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|
/* $OpenBSD: rtw.c,v 1.37 2005/09/14 23:20:17 jsg Exp $ */
/* $NetBSD: rtw.c,v 1.29 2004/12/27 19:49:16 dyoung Exp $ */
/*-
* Copyright (c) 2004, 2005 David Young. All rights reserved.
*
* Programmed for NetBSD by David Young.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of David Young may not be used to endorse or promote
* products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY David Young ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL David
* Young BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
* OF SUCH DAMAGE.
*/
/*
* Device driver for the Realtek RTL8180 802.11 MAC/BBP.
*/
#include <sys/cdefs.h>
#include "bpfilter.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/mbuf.h>
#include <sys/malloc.h>
#include <sys/kernel.h>
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <sys/types.h>
#include <machine/endian.h>
#include <machine/bus.h>
#include <machine/intr.h> /* splnet */
#include <uvm/uvm_extern.h>
#include <net/if.h>
#include <net/if_media.h>
#if NBPFILTER > 0
#include <net/bpf.h>
#endif
#ifdef INET
#include <netinet/in.h>
#include <netinet/if_ether.h>
#endif
#include <net80211/ieee80211_var.h>
#include <net80211/ieee80211_radiotap.h>
#include <dev/ic/rtwreg.h>
#include <dev/ic/rtwvar.h>
#include <dev/ic/max2820reg.h>
#include <dev/ic/sa2400reg.h>
#include <dev/ic/si4136reg.h>
#include <dev/ic/rtl8225reg.h>
#include <dev/ic/smc93cx6var.h>
int rtw_rfprog_fallback = 0;
int rtw_host_rfio = 0;
int rtw_dwelltime = 200; /* milliseconds per channel */
int rtw_macbangbits_timeout = 100;
#ifdef RTW_DEBUG
int rtw_debug = 0;
int rtw_rxbufs_limit = RTW_RXQLEN;
#endif /* RTW_DEBUG */
void rtw_start(struct ifnet *);
void rtw_txdesc_blk_init_all(struct rtw_txdesc_blk *);
void rtw_txsoft_blk_init_all(struct rtw_txsoft_blk *);
void rtw_txdescs_sync(struct rtw_txdesc_blk *, u_int, u_int, int);
void rtw_rxbufs_release(bus_dma_tag_t, struct rtw_rxsoft *);
void rtw_rxdesc_init(struct rtw_rxdesc_blk *, struct rtw_rxsoft *, int, int);
void rtw_io_enable(struct rtw_regs *, u_int8_t, int);
void rtw_intr_rx(struct rtw_softc *, u_int16_t);
void rtw_intr_beacon(struct rtw_softc *, u_int16_t);
void rtw_intr_atim(struct rtw_softc *);
void rtw_transmit_config(struct rtw_softc *);
void rtw_pktfilt_load(struct rtw_softc *);
void rtw_start(struct ifnet *);
void rtw_watchdog(struct ifnet *);
void rtw_next_scan(void *);
void rtw_recv_mgmt(struct ieee80211com *, struct mbuf *,
struct ieee80211_node *, int, int, u_int32_t);
struct ieee80211_node *rtw_node_alloc(struct ieee80211com *);
void rtw_node_free(struct ieee80211com *, struct ieee80211_node *);
void rtw_media_status(struct ifnet *, struct ifmediareq *);
void rtw_txsoft_blk_cleanup_all(struct rtw_softc *);
void rtw_txdesc_blk_setup(struct rtw_txdesc_blk *, struct rtw_txdesc *,
u_int, bus_addr_t, bus_addr_t);
void rtw_txdesc_blk_setup_all(struct rtw_softc *);
void rtw_intr_tx(struct rtw_softc *, u_int16_t);
void rtw_intr_ioerror(struct rtw_softc *, u_int16_t);
void rtw_intr_timeout(struct rtw_softc *);
void rtw_stop(struct ifnet *, int);
void rtw_maxim_pwrstate(struct rtw_regs *, enum rtw_pwrstate, int, int);
void rtw_philips_pwrstate(struct rtw_regs *, enum rtw_pwrstate, int, int);
void rtw_rtl_pwrstate(struct rtw_regs *, enum rtw_pwrstate, int, int);
void rtw_pwrstate0(struct rtw_softc *, enum rtw_pwrstate, int, int);
void rtw_join_bss(struct rtw_softc *, u_int8_t *, u_int16_t);
void rtw_set_access1(struct rtw_regs *, enum rtw_access);
int rtw_srom_parse(struct rtw_softc *);
int rtw_srom_read(struct rtw_regs *, u_int32_t, struct rtw_srom *,
const char *);
void rtw_set_rfprog(struct rtw_regs *, int, const char *);
u_int8_t rtw_chan2txpower(struct rtw_srom *, struct ieee80211com *,
struct ieee80211_channel *);
int rtw_txsoft_blk_init(struct rtw_txsoft_blk *);
int rtw_rxsoft_init_all(bus_dma_tag_t, struct rtw_rxsoft *,
int *, const char *);
void rtw_txsoft_release(bus_dma_tag_t, struct ieee80211com *,
struct rtw_txsoft *);
void rtw_txsofts_release(bus_dma_tag_t, struct ieee80211com *,
struct rtw_txsoft_blk *);
void rtw_hwring_setup(struct rtw_softc *);
int rtw_swring_setup(struct rtw_softc *);
void rtw_txdesc_blk_reset(struct rtw_txdesc_blk *);
void rtw_txdescs_reset(struct rtw_softc *);
void rtw_rxdescs_reset(struct rtw_softc *);
void rtw_rfmd_pwrstate(struct rtw_regs *, enum rtw_pwrstate, int, int);
int rtw_pwrstate(struct rtw_softc *, enum rtw_pwrstate);
int rtw_tune(struct rtw_softc *);
void rtw_set_nettype(struct rtw_softc *, enum ieee80211_opmode);
int rtw_init(struct ifnet *);
int rtw_ioctl(struct ifnet *, u_long, caddr_t);
int rtw_seg_too_short(bus_dmamap_t);
struct mbuf *rtw_dmamap_load_txbuf(bus_dma_tag_t, bus_dmamap_t, struct mbuf *,
u_int, short *, const char *);
int rtw_newstate(struct ieee80211com *, enum ieee80211_state, int);
int rtw_media_change(struct ifnet *);
int rtw_txsoft_blk_setup_all(struct rtw_softc *);
int rtw_rf_attach(struct rtw_softc *, int);
u_int8_t rtw_check_phydelay(struct rtw_regs *, u_int32_t);
int rtw_chip_reset1(struct rtw_regs *, const char *);
int rtw_chip_reset(struct rtw_regs *, const char *);
int rtw_recall_eeprom(struct rtw_regs *, const char *);
int rtw_reset(struct rtw_softc *);
int rtw_txdesc_dmamaps_create(bus_dma_tag_t, struct rtw_txsoft *, u_int);
int rtw_rxdesc_dmamaps_create(bus_dma_tag_t, struct rtw_rxsoft *, u_int);
void rtw_rxdesc_dmamaps_destroy(bus_dma_tag_t, struct rtw_rxsoft *, u_int);
void rtw_txdesc_dmamaps_destroy(bus_dma_tag_t, struct rtw_txsoft *, u_int);
void rtw_init_channels(enum rtw_locale, struct ieee80211_channel (*)[],
const char*);
void rtw_identify_country(struct rtw_regs *, enum rtw_locale *, const char *);
int rtw_identify_sta(struct rtw_regs *, u_int8_t (*)[], const char *);
void rtw_rxdescs_sync(struct rtw_rxdesc_blk *, int, int, int);
int rtw_rxsoft_alloc(bus_dma_tag_t, struct rtw_rxsoft *);
void rtw_collect_txpkt(struct rtw_softc *, struct rtw_txdesc_blk *,
struct rtw_txsoft *, int);
void rtw_collect_txring(struct rtw_softc *, struct rtw_txsoft_blk *,
struct rtw_txdesc_blk *);
void rtw_suspend_ticks(struct rtw_softc *);
void rtw_resume_ticks(struct rtw_softc *);
void rtw_enable_interrupts(struct rtw_softc *);
int rtw_dequeue(struct ifnet *, struct rtw_txsoft_blk **,
struct rtw_txdesc_blk **, struct mbuf **,
struct ieee80211_node **);
void rtw_establish_hooks(struct rtw_hooks *, const char *, void *);
void rtw_disestablish_hooks(struct rtw_hooks *, const char *, void *);
int rtw_txsoft_blk_setup(struct rtw_txsoft_blk *, u_int);
void rtw_rxdesc_init_all(struct rtw_rxdesc_blk *, struct rtw_rxsoft *,
int);
int rtw_txring_choose(struct rtw_softc *, struct rtw_txsoft_blk **,
struct rtw_txdesc_blk **, int);
struct mbuf *rtw_80211_dequeue(struct rtw_softc *, struct ifqueue *, int,
struct rtw_txsoft_blk **, struct rtw_txdesc_blk **,
struct ieee80211_node **, short *);
uint64_t rtw_tsf_extend(struct rtw_regs *, u_int32_t);
void rtw_ibss_merge(struct rtw_softc *, struct ieee80211_node *,
u_int32_t);
void rtw_led_attach(struct rtw_led_state *, void *);
void rtw_led_init(struct rtw_regs *);
void rtw_led_slowblink(void *);
void rtw_led_fastblink(void *);
void rtw_led_set(struct rtw_led_state *, struct rtw_regs *, u_int);
void rtw_led_newstate(struct rtw_softc *, enum ieee80211_state);
int rtw_rf_init(struct rtw_softc *, u_int, u_int8_t, enum rtw_pwrstate);
int rtw_rf_pwrstate(struct rtw_softc *, enum rtw_pwrstate);
int rtw_rf_tune(struct rtw_softc *, u_int);
int rtw_rf_txpower(struct rtw_softc *, u_int8_t);
int rtw_rfbus_write(struct rtw_softc *, int, u_int, u_int32_t);
int rtw_sa2400_create(struct rtw_softc *);
int rtw_max2820_create(struct rtw_softc *);
int rtw_rtl8225_create(struct rtw_softc *);
int rtw_rtl8255_create(struct rtw_softc *);
int rtw_phy_init(struct rtw_softc *);
int rtw_bbp_preinit(struct rtw_regs *, u_int, int, u_int);
int rtw_bbp_init(struct rtw_regs *, struct rtw_bbpset *, int,
int, u_int8_t, u_int);
void rtw_verify_syna(u_int, u_int32_t);
int rtw_sa2400_pwrstate(struct rtw_softc *, enum rtw_pwrstate);
int rtw_sa2400_txpower(struct rtw_softc *, u_int8_t);
int rtw_sa2400_tune(struct rtw_softc *, u_int);
int rtw_sa2400_manrx_init(struct rtw_softc *);
int rtw_sa2400_vcocal_start(struct rtw_softc *, int);
int rtw_sa2400_vco_calibration(struct rtw_softc *);
int rtw_sa2400_filter_calibration(struct rtw_softc *);
int rtw_sa2400_dc_calibration(struct rtw_softc *);
int rtw_sa2400_agc_init(struct rtw_softc *);
int rtw_sa2400_calibrate(struct rtw_softc *, u_int);
int rtw_sa2400_init(struct rtw_softc *, u_int, u_int8_t,
enum rtw_pwrstate);
int rtw_max2820_pwrstate(struct rtw_softc *, enum rtw_pwrstate);
int rtw_max2820_init(struct rtw_softc *, u_int, u_int8_t,
enum rtw_pwrstate);
int rtw_max2820_txpower(struct rtw_softc *, u_int8_t);
int rtw_max2820_tune(struct rtw_softc *, u_int);
int rtw_rtl8225_pwrstate(struct rtw_softc *, enum rtw_pwrstate);
int rtw_rtl8225_init(struct rtw_softc *, u_int, u_int8_t,
enum rtw_pwrstate);
int rtw_rtl8225_txpower(struct rtw_softc *, u_int8_t);
int rtw_rtl8225_tune(struct rtw_softc *, u_int);
int rtw_rtl8255_pwrstate(struct rtw_softc *, enum rtw_pwrstate);
int rtw_rtl8255_init(struct rtw_softc *, u_int, u_int8_t,
enum rtw_pwrstate);
int rtw_rtl8255_txpower(struct rtw_softc *, u_int8_t);
int rtw_rtl8255_tune(struct rtw_softc *, u_int);
int rtw_rf_hostwrite(struct rtw_regs *, int, u_int, u_int32_t);
int rtw_rf_macwrite(struct rtw_regs *, int, u_int, u_int32_t);
u_int8_t rtw_bbp_read(struct rtw_regs *, u_int);
int rtw_bbp_write(struct rtw_regs *, u_int, u_int);
u_int32_t rtw_grf5101_host_crypt(u_int, u_int32_t);
u_int32_t rtw_maxim_swizzle(u_int, uint32_t);
u_int32_t rtw_grf5101_mac_crypt(u_int, u_int32_t);
void rtw_rf_hostbangbits(struct rtw_regs *, u_int32_t, int, u_int);
void rtw_rf_rtl8225_hostbangbits(struct rtw_regs *, u_int32_t, int, u_int);
int rtw_rf_macbangbits(struct rtw_regs *, u_int32_t);
const char *rtw_rfchipid_string(int);
#ifdef RTW_DEBUG
void rtw_print_txdesc(struct rtw_softc *, const char *,
struct rtw_txsoft *, struct rtw_txdesc_blk *, int);
const char *rtw_access_string(enum rtw_access);
void rtw_dump_rings(struct rtw_softc *);
void rtw_print_txdesc(struct rtw_softc *, const char *,
struct rtw_txsoft *, struct rtw_txdesc_blk *, int);
#endif
struct cfdriver rtw_cd = {
NULL, "rtw", DV_IFNET
};
void
rtw_continuous_tx_enable(struct rtw_softc *sc, int enable)
{
struct rtw_regs *regs = &sc->sc_regs;
u_int32_t tcr;
tcr = RTW_READ(regs, RTW_TCR);
tcr &= ~RTW_TCR_LBK_MASK;
if (enable)
tcr |= RTW_TCR_LBK_CONT;
else
tcr |= RTW_TCR_LBK_NORMAL;
RTW_WRITE(regs, RTW_TCR, tcr);
RTW_SYNC(regs, RTW_TCR, RTW_TCR);
rtw_set_access(regs, RTW_ACCESS_ANAPARM);
rtw_txdac_enable(sc, !enable);
rtw_set_access(regs, RTW_ACCESS_ANAPARM);/* XXX Voodoo from Linux. */
rtw_set_access(regs, RTW_ACCESS_NONE);
}
#ifdef RTW_DEBUG
const char *
rtw_access_string(enum rtw_access access)
{
switch (access) {
case RTW_ACCESS_NONE:
return "none";
case RTW_ACCESS_CONFIG:
return "config";
case RTW_ACCESS_ANAPARM:
return "anaparm";
default:
return "unknown";
}
}
#endif
void
rtw_set_access1(struct rtw_regs *regs, enum rtw_access naccess)
{
KASSERT(naccess >= RTW_ACCESS_NONE && naccess <= RTW_ACCESS_ANAPARM);
KASSERT(regs->r_access >= RTW_ACCESS_NONE &&
regs->r_access <= RTW_ACCESS_ANAPARM);
if (naccess == regs->r_access)
return;
switch (naccess) {
case RTW_ACCESS_NONE:
switch (regs->r_access) {
case RTW_ACCESS_ANAPARM:
rtw_anaparm_enable(regs, 0);
/*FALLTHROUGH*/
case RTW_ACCESS_CONFIG:
rtw_config0123_enable(regs, 0);
/*FALLTHROUGH*/
case RTW_ACCESS_NONE:
break;
}
break;
case RTW_ACCESS_CONFIG:
switch (regs->r_access) {
case RTW_ACCESS_NONE:
rtw_config0123_enable(regs, 1);
/*FALLTHROUGH*/
case RTW_ACCESS_CONFIG:
break;
case RTW_ACCESS_ANAPARM:
rtw_anaparm_enable(regs, 0);
break;
}
break;
case RTW_ACCESS_ANAPARM:
switch (regs->r_access) {
case RTW_ACCESS_NONE:
rtw_config0123_enable(regs, 1);
/*FALLTHROUGH*/
case RTW_ACCESS_CONFIG:
rtw_anaparm_enable(regs, 1);
/*FALLTHROUGH*/
case RTW_ACCESS_ANAPARM:
break;
}
break;
}
}
void
rtw_set_access(struct rtw_regs *regs, enum rtw_access access)
{
rtw_set_access1(regs, access);
RTW_DPRINTF(RTW_DEBUG_ACCESS,
("%s: access %s -> %s\n",__func__,
rtw_access_string(regs->r_access),
rtw_access_string(access)));
regs->r_access = access;
}
/*
* Enable registers, switch register banks.
*/
void
rtw_config0123_enable(struct rtw_regs *regs, int enable)
{
u_int8_t ecr;
ecr = RTW_READ8(regs, RTW_9346CR);
ecr &= ~(RTW_9346CR_EEM_MASK | RTW_9346CR_EECS | RTW_9346CR_EESK);
if (enable)
ecr |= RTW_9346CR_EEM_CONFIG;
else {
RTW_WBW(regs, RTW_9346CR, MAX(RTW_CONFIG0, RTW_CONFIG3));
ecr |= RTW_9346CR_EEM_NORMAL;
}
RTW_WRITE8(regs, RTW_9346CR, ecr);
RTW_SYNC(regs, RTW_9346CR, RTW_9346CR);
}
/* requires rtw_config0123_enable(, 1) */
void
rtw_anaparm_enable(struct rtw_regs *regs, int enable)
{
u_int8_t cfg3;
cfg3 = RTW_READ8(regs, RTW_CONFIG3);
cfg3 |= RTW_CONFIG3_CLKRUNEN;
if (enable)
cfg3 |= RTW_CONFIG3_PARMEN;
else
cfg3 &= ~RTW_CONFIG3_PARMEN;
RTW_WRITE8(regs, RTW_CONFIG3, cfg3);
RTW_SYNC(regs, RTW_CONFIG3, RTW_CONFIG3);
}
/* requires rtw_anaparm_enable(, 1) */
void
rtw_txdac_enable(struct rtw_softc *sc, int enable)
{
u_int32_t anaparm;
struct rtw_regs *regs = &sc->sc_regs;
anaparm = RTW_READ(regs, RTW_ANAPARM);
if (enable)
anaparm &= ~RTW_ANAPARM_TXDACOFF;
else
anaparm |= RTW_ANAPARM_TXDACOFF;
RTW_WRITE(regs, RTW_ANAPARM, anaparm);
RTW_SYNC(regs, RTW_ANAPARM, RTW_ANAPARM);
}
int
rtw_chip_reset1(struct rtw_regs *regs, const char *dvname)
{
u_int8_t cr;
int i;
RTW_WRITE8(regs, RTW_CR, RTW_CR_RST);
RTW_WBR(regs, RTW_CR, RTW_CR);
for (i = 0; i < 1000; i++) {
if ((cr = RTW_READ8(regs, RTW_CR) & RTW_CR_RST) == 0) {
RTW_DPRINTF(RTW_DEBUG_RESET,
("%s: reset in %dus\n", dvname, i));
return 0;
}
RTW_RBR(regs, RTW_CR, RTW_CR);
DELAY(10); /* 10us */
}
printf("\n%s: reset failed\n", dvname);
return ETIMEDOUT;
}
int
rtw_chip_reset(struct rtw_regs *regs, const char *dvname)
{
uint32_t tcr;
/* from Linux driver */
tcr = RTW_TCR_CWMIN | RTW_TCR_MXDMA_2048 |
LSHIFT(7, RTW_TCR_SRL_MASK) | LSHIFT(7, RTW_TCR_LRL_MASK);
RTW_WRITE(regs, RTW_TCR, tcr);
RTW_WBW(regs, RTW_CR, RTW_TCR);
return rtw_chip_reset1(regs, dvname);
}
int
rtw_recall_eeprom(struct rtw_regs *regs, const char *dvname)
{
int i;
u_int8_t ecr;
ecr = RTW_READ8(regs, RTW_9346CR);
ecr = (ecr & ~RTW_9346CR_EEM_MASK) | RTW_9346CR_EEM_AUTOLOAD;
RTW_WRITE8(regs, RTW_9346CR, ecr);
RTW_WBR(regs, RTW_9346CR, RTW_9346CR);
/* wait 10ms for completion */
for (i = 0; i < 50; i++) {
ecr = RTW_READ8(regs, RTW_9346CR);
if ((ecr & RTW_9346CR_EEM_MASK) == RTW_9346CR_EEM_NORMAL) {
RTW_DPRINTF(RTW_DEBUG_RESET,
("%s: recall EEPROM in %dus\n", dvname, i * 200));
return (0);
}
RTW_RBR(regs, RTW_9346CR, RTW_9346CR);
DELAY(200);
}
printf("\n%s: could not recall EEPROM in %dus\n", dvname, i * 200);
return (ETIMEDOUT);
}
int
rtw_reset(struct rtw_softc *sc)
{
int rc;
uint8_t config1;
if ((rc = rtw_chip_reset(&sc->sc_regs, sc->sc_dev.dv_xname)) != 0)
return rc;
if ((rc = rtw_recall_eeprom(&sc->sc_regs, sc->sc_dev.dv_xname)) != 0)
;
config1 = RTW_READ8(&sc->sc_regs, RTW_CONFIG1);
RTW_WRITE8(&sc->sc_regs, RTW_CONFIG1, config1 & ~RTW_CONFIG1_PMEN);
/* TBD turn off maximum power saving? */
return 0;
}
int
rtw_txdesc_dmamaps_create(bus_dma_tag_t dmat, struct rtw_txsoft *descs,
u_int ndescs)
{
int i, rc = 0;
for (i = 0; i < ndescs; i++) {
rc = bus_dmamap_create(dmat, MCLBYTES, RTW_MAXPKTSEGS, MCLBYTES,
0, 0, &descs[i].ts_dmamap);
if (rc != 0)
break;
}
return rc;
}
int
rtw_rxdesc_dmamaps_create(bus_dma_tag_t dmat, struct rtw_rxsoft *descs,
u_int ndescs)
{
int i, rc = 0;
for (i = 0; i < ndescs; i++) {
rc = bus_dmamap_create(dmat, MCLBYTES, 1, MCLBYTES, 0, 0,
&descs[i].rs_dmamap);
if (rc != 0)
break;
}
return rc;
}
void
rtw_rxdesc_dmamaps_destroy(bus_dma_tag_t dmat, struct rtw_rxsoft *descs,
u_int ndescs)
{
int i;
for (i = 0; i < ndescs; i++) {
if (descs[i].rs_dmamap != NULL)
bus_dmamap_destroy(dmat, descs[i].rs_dmamap);
}
}
void
rtw_txdesc_dmamaps_destroy(bus_dma_tag_t dmat, struct rtw_txsoft *descs,
u_int ndescs)
{
int i;
for (i = 0; i < ndescs; i++) {
if (descs[i].ts_dmamap != NULL)
bus_dmamap_destroy(dmat, descs[i].ts_dmamap);
}
}
int
rtw_srom_parse(struct rtw_softc *sc)
{
int i;
struct rtw_srom *sr = &sc->sc_srom;
u_int32_t *flags = &sc->sc_flags;
u_int8_t *cs_threshold = &sc->sc_csthr;
int *rfchipid = &sc->sc_rfchipid;
u_int32_t *rcr = &sc->sc_rcr;
enum rtw_locale *locale = &sc->sc_locale;
const char *rfname, *paname = NULL;
char scratch[sizeof("unknown 0xXX")];
u_int16_t version;
u_int8_t mac[IEEE80211_ADDR_LEN];
*flags &= ~(RTW_F_DIGPHY|RTW_F_DFLANTB|RTW_F_ANTDIV);
*rcr &= ~(RTW_RCR_ENCS1 | RTW_RCR_ENCS2);
version = RTW_SR_GET16(sr, RTW_SR_VERSION);
RTW_DPRINTF(RTW_DEBUG_ATTACH,
("%s: SROM %d.%d\n", sc->sc_dev.dv_xname, version >> 8,
version & 0xff));
if (version <= 0x0101) {
printf(" is not understood, limping along with defaults ");
*flags |= (RTW_F_DIGPHY|RTW_F_ANTDIV);
*cs_threshold = RTW_SR_ENERGYDETTHR_DEFAULT;
*rcr |= RTW_RCR_ENCS1;
*rfchipid = RTW_RFCHIPID_PHILIPS;
return 0;
}
for (i = 0; i < IEEE80211_ADDR_LEN; i++)
mac[i] = RTW_SR_GET(sr, RTW_SR_MAC + i);
RTW_DPRINTF(RTW_DEBUG_ATTACH,
("%s: EEPROM MAC %s\n", sc->sc_dev.dv_xname, ether_sprintf(mac)));
*cs_threshold = RTW_SR_GET(sr, RTW_SR_ENERGYDETTHR);
if ((RTW_SR_GET(sr, RTW_SR_CONFIG2) & RTW8180_CONFIG2_ANT) != 0)
*flags |= RTW_F_ANTDIV;
/* Note well: the sense of the RTW_SR_RFPARM_DIGPHY bit seems
* to be reversed.
*/
if ((RTW_SR_GET(sr, RTW_SR_RFPARM) & RTW_SR_RFPARM_DIGPHY) == 0)
*flags |= RTW_F_DIGPHY;
if ((RTW_SR_GET(sr, RTW_SR_RFPARM) & RTW_SR_RFPARM_DFLANTB) != 0)
*flags |= RTW_F_DFLANTB;
*rcr |= LSHIFT(MASK_AND_RSHIFT(RTW_SR_GET(sr, RTW_SR_RFPARM),
RTW_SR_RFPARM_CS_MASK), RTW_RCR_ENCS1);
*rfchipid = RTW_SR_GET(sr, RTW_SR_RFCHIPID);
switch (*rfchipid) {
case RTW_RFCHIPID_RTL8225:
rfname = "RTL8225";
break;
case RTW_RFCHIPID_RTL8255:
rfname = "RTL8255";
break;
case RTW_RFCHIPID_GCT: /* this combo seen in the wild */
rfname = "GRF5101";
paname = "WS9901";
break;
case RTW_RFCHIPID_MAXIM2820:
rfname = "MAX2820"; /* guess */
paname = "MAX2422"; /* guess */
break;
case RTW_RFCHIPID_INTERSIL:
rfname = "HFA3873"; /* guess */
paname = "Intersil <unknown>";
break;
case RTW_RFCHIPID_PHILIPS: /* this combo seen in the wild */
rfname = "SA2400A";
paname = "SA2411";
break;
case RTW_RFCHIPID_RFMD2948:
/* this is the same front-end as an atw(4)! */
rfname = "RFMD RF2948B, " /* mentioned in Realtek docs */
"LNA: RFMD RF2494, " /* mentioned in Realtek docs */
"SYN: Silicon Labs Si4126"; /* inferred from
* reference driver
*/
paname = "RF2189"; /* mentioned in Realtek docs */
break;
case RTW_RFCHIPID_RESERVED:
rfname = paname = "reserved";
break;
default:
snprintf(scratch, sizeof(scratch), "unknown 0x%02x", *rfchipid);
rfname = scratch;
}
printf("radio %s, ", rfname);
if (paname != NULL)
printf("amp %s, ", paname);
if (sc->sc_flags & RTW_F_RTL8185) {
*locale = RTW_LOCALE_UNKNOWN;
return (0);
}
switch (RTW_SR_GET(sr, RTW_SR_CONFIG0) & RTW8180_CONFIG0_GL_MASK) {
case RTW8180_CONFIG0_GL_USA:
*locale = RTW_LOCALE_USA;
break;
case RTW8180_CONFIG0_GL_EUROPE:
*locale = RTW_LOCALE_EUROPE;
break;
case RTW8180_CONFIG0_GL_JAPAN:
case RTW8180_CONFIG0_GL_JAPAN2:
*locale = RTW_LOCALE_JAPAN;
break;
default:
*locale = RTW_LOCALE_UNKNOWN;
break;
}
return 0;
}
/* Returns -1 on failure. */
int
rtw_srom_read(struct rtw_regs *regs, u_int32_t flags, struct rtw_srom *sr,
const char *dvname)
{
int rc;
struct seeprom_descriptor sd;
u_int8_t ecr;
bzero(&sd, sizeof(sd));
ecr = RTW_READ8(regs, RTW_9346CR);
if ((flags & RTW_F_9356SROM) != 0) {
RTW_DPRINTF(RTW_DEBUG_ATTACH, ("%s: 93c56 SROM\n", dvname));
sr->sr_size = 256;
sd.sd_chip = C56_66;
} else {
RTW_DPRINTF(RTW_DEBUG_ATTACH, ("%s: 93c46 SROM\n", dvname));
sr->sr_size = 128;
sd.sd_chip = C46;
}
ecr &= ~(RTW_9346CR_EEDI | RTW_9346CR_EEDO | RTW_9346CR_EESK |
RTW_9346CR_EEM_MASK | RTW_9346CR_EECS);
ecr |= RTW_9346CR_EEM_PROGRAM;
RTW_WRITE8(regs, RTW_9346CR, ecr);
sr->sr_content = malloc(sr->sr_size, M_DEVBUF, M_NOWAIT);
if (sr->sr_content == NULL) {
printf("%s: unable to allocate SROM buffer\n", dvname);
return ENOMEM;
}
bzero(sr->sr_content, sr->sr_size);
/* RTL8180 has a single 8-bit register for controlling the
* 93cx6 SROM. There is no "ready" bit. The RTL8180
* input/output sense is the reverse of read_seeprom's.
*/
sd.sd_tag = regs->r_bt;
sd.sd_bsh = regs->r_bh;
sd.sd_regsize = 1;
sd.sd_control_offset = RTW_9346CR;
sd.sd_status_offset = RTW_9346CR;
sd.sd_dataout_offset = RTW_9346CR;
sd.sd_CK = RTW_9346CR_EESK;
sd.sd_CS = RTW_9346CR_EECS;
sd.sd_DI = RTW_9346CR_EEDO;
sd.sd_DO = RTW_9346CR_EEDI;
/* make read_seeprom enter EEPROM read/write mode */
sd.sd_MS = ecr;
sd.sd_RDY = 0;
/* TBD bus barriers */
if (!read_seeprom(&sd, sr->sr_content, 0, sr->sr_size/2)) {
printf("\n%s: could not read SROM\n", dvname);
free(sr->sr_content, M_DEVBUF);
sr->sr_content = NULL;
return -1; /* XXX */
}
/* end EEPROM read/write mode */
RTW_WRITE8(regs, RTW_9346CR,
(ecr & ~RTW_9346CR_EEM_MASK) | RTW_9346CR_EEM_NORMAL);
RTW_WBRW(regs, RTW_9346CR, RTW_9346CR);
if ((rc = rtw_recall_eeprom(regs, dvname)) != 0)
return rc;
#ifdef RTW_DEBUG
{
int i;
RTW_DPRINTF(RTW_DEBUG_ATTACH,
("\n%s: serial ROM:\n\t", dvname));
for (i = 0; i < sr->sr_size/2; i++) {
if (((i % 8) == 0) && (i != 0))
RTW_DPRINTF(RTW_DEBUG_ATTACH, ("\n\t"));
RTW_DPRINTF(RTW_DEBUG_ATTACH,
(" %04x", sr->sr_content[i]));
}
RTW_DPRINTF(RTW_DEBUG_ATTACH, ("\n"));
}
#endif /* RTW_DEBUG */
return 0;
}
void
rtw_set_rfprog(struct rtw_regs *regs, int rfchipid,
const char *dvname)
{
u_int8_t cfg4;
const char *method;
cfg4 = RTW_READ8(regs, RTW_CONFIG4) & ~RTW_CONFIG4_RFTYPE_MASK;
switch (rfchipid) {
default:
cfg4 |= LSHIFT(rtw_rfprog_fallback, RTW_CONFIG4_RFTYPE_MASK);
method = "fallback";
break;
case RTW_RFCHIPID_INTERSIL:
cfg4 |= RTW_CONFIG4_RFTYPE_INTERSIL;
method = "Intersil";
break;
case RTW_RFCHIPID_PHILIPS:
cfg4 |= RTW_CONFIG4_RFTYPE_PHILIPS;
method = "Philips";
break;
case RTW_RFCHIPID_RFMD2948:
cfg4 |= RTW_CONFIG4_RFTYPE_RFMD;
method = "RFMD";
break;
}
RTW_WRITE8(regs, RTW_CONFIG4, cfg4);
RTW_WBR(regs, RTW_CONFIG4, RTW_CONFIG4);
RTW_DPRINTF(RTW_DEBUG_INIT,
("%s: %s RF programming method, %#02x\n", dvname, method,
RTW_READ8(regs, RTW_CONFIG4)));
}
void
rtw_init_channels(enum rtw_locale locale,
struct ieee80211_channel (*chans)[IEEE80211_CHAN_MAX+1],
const char *dvname)
{
int i;
const char *name = NULL;
#define ADD_CHANNEL(_chans, _chan) do { \
(*_chans)[_chan].ic_flags = IEEE80211_CHAN_B; \
(*_chans)[_chan].ic_freq = \
ieee80211_ieee2mhz(_chan, (*_chans)[_chan].ic_flags);\
} while (0)
switch (locale) {
case RTW_LOCALE_USA: /* 1-11 */
name = "USA";
for (i = 1; i <= 11; i++)
ADD_CHANNEL(chans, i);
break;
case RTW_LOCALE_JAPAN: /* 1-14 */
name = "Japan";
ADD_CHANNEL(chans, 14);
for (i = 1; i <= 14; i++)
ADD_CHANNEL(chans, i);
break;
case RTW_LOCALE_EUROPE: /* 1-13 */
name = "Europe";
for (i = 1; i <= 13; i++)
ADD_CHANNEL(chans, i);
break;
default: /* 10-11 allowed by most countries */
name = "<unknown>";
for (i = 10; i <= 11; i++)
ADD_CHANNEL(chans, i);
break;
}
RTW_DPRINTF(RTW_DEBUG_ATTACH, ("%s: Geographic Location %s\n",
dvname, name));
#undef ADD_CHANNEL
}
void
rtw_identify_country(struct rtw_regs *regs, enum rtw_locale *locale,
const char *dvname)
{
u_int8_t cfg0 = RTW_READ8(regs, RTW_CONFIG0);
switch (cfg0 & RTW8180_CONFIG0_GL_MASK) {
case RTW8180_CONFIG0_GL_USA:
*locale = RTW_LOCALE_USA;
break;
case RTW8180_CONFIG0_GL_JAPAN:
case RTW8180_CONFIG0_GL_JAPAN2:
*locale = RTW_LOCALE_JAPAN;
break;
case RTW8180_CONFIG0_GL_EUROPE:
*locale = RTW_LOCALE_EUROPE;
break;
default:
*locale = RTW_LOCALE_UNKNOWN;
break;
}
}
int
rtw_identify_sta(struct rtw_regs *regs, u_int8_t (*addr)[IEEE80211_ADDR_LEN],
const char *dvname)
{
static const u_int8_t empty_macaddr[IEEE80211_ADDR_LEN] = {
0x00, 0x00, 0x00, 0x00, 0x00, 0x00
};
u_int32_t idr0 = RTW_READ(regs, RTW_IDR0),
idr1 = RTW_READ(regs, RTW_IDR1);
(*addr)[0] = MASK_AND_RSHIFT(idr0, BITS(0, 7));
(*addr)[1] = MASK_AND_RSHIFT(idr0, BITS(8, 15));
(*addr)[2] = MASK_AND_RSHIFT(idr0, BITS(16, 23));
(*addr)[3] = MASK_AND_RSHIFT(idr0, BITS(24 ,31));
(*addr)[4] = MASK_AND_RSHIFT(idr1, BITS(0, 7));
(*addr)[5] = MASK_AND_RSHIFT(idr1, BITS(8, 15));
if (IEEE80211_ADDR_EQ(addr, empty_macaddr)) {
printf("\n%s: could not get mac address, attach failed\n",
dvname);
return ENXIO;
}
printf("address %s\n", ether_sprintf(*addr));
return 0;
}
u_int8_t
rtw_chan2txpower(struct rtw_srom *sr, struct ieee80211com *ic,
struct ieee80211_channel *chan)
{
u_int idx = RTW_SR_TXPOWER1 + ieee80211_chan2ieee(ic, chan) - 1;
KASSERT2(idx >= RTW_SR_TXPOWER1 && idx <= RTW_SR_TXPOWER14,
("%s: channel %d out of range", __func__,
idx - RTW_SR_TXPOWER1 + 1));
return RTW_SR_GET(sr, idx);
}
void
rtw_txdesc_blk_init_all(struct rtw_txdesc_blk *tdb)
{
int pri;
u_int ndesc[RTW_NTXPRI] =
{RTW_NTXDESCLO, RTW_NTXDESCMD, RTW_NTXDESCHI, RTW_NTXDESCBCN};
for (pri = 0; pri < RTW_NTXPRI; pri++) {
tdb[pri].tdb_nfree = ndesc[pri];
tdb[pri].tdb_next = 0;
}
}
int
rtw_txsoft_blk_init(struct rtw_txsoft_blk *tsb)
{
int i;
struct rtw_txsoft *ts;
SIMPLEQ_INIT(&tsb->tsb_dirtyq);
SIMPLEQ_INIT(&tsb->tsb_freeq);
for (i = 0; i < tsb->tsb_ndesc; i++) {
ts = &tsb->tsb_desc[i];
ts->ts_mbuf = NULL;
SIMPLEQ_INSERT_TAIL(&tsb->tsb_freeq, ts, ts_q);
}
return 0;
}
void
rtw_txsoft_blk_init_all(struct rtw_txsoft_blk *tsb)
{
int pri;
for (pri = 0; pri < RTW_NTXPRI; pri++)
rtw_txsoft_blk_init(&tsb[pri]);
}
void
rtw_rxdescs_sync(struct rtw_rxdesc_blk *rdb, int desc0, int nsync, int ops)
{
KASSERT(nsync <= rdb->rdb_ndesc);
/* sync to end of ring */
if (desc0 + nsync > rdb->rdb_ndesc) {
bus_dmamap_sync(rdb->rdb_dmat, rdb->rdb_dmamap,
offsetof(struct rtw_descs, hd_rx[desc0]),
sizeof(struct rtw_rxdesc) * (rdb->rdb_ndesc - desc0), ops);
nsync -= (rdb->rdb_ndesc - desc0);
desc0 = 0;
}
KASSERT(desc0 < rdb->rdb_ndesc);
KASSERT(nsync <= rdb->rdb_ndesc);
KASSERT(desc0 + nsync <= rdb->rdb_ndesc);
/* sync what remains */
bus_dmamap_sync(rdb->rdb_dmat, rdb->rdb_dmamap,
offsetof(struct rtw_descs, hd_rx[desc0]),
sizeof(struct rtw_rxdesc) * nsync, ops);
}
void
rtw_txdescs_sync(struct rtw_txdesc_blk *tdb, u_int desc0, u_int nsync, int ops)
{
/* sync to end of ring */
if (desc0 + nsync > tdb->tdb_ndesc) {
bus_dmamap_sync(tdb->tdb_dmat, tdb->tdb_dmamap,
tdb->tdb_ofs + sizeof(struct rtw_txdesc) * desc0,
sizeof(struct rtw_txdesc) * (tdb->tdb_ndesc - desc0),
ops);
nsync -= (tdb->tdb_ndesc - desc0);
desc0 = 0;
}
/* sync what remains */
bus_dmamap_sync(tdb->tdb_dmat, tdb->tdb_dmamap,
tdb->tdb_ofs + sizeof(struct rtw_txdesc) * desc0,
sizeof(struct rtw_txdesc) * nsync, ops);
}
void
rtw_rxbufs_release(bus_dma_tag_t dmat, struct rtw_rxsoft *desc)
{
int i;
struct rtw_rxsoft *rs;
for (i = 0; i < RTW_RXQLEN; i++) {
rs = &desc[i];
if (rs->rs_mbuf == NULL)
continue;
bus_dmamap_sync(dmat, rs->rs_dmamap, 0,
rs->rs_dmamap->dm_mapsize, BUS_DMASYNC_POSTREAD);
bus_dmamap_unload(dmat, rs->rs_dmamap);
m_freem(rs->rs_mbuf);
rs->rs_mbuf = NULL;
}
}
int
rtw_rxsoft_alloc(bus_dma_tag_t dmat, struct rtw_rxsoft *rs)
{
int rc;
struct mbuf *m;
MGETHDR(m, M_DONTWAIT, MT_DATA);
if (m == NULL)
return ENOBUFS;
MCLGET(m, M_DONTWAIT);
if ((m->m_flags & M_EXT) == 0) {
m_freem(m);
return ENOBUFS;
}
m->m_pkthdr.len = m->m_len = m->m_ext.ext_size;
if (rs->rs_mbuf != NULL)
bus_dmamap_unload(dmat, rs->rs_dmamap);
rs->rs_mbuf = NULL;
rc = bus_dmamap_load_mbuf(dmat, rs->rs_dmamap, m, BUS_DMA_NOWAIT);
if (rc != 0) {
m_freem(m);
return -1;
}
rs->rs_mbuf = m;
return 0;
}
int
rtw_rxsoft_init_all(bus_dma_tag_t dmat, struct rtw_rxsoft *desc,
int *ndesc, const char *dvname)
{
int i, rc = 0;
struct rtw_rxsoft *rs;
for (i = 0; i < RTW_RXQLEN; i++) {
rs = &desc[i];
/* we're in rtw_init, so there should be no mbufs allocated */
KASSERT(rs->rs_mbuf == NULL);
#ifdef RTW_DEBUG
if (i == rtw_rxbufs_limit) {
printf("%s: TEST hit %d-buffer limit\n", dvname, i);
rc = ENOBUFS;
break;
}
#endif /* RTW_DEBUG */
if ((rc = rtw_rxsoft_alloc(dmat, rs)) != 0) {
printf("%s: rtw_rxsoft_alloc failed, %d buffers, "
"rc %d\n", dvname, i, rc);
break;
}
}
*ndesc = i;
return rc;
}
void
rtw_rxdesc_init(struct rtw_rxdesc_blk *rdb, struct rtw_rxsoft *rs,
int idx, int kick)
{
int is_last = (idx == rdb->rdb_ndesc - 1);
uint32_t ctl, octl, obuf;
struct rtw_rxdesc *rd = &rdb->rdb_desc[idx];
obuf = rd->rd_buf;
rd->rd_buf = htole32(rs->rs_dmamap->dm_segs[0].ds_addr);
ctl = LSHIFT(rs->rs_mbuf->m_len, RTW_RXCTL_LENGTH_MASK) |
RTW_RXCTL_OWN | RTW_RXCTL_FS | RTW_RXCTL_LS;
if (is_last)
ctl |= RTW_RXCTL_EOR;
octl = rd->rd_ctl;
rd->rd_ctl = htole32(ctl);
RTW_DPRINTF(kick ? (RTW_DEBUG_RECV_DESC | RTW_DEBUG_IO_KICK)
: RTW_DEBUG_RECV_DESC,
("%s: rd %p buf %08x -> %08x ctl %08x -> %08x\n", __func__, rd,
letoh32(obuf), letoh32(rd->rd_buf), letoh32(octl),
letoh32(rd->rd_ctl)));
/* sync the mbuf */
bus_dmamap_sync(rdb->rdb_dmat, rs->rs_dmamap, 0,
rs->rs_dmamap->dm_mapsize, BUS_DMASYNC_PREREAD);
/* sync the descriptor */
bus_dmamap_sync(rdb->rdb_dmat, rdb->rdb_dmamap,
RTW_DESC_OFFSET(hd_rx, idx), sizeof(struct rtw_rxdesc),
BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
}
void
rtw_rxdesc_init_all(struct rtw_rxdesc_blk *rdb, struct rtw_rxsoft *ctl,
int kick)
{
int i;
struct rtw_rxdesc *rd;
struct rtw_rxsoft *rs;
for (i = 0; i < rdb->rdb_ndesc; i++) {
rd = &rdb->rdb_desc[i];
rs = &ctl[i];
rtw_rxdesc_init(rdb, rs, i, kick);
}
rdb->rdb_next = 0;
}
void
rtw_io_enable(struct rtw_regs *regs, u_int8_t flags, int enable)
{
u_int8_t cr;
RTW_DPRINTF(RTW_DEBUG_IOSTATE, ("%s: %s 0x%02x\n", __func__,
enable ? "enable" : "disable", flags));
cr = RTW_READ8(regs, RTW_CR);
/* XXX reference source does not enable MULRW */
#if 0
/* enable PCI Read/Write Multiple */
cr |= RTW_CR_MULRW;
#endif
RTW_RBW(regs, RTW_CR, RTW_CR); /* XXX paranoia? */
if (enable)
cr |= flags;
else
cr &= ~flags;
RTW_WRITE8(regs, RTW_CR, cr);
RTW_SYNC(regs, RTW_CR, RTW_CR);
}
void
rtw_intr_rx(struct rtw_softc *sc, u_int16_t isr)
{
#define IS_BEACON(__fc0) \
((__fc0 & (IEEE80211_FC0_TYPE_MASK | IEEE80211_FC0_SUBTYPE_MASK)) ==\
(IEEE80211_FC0_TYPE_MGT | IEEE80211_FC0_SUBTYPE_BEACON))
static const int ratetbl[4] = {2, 4, 11, 22}; /* convert rates:
* hardware -> net80211
*/
u_int next, nproc = 0;
int hwrate, len, rate, rssi, sq;
u_int32_t hrssi, hstat, htsfth, htsftl;
struct rtw_rxdesc *rd;
struct rtw_rxsoft *rs;
struct rtw_rxdesc_blk *rdb;
struct mbuf *m;
struct ieee80211_node *ni;
struct ieee80211_frame *wh;
rdb = &sc->sc_rxdesc_blk;
KASSERT(rdb->rdb_next < rdb->rdb_ndesc);
for (next = rdb->rdb_next; ; next = (next + 1) % rdb->rdb_ndesc) {
rtw_rxdescs_sync(rdb, next, 1,
BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
rd = &rdb->rdb_desc[next];
rs = &sc->sc_rxsoft[next];
hstat = letoh32(rd->rd_stat);
hrssi = letoh32(rd->rd_rssi);
htsfth = letoh32(rd->rd_tsfth);
htsftl = letoh32(rd->rd_tsftl);
RTW_DPRINTF(RTW_DEBUG_RECV_DESC,
("%s: rxdesc[%d] hstat %08x hrssi %08x htsft %08x%08x\n",
__func__, next, hstat, hrssi, htsfth, htsftl));
++nproc;
/* still belongs to NIC */
if ((hstat & RTW_RXSTAT_OWN) != 0) {
if (nproc > 1)
break;
/* sometimes the NIC skips to the 0th descriptor */
rtw_rxdescs_sync(rdb, 0, 1,
BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
rd = &rdb->rdb_desc[0];
if ((rd->rd_stat & htole32(RTW_RXSTAT_OWN)) != 0)
break;
RTW_DPRINTF(RTW_DEBUG_BUGS,
("%s: NIC skipped from rxdesc[%u] to rxdesc[0]\n",
sc->sc_dev.dv_xname, next));
next = rdb->rdb_ndesc - 1;
continue;
}
#ifdef RTW_DEBUG
#define PRINTSTAT(flag) do { \
if ((hstat & flag) != 0) { \
printf("%s" #flag, delim); \
delim = ","; \
} \
} while (0)
if ((rtw_debug & RTW_DEBUG_RECV_DESC) != 0) {
const char *delim = "<";
printf("%s: ", sc->sc_dev.dv_xname);
if ((hstat & RTW_RXSTAT_DEBUG) != 0) {
printf("status %08x", hstat);
PRINTSTAT(RTW_RXSTAT_SPLCP);
PRINTSTAT(RTW_RXSTAT_MAR);
PRINTSTAT(RTW_RXSTAT_PAR);
PRINTSTAT(RTW_RXSTAT_BAR);
PRINTSTAT(RTW_RXSTAT_PWRMGT);
PRINTSTAT(RTW_RXSTAT_CRC32);
PRINTSTAT(RTW_RXSTAT_ICV);
printf(">, ");
}
}
#undef PRINTSTAT
#endif /* RTW_DEBUG */
if ((hstat & RTW_RXSTAT_IOERROR) != 0) {
printf("%s: DMA error/FIFO overflow %08x, "
"rx descriptor %d\n", sc->sc_dev.dv_xname,
hstat & RTW_RXSTAT_IOERROR, next);
sc->sc_if.if_ierrors++;
goto next;
}
len = MASK_AND_RSHIFT(hstat, RTW_RXSTAT_LENGTH_MASK);
if (len < IEEE80211_MIN_LEN) {
sc->sc_ic.ic_stats.is_rx_tooshort++;
goto next;
}
/* CRC is included with the packet; trim it off. */
len -= IEEE80211_CRC_LEN;
hwrate = MASK_AND_RSHIFT(hstat, RTW_RXSTAT_RATE_MASK);
if (hwrate >= sizeof(ratetbl) / sizeof(ratetbl[0])) {
printf("%s: unknown rate #%d\n", sc->sc_dev.dv_xname,
MASK_AND_RSHIFT(hstat, RTW_RXSTAT_RATE_MASK));
sc->sc_if.if_ierrors++;
goto next;
}
rate = ratetbl[hwrate];
#ifdef RTW_DEBUG
RTW_DPRINTF(RTW_DEBUG_RECV_DESC,
("rate %d.%d Mb/s, time %08x%08x\n", (rate * 5) / 10,
(rate * 5) % 10, htsfth, htsftl));
#endif /* RTW_DEBUG */
if ((hstat & RTW_RXSTAT_RES) != 0 &&
sc->sc_ic.ic_opmode != IEEE80211_M_MONITOR)
goto next;
/* if bad flags, skip descriptor */
if ((hstat & RTW_RXSTAT_ONESEG) != RTW_RXSTAT_ONESEG) {
printf("%s: too many rx segments\n",
sc->sc_dev.dv_xname);
goto next;
}
bus_dmamap_sync(sc->sc_dmat, rs->rs_dmamap, 0,
rs->rs_dmamap->dm_mapsize, BUS_DMASYNC_POSTREAD);
m = rs->rs_mbuf;
/* if temporarily out of memory, re-use mbuf */
switch (rtw_rxsoft_alloc(sc->sc_dmat, rs)) {
case 0:
break;
case ENOBUFS:
printf("%s: rtw_rxsoft_alloc(, %d) failed, "
"dropping this packet\n", sc->sc_dev.dv_xname,
next);
goto next;
default:
/* XXX shorten rx ring, instead? */
panic("%s: could not load DMA map",
sc->sc_dev.dv_xname);
}
if (sc->sc_rfchipid == RTW_RFCHIPID_PHILIPS)
rssi = MASK_AND_RSHIFT(hrssi, RTW_RXRSSI_RSSI);
else {
rssi = MASK_AND_RSHIFT(hrssi, RTW_RXRSSI_IMR_RSSI);
/* TBD find out each front-end's LNA gain in the
* front-end's units
*/
if ((hrssi & RTW_RXRSSI_IMR_LNA) == 0)
rssi |= 0x80;
}
sq = MASK_AND_RSHIFT(hrssi, RTW_RXRSSI_SQ);
/*
* Note well: now we cannot recycle the rs_mbuf unless
* we restore its original length.
*/
m->m_pkthdr.rcvif = &sc->sc_if;
m->m_pkthdr.len = m->m_len = len;
wh = mtod(m, struct ieee80211_frame *);
if (!IS_BEACON(wh->i_fc[0]))
sc->sc_led_state.ls_event |= RTW_LED_S_RX;
/* TBD use _MAR, _BAR, _PAR flags as hints to _find_rxnode? */
ni = ieee80211_find_rxnode(&sc->sc_ic, wh);
sc->sc_tsfth = htsfth;
#ifdef RTW_DEBUG
if ((sc->sc_if.if_flags & (IFF_DEBUG|IFF_LINK2)) ==
(IFF_DEBUG|IFF_LINK2)) {
ieee80211_dump_pkt(mtod(m, uint8_t *), m->m_pkthdr.len,
rate, rssi);
}
#endif /* RTW_DEBUG */
#if NBPFILTER > 0
if (sc->sc_radiobpf != NULL) {
struct mbuf mb;
struct ieee80211com *ic = &sc->sc_ic;
struct rtw_rx_radiotap_header *rr = &sc->sc_rxtap;
rr->rr_tsft =
htole64(((uint64_t)htsfth << 32) | htsftl);
if ((hstat & RTW_RXSTAT_SPLCP) != 0)
rr->rr_flags = IEEE80211_RADIOTAP_F_SHORTPRE;
rr->rr_flags = 0;
rr->rr_rate = rate;
rr->rr_chan_freq =
htole16(ic->ic_bss->ni_chan->ic_freq);
rr->rr_chan_flags =
htole16(ic->ic_bss->ni_chan->ic_flags);
rr->rr_antsignal = rssi;
rr->rr_barker_lock = htole16(sq);
M_DUP_PKTHDR(&mb, m);
mb.m_data = (caddr_t)rr;
mb.m_len = sizeof(sc->sc_rxtapu);
mb.m_next = m;
mb.m_pkthdr.len += mb.m_len;
bpf_mtap(sc->sc_radiobpf, &mb);
}
#endif /* NPBFILTER > 0 */
ieee80211_input(&sc->sc_if, m, ni, rssi, htsftl);
ieee80211_release_node(&sc->sc_ic, ni);
next:
rtw_rxdesc_init(rdb, rs, next, 0);
}
rdb->rdb_next = next;
KASSERT(rdb->rdb_next < rdb->rdb_ndesc);
return;
#undef IS_BEACON
}
void
rtw_txsoft_release(bus_dma_tag_t dmat, struct ieee80211com *ic,
struct rtw_txsoft *ts)
{
struct mbuf *m;
struct ieee80211_node *ni;
m = ts->ts_mbuf;
ni = ts->ts_ni;
KASSERT(m != NULL);
KASSERT(ni != NULL);
ts->ts_mbuf = NULL;
ts->ts_ni = NULL;
bus_dmamap_sync(dmat, ts->ts_dmamap, 0, ts->ts_dmamap->dm_mapsize,
BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(dmat, ts->ts_dmamap);
m_freem(m);
ieee80211_release_node(ic, ni);
}
void
rtw_txsofts_release(bus_dma_tag_t dmat, struct ieee80211com *ic,
struct rtw_txsoft_blk *tsb)
{
struct rtw_txsoft *ts;
while ((ts = SIMPLEQ_FIRST(&tsb->tsb_dirtyq)) != NULL) {
rtw_txsoft_release(dmat, ic, ts);
SIMPLEQ_REMOVE_HEAD(&tsb->tsb_dirtyq, ts_q);
SIMPLEQ_INSERT_TAIL(&tsb->tsb_freeq, ts, ts_q);
}
}
void
rtw_collect_txpkt(struct rtw_softc *sc, struct rtw_txdesc_blk *tdb,
struct rtw_txsoft *ts, int ndesc)
{
uint32_t hstat;
int data_retry, rts_retry;
struct rtw_txdesc *tdn;
const char *condstring;
rtw_txsoft_release(sc->sc_dmat, &sc->sc_ic, ts);
tdb->tdb_nfree += ndesc;
tdn = &tdb->tdb_desc[ts->ts_last];
hstat = letoh32(tdn->td_stat);
rts_retry = MASK_AND_RSHIFT(hstat, RTW_TXSTAT_RTSRETRY_MASK);
data_retry = MASK_AND_RSHIFT(hstat, RTW_TXSTAT_DRC_MASK);
sc->sc_if.if_collisions += rts_retry + data_retry;
if ((hstat & RTW_TXSTAT_TOK) != 0)
condstring = "ok";
else {
sc->sc_if.if_oerrors++;
condstring = "error";
}
DPRINTF(sc, RTW_DEBUG_XMIT_DESC,
("%s: ts %p txdesc[%d, %d] %s tries rts %u data %u\n",
sc->sc_dev.dv_xname, ts, ts->ts_first, ts->ts_last,
condstring, rts_retry, data_retry));
}
/* Collect transmitted packets. */
void
rtw_collect_txring(struct rtw_softc *sc, struct rtw_txsoft_blk *tsb,
struct rtw_txdesc_blk *tdb)
{
int ndesc;
struct rtw_txsoft *ts;
while ((ts = SIMPLEQ_FIRST(&tsb->tsb_dirtyq)) != NULL) {
ndesc = 1 + ts->ts_last - ts->ts_first;
if (ts->ts_last < ts->ts_first)
ndesc += tdb->tdb_ndesc;
KASSERT(ndesc > 0);
rtw_txdescs_sync(tdb, ts->ts_first, ndesc,
BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
if ((tdb->tdb_desc[ts->ts_last].td_stat &
htole32(RTW_TXSTAT_OWN)) != 0)
break;
if (&sc->sc_txdesc_blk[RTW_TXPRIBCN] == tdb) {
RTW_DPRINTF(RTW_DEBUG_BEACON,
("%s: collected beacon\n", __func__));
}
rtw_collect_txpkt(sc, tdb, ts, ndesc);
SIMPLEQ_REMOVE_HEAD(&tsb->tsb_dirtyq, ts_q);
SIMPLEQ_INSERT_TAIL(&tsb->tsb_freeq, ts, ts_q);
sc->sc_if.if_flags &= ~IFF_OACTIVE;
}
if (ts == NULL)
tsb->tsb_tx_timer = 0;
}
void
rtw_intr_tx(struct rtw_softc *sc, u_int16_t isr)
{
int pri;
struct rtw_txsoft_blk *tsb;
struct rtw_txdesc_blk *tdb;
for (pri = 0; pri < RTW_NTXPRI; pri++) {
tsb = &sc->sc_txsoft_blk[pri];
tdb = &sc->sc_txdesc_blk[pri];
rtw_collect_txring(sc, tsb, tdb);
if ((isr & RTW_INTR_TX) != 0)
rtw_start(&sc->sc_if);
}
/* TBD */
return;
}
void
rtw_intr_beacon(struct rtw_softc *sc, u_int16_t isr)
{
/* TBD */
return;
}
void
rtw_intr_atim(struct rtw_softc *sc)
{
/* TBD */
return;
}
#ifdef RTW_DEBUG
void
rtw_dump_rings(struct rtw_softc *sc)
{
struct rtw_txdesc_blk *tdb;
struct rtw_rxdesc *rd;
struct rtw_rxdesc_blk *rdb;
int desc, pri;
if ((rtw_debug & RTW_DEBUG_IO_KICK) == 0)
return;
for (pri = 0; pri < RTW_NTXPRI; pri++) {
tdb = &sc->sc_txdesc_blk[pri];
printf("%s: txpri %d ndesc %d nfree %d\n", __func__, pri,
tdb->tdb_ndesc, tdb->tdb_nfree);
for (desc = 0; desc < tdb->tdb_ndesc; desc++)
rtw_print_txdesc(sc, ".", NULL, tdb, desc);
}
rdb = &sc->sc_rxdesc_blk;
for (desc = 0; desc < RTW_RXQLEN; desc++) {
rd = &rdb->rdb_desc[desc];
printf("%s: %sctl %08x rsvd0/rssi %08x buf/tsftl %08x "
"rsvd1/tsfth %08x\n", __func__,
(desc >= rdb->rdb_ndesc) ? "UNUSED " : "",
letoh32(rd->rd_ctl), letoh32(rd->rd_rssi),
letoh32(rd->rd_buf), letoh32(rd->rd_tsfth));
}
}
#endif /* RTW_DEBUG */
void
rtw_hwring_setup(struct rtw_softc *sc)
{
struct rtw_regs *regs = &sc->sc_regs;
RTW_WRITE(regs, RTW_RDSAR, RTW_RING_BASE(sc, hd_rx));
RTW_WRITE(regs, RTW_TLPDA, RTW_RING_BASE(sc, hd_txlo));
RTW_WRITE(regs, RTW_TNPDA, RTW_RING_BASE(sc, hd_txmd));
RTW_WRITE(regs, RTW_THPDA, RTW_RING_BASE(sc, hd_txhi));
RTW_WRITE(regs, RTW_TBDA, RTW_RING_BASE(sc, hd_bcn));
RTW_SYNC(regs, RTW_TLPDA, RTW_RDSAR);
#if 0
RTW_DPRINTF(RTW_DEBUG_XMIT_DESC,
("%s: reg[TLPDA] <- %\n", __func__,
(u_int *)RTW_RING_BASE(sc, hd_txlo)));
RTW_DPRINTF(RTW_DEBUG_XMIT_DESC,
("%s: reg[TNPDA] <- %\n", __func__,
(u_int *)RTW_RING_BASE(sc, hd_txmd)));
RTW_DPRINTF(RTW_DEBUG_XMIT_DESC,
("%s: reg[THPDA] <- %\n", __func__,
(u_int *)RTW_RING_BASE(sc, hd_txhi)));
RTW_DPRINTF(RTW_DEBUG_XMIT_DESC,
("%s: reg[TBDA] <- %\n", __func__,
(u_int *)RTW_RING_BASE(sc, hd_bcn)));
RTW_DPRINTF(RTW_DEBUG_RECV_DESC,
("%s: reg[RDSAR] <- %\n", __func__,
(u_int *)RTW_RING_BASE(sc, hd_rx)));
#endif
}
int
rtw_swring_setup(struct rtw_softc *sc)
{
int rc, pri;
struct rtw_rxdesc_blk *rdb;
struct rtw_txdesc_blk *tdb;
rtw_txdesc_blk_init_all(&sc->sc_txdesc_blk[0]);
rtw_txsoft_blk_init_all(&sc->sc_txsoft_blk[0]);
rdb = &sc->sc_rxdesc_blk;
if ((rc = rtw_rxsoft_init_all(sc->sc_dmat, sc->sc_rxsoft,
&rdb->rdb_ndesc, sc->sc_dev.dv_xname)) != 0 &&
rdb->rdb_ndesc == 0) {
printf("%s: could not allocate rx buffers\n",
sc->sc_dev.dv_xname);
return rc;
}
rdb = &sc->sc_rxdesc_blk;
rtw_rxdescs_sync(rdb, 0, rdb->rdb_ndesc,
BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
rtw_rxdesc_init_all(rdb, sc->sc_rxsoft, 1);
tdb = &sc->sc_txdesc_blk[0];
for (pri = 0; pri < RTW_NTXPRI; pri++) {
rtw_txdescs_sync(&tdb[pri], 0, tdb[pri].tdb_ndesc,
BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
}
return 0;
}
void
rtw_txdesc_blk_reset(struct rtw_txdesc_blk *tdb)
{
int i;
bzero(tdb->tdb_desc, sizeof(tdb->tdb_desc[0]) * tdb->tdb_ndesc);
for (i = 0; i < tdb->tdb_ndesc; i++)
tdb->tdb_desc[i].td_next = htole32(RTW_NEXT_DESC(tdb, i));
tdb->tdb_nfree = tdb->tdb_ndesc;
tdb->tdb_next = 0;
}
void
rtw_txdescs_reset(struct rtw_softc *sc)
{
int pri;
struct rtw_txdesc_blk *tdb;
for (pri = 0; pri < RTW_NTXPRI; pri++) {
tdb = &sc->sc_txdesc_blk[pri];
rtw_txsofts_release(sc->sc_dmat, &sc->sc_ic,
&sc->sc_txsoft_blk[pri]);
rtw_txdesc_blk_reset(tdb);
rtw_txdescs_sync(tdb, 0, tdb->tdb_ndesc,
BUS_DMASYNC_PREWRITE|BUS_DMASYNC_PREREAD);
}
}
void
rtw_rxdescs_reset(struct rtw_softc *sc)
{
rtw_rxdesc_init_all(&sc->sc_rxdesc_blk, &sc->sc_rxsoft[0], 1);
}
void
rtw_intr_ioerror(struct rtw_softc *sc, u_int16_t isr)
{
struct rtw_regs *regs = &sc->sc_regs;
#ifdef RTW_DEBUG
if ((isr & RTW_INTR_TXFOVW) != 0)
printf("%s: tx fifo overflow\n", sc->sc_dev.dv_xname);
#endif
if ((isr & (RTW_INTR_RDU|RTW_INTR_RXFOVW)) == 0)
return;
RTW_DPRINTF(RTW_DEBUG_BUGS, ("%s: restarting xmit/recv, isr %"
"\n", sc->sc_dev.dv_xname, isr));
#ifdef RTW_DEBUG
rtw_dump_rings(sc);
#endif /* RTW_DEBUG */
rtw_io_enable(regs, RTW_CR_RE | RTW_CR_TE, 0);
/* Collect rx'd packets. Refresh rx buffers. */
rtw_intr_rx(sc, 0);
/* Collect tx'd packets. */
rtw_intr_tx(sc, 0);
RTW_WRITE16(regs, RTW_IMR, 0);
RTW_SYNC(regs, RTW_IMR, RTW_IMR);
rtw_chip_reset1(regs, sc->sc_dev.dv_xname);
rtw_rxdescs_reset(sc);
rtw_txdescs_reset(sc);
rtw_hwring_setup(sc);
#ifdef RTW_DEBUG
rtw_dump_rings(sc);
#endif /* RTW_DEBUG */
RTW_WRITE16(regs, RTW_IMR, sc->sc_inten);
RTW_SYNC(regs, RTW_IMR, RTW_IMR);
rtw_io_enable(regs, RTW_CR_RE | RTW_CR_TE, 1);
sc->sc_if.if_flags &= ~IFF_OACTIVE;
}
void
rtw_suspend_ticks(struct rtw_softc *sc)
{
RTW_DPRINTF(RTW_DEBUG_TIMEOUT,
("%s: suspending ticks\n", sc->sc_dev.dv_xname));
sc->sc_do_tick = 0;
}
void
rtw_resume_ticks(struct rtw_softc *sc)
{
u_int32_t tsftrl0, tsftrl1, next_tick;
tsftrl0 = RTW_READ(&sc->sc_regs, RTW_TSFTRL);
tsftrl1 = RTW_READ(&sc->sc_regs, RTW_TSFTRL);
next_tick = tsftrl1 + 1000000;
RTW_WRITE(&sc->sc_regs, RTW_TINT, next_tick);
sc->sc_do_tick = 1;
RTW_DPRINTF(RTW_DEBUG_TIMEOUT,
("%s: resume ticks delta %#08x now %#08x next %#08x\n",
sc->sc_dev.dv_xname, tsftrl1 - tsftrl0, tsftrl1, next_tick));
}
void
rtw_intr_timeout(struct rtw_softc *sc)
{
RTW_DPRINTF(RTW_DEBUG_TIMEOUT, ("%s: timeout\n", sc->sc_dev.dv_xname));
if (sc->sc_do_tick)
rtw_resume_ticks(sc);
return;
}
int
rtw_intr(void *arg)
{
int i;
struct rtw_softc *sc = arg;
struct rtw_regs *regs = &sc->sc_regs;
u_int16_t isr;
/*
* If the interface isn't running, the interrupt couldn't
* possibly have come from us.
*/
if ((sc->sc_flags & RTW_F_ENABLED) == 0 ||
(sc->sc_if.if_flags & IFF_RUNNING) == 0 ||
(sc->sc_dev.dv_flags & DVF_ACTIVE) == 0) {
RTW_DPRINTF(RTW_DEBUG_INTR, ("%s: stray interrupt\n",
sc->sc_dev.dv_xname));
return (0);
}
for (i = 0; i < 10; i++) {
isr = RTW_READ16(regs, RTW_ISR);
RTW_WRITE16(regs, RTW_ISR, isr);
RTW_WBR(regs, RTW_ISR, RTW_ISR);
if (sc->sc_intr_ack != NULL)
(*sc->sc_intr_ack)(regs);
if (isr == 0)
break;
#ifdef RTW_DEBUG
#define PRINTINTR(flag) do { \
if ((isr & flag) != 0) { \
printf("%s" #flag, delim); \
delim = ","; \
} \
} while (0)
if ((rtw_debug & RTW_DEBUG_INTR) != 0 && isr != 0) {
const char *delim = "<";
printf("%s: reg[ISR] = %x", sc->sc_dev.dv_xname, isr);
PRINTINTR(RTW_INTR_TXFOVW);
PRINTINTR(RTW_INTR_TIMEOUT);
PRINTINTR(RTW_INTR_BCNINT);
PRINTINTR(RTW_INTR_ATIMINT);
PRINTINTR(RTW_INTR_TBDER);
PRINTINTR(RTW_INTR_TBDOK);
PRINTINTR(RTW_INTR_THPDER);
PRINTINTR(RTW_INTR_THPDOK);
PRINTINTR(RTW_INTR_TNPDER);
PRINTINTR(RTW_INTR_TNPDOK);
PRINTINTR(RTW_INTR_RXFOVW);
PRINTINTR(RTW_INTR_RDU);
PRINTINTR(RTW_INTR_TLPDER);
PRINTINTR(RTW_INTR_TLPDOK);
PRINTINTR(RTW_INTR_RER);
PRINTINTR(RTW_INTR_ROK);
printf(">\n");
}
#undef PRINTINTR
#endif /* RTW_DEBUG */
if ((isr & RTW_INTR_RX) != 0)
rtw_intr_rx(sc, isr & RTW_INTR_RX);
if ((isr & RTW_INTR_TX) != 0)
rtw_intr_tx(sc, isr & RTW_INTR_TX);
if ((isr & RTW_INTR_BEACON) != 0)
rtw_intr_beacon(sc, isr & RTW_INTR_BEACON);
if ((isr & RTW_INTR_ATIMINT) != 0)
rtw_intr_atim(sc);
if ((isr & RTW_INTR_IOERROR) != 0)
rtw_intr_ioerror(sc, isr & RTW_INTR_IOERROR);
if ((isr & RTW_INTR_TIMEOUT) != 0)
rtw_intr_timeout(sc);
}
return 1;
}
/* Must be called at splnet. */
void
rtw_stop(struct ifnet *ifp, int disable)
{
int pri;
struct rtw_softc *sc = (struct rtw_softc *)ifp->if_softc;
struct ieee80211com *ic = &sc->sc_ic;
struct rtw_regs *regs = &sc->sc_regs;
if ((sc->sc_flags & RTW_F_ENABLED) == 0)
return;
rtw_suspend_ticks(sc);
ieee80211_new_state(ic, IEEE80211_S_INIT, -1);
if ((sc->sc_flags & RTW_F_INVALID) == 0) {
/* Disable interrupts. */
RTW_WRITE16(regs, RTW_IMR, 0);
RTW_WBW(regs, RTW_TPPOLL, RTW_IMR);
/* Stop the transmit and receive processes. First stop DMA,
* then disable receiver and transmitter.
*/
RTW_WRITE8(regs, RTW_TPPOLL, RTW_TPPOLL_SALL);
RTW_SYNC(regs, RTW_TPPOLL, RTW_IMR);
rtw_io_enable(&sc->sc_regs, RTW_CR_RE|RTW_CR_TE, 0);
}
for (pri = 0; pri < RTW_NTXPRI; pri++) {
rtw_txsofts_release(sc->sc_dmat, &sc->sc_ic,
&sc->sc_txsoft_blk[pri]);
}
rtw_rxbufs_release(sc->sc_dmat, &sc->sc_rxsoft[0]);
if (disable)
rtw_disable(sc);
/* Mark the interface as not running. Cancel the watchdog timer. */
ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE);
ifp->if_timer = 0;
return;
}
const char *
rtw_pwrstate_string(enum rtw_pwrstate power)
{
switch (power) {
case RTW_ON:
return "on";
case RTW_SLEEP:
return "sleep";
case RTW_OFF:
return "off";
default:
return "unknown";
}
}
/* XXX For Maxim, I am using the RFMD settings gleaned from the
* reference driver, plus a magic Maxim "ON" value that comes from
* the Realtek document "Windows PG for Rtl8180."
*/
void
rtw_maxim_pwrstate(struct rtw_regs *regs, enum rtw_pwrstate power,
int before_rf, int digphy)
{
u_int32_t anaparm;
anaparm = RTW_READ(regs, RTW_ANAPARM);
anaparm &= ~(RTW_ANAPARM_RFPOW_MASK | RTW_ANAPARM_TXDACOFF);
switch (power) {
case RTW_OFF:
if (before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_MAXIM_OFF;
anaparm |= RTW_ANAPARM_TXDACOFF;
break;
case RTW_SLEEP:
if (!before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_MAXIM_SLEEP;
anaparm |= RTW_ANAPARM_TXDACOFF;
break;
case RTW_ON:
if (!before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_MAXIM_ON;
break;
}
RTW_DPRINTF(RTW_DEBUG_PWR,
("%s: power state %s, %s RF, reg[ANAPARM] <- %08x\n",
__func__, rtw_pwrstate_string(power),
(before_rf) ? "before" : "after", anaparm));
RTW_WRITE(regs, RTW_ANAPARM, anaparm);
RTW_SYNC(regs, RTW_ANAPARM, RTW_ANAPARM);
}
/* XXX I am using the RFMD settings gleaned from the reference
* driver. They agree
*/
void
rtw_rfmd_pwrstate(struct rtw_regs *regs, enum rtw_pwrstate power,
int before_rf, int digphy)
{
u_int32_t anaparm;
anaparm = RTW_READ(regs, RTW_ANAPARM);
anaparm &= ~(RTW_ANAPARM_RFPOW_MASK | RTW_ANAPARM_TXDACOFF);
switch (power) {
case RTW_OFF:
if (before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_RFMD_OFF;
anaparm |= RTW_ANAPARM_TXDACOFF;
break;
case RTW_SLEEP:
if (!before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_RFMD_SLEEP;
anaparm |= RTW_ANAPARM_TXDACOFF;
break;
case RTW_ON:
if (!before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_RFMD_ON;
break;
}
RTW_DPRINTF(RTW_DEBUG_PWR,
("%s: power state %s, %s RF, reg[ANAPARM] <- %08x\n",
__func__, rtw_pwrstate_string(power),
(before_rf) ? "before" : "after", anaparm));
RTW_WRITE(regs, RTW_ANAPARM, anaparm);
RTW_SYNC(regs, RTW_ANAPARM, RTW_ANAPARM);
}
void
rtw_philips_pwrstate(struct rtw_regs *regs, enum rtw_pwrstate power,
int before_rf, int digphy)
{
u_int32_t anaparm;
anaparm = RTW_READ(regs, RTW_ANAPARM);
anaparm &= ~(RTW_ANAPARM_RFPOW_MASK | RTW_ANAPARM_TXDACOFF);
switch (power) {
case RTW_OFF:
if (before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_PHILIPS_OFF;
anaparm |= RTW_ANAPARM_TXDACOFF;
break;
case RTW_SLEEP:
if (!before_rf)
return;
anaparm |= RTW_ANAPARM_RFPOW_PHILIPS_SLEEP;
anaparm |= RTW_ANAPARM_TXDACOFF;
break;
case RTW_ON:
if (!before_rf)
return;
if (digphy) {
anaparm |= RTW_ANAPARM_RFPOW_DIG_PHILIPS_ON;
/* XXX guess */
anaparm |= RTW_ANAPARM_TXDACOFF;
} else
anaparm |= RTW_ANAPARM_RFPOW_ANA_PHILIPS_ON;
break;
}
RTW_DPRINTF(RTW_DEBUG_PWR,
("%s: power state %s, %s RF, reg[ANAPARM] <- %08x\n",
__func__, rtw_pwrstate_string(power),
(before_rf) ? "before" : "after", anaparm));
RTW_WRITE(regs, RTW_ANAPARM, anaparm);
RTW_SYNC(regs, RTW_ANAPARM, RTW_ANAPARM);
}
void
rtw_rtl_pwrstate(struct rtw_regs *regs, enum rtw_pwrstate power,
int before_rf, int digphy)
{
/* empty */
}
void
rtw_pwrstate0(struct rtw_softc *sc, enum rtw_pwrstate power, int before_rf,
int digphy)
{
struct rtw_regs *regs = &sc->sc_regs;
rtw_set_access(regs, RTW_ACCESS_ANAPARM);
(*sc->sc_pwrstate_cb)(regs, power, before_rf, digphy);
rtw_set_access(regs, RTW_ACCESS_NONE);
return;
}
int
rtw_pwrstate(struct rtw_softc *sc, enum rtw_pwrstate power)
{
int rc;
RTW_DPRINTF(RTW_DEBUG_PWR,
("%s: %s->%s\n", __func__,
rtw_pwrstate_string(sc->sc_pwrstate), rtw_pwrstate_string(power)));
if (sc->sc_pwrstate == power)
return 0;
rtw_pwrstate0(sc, power, 1, sc->sc_flags & RTW_F_DIGPHY);
rc = rtw_rf_pwrstate(sc, power);
rtw_pwrstate0(sc, power, 0, sc->sc_flags & RTW_F_DIGPHY);
switch (power) {
case RTW_ON:
/* TBD set LEDs */
break;
case RTW_SLEEP:
/* TBD */
break;
case RTW_OFF:
/* TBD */
break;
}
if (rc == 0)
sc->sc_pwrstate = power;
else
sc->sc_pwrstate = RTW_OFF;
return rc;
}
int
rtw_tune(struct rtw_softc *sc)
{
struct ieee80211com *ic = &sc->sc_ic;
u_int chan, idx;
u_int8_t txpower;
int rc;
KASSERT(ic->ic_bss->ni_chan != NULL);
chan = ieee80211_chan2ieee(ic, ic->ic_bss->ni_chan);
if (chan == IEEE80211_CHAN_ANY)
panic("%s: chan == IEEE80211_CHAN_ANY", __func__);
if (chan == sc->sc_cur_chan) {
RTW_DPRINTF(RTW_DEBUG_TUNE,
("%s: already tuned chan #%d\n", __func__, chan));
return 0;
}
rtw_suspend_ticks(sc);
rtw_io_enable(&sc->sc_regs, RTW_CR_RE | RTW_CR_TE, 0);
/* TBD wait for Tx to complete */
KASSERT((sc->sc_flags & RTW_F_ENABLED) != 0);
idx = RTW_SR_TXPOWER1 +
ieee80211_chan2ieee(ic, ic->ic_bss->ni_chan) - 1;
KASSERT2(idx >= RTW_SR_TXPOWER1 && idx <= RTW_SR_TXPOWER14,
("%s: channel %d out of range", __func__,
idx - RTW_SR_TXPOWER1 + 1));
txpower = RTW_SR_GET(&sc->sc_srom, idx);
if ((rc = rtw_phy_init(sc)) != 0) {
/* XXX condition on powersaving */
printf("%s: phy init failed\n", sc->sc_dev.dv_xname);
}
sc->sc_cur_chan = chan;
rtw_io_enable(&sc->sc_regs, RTW_CR_RE | RTW_CR_TE, 1);
rtw_resume_ticks(sc);
return rc;
}
void
rtw_disable(struct rtw_softc *sc)
{
int rc;
if ((sc->sc_flags & RTW_F_ENABLED) == 0)
return;
/* turn off PHY */
if ((sc->sc_flags & RTW_F_INVALID) == 0 &&
(rc = rtw_pwrstate(sc, RTW_OFF)) != 0) {
printf("%s: failed to turn off PHY (%d)\n",
sc->sc_dev.dv_xname, rc);
}
if (sc->sc_disable != NULL)
(*sc->sc_disable)(sc);
sc->sc_flags &= ~RTW_F_ENABLED;
}
int
rtw_enable(struct rtw_softc *sc)
{
if ((sc->sc_flags & RTW_F_ENABLED) == 0) {
if (sc->sc_enable != NULL && (*sc->sc_enable)(sc) != 0) {
printf("%s: device enable failed\n",
sc->sc_dev.dv_xname);
return (EIO);
}
sc->sc_flags |= RTW_F_ENABLED;
}
return (0);
}
void
rtw_transmit_config(struct rtw_softc *sc)
{
struct rtw_regs *regs = &sc->sc_regs;
u_int32_t tcr;
tcr = RTW_READ(regs, RTW_TCR);
tcr |= RTW_TCR_CWMIN;
tcr &= ~RTW_TCR_MXDMA_MASK;
tcr |= RTW_TCR_MXDMA_256;
if ((sc->sc_flags & RTW_F_RTL8185) == 0)
tcr |= RTW8180_TCR_SAT; /* send ACK as fast as possible */
tcr &= ~RTW_TCR_LBK_MASK;
tcr |= RTW_TCR_LBK_NORMAL; /* normal operating mode */
/* set short/long retry limits */
tcr &= ~(RTW_TCR_SRL_MASK|RTW_TCR_LRL_MASK);
tcr |= LSHIFT(4, RTW_TCR_SRL_MASK) | LSHIFT(4, RTW_TCR_LRL_MASK);
tcr &= ~RTW_TCR_CRC; /* NIC appends CRC32 */
RTW_WRITE(regs, RTW_TCR, tcr);
RTW_SYNC(regs, RTW_TCR, RTW_TCR);
}
void
rtw_enable_interrupts(struct rtw_softc *sc)
{
struct rtw_regs *regs = &sc->sc_regs;
sc->sc_inten = RTW_INTR_RX|RTW_INTR_TX|RTW_INTR_BEACON|RTW_INTR_ATIMINT;
sc->sc_inten |= RTW_INTR_IOERROR|RTW_INTR_TIMEOUT;
RTW_WRITE16(regs, RTW_IMR, sc->sc_inten);
RTW_WBW(regs, RTW_IMR, RTW_ISR);
RTW_WRITE16(regs, RTW_ISR, 0xffff);
RTW_SYNC(regs, RTW_IMR, RTW_ISR);
/* XXX necessary? */
if (sc->sc_intr_ack != NULL)
(*sc->sc_intr_ack)(regs);
}
void
rtw_set_nettype(struct rtw_softc *sc, enum ieee80211_opmode opmode)
{
uint8_t msr;
/* I'm guessing that MSR is protected as CONFIG[0123] are. */
rtw_set_access(&sc->sc_regs, RTW_ACCESS_CONFIG);
msr = RTW_READ8(&sc->sc_regs, RTW_MSR) & ~RTW_MSR_NETYPE_MASK;
switch (opmode) {
case IEEE80211_M_AHDEMO:
case IEEE80211_M_IBSS:
msr |= RTW_MSR_NETYPE_ADHOC_OK;
break;
case IEEE80211_M_HOSTAP:
msr |= RTW_MSR_NETYPE_AP_OK;
break;
case IEEE80211_M_MONITOR:
/* XXX */
msr |= RTW_MSR_NETYPE_NOLINK;
break;
case IEEE80211_M_STA:
msr |= RTW_MSR_NETYPE_INFRA_OK;
break;
}
RTW_WRITE8(&sc->sc_regs, RTW_MSR, msr);
rtw_set_access(&sc->sc_regs, RTW_ACCESS_NONE);
}
void
rtw_pktfilt_load(struct rtw_softc *sc)
{
struct rtw_regs *regs = &sc->sc_regs;
struct ieee80211com *ic = &sc->sc_ic;
struct arpcom *ec = &ic->ic_ac;
struct ifnet *ifp = &sc->sc_ic.ic_if;
int hash;
u_int32_t hashes[2] = { 0, 0 };
struct ether_multi *enm;
struct ether_multistep step;
/* XXX might be necessary to stop Rx/Tx engines while setting filters */
sc->sc_rcr &= ~RTW_RCR_PKTFILTER_MASK;
sc->sc_rcr &= ~(RTW_RCR_MXDMA_MASK | RTW8180_RCR_RXFTH_MASK);
sc->sc_rcr |= RTW_RCR_PKTFILTER_DEFAULT;
/* MAC auto-reset PHY (huh?) */
sc->sc_rcr |= RTW_RCR_ENMARP;
/* DMA whole Rx packets, only. Set Tx DMA burst size to 1024 bytes. */
sc->sc_rcr |= RTW_RCR_MXDMA_1024 | RTW8180_RCR_RXFTH_WHOLE;
switch (ic->ic_opmode) {
case IEEE80211_M_MONITOR:
sc->sc_rcr |= RTW_RCR_MONITOR;
break;
case IEEE80211_M_AHDEMO:
case IEEE80211_M_IBSS:
/* receive broadcasts in our BSS */
sc->sc_rcr |= RTW_RCR_ADD3;
break;
default:
break;
}
ifp->if_flags &= ~IFF_ALLMULTI;
/* XXX accept all broadcast if scanning */
if ((ifp->if_flags & IFF_BROADCAST) != 0)
sc->sc_rcr |= RTW_RCR_AB; /* accept all broadcast */
if (ifp->if_flags & IFF_PROMISC) {
sc->sc_rcr |= RTW_RCR_AB; /* accept all broadcast */
allmulti:
ifp->if_flags |= IFF_ALLMULTI;
goto setit;
}
/*
* Program the 64-bit multicast hash filter.
*/
ETHER_FIRST_MULTI(step, ec, enm);
while (enm != NULL) {
/* XXX */
if (bcmp(enm->enm_addrlo, enm->enm_addrhi,
ETHER_ADDR_LEN) != 0)
goto allmulti;
hash = ether_crc32_be((enm->enm_addrlo),
IEEE80211_ADDR_LEN) >> 26;
hashes[hash >> 5] |= (1 << (hash & 0x1f));
sc->sc_rcr |= RTW_RCR_AM;
ETHER_NEXT_MULTI(step, enm);
}
/* all bits set => hash is useless */
if (~(hashes[0] & hashes[1]) == 0)
goto allmulti;
setit:
if (ifp->if_flags & IFF_ALLMULTI) {
sc->sc_rcr |= RTW_RCR_AM; /* accept all multicast */
hashes[0] = hashes[1] = 0xffffffff;
}
RTW_WRITE(regs, RTW_MAR0, hashes[0]);
RTW_WRITE(regs, RTW_MAR1, hashes[1]);
RTW_WRITE(regs, RTW_RCR, sc->sc_rcr);
RTW_SYNC(regs, RTW_MAR0, RTW_RCR); /* RTW_MAR0 < RTW_MAR1 < RTW_RCR */
DPRINTF(sc, RTW_DEBUG_PKTFILT,
("%s: RTW_MAR0 %08x RTW_MAR1 %08x RTW_RCR %08x\n",
sc->sc_dev.dv_xname, RTW_READ(regs, RTW_MAR0),
RTW_READ(regs, RTW_MAR1), RTW_READ(regs, RTW_RCR)));
return;
}
/* Must be called at splnet. */
int
rtw_init(struct ifnet *ifp)
{
struct rtw_softc *sc = (struct rtw_softc *)ifp->if_softc;
struct ieee80211com *ic = &sc->sc_ic;
struct rtw_regs *regs = &sc->sc_regs;
int rc = 0;
if ((rc = rtw_enable(sc)) != 0)
goto out;
/* Cancel pending I/O and reset. */
rtw_stop(ifp, 0);
ic->ic_bss->ni_chan = ic->ic_ibss_chan;
DPRINTF(sc, RTW_DEBUG_TUNE, ("%s: channel %d freq %d flags 0x%04x\n",
__func__, ieee80211_chan2ieee(ic, ic->ic_bss->ni_chan),
ic->ic_bss->ni_chan->ic_freq, ic->ic_bss->ni_chan->ic_flags));
if ((rc = rtw_pwrstate(sc, RTW_OFF)) != 0)
goto out;
if ((rc = rtw_swring_setup(sc)) != 0)
goto out;
rtw_transmit_config(sc);
rtw_set_access(regs, RTW_ACCESS_CONFIG);
RTW_WRITE8(regs, RTW_MSR, 0x0); /* no link */
RTW_WBW(regs, RTW_MSR, RTW_BRSR);
/* long PLCP header, 1Mb/2Mb basic rate */
if (sc->sc_flags & RTW_F_RTL8185)
RTW_WRITE16(regs, RTW_BRSR, RTW8185_BRSR_MBR_2MBPS);
else
RTW_WRITE16(regs, RTW_BRSR, RTW8180_BRSR_MBR_2MBPS);
RTW_SYNC(regs, RTW_BRSR, RTW_BRSR);
rtw_set_access(regs, RTW_ACCESS_ANAPARM);
rtw_set_access(regs, RTW_ACCESS_NONE);
/* XXX from reference sources */
RTW_WRITE(regs, RTW_FEMR, 0xffff);
RTW_SYNC(regs, RTW_FEMR, RTW_FEMR);
rtw_set_rfprog(regs, sc->sc_rfchipid, sc->sc_dev.dv_xname);
RTW_WRITE8(regs, RTW_PHYDELAY, sc->sc_phydelay);
/* from Linux driver */
RTW_WRITE8(regs, RTW_CRCOUNT, RTW_CRCOUNT_MAGIC);
RTW_SYNC(regs, RTW_PHYDELAY, RTW_CRCOUNT);
rtw_enable_interrupts(sc);
rtw_pktfilt_load(sc);
rtw_hwring_setup(sc);
rtw_io_enable(regs, RTW_CR_RE|RTW_CR_TE, 1);
ifp->if_flags |= IFF_RUNNING;
ic->ic_state = IEEE80211_S_INIT;
RTW_WRITE16(regs, RTW_BSSID16, 0x0);
RTW_WRITE(regs, RTW_BSSID32, 0x0);
rtw_resume_ticks(sc);
rtw_set_nettype(sc, IEEE80211_M_MONITOR);
if (ic->ic_opmode == IEEE80211_M_MONITOR)
return ieee80211_new_state(ic, IEEE80211_S_RUN, -1);
else
return ieee80211_new_state(ic, IEEE80211_S_SCAN, -1);
out:
printf("%s: interface not running\n", sc->sc_dev.dv_xname);
return rc;
}
void
rtw_led_init(struct rtw_regs *regs)
{
u_int8_t cfg0, cfg1;
rtw_set_access(regs, RTW_ACCESS_CONFIG);
cfg0 = RTW_READ8(regs, RTW_CONFIG0);
cfg0 |= RTW8180_CONFIG0_LEDGPOEN;
RTW_WRITE8(regs, RTW_CONFIG0, cfg0);
cfg1 = RTW_READ8(regs, RTW_CONFIG1);
RTW_DPRINTF(RTW_DEBUG_LED,
("%s: read % from reg[CONFIG1]\n", __func__, cfg1));
cfg1 &= ~RTW_CONFIG1_LEDS_MASK;
cfg1 |= RTW_CONFIG1_LEDS_TX_RX;
RTW_WRITE8(regs, RTW_CONFIG1, cfg1);
rtw_set_access(regs, RTW_ACCESS_NONE);
}
/*
* IEEE80211_S_INIT: LED1 off
*
* IEEE80211_S_AUTH,
* IEEE80211_S_ASSOC,
* IEEE80211_S_SCAN: LED1 blinks @ 1 Hz, blinks at 5Hz for tx/rx
*
* IEEE80211_S_RUN: LED1 on, blinks @ 5Hz for tx/rx
*/
void
rtw_led_newstate(struct rtw_softc *sc, enum ieee80211_state nstate)
{
struct rtw_led_state *ls;
ls = &sc->sc_led_state;
switch (nstate) {
case IEEE80211_S_INIT:
rtw_led_init(&sc->sc_regs);
timeout_del(&ls->ls_slow_ch);
timeout_del(&ls->ls_fast_ch);
ls->ls_slowblink = 0;
ls->ls_actblink = 0;
ls->ls_default = 0;
break;
case IEEE80211_S_SCAN:
timeout_add(&ls->ls_slow_ch, RTW_LED_SLOW_TICKS);
timeout_add(&ls->ls_fast_ch, RTW_LED_FAST_TICKS);
/*FALLTHROUGH*/
case IEEE80211_S_AUTH:
case IEEE80211_S_ASSOC:
ls->ls_default = RTW_LED1;
ls->ls_actblink = RTW_LED1;
ls->ls_slowblink = RTW_LED1;
break;
case IEEE80211_S_RUN:
ls->ls_slowblink = 0;
break;
}
rtw_led_set(ls, &sc->sc_regs, sc->sc_hwverid);
}
void
rtw_led_set(struct rtw_led_state *ls, struct rtw_regs *regs, u_int hwverid)
{
u_int8_t led_condition;
bus_size_t ofs;
u_int8_t mask, newval, val;
led_condition = ls->ls_default;
if (ls->ls_state & RTW_LED_S_SLOW)
led_condition ^= ls->ls_slowblink;
if (ls->ls_state & (RTW_LED_S_RX|RTW_LED_S_TX))
led_condition ^= ls->ls_actblink;
RTW_DPRINTF(RTW_DEBUG_LED,
("%s: LED condition %\n", __func__, led_condition));
switch (hwverid) {
default:
case RTW_TCR_HWVERID_RTL8180F:
ofs = RTW_PSR;
newval = mask = RTW_PSR_LEDGPO0 | RTW_PSR_LEDGPO1;
if (led_condition & RTW_LED0)
newval &= ~RTW_PSR_LEDGPO0;
if (led_condition & RTW_LED1)
newval &= ~RTW_PSR_LEDGPO1;
break;
case RTW_TCR_HWVERID_RTL8180D:
ofs = RTW_9346CR;
mask = RTW_9346CR_EEM_MASK | RTW_9346CR_EEDI | RTW_9346CR_EECS;
newval = RTW_9346CR_EEM_PROGRAM;
if (led_condition & RTW_LED0)
newval |= RTW_9346CR_EEDI;
if (led_condition & RTW_LED1)
newval |= RTW_9346CR_EECS;
break;
}
val = RTW_READ8(regs, ofs);
RTW_DPRINTF(RTW_DEBUG_LED,
("%s: read % from reg[%#02]\n", __func__, val,
(u_int *)ofs));
val &= ~mask;
val |= newval;
RTW_WRITE8(regs, ofs, val);
RTW_DPRINTF(RTW_DEBUG_LED,
("%s: wrote % to reg[%#02]\n", __func__, val,
(u_int *)ofs));
RTW_SYNC(regs, ofs, ofs);
}
void
rtw_led_fastblink(void *arg)
{
int ostate, s;
struct rtw_softc *sc = (struct rtw_softc *)arg;
struct rtw_led_state *ls = &sc->sc_led_state;
s = splnet();
ostate = ls->ls_state;
ls->ls_state ^= ls->ls_event;
if ((ls->ls_event & RTW_LED_S_TX) == 0)
ls->ls_state &= ~RTW_LED_S_TX;
if ((ls->ls_event & RTW_LED_S_RX) == 0)
ls->ls_state &= ~RTW_LED_S_RX;
ls->ls_event = 0;
if (ostate != ls->ls_state)
rtw_led_set(ls, &sc->sc_regs, sc->sc_hwverid);
splx(s);
timeout_add(&ls->ls_fast_ch, RTW_LED_FAST_TICKS);
}
void
rtw_led_slowblink(void *arg)
{
int s;
struct rtw_softc *sc = (struct rtw_softc *)arg;
struct rtw_led_state *ls = &sc->sc_led_state;
s = splnet();
ls->ls_state ^= RTW_LED_S_SLOW;
rtw_led_set(ls, &sc->sc_regs, sc->sc_hwverid);
splx(s);
timeout_add(&ls->ls_slow_ch, RTW_LED_SLOW_TICKS);
}
void
rtw_led_attach(struct rtw_led_state *ls, void *arg)
{
timeout_set(&ls->ls_fast_ch, rtw_led_fastblink, arg);
timeout_set(&ls->ls_slow_ch, rtw_led_slowblink, arg);
}
int
rtw_ioctl(struct ifnet *ifp, u_long cmd, caddr_t data)
{
int rc = 0, s;
struct rtw_softc *sc = ifp->if_softc;
struct ieee80211com *ic = &sc->sc_ic;
struct ifreq *ifr = (struct ifreq *)data;
struct ifaddr *ifa = (struct ifaddr *)data;
s = splnet();
switch (cmd) {
case SIOCSIFMTU:
if (ifr->ifr_mtu > ETHERMTU || ifr->ifr_mtu < ETHERMIN) {
rc = EINVAL;
} else if (ifp->if_mtu != ifr->ifr_mtu) {
ifp->if_mtu = ifr->ifr_mtu;
}
break;
case SIOCSIFADDR:
ifp->if_flags |= IFF_UP;
#ifdef INET
if (ifa->ifa_addr->sa_family == AF_INET) {
arp_ifinit(&ic->ic_ac, ifa);
}
#endif /* INET */
/* FALLTHROUGH */
case SIOCSIFFLAGS:
if ((ifp->if_flags & IFF_UP) != 0) {
if ((sc->sc_flags & RTW_F_ENABLED) != 0) {
rtw_pktfilt_load(sc);
} else
rc = rtw_init(ifp);
} else if ((sc->sc_flags & RTW_F_ENABLED) != 0)
rtw_stop(ifp, 1);
break;
case SIOCADDMULTI:
case SIOCDELMULTI:
if (cmd == SIOCADDMULTI)
rc = ether_addmulti(ifr, &sc->sc_ic.ic_ac);
else
rc = ether_delmulti(ifr, &sc->sc_ic.ic_ac);
if (rc != ENETRESET)
break;
if (ifp->if_flags & IFF_RUNNING)
rtw_pktfilt_load(sc);
rc = 0;
break;
default:
if ((rc = ieee80211_ioctl(ifp, cmd, data)) == ENETRESET) {
if ((sc->sc_flags & RTW_F_ENABLED) != 0)
rc = rtw_init(ifp);
else
rc = 0;
}
break;
}
splx(s);
return rc;
}
/* Select a transmit ring with at least one h/w and s/w descriptor free.
* Return 0 on success, -1 on failure.
*/
int
rtw_txring_choose(struct rtw_softc *sc, struct rtw_txsoft_blk **tsbp,
struct rtw_txdesc_blk **tdbp, int pri)
{
struct rtw_txsoft_blk *tsb;
struct rtw_txdesc_blk *tdb;
KASSERT(pri >= 0 && pri < RTW_NTXPRI);
tsb = &sc->sc_txsoft_blk[pri];
tdb = &sc->sc_txdesc_blk[pri];
if (SIMPLEQ_EMPTY(&tsb->tsb_freeq) || tdb->tdb_nfree == 0) {
*tsbp = NULL;
*tdbp = NULL;
return -1;
}
*tsbp = tsb;
*tdbp = tdb;
return 0;
}
struct mbuf *
rtw_80211_dequeue(struct rtw_softc *sc, struct ifqueue *ifq, int pri,
struct rtw_txsoft_blk **tsbp, struct rtw_txdesc_blk **tdbp,
struct ieee80211_node **nip, short *if_flagsp)
{
struct mbuf *m;
if (IF_IS_EMPTY(ifq))
return NULL;
if (rtw_txring_choose(sc, tsbp, tdbp, pri) == -1) {
*if_flagsp |= IFF_OACTIVE;
return NULL;
}
IF_DEQUEUE(ifq, m);
*nip = (struct ieee80211_node *)m->m_pkthdr.rcvif;
m->m_pkthdr.rcvif = NULL;
return m;
}
/* Point *mp at the next 802.11 frame to transmit. Point *tsbp
* at the driver's selection of transmit control block for the packet.
*/
int
rtw_dequeue(struct ifnet *ifp, struct rtw_txsoft_blk **tsbp,
struct rtw_txdesc_blk **tdbp, struct mbuf **mp,
struct ieee80211_node **nip)
{
struct mbuf *m0;
struct rtw_softc *sc;
short *if_flagsp;
sc = (struct rtw_softc *)ifp->if_softc;
DPRINTF(sc, RTW_DEBUG_XMIT,
("%s: enter %s\n", sc->sc_dev.dv_xname, __func__));
if_flagsp = &ifp->if_flags;
if (sc->sc_ic.ic_state == IEEE80211_S_RUN &&
(*mp = rtw_80211_dequeue(sc, &sc->sc_beaconq, RTW_TXPRIBCN, tsbp,
tdbp, nip, if_flagsp)) != NULL) {
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: dequeue beacon frame\n",
__func__));
return 0;
}
if ((*mp = rtw_80211_dequeue(sc, &sc->sc_ic.ic_mgtq, RTW_TXPRIMD, tsbp,
tdbp, nip, if_flagsp)) != NULL) {
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: dequeue mgt frame\n",
__func__));
return 0;
}
if (sc->sc_ic.ic_state != IEEE80211_S_RUN) {
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: not running\n", __func__));
return 0;
}
if ((*mp = rtw_80211_dequeue(sc, &sc->sc_ic.ic_pwrsaveq, RTW_TXPRIHI,
tsbp, tdbp, nip, if_flagsp)) != NULL) {
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: dequeue pwrsave frame\n",
__func__));
return 0;
}
if (rtw_txring_choose(sc, tsbp, tdbp, RTW_TXPRIMD) == -1) {
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: no descriptor\n", __func__));
*if_flagsp |= IFF_OACTIVE;
return 0;
}
*mp = NULL;
IFQ_DEQUEUE(&ifp->if_snd, m0);
if (m0 == NULL) {
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: no frame/ring ready\n",
__func__));
return 0;
}
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: dequeue data frame\n", __func__));
ifp->if_opackets++;
#if NBPFILTER > 0
if (ifp->if_bpf)
bpf_mtap(ifp->if_bpf, m0);
#endif
if ((m0 = ieee80211_encap(ifp, m0, nip)) == NULL) {
DPRINTF(sc, RTW_DEBUG_XMIT,
("%s: encap error\n", __func__));
ifp->if_oerrors++;
return -1;
}
/* XXX should do WEP in hardware */
if (sc->sc_ic.ic_flags & IEEE80211_F_WEPON) {
if ((m0 = ieee80211_wep_crypt(ifp, m0, 1)) == NULL)
return -1;
}
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: leave\n", __func__));
*mp = m0;
return 0;
}
int
rtw_seg_too_short(bus_dmamap_t dmamap)
{
int i;
for (i = 0; i < dmamap->dm_nsegs; i++) {
if (dmamap->dm_segs[i].ds_len < 4) {
printf("%s: segment too short\n", __func__);
return 1;
}
}
return 0;
}
/* TBD factor with atw_start */
struct mbuf *
rtw_dmamap_load_txbuf(bus_dma_tag_t dmat, bus_dmamap_t dmam, struct mbuf *chain,
u_int ndescfree, short *ifflagsp, const char *dvname)
{
int first, rc;
struct mbuf *m, *m0;
m0 = chain;
/*
* Load the DMA map. Copy and try (once) again if the packet
* didn't fit in the alloted number of segments.
*/
for (first = 1;
((rc = bus_dmamap_load_mbuf(dmat, dmam, m0,
BUS_DMA_WRITE|BUS_DMA_NOWAIT)) != 0 ||
dmam->dm_nsegs > ndescfree || rtw_seg_too_short(dmam)) && first;
first = 0) {
if (rc == 0)
bus_dmamap_unload(dmat, dmam);
MGETHDR(m, M_DONTWAIT, MT_DATA);
if (m == NULL) {
printf("%s: unable to allocate Tx mbuf\n",
dvname);
break;
}
if (m0->m_pkthdr.len > MHLEN) {
MCLGET(m, M_DONTWAIT);
if ((m->m_flags & M_EXT) == 0) {
printf("%s: cannot allocate Tx cluster\n",
dvname);
m_freem(m);
break;
}
}
m_copydata(m0, 0, m0->m_pkthdr.len, mtod(m, caddr_t));
m->m_pkthdr.len = m->m_len = m0->m_pkthdr.len;
m_freem(m0);
m0 = m;
m = NULL;
}
if (rc != 0) {
printf("%s: cannot load Tx buffer, rc = %d\n", dvname, rc);
m_freem(m0);
return NULL;
} else if (rtw_seg_too_short(dmam)) {
printf("%s: cannot load Tx buffer, segment too short\n",
dvname);
bus_dmamap_unload(dmat, dmam);
m_freem(m0);
return NULL;
} else if (dmam->dm_nsegs > ndescfree) {
*ifflagsp |= IFF_OACTIVE;
bus_dmamap_unload(dmat, dmam);
m_freem(m0);
return NULL;
}
return m0;
}
#ifdef RTW_DEBUG
void
rtw_print_txdesc(struct rtw_softc *sc, const char *action,
struct rtw_txsoft *ts, struct rtw_txdesc_blk *tdb, int desc)
{
struct rtw_txdesc *td = &tdb->tdb_desc[desc];
DPRINTF(sc, RTW_DEBUG_XMIT_DESC, ("%s: %p %s txdesc[%d] ctl0 %#08x "
"ctl1 %#08x buf %#08x len %#08x\n",
sc->sc_dev.dv_xname, ts, action, desc,
letoh32(td->td_ctl0),
letoh32(td->td_ctl1), letoh32(td->td_buf),
letoh32(td->td_len)));
}
#endif /* RTW_DEBUG */
void
rtw_start(struct ifnet *ifp)
{
uint8_t tppoll;
int desc, i, lastdesc, npkt, rate;
uint32_t proto_ctl0, ctl0, ctl1;
bus_dmamap_t dmamap;
struct ieee80211com *ic;
struct ieee80211_duration *d0;
struct ieee80211_frame *wh;
struct ieee80211_node *ni;
struct mbuf *m0;
struct rtw_softc *sc;
struct rtw_txsoft_blk *tsb;
struct rtw_txdesc_blk *tdb;
struct rtw_txsoft *ts;
struct rtw_txdesc *td;
sc = (struct rtw_softc *)ifp->if_softc;
ic = &sc->sc_ic;
DPRINTF(sc, RTW_DEBUG_XMIT,
("%s: enter %s\n", sc->sc_dev.dv_xname, __func__));
if ((ifp->if_flags & (IFF_RUNNING|IFF_OACTIVE)) != IFF_RUNNING)
goto out;
/* XXX do real rate control */
proto_ctl0 = RTW_TXCTL0_RTSRATE_1MBPS;
if ((ic->ic_flags & IEEE80211_F_SHPREAMBLE) != 0)
proto_ctl0 |= RTW_TXCTL0_SPLCP;
for (;;) {
if (rtw_dequeue(ifp, &tsb, &tdb, &m0, &ni) == -1)
continue;
if (m0 == NULL)
break;
ts = SIMPLEQ_FIRST(&tsb->tsb_freeq);
dmamap = ts->ts_dmamap;
m0 = rtw_dmamap_load_txbuf(sc->sc_dmat, dmamap, m0,
tdb->tdb_nfree, &ifp->if_flags, sc->sc_dev.dv_xname);
if (m0 == NULL || dmamap->dm_nsegs == 0) {
DPRINTF(sc, RTW_DEBUG_XMIT,
("%s: fail dmamap load\n", __func__));
goto post_dequeue_err;
}
wh = mtod(m0, struct ieee80211_frame *);
/* XXX do real rate control */
if ((wh->i_fc[0] & IEEE80211_FC0_TYPE_MASK) ==
IEEE80211_FC0_TYPE_MGT)
rate = 2;
else
rate = MAX(2, ieee80211_get_rate(ic));
#ifdef RTW_DEBUG
if ((sc->sc_if.if_flags & (IFF_DEBUG|IFF_LINK2)) ==
(IFF_DEBUG|IFF_LINK2)) {
ieee80211_dump_pkt(mtod(m0, uint8_t *),
(dmamap->dm_nsegs == 1) ? m0->m_pkthdr.len
: sizeof(wh), rate, 0);
}
#endif /* RTW_DEBUG */
ctl0 = proto_ctl0 |
LSHIFT(m0->m_pkthdr.len, RTW_TXCTL0_TPKTSIZE_MASK);
switch (rate) {
default:
case 2:
ctl0 |= RTW_TXCTL0_RATE_1MBPS;
break;
case 4:
ctl0 |= RTW_TXCTL0_RATE_2MBPS;
break;
case 11:
ctl0 |= RTW_TXCTL0_RATE_5MBPS;
break;
case 22:
ctl0 |= RTW_TXCTL0_RATE_11MBPS;
break;
}
/* XXX >= ? Compare after fragmentation? */
if (m0->m_pkthdr.len > ic->ic_rtsthreshold)
ctl0 |= RTW_TXCTL0_RTSEN;
if ((wh->i_fc[0] & IEEE80211_FC0_TYPE_MASK) ==
IEEE80211_FC0_TYPE_MGT) {
ctl0 &= ~(RTW_TXCTL0_SPLCP | RTW_TXCTL0_RTSEN);
if ((wh->i_fc[0] & IEEE80211_FC0_SUBTYPE_MASK) ==
IEEE80211_FC0_SUBTYPE_BEACON)
ctl0 |= RTW_TXCTL0_BEACON;
}
if (ieee80211_compute_duration(wh, m0->m_pkthdr.len,
ic->ic_flags & ~IEEE80211_F_WEPON, ic->ic_fragthreshold,
rate, &ts->ts_d0, &ts->ts_dn, &npkt,
(sc->sc_if.if_flags & (IFF_DEBUG|IFF_LINK2)) ==
(IFF_DEBUG|IFF_LINK2)) == -1) {
DPRINTF(sc, RTW_DEBUG_XMIT,
("%s: fail compute duration\n", __func__));
goto post_load_err;
}
d0 = &ts->ts_d0;
*(uint16_t*)wh->i_dur = htole16(d0->d_data_dur);
ctl1 = LSHIFT(d0->d_plcp_len, RTW_TXCTL1_LENGTH_MASK) |
LSHIFT(d0->d_rts_dur, RTW_TXCTL1_RTSDUR_MASK);
if (d0->d_residue)
ctl1 |= RTW_TXCTL1_LENGEXT;
/* TBD fragmentation */
ts->ts_first = tdb->tdb_next;
rtw_txdescs_sync(tdb, ts->ts_first, dmamap->dm_nsegs,
BUS_DMASYNC_PREWRITE);
KASSERT(ts->ts_first < tdb->tdb_ndesc);
#if NBPFILTER > 0
if (ic->ic_rawbpf != NULL)
bpf_mtap((caddr_t)ic->ic_rawbpf, m0);
if (sc->sc_radiobpf != NULL) {
struct mbuf mb;
struct rtw_tx_radiotap_header *rt = &sc->sc_txtap;
rt->rt_flags = 0;
rt->rt_rate = rate;
rt->rt_chan_freq =
htole16(ic->ic_bss->ni_chan->ic_freq);
rt->rt_chan_flags =
htole16(ic->ic_bss->ni_chan->ic_flags);
M_DUP_PKTHDR(&mb, m0);
mb.m_data = (caddr_t)rt;
mb.m_len = sizeof(sc->sc_txtapu);
mb.m_next = m0;
mb.m_pkthdr.len += mb.m_len;
bpf_mtap(sc->sc_radiobpf, &mb);
}
#endif /* NPBFILTER > 0 */
for (i = 0, lastdesc = desc = ts->ts_first;
i < dmamap->dm_nsegs;
i++, desc = RTW_NEXT_IDX(tdb, desc)) {
if (dmamap->dm_segs[i].ds_len > RTW_TXLEN_LENGTH_MASK) {
DPRINTF(sc, RTW_DEBUG_XMIT_DESC,
("%s: seg too long\n", __func__));
goto post_load_err;
}
td = &tdb->tdb_desc[desc];
td->td_ctl0 = htole32(ctl0);
if (i != 0)
td->td_ctl0 |= htole32(RTW_TXCTL0_OWN);
td->td_ctl1 = htole32(ctl1);
td->td_buf = htole32(dmamap->dm_segs[i].ds_addr);
td->td_len = htole32(dmamap->dm_segs[i].ds_len);
lastdesc = desc;
#ifdef RTW_DEBUG
rtw_print_txdesc(sc, "load", ts, tdb, desc);
#endif /* RTW_DEBUG */
}
KASSERT(desc < tdb->tdb_ndesc);
ts->ts_ni = ni;
ts->ts_mbuf = m0;
ts->ts_last = lastdesc;
tdb->tdb_desc[ts->ts_last].td_ctl0 |= htole32(RTW_TXCTL0_LS);
tdb->tdb_desc[ts->ts_first].td_ctl0 |=
htole32(RTW_TXCTL0_FS);
#ifdef RTW_DEBUG
rtw_print_txdesc(sc, "FS on", ts, tdb, ts->ts_first);
rtw_print_txdesc(sc, "LS on", ts, tdb, ts->ts_last);
#endif /* RTW_DEBUG */
tdb->tdb_nfree -= dmamap->dm_nsegs;
tdb->tdb_next = desc;
rtw_txdescs_sync(tdb, ts->ts_first, dmamap->dm_nsegs,
BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
tdb->tdb_desc[ts->ts_first].td_ctl0 |=
htole32(RTW_TXCTL0_OWN);
#ifdef RTW_DEBUG
rtw_print_txdesc(sc, "OWN on", ts, tdb, ts->ts_first);
#endif /* RTW_DEBUG */
rtw_txdescs_sync(tdb, ts->ts_first, 1,
BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
SIMPLEQ_REMOVE_HEAD(&tsb->tsb_freeq, ts_q);
SIMPLEQ_INSERT_TAIL(&tsb->tsb_dirtyq, ts, ts_q);
if (tsb != &sc->sc_txsoft_blk[RTW_TXPRIBCN]) {
sc->sc_led_state.ls_event |= RTW_LED_S_TX;
tsb->tsb_tx_timer = 5;
ifp->if_timer = 1;
}
tppoll = RTW_READ8(&sc->sc_regs, RTW_TPPOLL);
tppoll &= ~RTW_TPPOLL_SALL;
tppoll |= tsb->tsb_poll & RTW_TPPOLL_ALL;
RTW_WRITE8(&sc->sc_regs, RTW_TPPOLL, tppoll);
RTW_SYNC(&sc->sc_regs, RTW_TPPOLL, RTW_TPPOLL);
}
out:
DPRINTF(sc, RTW_DEBUG_XMIT, ("%s: leave\n", __func__));
return;
post_load_err:
bus_dmamap_unload(sc->sc_dmat, dmamap);
m_freem(m0);
post_dequeue_err:
ieee80211_release_node(&sc->sc_ic, ni);
return;
}
void
rtw_watchdog(struct ifnet *ifp)
{
int pri;
struct rtw_softc *sc;
struct rtw_txsoft_blk *tsb;
sc = ifp->if_softc;
ifp->if_timer = 0;
if ((sc->sc_flags & RTW_F_ENABLED) == 0)
return;
for (pri = 0; pri < RTW_NTXPRI; pri++) {
tsb = &sc->sc_txsoft_blk[pri];
if (tsb->tsb_tx_timer == 0)
continue;
if (--tsb->tsb_tx_timer == 0) {
if (SIMPLEQ_EMPTY(&tsb->tsb_dirtyq))
continue;
printf("%s: transmit timeout, priority %d\n",
ifp->if_xname, pri);
ifp->if_oerrors++;
/* Stop Tx DMA, disable transmitter, clear
* Tx rings, and restart.
*
* TBD Stop/restart just the broken ring?
*/
RTW_WRITE8(&sc->sc_regs, RTW_TPPOLL, RTW_TPPOLL_SALL);
RTW_SYNC(&sc->sc_regs, RTW_TPPOLL, RTW_TPPOLL);
rtw_io_enable(&sc->sc_regs, RTW_CR_TE, 0);
rtw_txdescs_reset(sc);
rtw_io_enable(&sc->sc_regs, RTW_CR_TE, 1);
sc->sc_if.if_flags &= ~IFF_OACTIVE;
rtw_start(ifp);
} else
ifp->if_timer = 1;
}
ieee80211_watchdog(ifp);
return;
}
void
rtw_next_scan(void *arg)
{
struct rtw_softc *sc = arg;
struct ieee80211com *ic = &sc->sc_ic;
struct ifnet *ifp = &ic->ic_if;
int s;
/* don't call rtw_start w/o network interrupts blocked */
s = splnet();
if (ic->ic_state == IEEE80211_S_SCAN)
ieee80211_next_scan(ifp);
splx(s);
}
void
rtw_join_bss(struct rtw_softc *sc, u_int8_t *bssid, u_int16_t intval0)
{
uint16_t bcnitv, intval;
int i;
struct rtw_regs *regs = &sc->sc_regs;
for (i = 0; i < IEEE80211_ADDR_LEN; i++)
RTW_WRITE8(regs, RTW_BSSID + i, bssid[i]);
RTW_SYNC(regs, RTW_BSSID16, RTW_BSSID32);
rtw_set_access(regs, RTW_ACCESS_CONFIG);
intval = MIN(intval0, PRESHIFT(RTW_BCNITV_BCNITV_MASK));
bcnitv = RTW_READ16(regs, RTW_BCNITV) & ~RTW_BCNITV_BCNITV_MASK;
bcnitv |= LSHIFT(intval, RTW_BCNITV_BCNITV_MASK);
RTW_WRITE16(regs, RTW_BCNITV, bcnitv);
/* magic from Linux */
RTW_WRITE16(regs, RTW_ATIMWND, LSHIFT(1, RTW_ATIMWND_ATIMWND));
RTW_WRITE16(regs, RTW_ATIMTRITV, LSHIFT(2, RTW_ATIMTRITV_ATIMTRITV));
rtw_set_access(regs, RTW_ACCESS_NONE);
/* TBD WEP */
RTW_WRITE8(regs, RTW8180_SCR, 0);
rtw_io_enable(regs, RTW_CR_RE | RTW_CR_TE, 1);
}
/* Synchronize the hardware state with the software state. */
int
rtw_newstate(struct ieee80211com *ic, enum ieee80211_state nstate, int arg)
{
struct ifnet *ifp = &ic->ic_if;
struct rtw_softc *sc = ifp->if_softc;
struct mbuf *m;
enum ieee80211_state ostate;
int error;
ostate = ic->ic_state;
rtw_led_newstate(sc, nstate);
if (nstate == IEEE80211_S_INIT) {
timeout_del(&sc->sc_scan_to);
sc->sc_cur_chan = IEEE80211_CHAN_ANY;
return (*sc->sc_mtbl.mt_newstate)(ic, nstate, arg);
}
if (ostate == IEEE80211_S_INIT && nstate != IEEE80211_S_INIT)
rtw_pwrstate(sc, RTW_ON);
if ((error = rtw_tune(sc)) != 0)
return error;
switch (nstate) {
case IEEE80211_S_INIT:
panic("%s: unexpected state IEEE80211_S_INIT", __func__);
break;
case IEEE80211_S_SCAN:
if (ostate != IEEE80211_S_SCAN) {
bzero(ic->ic_bss->ni_bssid, IEEE80211_ADDR_LEN);
rtw_set_nettype(sc, IEEE80211_M_MONITOR);
}
timeout_add(&sc->sc_scan_to, rtw_dwelltime * hz / 1000);
break;
case IEEE80211_S_RUN:
switch (ic->ic_opmode) {
case IEEE80211_M_HOSTAP:
case IEEE80211_M_IBSS:
rtw_set_nettype(sc, IEEE80211_M_MONITOR);
m = ieee80211_beacon_alloc(ic, ic->ic_bss);
if (m == NULL) {
printf("%s: could not allocate beacon\n",
sc->sc_dev.dv_xname);
} else
IF_ENQUEUE(&sc->sc_beaconq, m);
/*FALLTHROUGH*/
case IEEE80211_M_AHDEMO:
case IEEE80211_M_STA:
rtw_join_bss(sc, ic->ic_bss->ni_bssid,
ic->ic_bss->ni_intval);
break;
case IEEE80211_M_MONITOR:
break;
}
rtw_set_nettype(sc, ic->ic_opmode);
break;
case IEEE80211_S_ASSOC:
case IEEE80211_S_AUTH:
break;
}
if (nstate != IEEE80211_S_SCAN)
timeout_del(&sc->sc_scan_to);
/* Start beacon transmission. */
if (nstate == IEEE80211_S_RUN &&
(ic->ic_opmode == IEEE80211_M_HOSTAP ||
ic->ic_opmode == IEEE80211_M_IBSS))
rtw_start(&sc->sc_if);
return (*sc->sc_mtbl.mt_newstate)(ic, nstate, arg);
}
/* Extend a 32-bit TSF timestamp to a 64-bit timestamp. */
uint64_t
rtw_tsf_extend(struct rtw_regs *regs, u_int32_t rstamp)
{
u_int32_t tsftl, tsfth;
tsfth = RTW_READ(regs, RTW_TSFTRH);
tsftl = RTW_READ(regs, RTW_TSFTRL);
if (tsftl < rstamp) /* Compensate for rollover. */
tsfth--;
return ((u_int64_t)tsfth << 32) | rstamp;
}
void
rtw_ibss_merge(struct rtw_softc *sc, struct ieee80211_node *ni,
u_int32_t rstamp)
{
u_int8_t tppoll;
struct ieee80211com *ic = &sc->sc_ic;
if (ieee80211_ibss_merge(ic, ni,
rtw_tsf_extend(&sc->sc_regs, rstamp)) == ENETRESET) {
/* Stop beacon queue. Kick state machine to synchronize
* with the new IBSS.
*/
tppoll = RTW_READ8(&sc->sc_regs, RTW_TPPOLL);
tppoll |= RTW_TPPOLL_SBQ;
RTW_WRITE8(&sc->sc_regs, RTW_TPPOLL, tppoll);
(void)ieee80211_new_state(&sc->sc_ic, IEEE80211_S_RUN, -1);
}
return;
}
void
rtw_recv_mgmt(struct ieee80211com *ic, struct mbuf *m,
struct ieee80211_node *ni, int subtype, int rssi, u_int32_t rstamp)
{
struct rtw_softc *sc = (struct rtw_softc*)ic->ic_softc;
(*sc->sc_mtbl.mt_recv_mgmt)(ic, m, ni, subtype, rssi, rstamp);
switch (subtype) {
case IEEE80211_FC0_SUBTYPE_PROBE_RESP:
case IEEE80211_FC0_SUBTYPE_BEACON:
if (ic->ic_opmode != IEEE80211_M_IBSS ||
ic->ic_state != IEEE80211_S_RUN)
return;
rtw_ibss_merge(sc, ni, rstamp);
break;
default:
break;
}
return;
}
struct ieee80211_node *
rtw_node_alloc(struct ieee80211com *ic)
{
struct rtw_softc *sc = (struct rtw_softc *)ic->ic_if.if_softc;
struct ieee80211_node *ni = (*sc->sc_mtbl.mt_node_alloc)(ic);
DPRINTF(sc, RTW_DEBUG_NODE,
("%s: alloc node %p\n", sc->sc_dev.dv_xname, ni));
return ni;
}
void
rtw_node_free(struct ieee80211com *ic, struct ieee80211_node *ni)
{
struct rtw_softc *sc = (struct rtw_softc *)ic->ic_if.if_softc;
DPRINTF(sc, RTW_DEBUG_NODE,
("%s: freeing node %p %s\n", sc->sc_dev.dv_xname, ni,
ether_sprintf(ni->ni_bssid)));
(*sc->sc_mtbl.mt_node_free)(ic, ni);
}
int
rtw_media_change(struct ifnet *ifp)
{
int error;
error = ieee80211_media_change(ifp);
if (error == ENETRESET) {
if ((ifp->if_flags & (IFF_RUNNING|IFF_UP)) ==
(IFF_RUNNING|IFF_UP))
rtw_init(ifp); /* XXX lose error */
error = 0;
}
return error;
}
void
rtw_media_status(struct ifnet *ifp, struct ifmediareq *imr)
{
struct rtw_softc *sc = ifp->if_softc;
if ((sc->sc_flags & RTW_F_ENABLED) == 0) {
imr->ifm_active = IFM_IEEE80211 | IFM_NONE;
imr->ifm_status = 0;
return;
}
ieee80211_media_status(ifp, imr);
}
void
rtw_power(int why, void *arg)
{
struct rtw_softc *sc = arg;
struct ifnet *ifp = &sc->sc_ic.ic_if;
int s;
DPRINTF(sc, RTW_DEBUG_PWR,
("%s: rtw_power(%d,)\n", sc->sc_dev.dv_xname, why));
s = splnet();
switch (why) {
case PWR_STANDBY:
/* XXX do nothing. */
break;
case PWR_SUSPEND:
rtw_stop(ifp, 1);
if (sc->sc_power != NULL)
(*sc->sc_power)(sc, why);
break;
case PWR_RESUME:
if (ifp->if_flags & IFF_UP) {
if (sc->sc_power != NULL)
(*sc->sc_power)(sc, why);
rtw_init(ifp);
}
break;
}
splx(s);
}
/* rtw_shutdown: make sure the interface is stopped at reboot time. */
void
rtw_shutdown(void *arg)
{
struct rtw_softc *sc = arg;
rtw_stop(&sc->sc_ic.ic_if, 1);
}
void
rtw_establish_hooks(struct rtw_hooks *hooks, const char *dvname,
void *arg)
{
/*
* Make sure the interface is shutdown during reboot.
*/
hooks->rh_shutdown = shutdownhook_establish(rtw_shutdown, arg);
if (hooks->rh_shutdown == NULL)
printf("%s: WARNING: unable to establish shutdown hook\n",
dvname);
/*
* Add a suspend hook to make sure we come back up after a
* resume.
*/
hooks->rh_power = powerhook_establish(rtw_power, arg);
if (hooks->rh_power == NULL)
printf("%s: WARNING: unable to establish power hook\n",
dvname);
}
void
rtw_disestablish_hooks(struct rtw_hooks *hooks, const char *dvname,
void *arg)
{
if (hooks->rh_shutdown != NULL)
shutdownhook_disestablish(hooks->rh_shutdown);
if (hooks->rh_power != NULL)
powerhook_disestablish(hooks->rh_power);
}
int
rtw_txsoft_blk_setup(struct rtw_txsoft_blk *tsb, u_int qlen)
{
SIMPLEQ_INIT(&tsb->tsb_dirtyq);
SIMPLEQ_INIT(&tsb->tsb_freeq);
tsb->tsb_ndesc = qlen;
tsb->tsb_desc = malloc(qlen * sizeof(*tsb->tsb_desc), M_DEVBUF,
M_NOWAIT);
if (tsb->tsb_desc == NULL)
return ENOMEM;
return 0;
}
void
rtw_txsoft_blk_cleanup_all(struct rtw_softc *sc)
{
int pri;
struct rtw_txsoft_blk *tsb;
for (pri = 0; pri < RTW_NTXPRI; pri++) {
tsb = &sc->sc_txsoft_blk[pri];
free(tsb->tsb_desc, M_DEVBUF);
tsb->tsb_desc = NULL;
}
}
int
rtw_txsoft_blk_setup_all(struct rtw_softc *sc)
{
int pri, rc = 0;
int qlen[RTW_NTXPRI] =
{RTW_TXQLENLO, RTW_TXQLENMD, RTW_TXQLENHI, RTW_TXQLENBCN};
struct rtw_txsoft_blk *tsbs;
tsbs = sc->sc_txsoft_blk;
for (pri = 0; pri < RTW_NTXPRI; pri++) {
rc = rtw_txsoft_blk_setup(&tsbs[pri], qlen[pri]);
if (rc != 0)
break;
}
tsbs[RTW_TXPRILO].tsb_poll = RTW_TPPOLL_LPQ | RTW_TPPOLL_SLPQ;
tsbs[RTW_TXPRIMD].tsb_poll = RTW_TPPOLL_NPQ | RTW_TPPOLL_SNPQ;
tsbs[RTW_TXPRIHI].tsb_poll = RTW_TPPOLL_HPQ | RTW_TPPOLL_SHPQ;
tsbs[RTW_TXPRIBCN].tsb_poll = RTW_TPPOLL_BQ | RTW_TPPOLL_SBQ;
return rc;
}
void
rtw_txdesc_blk_setup(struct rtw_txdesc_blk *tdb, struct rtw_txdesc *desc,
u_int ndesc, bus_addr_t ofs, bus_addr_t physbase)
{
tdb->tdb_ndesc = ndesc;
tdb->tdb_desc = desc;
tdb->tdb_physbase = physbase;
tdb->tdb_ofs = ofs;
bzero(tdb->tdb_desc, sizeof(tdb->tdb_desc[0]) * tdb->tdb_ndesc);
rtw_txdesc_blk_reset(tdb);
}
void
rtw_txdesc_blk_setup_all(struct rtw_softc *sc)
{
rtw_txdesc_blk_setup(&sc->sc_txdesc_blk[RTW_TXPRILO],
&sc->sc_descs->hd_txlo[0], RTW_NTXDESCLO,
RTW_RING_OFFSET(hd_txlo), RTW_RING_BASE(sc, hd_txlo));
rtw_txdesc_blk_setup(&sc->sc_txdesc_blk[RTW_TXPRIMD],
&sc->sc_descs->hd_txmd[0], RTW_NTXDESCMD,
RTW_RING_OFFSET(hd_txmd), RTW_RING_BASE(sc, hd_txmd));
rtw_txdesc_blk_setup(&sc->sc_txdesc_blk[RTW_TXPRIHI],
&sc->sc_descs->hd_txhi[0], RTW_NTXDESCHI,
RTW_RING_OFFSET(hd_txhi), RTW_RING_BASE(sc, hd_txhi));
rtw_txdesc_blk_setup(&sc->sc_txdesc_blk[RTW_TXPRIBCN],
&sc->sc_descs->hd_bcn[0], RTW_NTXDESCBCN,
RTW_RING_OFFSET(hd_bcn), RTW_RING_BASE(sc, hd_bcn));
}
int
rtw_rf_attach(struct rtw_softc *sc, int rfchipid)
{
switch (rfchipid) {
case RTW_RFCHIPID_RTL8225:
case RTW_RFCHIPID_RTL8255:
default:
sc->sc_rf_write = rtw_rf_hostwrite;
break;
case RTW_RFCHIPID_INTERSIL:
case RTW_RFCHIPID_PHILIPS:
case RTW_RFCHIPID_GCT: /* XXX a guess */
case RTW_RFCHIPID_RFMD2948:
sc->sc_rf_write = (rtw_host_rfio) ? rtw_rf_hostwrite :
rtw_rf_macwrite;
break;
}
switch (rfchipid) {
case RTW_RFCHIPID_RTL8225:
rtw_rtl8225_create(sc);
sc->sc_pwrstate_cb = rtw_rtl_pwrstate;
break;
case RTW_RFCHIPID_RTL8255:
rtw_rtl8255_create(sc);
sc->sc_pwrstate_cb = rtw_rtl_pwrstate;
break;
case RTW_RFCHIPID_MAXIM2820:
rtw_max2820_create(sc);
sc->sc_pwrstate_cb = rtw_maxim_pwrstate;
break;
case RTW_RFCHIPID_PHILIPS:
rtw_sa2400_create(sc);
sc->sc_pwrstate_cb = rtw_philips_pwrstate;
break;
case RTW_RFCHIPID_RFMD2948:
/* XXX RFMD has no RF constructor */
sc->sc_pwrstate_cb = rtw_rfmd_pwrstate;
/*FALLTHROUGH*/
default:
return (1);
}
return (0);
}
/* Revision C and later use a different PHY delay setting than
* revisions A and B.
*/
u_int8_t
rtw_check_phydelay(struct rtw_regs *regs, u_int32_t rcr0)
{
#define REVAB (RTW_RCR_MXDMA_UNLIMITED | RTW_RCR_AICV)
#define REVC (REVAB | RTW8180_RCR_RXFTH_WHOLE)
u_int8_t phydelay = LSHIFT(0x6, RTW_PHYDELAY_PHYDELAY);
RTW_WRITE(regs, RTW_RCR, REVAB);
RTW_WBW(regs, RTW_RCR, RTW_RCR);
RTW_WRITE(regs, RTW_RCR, REVC);
RTW_WBR(regs, RTW_RCR, RTW_RCR);
if ((RTW_READ(regs, RTW_RCR) & REVC) == REVC)
phydelay |= RTW_PHYDELAY_REVC_MAGIC;
RTW_WRITE(regs, RTW_RCR, rcr0); /* restore RCR */
RTW_SYNC(regs, RTW_RCR, RTW_RCR);
return phydelay;
#undef REVC
}
void
rtw_attach(struct rtw_softc *sc)
{
struct ieee80211com *ic = &sc->sc_ic;
struct rtw_txsoft_blk *tsb;
struct rtw_mtbl *mtbl;
const char *vername;
struct ifnet *ifp;
char scratch[sizeof("unknown 0xXXXXXXXX")];
int pri, rc, nrate;
NEXT_ATTACH_STATE(sc, DETACHED);
sc->sc_hwverid = RTW_READ(&sc->sc_regs, RTW_TCR) & RTW_TCR_HWVERID_MASK;
switch (sc->sc_hwverid) {
case RTW_TCR_HWVERID_RTL8185:
vername = "RTL8185";
sc->sc_flags |= RTW_F_RTL8185;
break;
case RTW_TCR_HWVERID_RTL8180F:
vername = "RTL8180F";
break;
case RTW_TCR_HWVERID_RTL8180D:
vername = "RTL8180D";
break;
default:
snprintf(scratch, sizeof(scratch), "unknown 0x%08x",
sc->sc_hwverid);
vername = scratch;
break;
}
printf("%s: ver %s, ", sc->sc_dev.dv_xname, vername);
rc = bus_dmamem_alloc(sc->sc_dmat, sizeof(struct rtw_descs),
RTW_DESC_ALIGNMENT, 0, &sc->sc_desc_segs, 1, &sc->sc_desc_nsegs,
0);
if (rc != 0) {
printf("\n%s: could not allocate hw descriptors, error %d\n",
sc->sc_dev.dv_xname, rc);
goto err;
}
NEXT_ATTACH_STATE(sc, FINISH_DESC_ALLOC);
rc = bus_dmamem_map(sc->sc_dmat, &sc->sc_desc_segs,
sc->sc_desc_nsegs, sizeof(struct rtw_descs),
(caddr_t*)&sc->sc_descs, BUS_DMA_COHERENT);
if (rc != 0) {
printf("\n%s: could not map hw descriptors, error %d\n",
sc->sc_dev.dv_xname, rc);
goto err;
}
NEXT_ATTACH_STATE(sc, FINISH_DESC_MAP);
rc = bus_dmamap_create(sc->sc_dmat, sizeof(struct rtw_descs), 1,
sizeof(struct rtw_descs), 0, 0, &sc->sc_desc_dmamap);
if (rc != 0) {
printf("\n%s: could not create DMA map for hw descriptors, "
"error %d\n", sc->sc_dev.dv_xname, rc);
goto err;
}
NEXT_ATTACH_STATE(sc, FINISH_DESCMAP_CREATE);
sc->sc_rxdesc_blk.rdb_dmat = sc->sc_dmat;
sc->sc_rxdesc_blk.rdb_dmamap = sc->sc_desc_dmamap;
for (pri = 0; pri < RTW_NTXPRI; pri++) {
sc->sc_txdesc_blk[pri].tdb_dmat = sc->sc_dmat;
sc->sc_txdesc_blk[pri].tdb_dmamap = sc->sc_desc_dmamap;
}
rc = bus_dmamap_load(sc->sc_dmat, sc->sc_desc_dmamap, sc->sc_descs,
sizeof(struct rtw_descs), NULL, 0);
if (rc != 0) {
printf("\n%s: could not load DMA map for hw descriptors, "
"error %d\n", sc->sc_dev.dv_xname, rc);
goto err;
}
NEXT_ATTACH_STATE(sc, FINISH_DESCMAP_LOAD);
if (rtw_txsoft_blk_setup_all(sc) != 0)
goto err;
NEXT_ATTACH_STATE(sc, FINISH_TXCTLBLK_SETUP);
rtw_txdesc_blk_setup_all(sc);
NEXT_ATTACH_STATE(sc, FINISH_TXDESCBLK_SETUP);
sc->sc_rxdesc_blk.rdb_desc = &sc->sc_descs->hd_rx[0];
for (pri = 0; pri < RTW_NTXPRI; pri++) {
tsb = &sc->sc_txsoft_blk[pri];
if ((rc = rtw_txdesc_dmamaps_create(sc->sc_dmat,
&tsb->tsb_desc[0], tsb->tsb_ndesc)) != 0) {
printf("\n%s: could not load DMA map for "
"hw tx descriptors, error %d\n",
sc->sc_dev.dv_xname, rc);
goto err;
}
}
NEXT_ATTACH_STATE(sc, FINISH_TXMAPS_CREATE);
if ((rc = rtw_rxdesc_dmamaps_create(sc->sc_dmat, &sc->sc_rxsoft[0],
RTW_RXQLEN)) != 0) {
printf("\n%s: could not load DMA map for hw rx descriptors, "
"error %d\n", sc->sc_dev.dv_xname, rc);
goto err;
}
NEXT_ATTACH_STATE(sc, FINISH_RXMAPS_CREATE);
/* Reset the chip to a known state. */
if (rtw_reset(sc) != 0)
goto err;
NEXT_ATTACH_STATE(sc, FINISH_RESET);
sc->sc_rcr = RTW_READ(&sc->sc_regs, RTW_RCR);
if ((sc->sc_rcr & RTW_RCR_9356SEL) != 0)
sc->sc_flags |= RTW_F_9356SROM;
if (rtw_srom_read(&sc->sc_regs, sc->sc_flags, &sc->sc_srom,
sc->sc_dev.dv_xname) != 0)
goto err;
NEXT_ATTACH_STATE(sc, FINISH_READ_SROM);
if (rtw_srom_parse(sc) != 0) {
printf("\n%s: attach failed, malformed serial ROM\n",
sc->sc_dev.dv_xname);
goto err;
}
RTW_DPRINTF(RTW_DEBUG_ATTACH, ("%s: %s PHY\n", sc->sc_dev.dv_xname,
((sc->sc_flags & RTW_F_DIGPHY) != 0) ? "digital" : "analog"));
RTW_DPRINTF(RTW_DEBUG_ATTACH, ("%s: CS threshold %u\n",
sc->sc_dev.dv_xname, sc->sc_csthr));
NEXT_ATTACH_STATE(sc, FINISH_PARSE_SROM);
if ((rtw_rf_attach(sc, sc->sc_rfchipid)) != 0) {
printf("\n%s: attach failed, could not attach RF\n",
sc->sc_dev.dv_xname);
goto err;
}
NEXT_ATTACH_STATE(sc, FINISH_RF_ATTACH);
sc->sc_phydelay = rtw_check_phydelay(&sc->sc_regs, sc->sc_rcr);
RTW_DPRINTF(RTW_DEBUG_ATTACH,
("%s: PHY delay %d\n", sc->sc_dev.dv_xname, sc->sc_phydelay));
if (sc->sc_locale == RTW_LOCALE_UNKNOWN)
rtw_identify_country(&sc->sc_regs, &sc->sc_locale,
sc->sc_dev.dv_xname);
rtw_init_channels(sc->sc_locale, &sc->sc_ic.ic_channels,
sc->sc_dev.dv_xname);
if (rtw_identify_sta(&sc->sc_regs, &sc->sc_ic.ic_myaddr,
sc->sc_dev.dv_xname) != 0)
goto err;
NEXT_ATTACH_STATE(sc, FINISH_ID_STA);
ifp = &sc->sc_if;
(void)memcpy(ifp->if_xname, sc->sc_dev.dv_xname, IFNAMSIZ);
ifp->if_softc = sc;
ifp->if_flags = IFF_SIMPLEX | IFF_BROADCAST | IFF_MULTICAST |
IFF_NOTRAILERS;
ifp->if_ioctl = rtw_ioctl;
ifp->if_start = rtw_start;
ifp->if_watchdog = rtw_watchdog;
IFQ_SET_READY(&sc->sc_if.if_snd);
ic->ic_phytype = IEEE80211_T_DS;
ic->ic_opmode = IEEE80211_M_STA;
ic->ic_caps = IEEE80211_C_PMGT | IEEE80211_C_IBSS |
IEEE80211_C_HOSTAP | IEEE80211_C_MONITOR | IEEE80211_C_WEP;
nrate = 0;
ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[nrate++] =
IEEE80211_RATE_BASIC | 2;
ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[nrate++] =
IEEE80211_RATE_BASIC | 4;
ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[nrate++] = 11;
ic->ic_sup_rates[IEEE80211_MODE_11B].rs_rates[nrate++] = 22;
ic->ic_sup_rates[IEEE80211_MODE_11B].rs_nrates = nrate;
rtw_led_attach(&sc->sc_led_state, (void *)sc);
/*
* Call MI attach routines.
*/
if_attach(&sc->sc_if);
ieee80211_ifattach(&sc->sc_if);
mtbl = &sc->sc_mtbl;
mtbl->mt_newstate = ic->ic_newstate;
ic->ic_newstate = rtw_newstate;
mtbl->mt_recv_mgmt = ic->ic_recv_mgmt;
ic->ic_recv_mgmt = rtw_recv_mgmt;
mtbl->mt_node_free = ic->ic_node_free;
ic->ic_node_free = rtw_node_free;
mtbl->mt_node_alloc = ic->ic_node_alloc;
ic->ic_node_alloc = rtw_node_alloc;
/* possibly we should fill in our own sc_send_prresp, since
* the RTL8180 is probably sending probe responses in ad hoc
* mode.
*/
/* complete initialization */
ieee80211_media_init(&sc->sc_if, rtw_media_change, rtw_media_status);
timeout_set(&sc->sc_scan_to, rtw_next_scan, sc);
#if NBPFILTER > 0
bzero(&sc->sc_rxtapu, sizeof(sc->sc_rxtapu));
sc->sc_rxtap.rr_ihdr.it_len = sizeof(sc->sc_rxtapu);
sc->sc_rxtap.rr_ihdr.it_present = RTW_RX_RADIOTAP_PRESENT;
bzero(&sc->sc_txtapu, sizeof(sc->sc_txtapu));
sc->sc_txtap.rt_ihdr.it_len = sizeof(sc->sc_txtapu);
sc->sc_txtap.rt_ihdr.it_present = RTW_TX_RADIOTAP_PRESENT;
bpfattach(&sc->sc_radiobpf, &sc->sc_ic.ic_if, DLT_IEEE802_11_RADIO,
sizeof(struct ieee80211_frame) + 64);
#endif
rtw_establish_hooks(&sc->sc_hooks, sc->sc_dev.dv_xname, (void*)sc);
NEXT_ATTACH_STATE(sc, FINISHED);
return;
err:
rtw_detach(sc);
return;
}
int
rtw_detach(struct rtw_softc *sc)
{
int pri;
struct rtw_srom *sr;
sc->sc_flags |= RTW_F_INVALID;
switch (sc->sc_attach_state) {
case FINISHED:
rtw_stop(&sc->sc_if, 1);
rtw_disestablish_hooks(&sc->sc_hooks, sc->sc_dev.dv_xname,
(void*)sc);
timeout_del(&sc->sc_scan_to);
ieee80211_ifdetach(&sc->sc_if);
if_detach(&sc->sc_if);
break;
case FINISH_ID_STA:
case FINISH_RF_ATTACH:
case FINISH_PARSE_SROM:
case FINISH_READ_SROM:
sr = &sc->sc_srom;
sr->sr_size = 0;
if (sr->sr_content != NULL) {
free(sr->sr_content, M_DEVBUF);
sr->sr_content = NULL;
}
/*FALLTHROUGH*/
case FINISH_RESET:
case FINISH_RXMAPS_CREATE:
rtw_rxdesc_dmamaps_destroy(sc->sc_dmat, &sc->sc_rxsoft[0],
RTW_RXQLEN);
/*FALLTHROUGH*/
case FINISH_TXMAPS_CREATE:
for (pri = 0; pri < RTW_NTXPRI; pri++) {
rtw_txdesc_dmamaps_destroy(sc->sc_dmat,
sc->sc_txsoft_blk[pri].tsb_desc,
sc->sc_txsoft_blk[pri].tsb_ndesc);
}
/*FALLTHROUGH*/
case FINISH_TXDESCBLK_SETUP:
case FINISH_TXCTLBLK_SETUP:
rtw_txsoft_blk_cleanup_all(sc);
/*FALLTHROUGH*/
case FINISH_DESCMAP_LOAD:
bus_dmamap_unload(sc->sc_dmat, sc->sc_desc_dmamap);
/*FALLTHROUGH*/
case FINISH_DESCMAP_CREATE:
bus_dmamap_destroy(sc->sc_dmat, sc->sc_desc_dmamap);
/*FALLTHROUGH*/
case FINISH_DESC_MAP:
bus_dmamem_unmap(sc->sc_dmat, (caddr_t)sc->sc_descs,
sizeof(struct rtw_descs));
/*FALLTHROUGH*/
case FINISH_DESC_ALLOC:
bus_dmamem_free(sc->sc_dmat, &sc->sc_desc_segs,
sc->sc_desc_nsegs);
/*FALLTHROUGH*/
case DETACHED:
NEXT_ATTACH_STATE(sc, DETACHED);
break;
}
return 0;
}
int
rtw_rf_init(struct rtw_softc *sc, u_int freq, u_int8_t opaque_txpower,
enum rtw_pwrstate power)
{
switch (sc->sc_rfchipid) {
case RTW_RFCHIPID_PHILIPS:
return rtw_sa2400_init(sc, freq, opaque_txpower, power);
case RTW_RFCHIPID_MAXIM2820:
return rtw_max2820_init(sc, freq, opaque_txpower, power);
case RTW_RFCHIPID_RTL8225:
return rtw_rtl8225_init(sc, freq, opaque_txpower, power);
case RTW_RFCHIPID_RTL8255:
return rtw_rtl8255_init(sc, freq, opaque_txpower, power);
default:
return (1);
}
}
int
rtw_rf_pwrstate(struct rtw_softc *sc, enum rtw_pwrstate power)
{
switch (sc->sc_rfchipid) {
case RTW_RFCHIPID_PHILIPS:
return rtw_sa2400_pwrstate(sc, power);
case RTW_RFCHIPID_MAXIM2820:
return rtw_max2820_pwrstate(sc, power);
case RTW_RFCHIPID_RTL8225:
return rtw_rtl8225_pwrstate(sc, power);
case RTW_RFCHIPID_RTL8255:
return rtw_rtl8255_pwrstate(sc, power);
default:
return (1);
}
}
int
rtw_rf_tune(struct rtw_softc *sc, u_int freq)
{
switch (sc->sc_rfchipid) {
case RTW_RFCHIPID_PHILIPS:
return rtw_sa2400_tune(sc, freq);
case RTW_RFCHIPID_MAXIM2820:
return rtw_max2820_tune(sc, freq);
case RTW_RFCHIPID_RTL8225:
return rtw_rtl8225_tune(sc, freq);
case RTW_RFCHIPID_RTL8255:
return rtw_rtl8255_tune(sc, freq);
default:
return (1);
}
}
int
rtw_rf_txpower(struct rtw_softc *sc, u_int8_t opaque_txpower)
{
switch (sc->sc_rfchipid) {
case RTW_RFCHIPID_PHILIPS:
return rtw_sa2400_txpower(sc, opaque_txpower);
case RTW_RFCHIPID_MAXIM2820:
return rtw_max2820_txpower(sc, opaque_txpower);
case RTW_RFCHIPID_RTL8225:
return rtw_rtl8225_txpower(sc, opaque_txpower);
case RTW_RFCHIPID_RTL8255:
return rtw_rtl8255_txpower(sc, opaque_txpower);
default:
return (1);
}
}
int
rtw_rfbus_write(struct rtw_softc *sc, int rfchipid, u_int addr, u_int32_t val)
{
return (*sc->sc_rf_write)(&(sc->sc_regs), rfchipid, addr, val);
}
/*
* PHY specific functions
*/
int
rtw_bbp_preinit(struct rtw_regs *regs, u_int antatten0, int dflantb,
u_int freq)
{
u_int antatten = antatten0;
if (dflantb)
antatten |= RTW_BBP_ANTATTEN_DFLANTB;
if (freq == 2484) /* channel 14 */
antatten |= RTW_BBP_ANTATTEN_CHAN14;
return rtw_bbp_write(regs, RTW_BBP_ANTATTEN, antatten);
}
int
rtw_bbp_init(struct rtw_regs *regs, struct rtw_bbpset *bb, int antdiv,
int dflantb, u_int8_t cs_threshold, u_int freq)
{
int rc;
u_int32_t sys2, sys3;
sys2 = bb->bb_sys2;
if (antdiv)
sys2 |= RTW_BBP_SYS2_ANTDIV;
sys3 = bb->bb_sys3 |
LSHIFT(cs_threshold, RTW_BBP_SYS3_CSTHRESH_MASK);
#define RTW_BBP_WRITE_OR_RETURN(reg, val) \
if ((rc = rtw_bbp_write(regs, reg, val)) != 0) \
return rc;
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_SYS1, bb->bb_sys1);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_TXAGC, bb->bb_txagc);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_LNADET, bb->bb_lnadet);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_IFAGCINI, bb->bb_ifagcini);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_IFAGCLIMIT, bb->bb_ifagclimit);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_IFAGCDET, bb->bb_ifagcdet);
if ((rc = rtw_bbp_preinit(regs, bb->bb_antatten, dflantb, freq)) != 0)
return rc;
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_TRL, bb->bb_trl);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_SYS2, sys2);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_SYS3, sys3);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_CHESTLIM, bb->bb_chestlim);
RTW_BBP_WRITE_OR_RETURN(RTW_BBP_CHSQLIM, bb->bb_chsqlim);
return 0;
}
int
rtw_sa2400_txpower(struct rtw_softc *sc, u_int8_t opaque_txpower)
{
return rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_TX,
opaque_txpower);
}
/* make sure we're using the same settings as the reference driver */
void
rtw_verify_syna(u_int freq, u_int32_t val)
{
u_int32_t expected_val = ~val;
switch (freq) {
case 2412:
expected_val = 0x0000096c; /* ch 1 */
break;
case 2417:
expected_val = 0x00080970; /* ch 2 */
break;
case 2422:
expected_val = 0x00100974; /* ch 3 */
break;
case 2427:
expected_val = 0x00180978; /* ch 4 */
break;
case 2432:
expected_val = 0x00000980; /* ch 5 */
break;
case 2437:
expected_val = 0x00080984; /* ch 6 */
break;
case 2442:
expected_val = 0x00100988; /* ch 7 */
break;
case 2447:
expected_val = 0x0018098c; /* ch 8 */
break;
case 2452:
expected_val = 0x00000994; /* ch 9 */
break;
case 2457:
expected_val = 0x00080998; /* ch 10 */
break;
case 2462:
expected_val = 0x0010099c; /* ch 11 */
break;
case 2467:
expected_val = 0x001809a0; /* ch 12 */
break;
case 2472:
expected_val = 0x000009a8; /* ch 13 */
break;
case 2484:
expected_val = 0x000009b4; /* ch 14 */
break;
}
KASSERT(val == expected_val);
}
/* freq is in MHz */
int
rtw_sa2400_tune(struct rtw_softc *sc, u_int freq)
{
int rc;
u_int32_t syna, synb, sync;
/* XO = 44MHz, R = 11, hence N is in units of XO / R = 4MHz.
*
* The channel spacing (5MHz) is not divisible by 4MHz, so
* we set the fractional part of N to compensate.
*/
int n = freq / 4, nf = (freq % 4) * 2;
syna = LSHIFT(nf, SA2400_SYNA_NF_MASK) | LSHIFT(n, SA2400_SYNA_N_MASK);
rtw_verify_syna(freq, syna);
/* Divide the 44MHz crystal down to 4MHz. Set the fractional
* compensation charge pump value to agree with the fractional
* modulus.
*/
synb = LSHIFT(11, SA2400_SYNB_R_MASK) | SA2400_SYNB_L_NORMAL |
SA2400_SYNB_ON | SA2400_SYNB_ONE |
LSHIFT(80, SA2400_SYNB_FC_MASK); /* agrees w/ SA2400_SYNA_FM = 0 */
sync = SA2400_SYNC_CP_NORMAL;
if ((rc = rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_SYNA,
syna)) != 0)
return rc;
if ((rc = rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_SYNB,
synb)) != 0)
return rc;
if ((rc = rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_SYNC,
sync)) != 0)
return rc;
return rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_SYND, 0x0);
}
int
rtw_sa2400_pwrstate(struct rtw_softc *sc, enum rtw_pwrstate power)
{
u_int32_t opmode;
opmode = SA2400_OPMODE_DEFAULTS;
switch (power) {
case RTW_ON:
opmode |= SA2400_OPMODE_MODE_TXRX;
break;
case RTW_SLEEP:
opmode |= SA2400_OPMODE_MODE_WAIT;
break;
case RTW_OFF:
opmode |= SA2400_OPMODE_MODE_SLEEP;
break;
}
if (sc->sc_flags & RTW_F_DIGPHY)
opmode |= SA2400_OPMODE_DIGIN;
return rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_OPMODE,
opmode);
}
int
rtw_sa2400_manrx_init(struct rtw_softc *sc)
{
u_int32_t manrx;
/* XXX we are not supposed to be in RXMGC mode when we do
* this?
*/
manrx = SA2400_MANRX_AHSN;
manrx |= SA2400_MANRX_TEN;
manrx |= LSHIFT(1023, SA2400_MANRX_RXGAIN_MASK);
return rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_MANRX,
manrx);
}
int
rtw_sa2400_vcocal_start(struct rtw_softc *sc, int start)
{
u_int32_t opmode;
opmode = SA2400_OPMODE_DEFAULTS;
if (start)
opmode |= SA2400_OPMODE_MODE_VCOCALIB;
else
opmode |= SA2400_OPMODE_MODE_SLEEP;
if (sc->sc_flags & RTW_F_DIGPHY)
opmode |= SA2400_OPMODE_DIGIN;
return rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_OPMODE,
opmode);
}
int
rtw_sa2400_vco_calibration(struct rtw_softc *sc)
{
int rc;
/* calibrate VCO */
if ((rc = rtw_sa2400_vcocal_start(sc, 1)) != 0)
return rc;
DELAY(2200); /* 2.2 milliseconds */
/* XXX superfluous: SA2400 automatically entered SLEEP mode. */
return rtw_sa2400_vcocal_start(sc, 0);
}
int
rtw_sa2400_filter_calibration(struct rtw_softc *sc)
{
u_int32_t opmode;
opmode = SA2400_OPMODE_DEFAULTS | SA2400_OPMODE_MODE_FCALIB;
if (sc->sc_flags & RTW_F_DIGPHY)
opmode |= SA2400_OPMODE_DIGIN;
return rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_OPMODE,
opmode);
}
int
rtw_sa2400_dc_calibration(struct rtw_softc *sc)
{
int rc;
u_int32_t dccal;
rtw_continuous_tx_enable(sc, 1);
dccal = SA2400_OPMODE_DEFAULTS | SA2400_OPMODE_MODE_TXRX;
rc = rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_OPMODE,
dccal);
if (rc != 0)
return rc;
DELAY(5); /* DCALIB after being in Tx mode for 5
* microseconds
*/
dccal &= ~SA2400_OPMODE_MODE_MASK;
dccal |= SA2400_OPMODE_MODE_DCALIB;
rc = rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_OPMODE,
dccal);
if (rc != 0)
return rc;
DELAY(20); /* calibration takes at most 20 microseconds */
rtw_continuous_tx_enable(sc, 0);
return 0;
}
int
rtw_sa2400_agc_init(struct rtw_softc *sc)
{
u_int32_t agc;
agc = LSHIFT(25, SA2400_AGC_MAXGAIN_MASK);
agc |= LSHIFT(7, SA2400_AGC_BBPDELAY_MASK);
agc |= LSHIFT(15, SA2400_AGC_LNADELAY_MASK);
agc |= LSHIFT(27, SA2400_AGC_RXONDELAY_MASK);
return rtw_rfbus_write(sc, RTW_RFCHIPID_PHILIPS, SA2400_AGC,
agc);
}
int
rtw_sa2400_calibrate(struct rtw_softc *sc, u_int freq)
{
int i, rc;
/* XXX reference driver calibrates VCO twice. Is it a bug? */
for (i = 0; i < 2; i++) {
if ((rc = rtw_sa2400_vco_calibration(sc)) != 0)
return rc;
}
/* VCO calibration erases synthesizer registers, so re-tune */
if ((rc = rtw_sa2400_tune(sc, freq)) != 0)
return rc;
if ((rc = rtw_sa2400_filter_calibration(sc)) != 0)
return rc;
/* analog PHY needs DC calibration */
if (!(sc->sc_flags & RTW_F_DIGPHY))
return rtw_sa2400_dc_calibration(sc);
return 0;
}
int
rtw_sa2400_init(struct rtw_softc *sc, u_int freq, u_int8_t opaque_txpower,
enum rtw_pwrstate power)
{
int rc;
if ((rc = rtw_sa2400_txpower(sc, opaque_txpower)) != 0)
return rc;
/* skip configuration if it's time to sleep or to power-down. */
if (power == RTW_SLEEP || power == RTW_OFF)
return rtw_sa2400_pwrstate(sc, power);
/* go to sleep for configuration */
if ((rc = rtw_sa2400_pwrstate(sc, RTW_SLEEP)) != 0)
return rc;
if ((rc = rtw_sa2400_tune(sc, freq)) != 0)
return rc;
if ((rc = rtw_sa2400_agc_init(sc)) != 0)
return rc;
if ((rc = rtw_sa2400_manrx_init(sc)) != 0)
return rc;
if ((rc = rtw_sa2400_calibrate(sc, freq)) != 0)
return rc;
/* enter Tx/Rx mode */
return rtw_sa2400_pwrstate(sc, power);
}
int
rtw_sa2400_create(struct rtw_softc *sc)
{
struct rtw_bbpset *bb = &sc->sc_bbpset;
/* XXX magic */
bb->bb_antatten = RTW_BBP_ANTATTEN_PHILIPS_MAGIC;
bb->bb_chestlim = 0x00;
bb->bb_chsqlim = 0xa0;
bb->bb_ifagcdet = 0x64;
bb->bb_ifagcini = 0x90;
bb->bb_ifagclimit = 0x1a;
bb->bb_lnadet = 0xe0;
bb->bb_sys1 = 0x98;
bb->bb_sys2 = 0x47;
bb->bb_sys3 = 0x90;
bb->bb_trl = 0x88;
bb->bb_txagc = 0x38;
return (0);
}
/* freq is in MHz */
int
rtw_max2820_tune(struct rtw_softc *sc, u_int freq)
{
if (freq < 2400 || freq > 2499)
return -1;
return rtw_rfbus_write(sc, RTW_RFCHIPID_MAXIM2820, MAX2820_CHANNEL,
LSHIFT(freq - 2400, MAX2820_CHANNEL_CF_MASK));
}
int
rtw_max2820_init(struct rtw_softc *sc, u_int freq, u_int8_t opaque_txpower,
enum rtw_pwrstate power)
{
int rc;
if ((rc = rtw_rfbus_write(sc, RTW_RFCHIPID_MAXIM2820, MAX2820_TEST,
MAX2820_TEST_DEFAULT)) != 0)
return rc;
if ((rc = rtw_rfbus_write(sc, RTW_RFCHIPID_MAXIM2820, MAX2820_ENABLE,
MAX2820_ENABLE_DEFAULT)) != 0)
return rc;
/* skip configuration if it's time to sleep or to power-down. */
if ((rc = rtw_max2820_pwrstate(sc, power)) != 0)
return rc;
else if (power == RTW_OFF || power == RTW_SLEEP)
return 0;
if ((rc = rtw_rfbus_write(sc, RTW_RFCHIPID_MAXIM2820, MAX2820_SYNTH,
MAX2820_SYNTH_R_44MHZ)) != 0)
return rc;
if ((rc = rtw_max2820_tune(sc, freq)) != 0)
return rc;
/* XXX The MAX2820 datasheet indicates that 1C and 2C should not
* be changed from 7, however, the reference driver sets them
* to 4 and 1, respectively.
*/
if ((rc = rtw_rfbus_write(sc, RTW_RFCHIPID_MAXIM2820, MAX2820_RECEIVE,
MAX2820_RECEIVE_DL_DEFAULT |
LSHIFT(4, MAX2820A_RECEIVE_1C_MASK) |
LSHIFT(1, MAX2820A_RECEIVE_2C_MASK))) != 0)
return rc;
return rtw_rfbus_write(sc, RTW_RFCHIPID_MAXIM2820, MAX2820_TRANSMIT,
MAX2820_TRANSMIT_PA_DEFAULT);
}
int
rtw_max2820_txpower(struct rtw_softc *sc, u_int8_t opaque_txpower)
{
/* TBD */
return 0;
}
int
rtw_max2820_pwrstate(struct rtw_softc *sc, enum rtw_pwrstate power)
{
uint32_t enable;
switch (power) {
case RTW_OFF:
case RTW_SLEEP:
default:
enable = 0x0;
break;
case RTW_ON:
enable = MAX2820_ENABLE_DEFAULT;
break;
}
return rtw_rfbus_write(sc, RTW_RFCHIPID_MAXIM2820,
MAX2820_ENABLE, enable);
}
int
rtw_max2820_create(struct rtw_softc *sc)
{
struct rtw_bbpset *bb = &sc->sc_bbpset;
/* XXX magic */
bb->bb_antatten = RTW_BBP_ANTATTEN_MAXIM_MAGIC;
bb->bb_chestlim = 0;
bb->bb_chsqlim = 159;
bb->bb_ifagcdet = 100;
bb->bb_ifagcini = 144;
bb->bb_ifagclimit = 26;
bb->bb_lnadet = 248;
bb->bb_sys1 = 136;
bb->bb_sys2 = 71;
bb->bb_sys3 = 155;
bb->bb_trl = 136;
bb->bb_txagc = 8;
return (0);
}
int
rtw_rtl8225_pwrstate(struct rtw_softc *sc, enum rtw_pwrstate power)
{
return (0);
}
int
rtw_rtl8225_init(struct rtw_softc *sc, u_int freq, u_int8_t opaque_txpower,
enum rtw_pwrstate power)
{
return (0);
}
int
rtw_rtl8225_txpower(struct rtw_softc *sc, u_int8_t opaque_txpower)
{
return (0);
}
int
rtw_rtl8225_tune(struct rtw_softc *sc, u_int freq)
{
return (0);
}
int
rtw_rtl8225_create(struct rtw_softc *sc)
{
return (0);
}
int
rtw_rtl8255_pwrstate(struct rtw_softc *sc, enum rtw_pwrstate power)
{
return (0);
}
int
rtw_rtl8255_init(struct rtw_softc *sc, u_int freq, u_int8_t opaque_txpower,
enum rtw_pwrstate power)
{
return (0);
}
int
rtw_rtl8255_txpower(struct rtw_softc *sc, u_int8_t opaque_txpower)
{
return (0);
}
int
rtw_rtl8255_tune(struct rtw_softc *sc, u_int freq)
{
return (0);
}
int
rtw_rtl8255_create(struct rtw_softc *sc)
{
return(0);
}
int
rtw_phy_init(struct rtw_softc *sc)
{
int rc;
struct ieee80211com *ic = &sc->sc_ic;
struct rtw_regs *regs = &sc->sc_regs;
int antdiv = sc->sc_flags & RTW_F_ANTDIV;
int dflantb = sc->sc_flags & RTW_F_DFLANTB;
u_int freq = ic->ic_bss->ni_chan->ic_freq; /* freq is in MHz */
u_int8_t opaque_txpower = rtw_chan2txpower(&sc->sc_srom, ic, ic->ic_bss->ni_chan);
u_int8_t cs_threshold = sc->sc_csthr;
enum rtw_pwrstate power = RTW_ON;
RTW_DPRINTF(RTW_DEBUG_PHY,
("%s: txpower %u csthresh %u freq %u antdiv %u dflantb %u "
"pwrstate %s\n", __func__, opaque_txpower, cs_threshold, freq,
antdiv, dflantb, rtw_pwrstate_string(power)));
/* XXX is this really necessary? */
if ((rc = rtw_rf_txpower(sc, opaque_txpower)) != 0)
return rc;
if ((rc = rtw_bbp_preinit(regs, sc->sc_bbpset.bb_antatten, dflantb,
freq)) != 0)
return rc;
if ((rc = rtw_rf_tune(sc, freq)) != 0)
return rc;
/* initialize RF */
if ((rc = rtw_rf_init(sc, freq, opaque_txpower, power)) != 0)
return rc;
#if 0 /* what is this redundant tx power setting here for? */
if ((rc = rtw_rf_txpower(sc, opaque_txpower)) != 0)
return rc;
#endif
return rtw_bbp_init(regs, &sc->sc_bbpset, antdiv, dflantb,
cs_threshold, freq);
}
/*
* Generic PHY I/O functions
*/
u_int8_t
rtw_bbp_read(struct rtw_regs *regs, u_int addr)
{
KASSERT((addr & ~PRESHIFT(RTW_BB_ADDR_MASK)) == 0);
RTW_WRITE(regs, RTW_BB,
LSHIFT(addr, RTW_BB_ADDR_MASK) | RTW_BB_RD_MASK | RTW_BB_WR_MASK);
delay(10); /* XXX */
RTW_WBR(regs, RTW_BB, RTW_BB);
return MASK_AND_RSHIFT(RTW_READ(regs, RTW_BB), RTW_BB_RD_MASK);
}
int
rtw_bbp_write(struct rtw_regs *regs, u_int addr, u_int val)
{
#define BBP_WRITE_ITERS 50
#define BBP_WRITE_DELAY 1
int i;
u_int32_t wrbbp, rdbbp;
RTW_DPRINTF(RTW_DEBUG_PHYIO,
("%s: bbp[%u] <- %u\n", __func__, addr, val));
KASSERT((addr & ~PRESHIFT(RTW_BB_ADDR_MASK)) == 0);
KASSERT((val & ~PRESHIFT(RTW_BB_WR_MASK)) == 0);
wrbbp = LSHIFT(addr, RTW_BB_ADDR_MASK) | RTW_BB_WREN |
LSHIFT(val, RTW_BB_WR_MASK) | RTW_BB_RD_MASK,
rdbbp = LSHIFT(addr, RTW_BB_ADDR_MASK) |
RTW_BB_WR_MASK | RTW_BB_RD_MASK;
RTW_DPRINTF(RTW_DEBUG_PHYIO,
("%s: rdbbp = %#08x, wrbbp = %#08x\n", __func__, rdbbp, wrbbp));
for (i = BBP_WRITE_ITERS; --i >= 0; ) {
RTW_RBW(regs, RTW_BB, RTW_BB);
RTW_WRITE(regs, RTW_BB, wrbbp);
RTW_SYNC(regs, RTW_BB, RTW_BB);
RTW_WRITE(regs, RTW_BB, rdbbp);
RTW_SYNC(regs, RTW_BB, RTW_BB);
delay(BBP_WRITE_DELAY); /* 1 microsecond */
if (MASK_AND_RSHIFT(RTW_READ(regs, RTW_BB),
RTW_BB_RD_MASK) == val) {
RTW_DPRINTF(RTW_DEBUG_PHYIO,
("%s: finished in %dus\n", __func__,
BBP_WRITE_DELAY * (BBP_WRITE_ITERS - i)));
return 0;
}
delay(BBP_WRITE_DELAY); /* again */
}
printf("%s: timeout\n", __func__);
return -1;
}
/* Help rtw_rf_hostwrite bang bits to RF over 3-wire interface. */
void
rtw_rf_hostbangbits(struct rtw_regs *regs, u_int32_t bits, int lo_to_hi,
u_int nbits)
{
int i;
u_int32_t mask, reg;
KASSERT(nbits <= 32);
RTW_DPRINTF(RTW_DEBUG_PHYIO,
("%s: %u bits, %#08x, %s\n", __func__, nbits, bits,
(lo_to_hi) ? "lo to hi" : "hi to lo"));
reg = RTW8180_PHYCFG_HST;
RTW_WRITE(regs, RTW8180_PHYCFG, reg);
RTW_SYNC(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
if (lo_to_hi)
mask = 0x1;
else
mask = 1 << (nbits - 1);
for (i = 0; i < nbits; i++) {
RTW_DPRINTF(RTW_DEBUG_PHYBITIO,
("%s: bits %#08x mask %#08x -> bit %#08x\n",
__func__, bits, mask, bits & mask));
if ((bits & mask) != 0)
reg |= RTW8180_PHYCFG_HST_DATA;
else
reg &= ~RTW8180_PHYCFG_HST_DATA;
reg |= RTW8180_PHYCFG_HST_CLK;
RTW_WRITE(regs, RTW8180_PHYCFG, reg);
RTW_SYNC(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
DELAY(2); /* arbitrary delay */
reg &= ~RTW8180_PHYCFG_HST_CLK;
RTW_WRITE(regs, RTW8180_PHYCFG, reg);
RTW_SYNC(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
if (lo_to_hi)
mask <<= 1;
else
mask >>= 1;
}
reg |= RTW8180_PHYCFG_HST_EN;
KASSERT((reg & RTW8180_PHYCFG_HST_CLK) == 0);
RTW_WRITE(regs, RTW8180_PHYCFG, reg);
RTW_SYNC(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
}
#if 0
void
rtw_rf_rtl8225_hostbangbits(struct rtw_regs *regs, u_int32_t bits, int lo_to_hi,
u_int nbits)
{
int i;
u_int8_t page;
u_int16_t reg0, reg1, reg2;
u_int32_t mask;
/* enable page 0 */
page = RTW_READ8(regs, RTW_PSR);
RTW_WRITE8(regs, RTW_PSR, page & ~RTW_PSR_PSEN);
/* enable RF access */
reg0 = RTW_READ16(regs, RTW8185_RFPINSOUTPUT) &
RTW8185_RFPINSOUTPUT_MASK;
reg1 = RTW_READ16(regs, RTW8185_RFPINSENABLE);
RTW_WRITE16(regs, RTW8185_RFPINSENABLE,
RTW8185_RFPINSENABLE_ENABLE | reg0);
reg2 = RTW_READ16(regs, RTW8185_RFPINSSELECT);
RTW_WRITE16(regs, RTW8185_RFPINSSELECT,
RTW8185_RFPINSSELECT_ENABLE | reg1 /* XXX | SW_GPIO_CTL */);
DELAY(10);
RTW_WRITE16(regs, RTW8185_RFPINSOUTPUT, reg0);
DELAY(10);
if (lo_to_hi)
mask = 0x1;
else
mask = 1 << (nbits - 1);
for (i = 0; i < nbits; i++) {
RTW_DPRINTF(RTW_DEBUG_PHYBITIO,
("%s: bits %#08x mask %#08x -> bit %#08x\n",
__func__, bits, mask, bits & mask));
if ((bits & mask) != 0)
reg |= RTW8180_PHYCFG_HST_DATA;
else
reg &= ~RTW8180_PHYCFG_HST_DATA;
reg |= RTW8180_PHYCFG_HST_CLK;
RTW_WRITE(regs, RTW8180_PHYCFG, reg);
RTW_SYNC(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
DELAY(2); /* arbitrary delay */
reg &= ~RTW8180_PHYCFG_HST_CLK;
RTW_WRITE(regs, RTW8180_PHYCFG, reg);
RTW_SYNC(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
if (lo_to_hi)
mask <<= 1;
else
mask >>= 1;
}
/* reset the page */
RTW_WRITE8(regs, RTW_PSR, page);
}
#endif
/* Help rtw_rf_macwrite: tell MAC to bang bits to RF over the 3-wire
* interface.
*/
int
rtw_rf_macbangbits(struct rtw_regs *regs, u_int32_t reg)
{
int i;
RTW_DPRINTF(RTW_DEBUG_PHY, ("%s: %#08x\n", __func__, reg));
RTW_WRITE(regs, RTW8180_PHYCFG, RTW8180_PHYCFG_MAC_POLL | reg);
RTW_WBR(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
for (i = rtw_macbangbits_timeout; --i >= 0; delay(1)) {
if ((RTW_READ(regs, RTW8180_PHYCFG) &
RTW8180_PHYCFG_MAC_POLL) == 0) {
RTW_DPRINTF(RTW_DEBUG_PHY,
("%s: finished in %dus\n", __func__,
rtw_macbangbits_timeout - i));
return 0;
}
RTW_RBR(regs, RTW8180_PHYCFG, RTW8180_PHYCFG);
}
printf("%s: RTW8180_PHYCFG_MAC_POLL still set.\n", __func__);
return -1;
}
u_int32_t
rtw_grf5101_host_crypt(u_int addr, u_int32_t val)
{
/* TBD */
return 0;
}
u_int32_t
rtw_grf5101_mac_crypt(u_int addr, u_int32_t val)
{
u_int32_t data_and_addr;
#define EXTRACT_NIBBLE(d, which) (((d) >> (4 * (which))) & 0xf)
static u_int8_t caesar[16] = {
0x0, 0x8, 0x4, 0xc,
0x2, 0xa, 0x6, 0xe,
0x1, 0x9, 0x5, 0xd,
0x3, 0xb, 0x7, 0xf
};
data_and_addr =
caesar[EXTRACT_NIBBLE(val, 2)] |
(caesar[EXTRACT_NIBBLE(val, 1)] << 4) |
(caesar[EXTRACT_NIBBLE(val, 0)] << 8) |
(caesar[(addr >> 1) & 0xf] << 12) |
((addr & 0x1) << 16) |
(caesar[EXTRACT_NIBBLE(val, 3)] << 24);
return LSHIFT(data_and_addr, RTW8180_PHYCFG_MAC_PHILIPS_ADDR_MASK |
RTW8180_PHYCFG_MAC_PHILIPS_DATA_MASK);
#undef EXTRACT_NIBBLE
}
const char *
rtw_rfchipid_string(int rfchipid)
{
switch (rfchipid) {
case RTW_RFCHIPID_MAXIM2820:
return "Maxim 2820";
case RTW_RFCHIPID_PHILIPS:
return "Philips SA2400";
case RTW_RFCHIPID_GCT:
return "GCT";
case RTW_RFCHIPID_RFMD2948:
return "RFMD 2948";
case RTW_RFCHIPID_INTERSIL:
return "Intersil";
case RTW_RFCHIPID_RTL8225:
return "Realtek RTL8225";
case RTW_RFCHIPID_RTL8255:
return "Realtek RTL8255";
default:
return "unknown";
}
}
/* Bang bits over the 3-wire interface. */
int
rtw_rf_hostwrite(struct rtw_regs *regs, int rfchipid, u_int addr, u_int32_t val)
{
u_int nbits;
int lo_to_hi;
u_int32_t bits;
void(*rf_bangbits)(struct rtw_regs *, u_int32_t, int, u_int) =
rtw_rf_hostbangbits;
RTW_DPRINTF(RTW_DEBUG_PHYIO, ("%s: %s[%u] <- %#08x\n", __func__,
rtw_rfchipid_string(rfchipid), addr, val));
switch (rfchipid) {
case RTW_RFCHIPID_MAXIM2820:
nbits = 16;
lo_to_hi = 0;
bits = LSHIFT(val, MAX2820_TWI_DATA_MASK) |
LSHIFT(addr, MAX2820_TWI_ADDR_MASK);
break;
case RTW_RFCHIPID_PHILIPS:
KASSERT((addr & ~PRESHIFT(SA2400_TWI_ADDR_MASK)) == 0);
KASSERT((val & ~PRESHIFT(SA2400_TWI_DATA_MASK)) == 0);
bits = LSHIFT(val, SA2400_TWI_DATA_MASK) |
LSHIFT(addr, SA2400_TWI_ADDR_MASK) | SA2400_TWI_WREN;
nbits = 32;
lo_to_hi = 1;
break;
case RTW_RFCHIPID_GCT:
case RTW_RFCHIPID_RFMD2948:
KASSERT((addr & ~PRESHIFT(SI4126_TWI_ADDR_MASK)) == 0);
KASSERT((val & ~PRESHIFT(SI4126_TWI_DATA_MASK)) == 0);
if (rfchipid == RTW_RFCHIPID_GCT)
bits = rtw_grf5101_host_crypt(addr, val);
else {
bits = LSHIFT(val, SI4126_TWI_DATA_MASK) |
LSHIFT(addr, SI4126_TWI_ADDR_MASK);
}
nbits = 22;
lo_to_hi = 0;
break;
case RTW_RFCHIPID_RTL8225:
case RTW_RFCHIPID_RTL8255:
nbits = 16;
lo_to_hi = 0;
bits = LSHIFT(val, RTL8225_TWI_DATA_MASK) |
LSHIFT(addr, RTL8225_TWI_ADDR_MASK);
/* the RTL8225 uses a slightly modified RF interface */
rf_bangbits = rtw_rf_hostbangbits;
break;
case RTW_RFCHIPID_INTERSIL:
default:
printf("%s: unknown rfchipid %d\n", __func__, rfchipid);
return -1;
}
(*rf_bangbits)(regs, bits, lo_to_hi, nbits);
return 0;
}
u_int32_t
rtw_maxim_swizzle(u_int addr, u_int32_t val)
{
u_int32_t hidata, lodata;
KASSERT((val & ~(RTW_MAXIM_LODATA_MASK|RTW_MAXIM_HIDATA_MASK)) == 0);
lodata = MASK_AND_RSHIFT(val, RTW_MAXIM_LODATA_MASK);
hidata = MASK_AND_RSHIFT(val, RTW_MAXIM_HIDATA_MASK);
return LSHIFT(lodata, RTW8180_PHYCFG_MAC_MAXIM_LODATA_MASK) |
LSHIFT(hidata, RTW8180_PHYCFG_MAC_MAXIM_HIDATA_MASK) |
LSHIFT(addr, RTW8180_PHYCFG_MAC_MAXIM_ADDR_MASK);
}
/* Tell the MAC what to bang over the 3-wire interface. */
int
rtw_rf_macwrite(struct rtw_regs *regs, int rfchipid, u_int addr, u_int32_t val)
{
u_int32_t reg;
RTW_DPRINTF(RTW_DEBUG_PHYIO, ("%s: %s[%u] <- %#08x\n", __func__,
rtw_rfchipid_string(rfchipid), addr, val));
switch (rfchipid) {
case RTW_RFCHIPID_GCT:
reg = rtw_grf5101_mac_crypt(addr, val);
break;
case RTW_RFCHIPID_MAXIM2820:
reg = rtw_maxim_swizzle(addr, val);
break;
default: /* XXX */
case RTW_RFCHIPID_PHILIPS:
KASSERT((addr &
~PRESHIFT(RTW8180_PHYCFG_MAC_PHILIPS_ADDR_MASK)) == 0);
KASSERT((val &
~PRESHIFT(RTW8180_PHYCFG_MAC_PHILIPS_DATA_MASK)) == 0);
reg = LSHIFT(addr, RTW8180_PHYCFG_MAC_PHILIPS_ADDR_MASK) |
LSHIFT(val, RTW8180_PHYCFG_MAC_PHILIPS_DATA_MASK);
}
switch (rfchipid) {
case RTW_RFCHIPID_GCT:
case RTW_RFCHIPID_MAXIM2820:
case RTW_RFCHIPID_RFMD2948:
reg |= RTW8180_PHYCFG_MAC_RFTYPE_RFMD;
break;
case RTW_RFCHIPID_INTERSIL:
reg |= RTW8180_PHYCFG_MAC_RFTYPE_INTERSIL;
break;
case RTW_RFCHIPID_PHILIPS:
reg |= RTW8180_PHYCFG_MAC_RFTYPE_PHILIPS;
break;
default:
printf("%s: unknown rfchipid %d\n", __func__, rfchipid);
return -1;
}
return rtw_rf_macbangbits(regs, reg);
}
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