontend */
#include "r8180_93cx6.h" /* Card EEPROM */
#include "r8180_wx.h"
#include "r8180_dm.h"
......
/*
This files contains GCT radio frontend programming routines.
This is part of rtl8180 OpenSource driver
Copyright (C) Andrea Merello 2004-2005 <andreamrl@tiscali.it>
Released under the terms of GPL (General Public Licence)
Parts of this driver are based on the GPL part of the
official realtek driver
Parts of this driver are based on the rtl8180 driver skeleton
from Patric Schenke & Andres Salomon
Parts of this driver are based on the Intel Pro Wireless 2100 GPL driver.
Code from Rtw8180 NetBSD driver by David Young has been really useful to
understand some things and gets some ideas
Code from rtl8181 project has been useful to me to understand some things.
Some code from 'Deuce' work
We want to tanks the Authors of such projects and the Ndiswrapper
project Authors.
*/
#include "r8180.h"
#include "r8180_hw.h"
#include "r8180_gct.h"
//#define DEBUG_GCT
/* the following experiment are just experiments.
* this means if you enable them you can have every kind
* of result, included damage the RF chip, so don't
* touch them if you don't know what you are doing.
* In any case, if you do it, do at your own risk
*/
//#define GCT_EXPERIMENT1 //improve RX sensivity
//#define GCT_EXPERIMENT2
//#define GCT_EXPERIMENT3 //iprove a bit RX signal quality ?
//#define GCT_EXPERIMENT4 //maybe solve some brokeness with experiment1 ?
//#define GCT_EXPERIMENT5
//#define GCT_EXPERIMENT6 //not good
u32 gct_chan[] = {
0x0, //dummy channel 0
0x0, //1
0x1, //2
0x2, //3
0x3, //4
0x4, //5
0x5, //6
0x6, //7
0x7, //8
0x8, //9
0x9, //10
0xa, //11
0xb, //12
0xc, //13
0xd, //14
};
int gct_encode[16] = {
0, 8, 4, 0xC,
2, 0xA, 6, 0xE,
1, 9, 5, 0xD,
3, 0xB, 7, 0xF
};
void gct_rf_stabilize(struct net_device *dev)
{
force_pci_posting(dev);
mdelay(3); //for now use a great value.. we may optimize in future
}
void write_gct(struct net_device *dev, u8 adr, u32 data)
{
// struct r8180_priv *priv = ieee80211_priv(dev);
u32 phy_config;
phy_config = gct_encode[(data & 0xf00) >> 8];
phy_config |= gct_encode[(data & 0xf0) >> 4 ] << 4;
phy_config |= gct_encode[(data & 0xf) ] << 8;
phy_config |= gct_encode[(adr >> 1) & 0xf ] << 12;
phy_config |= (adr & 1 ) << 16;
phy_config |= gct_encode[(data & 0xf000)>>12] << 24;
phy_config |= 0x90000000; // MAC will bang bits to the chip
write_nic_dword(dev,PHY_CONFIG,phy_config);
#ifdef DEBUG_GCT
DMESG("Writing GCT: %x (adr %x)",phy_config,adr);
#endif
gct_rf_stabilize(dev);
}
void gct_write_phy_antenna(struct net_device *dev,short ch)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u8 ant;
ant = GCT_ANTENNA;
if(priv->antb) /*default antenna is antenna B */
ant |= BB_ANTENNA_B;
if(ch == 14)
ant |= BB_ANTATTEN_CHAN14;
write_phy(dev,0x10,ant);
//DMESG("BB antenna %x ",ant);
}
void gct_rf_set_chan(struct net_device *dev, short ch)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u32 txpw = 0xff & priv->chtxpwr[ch];
u32 chan = gct_chan[ch];
//write_phy(dev,3,txpw);
#ifdef DEBUG_GCT
DMESG("Gct set channel");
#endif
/* set TX power */
write_gct(dev,0x15,0);
write_gct(dev,6, txpw);
write_gct(dev,0x15, 0x10);
write_gct(dev,0x15,0);
/*set frequency*/
write_gct(dev,7, 0);
write_gct(dev,0xB, chan);
write_gct(dev,7, 0x1000);
#ifdef DEBUG_GCT
DMESG("Gct set channel > write phy antenna");
#endif
gct_write_phy_antenna(dev,ch);
}
void gct_rf_close(struct net_device *dev)
{
u32 anaparam;
anaparam = read_nic_dword(dev,ANAPARAM);
anaparam &= 0x000fffff;
anaparam |= 0x3f900000;
rtl8180_set_anaparam(dev, anaparam);
write_gct(dev, 0x7, 0);
write_gct(dev, 0x1f, 0x45);
write_gct(dev, 0x1f, 0x5);
write_gct(dev, 0x0, 0x8e4);
}
void gct_rf_init(struct net_device *dev)
{
struct r8180_priv *priv = ieee80211_priv(dev);
//u32 anaparam;
write_nic_byte(dev,PHY_DELAY,0x6); //this is general
write_nic_byte(dev,CARRIER_SENSE_COUNTER,0x4c); //this is general
//DMESG("%x", read_nic_dword(dev,ANAPARAM));
/* we should set anaparm here*/
//rtl8180_set_anaparam(dev,anaparam);
write_gct(dev,0x1f,0);
write_gct(dev,0x1f,0);
write_gct(dev,0x1f,0x40);
write_gct(dev,0x1f,0x60);
write_gct(dev,0x1f,0x61);
write_gct(dev,0x1f,0x61);
write_gct(dev,0x0,0xae4);
write_gct(dev,0x1f,0x1);
write_gct(dev,0x1f,0x41);
write_gct(dev,0x1f,0x61);
write_gct(dev,0x1,0x1a23);
write_gct(dev,0x2,0x4971);
write_gct(dev,0x3,0x41de);
write_gct(dev,0x4,0x2d80);
#ifdef GCT_EXPERIMENT1
//write_gct(dev,0x5,0x6810); // from zydas driver. sens+ but quite slow
//write_gct(dev,0x5,0x681f); //good+ (somewhat stable, better sens, performance decent)
write_gct(dev,0x5,0x685f); //good performances, not sure sens is really so beeter
//write_gct(dev,0x5,0x687f); //good performances, maybe sens is not improved
//write_gct(dev,0x5,0x689f); //like above
//write_gct(dev,0x5,0x685e); //bad
//write_gct(dev,0x5,0x68ff); //good+ (somewhat stable, better sens(?), performance decent)
//write_gct(dev,0x5,0x68f0); //bad
//write_gct(dev,0x5,0x6cff); //sens+ but not so good
//write_gct(dev,0x5,0x6dff); //sens+,apparentely very good but broken
//write_gct(dev,0x5,0x65ff); //sens+,good
//write_gct(dev,0x5,0x78ff); //sens + but almost broken
//write_gct(dev,0x5,0x7810); //- //snes + but broken
//write_gct(dev,0x5,0x781f); //-- //sens +
//write_gct(dev,0x5,0x78f0); //low sens
#else
write_gct(dev,0x5,0x61ff); //best performance but weak sensitivity
#endif
#ifdef GCT_EXPERIMENT2
write_gct(dev,0x6,0xe);
#else
write_gct(dev,0x6,0x0);
#endif
write_gct(dev,0x7,0x0);
write_gct(dev,0x8,0x7533);
write_gct(dev,0x9,0xc401);
write_gct(dev,0xa,0x0);
write_gct(dev,0xc,0x1c7);
write_gct(dev,0xd,0x29d3);
write_gct(dev,0xe,0x2e8);
write_gct(dev,0x10,0x192);
#ifdef GCT_EXPERIMENT3
write_gct(dev,0x11,0x246);
#else
write_gct(dev,0x11,0x248);
#endif
write_gct(dev,0x12,0x0);
write_gct(dev,0x13,0x20c4);
#ifdef GCT_EXPERIMENT4
write_gct(dev,0x14,0xf488);
#else
write_gct(dev,0x14,0xf4fc);
#endif
#ifdef GCT_EXPERIMENT5
write_gct(dev,0x15,0xb152);
#else
write_gct(dev,0x15,0x0);
#endif
#ifdef GCT_EXPERIMENT6
write_gct(dev,0x1e,0x1);
#endif
write_gct(dev,0x16,0x1500);
write_gct(dev,0x7,0x1000);
/*write_gct(dev,0x15,0x0);
write_gct(dev,0x6,0x15);
write_gct(dev,0x15,0x8);
write_gct(dev,0x15,0x0);
*/
write_phy(dev,0,0xa8);
/* write_gct(dev,0x15,0x0);
write_gct(dev,0x6,0x12);
write_gct(dev,0x15,0x8);
write_gct(dev,0x15,0x0);
*/
write_phy(dev,3,0x0);
write_phy(dev,4,0xc0); /* lna det*/
write_phy(dev,5,0x90);
write_phy(dev,6,0x1e);
write_phy(dev,7,0x64);
#ifdef DEBUG_GCT
DMESG("Gct init> write phy antenna");
#endif
gct_write_phy_antenna(dev,priv->chan);
write_phy(dev,0x11,0x88);
if(!priv->diversity)
write_phy(dev,0x12,0xc0);
else
write_phy(dev,0x12,0x40);
write_phy(dev,0x13,0x90 | priv->cs_treshold );
write_phy(dev,0x19,0x0);
write_phy(dev,0x1a,0xa0);
write_phy(dev,0x1b,0x44);
#ifdef DEBUG_GCT
DMESG("Gct init > set channel2");
#endif
gct_rf_set_chan(dev,priv->chan);
}
/*
This is part of rtl8180 OpenSource driver - v 0.20
Copyright (C) Andrea Merello 2004 <andreamrl@tiscali.it>
Released under the terms of GPL (General Public Licence)
Parts of this driver are based on the GPL part of the official realtek driver
Parts of this driver are based on the rtl8180 driver skeleton from Patric Schenke & Andres Salomon
Parts of this driver are based on the Intel Pro Wireless 2100 GPL driver
We want to tanks the Authors of such projects and the Ndiswrapper project Authors.
*/
#define GCT_ANTENNA 0xA3
// we use the untouched eeprom value- cross your finger ;-)
#define GCT_ANAPARAM_PWR1_ON ??
#define GCT_ANAPARAM_PWR0_ON ??
void gct_rf_init(struct net_device *dev);
void gct_rf_set_chan(struct net_device *dev,short ch);
void gct_rf_close(struct net_device *dev);
/*
This files contains MAXIM MAX2820 radio frontend programming routines.
This is part of rtl8180 OpenSource driver
Copyright (C) Andrea Merello 2004-2005 <andreamrl@tiscali.it>
Released under the terms of GPL (General Public Licence)
Parts of this driver are based on the GPL part of the
official realtek driver
Parts of this driver are based on the rtl8180 driver skeleton
from Patric Schenke & Andres Salomon
Parts of this driver are based on the Intel Pro Wireless 2100 GPL driver.
NetBSD rtl8180 driver from Dave Young has been really useful to
understand how to program the MAXIM radio. Thanks a lot!!!
'The Deuce' tested this and fixed some bugs.
Code from rtl8181 project has been useful to me to understand some things.
We want to tanks the Authors of such projects and the Ndiswrapper
project Authors.
*/
#include "r8180.h"
#include "r8180_hw.h"
#include "r8180_max2820.h"
//#define DEBUG_MAXIM
u32 maxim_chan[] = {
0, //dummy channel 0
12, //1
17, //2
22, //3
27, //4
32, //5
37, //6
42, //7
47, //8
52, //9
57, //10
62, //11
67, //12
72, //13
84, //14
};
void write_maxim(struct net_device *dev,u8 adr, u32 data) {
u32 temp;
temp = 0x90 + (data & 0xf);
temp <<= 16;
temp += adr;
temp <<= 8;
temp += (data >> 4) & 0xff;
#ifdef DEBUG_MAXIM
DMESG("write_maxim: %08x", temp);
#endif
write_nic_dword(dev, PHY_CONFIG, temp);
force_pci_posting(dev);
mdelay(1);
}
void maxim_write_phy_antenna(struct net_device *dev,short ch)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u8 ant;
ant = MAXIM_ANTENNA;
if(priv->antb) /*default antenna is antenna B */
ant |= BB_ANTENNA_B;
if(ch == 14)
ant |= BB_ANTATTEN_CHAN14;
write_phy(dev,0x10,ant);
//DMESG("BB antenna %x ",ant);
}
void maxim_rf_set_chan(struct net_device *dev, short ch)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u32 txpw = 0xff & priv->chtxpwr[ch];
u32 chan = maxim_chan[ch];
/*While philips SA2400 drive the PA bias
*seems that for MAXIM we delegate this
*to the BB
*/
//write_maxim(dev,5,txpw);
write_phy(dev,3,txpw);
maxim_write_phy_antenna(dev,ch);
write_maxim(dev,3,chan);
}
void maxim_rf_close(struct net_device *dev)
{
write_phy(dev, 3, 0x8);
write_maxim(dev, 1, 0);
}
void maxim_rf_init(struct net_device *dev)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u32 anaparam;
write_nic_byte(dev,PHY_DELAY,0x6); //this is general
write_nic_byte(dev,CARRIER_SENSE_COUNTER,0x4c); //this is general
/*these are maxim specific*/
anaparam = read_nic_dword(dev,ANAPARAM);
anaparam = anaparam &~ (ANAPARAM_TXDACOFF_SHIFT);
anaparam = anaparam &~ANAPARAM_PWR1_MASK;
anaparam = anaparam &~ANAPARAM_PWR0_MASK;
anaparam |= (MAXIM_ANAPARAM_PWR1_ON<<ANAPARAM_PWR1_SHIFT);
anaparam |= (MAXIM_ANAPARAM_PWR0_ON<<ANAPARAM_PWR0_SHIFT);
//rtl8180_set_anaparam(dev,anaparam);
/* MAXIM from netbsd driver */
write_maxim(dev,0, 7); /* test mode as indicated in datasheet*/
write_maxim(dev,1, 0x1e); /* enable register*/
write_maxim(dev,2, 1); /* synt register */
maxim_rf_set_chan(dev,priv->chan);
write_maxim(dev,4, 0x313); /* rx register*/
/* PA is driven directly by the BB, we keep the MAXIM bias
* at the highest value in the boubt tha pleacing it to lower
* values may introduce some further attenuation somewhere..
*/
write_maxim(dev,5, 0xf);
/*baseband configuration*/
write_phy(dev,0,0x88); //sys1
write_phy(dev,3,0x8); //txagc
write_phy(dev,4,0xf8); // lnadet
write_phy(dev,5,0x90); // ifagcinit
write_phy(dev,6,0x1a); // ifagclimit
write_phy(dev,7,0x64); // ifagcdet
/*Should be done something more here??*/
maxim_write_phy_antenna(dev,priv->chan);
write_phy(dev,0x11,0x88); //trl
if(priv->diversity)
write_phy(dev,0x12,0xc7);
else
write_phy(dev,0x12,0x47);
write_phy(dev,0x13,0x9b);
write_phy(dev,0x19,0x0); //CHESTLIM
write_phy(dev,0x1a,0x9f); //CHSQLIM
maxim_rf_set_chan(dev,priv->chan);
}
/*
This is part of rtl8180 OpenSource driver
Copyright (C) Andrea Merello 2004-2005 <andreamrl@tiscali.it>
Released under the terms of GPL (General Public Licence)
Parts of this driver are based on the GPL part of the official realtek driver
Parts of this driver are based on the rtl8180 driver skeleton from Patric Schenke & Andres Salomon
Parts of this driver are based on the Intel Pro Wireless 2100 GPL driver
We want to tanks the Authors of such projects and the Ndiswrapper project Authors.
*/
#define MAXIM_ANTENNA 0xb3
#define MAXIM_ANAPARAM_PWR1_ON 0x8
#define MAXIM_ANAPARAM_PWR0_ON 0x0
void maxim_rf_init(struct net_device *dev);
void maxim_rf_set_chan(struct net_device *dev,short ch);
void maxim_rf_close(struct net_device *dev);
This diff is collapsed.
/*
This is part of the rtl8180-sa2400 driver
released under the GPL (See file COPYING for details).
Copyright (c) 2005 Andrea Merello <andreamrl@tiscali.it>
This files contains programming code for the rtl8255
radio frontend.
*Many* thanks to Realtek Corp. for their great support!
*/
#define RTL8255_ANAPARAM_ON 0xa0000b59
#define RTL8255_ANAPARAM2_ON 0x840cf311
void rtl8255_rf_init(struct net_device *dev);
void rtl8255_rf_set_chan(struct net_device *dev,short ch);
void rtl8255_rf_close(struct net_device *dev);
/*
This files contains PHILIPS SA2400 radio frontend programming routines.
This is part of rtl8180 OpenSource driver
Copyright (C) Andrea Merello 2004-2005 <andreamrl@tiscali.it>
Released under the terms of GPL (General Public Licence)
Parts of this driver are based on the GPL part of the
official realtek driver
Parts of this driver are based on the rtl8180 driver skeleton
from Patric Schenke & Andres Salomon
Parts of this driver are based on the Intel Pro Wireless 2100 GPL driver.
Code at http://che.ojctech.com/~dyoung/rtw/ has been useful to me to
understand some things.
Code from rtl8181 project has been useful to me to understand some things.
We want to tanks the Authors of such projects and the Ndiswrapper
project Authors.
*/
#include "r8180.h"
#include "r8180_hw.h"
#include "r8180_sa2400.h"
//#define DEBUG_SA2400
u32 sa2400_chan[] = {
0x0, //dummy channel 0
0x00096c, //1
0x080970, //2
0x100974, //3
0x180978, //4
0x000980, //5
0x080984, //6
0x100988, //7
0x18098c, //8
0x000994, //9
0x080998, //10
0x10099c, //11
0x1809a0, //12
0x0009a8, //13
0x0009b4, //14
};
void rf_stabilize(struct net_device *dev)
{
force_pci_posting(dev);
mdelay(3); //for now use a great value.. we may optimize in future
}
void write_sa2400(struct net_device *dev,u8 adr, u32 data)
{
// struct r8180_priv *priv = ieee80211_priv(dev);
u32 phy_config;
// philips sa2400 expects 24 bits data
/*if(adr == 4 && priv->digphy){
phy_config=0x60000000;
}else{
phy_config=0xb0000000;
}*/
phy_config = 0xb0000000; // MAC will bang bits to the sa2400
phy_config |= (((u32)(adr&0xf))<< 24);
phy_config |= (data & 0xffffff);
write_nic_dword(dev,PHY_CONFIG,phy_config);
#ifdef DEBUG_SA2400
DMESG("Writing sa2400: %x (adr %x)",phy_config,adr);
#endif
rf_stabilize(dev);
}
void sa2400_write_phy_antenna(struct net_device *dev,short ch)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u8 ant;
ant = SA2400_ANTENNA;
if(priv->antb) /*default antenna is antenna B */
ant |= BB_ANTENNA_B;
if(ch == 14)
ant |= BB_ANTATTEN_CHAN14;
write_phy(dev,0x10,ant);
//DMESG("BB antenna %x ",ant);
}
/* from the rtl8181 embedded driver */
short sa2400_rf_set_sens(struct net_device *dev, short sens)
{
u8 finetune = 0;
if ((sens > 85) || (sens < 54)) return -1;
write_sa2400(dev,5,0x1dfb | (sens-54) << 15 |(finetune<<20)); // AGC 0xc9dfb
return 0;
}
void sa2400_rf_set_chan(struct net_device *dev, short ch)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u32 txpw = 0xff & priv->chtxpwr[ch];
u32 chan = sa2400_chan[ch];
write_sa2400(dev,7,txpw);
//write_phy(dev,0x10,0xd1);
sa2400_write_phy_antenna(dev,ch);
write_sa2400(dev,0,chan);
write_sa2400(dev,1,0xbb50);
write_sa2400(dev,2,0x80);
write_sa2400(dev,3,0);
}
void sa2400_rf_close(struct net_device *dev)
{
write_sa2400(dev, 4, 0);
}
void sa2400_rf_init(struct net_device *dev)
{
struct r8180_priv *priv = ieee80211_priv(dev);
u32 anaparam;
u8 firdac;
write_nic_byte(dev,PHY_DELAY,0x6); //this is general
write_nic_byte(dev,CARRIER_SENSE_COUNTER,0x4c); //this is general
/*these are philips sa2400 specific*/
anaparam = read_nic_dword(dev,ANAPARAM);
anaparam = anaparam &~ (1<<ANAPARAM_TXDACOFF_SHIFT);
anaparam = anaparam &~ANAPARAM_PWR1_MASK;
anaparam = anaparam &~ANAPARAM_PWR0_MASK;
if(priv->digphy){
anaparam |= (SA2400_DIG_ANAPARAM_PWR1_ON<<ANAPARAM_PWR1_SHIFT);
anaparam |= (SA2400_ANAPARAM_PWR0_ON<<ANAPARAM_PWR0_SHIFT);
}else{
anaparam |= (SA2400_ANA_ANAPARAM_PWR1_ON<<ANAPARAM_PWR1_SHIFT);
}
rtl8180_set_anaparam(dev,anaparam);
firdac = (priv->digphy) ? (1<<SA2400_REG4_FIRDAC_SHIFT) : 0;
write_sa2400(dev,0,sa2400_chan[priv->chan]);
write_sa2400(dev,1,0xbb50);
write_sa2400(dev,2,0x80);
write_sa2400(dev,3,0);
write_sa2400(dev,4,0x19340 | firdac);
write_sa2400(dev,5,0xc9dfb); // AGC
write_sa2400(dev,4,0x19348 | firdac); //calibrates VCO
if(priv->digphy)
write_sa2400(dev,4,0x1938c); /*???*/
write_sa2400(dev,4,0x19340 | firdac);
write_sa2400(dev,0,sa2400_chan[priv->chan]);
write_sa2400(dev,1,0xbb50);
write_sa2400(dev,2,0x80);
write_sa2400(dev,3,0);
write_sa2400(dev,4,0x19344 | firdac); //calibrates filter
/* new from rtl8180 embedded driver (rtl8181 project) */
write_sa2400(dev,6,0x13ff | (1<<23)); // MANRX
write_sa2400(dev,8,0); //VCO
if(!priv->digphy)
{
rtl8180_set_anaparam(dev, anaparam | \
(1<<ANAPARAM_TXDACOFF_SHIFT));
rtl8180_conttx_enable(dev);
write_sa2400(dev, 4, 0x19341); // calibrates DC
/* a 5us sleep is required here,
we rely on the 3ms delay introduced in write_sa2400
*/
write_sa2400(dev, 4, 0x19345);
/* a 20us sleep is required here,
we rely on the 3ms delay introduced in write_sa2400
*/
rtl8180_conttx_disable(dev);
rtl8180_set_anaparam(dev, anaparam);
}
/* end new */
write_sa2400(dev,4,0x19341 | firdac ); //RTX MODE
// Set tx power level !?
/*baseband configuration*/
write_phy(dev,0,0x98);
write_phy(dev,3,0x38);
write_phy(dev,4,0xe0);
write_phy(dev,5,0x90);
write_phy(dev,6,0x1a);
write_phy(dev,7,0x64);
/*Should be done something more here??*/
sa2400_write_phy_antenna(dev,priv->chan);
write_phy(dev,0x11,0x80);
if(priv->diversity)
write_phy(dev,0x12,0xc7);
else
write_phy(dev,0x12,0x47);
write_phy(dev,0x13,0x90 | priv->cs_treshold );
write_phy(dev,0x19,0x0);
write_phy(dev,0x1a,0xa0);
sa2400_rf_set_chan(dev,priv->chan);
}
/*
This is part of rtl8180 OpenSource driver - v 0.7
Copyright (C) Andrea Merello 2004 <andreamrl@tiscali.it>
Released under the terms of GPL (General Public Licence)
Parts of this driver are based on the GPL part of the official realtek driver
Parts of this driver are based on the rtl8180 driver skeleton from Patric Schenke & Andres Salomon
Parts of this driver are based on the Intel Pro Wireless 2100 GPL driver
We want to tanks the Authors of such projects and the Ndiswrapper project Authors.
*/
#define SA2400_ANTENNA 0x91
#define SA2400_DIG_ANAPARAM_PWR1_ON 0x8
#define SA2400_ANA_ANAPARAM_PWR1_ON 0x28
#define SA2400_ANAPARAM_PWR0_ON 0x3
#define SA2400_RF_MAX_SENS 85
#define SA2400_RF_DEF_SENS 80
#define SA2400_REG4_FIRDAC_SHIFT 7
void sa2400_rf_init(struct net_device *dev);
void sa2400_rf_set_chan(struct net_device *dev,short ch);
short sa2400_rf_set_sens(struct net_device *dev,short sens);
void sa2400_rf_close(struct net_device *dev);
......@@ -20,7 +20,6 @@
#include "r8180.h"
#include "r8180_hw.h"
#include "r8180_sa2400.h"
#include "ieee80211/dot11d.h"
......
......@@ -22,11 +22,7 @@ Notes:
#include <linux/spinlock.h>
#include "r8180_hw.h"
#include "r8180.h"
#include "r8180_sa2400.h" /* PHILIPS Radio frontend */
#include "r8180_max2820.h" /* MAXIM Radio frontend */
#include "r8180_gct.h" /* GCT Radio frontend */
#include "r8180_rtl8225.h" /* RTL8225 Radio frontend */
#include "r8180_rtl8255.h" /* RTL8255 Radio frontend */
#include "r8180_93cx6.h" /* Card EEPROM */
#include "r8180_wx.h"
......
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