ref: 8a45afd47d2545b2d85aecf9ec5af90cba3905d3
dir: /sys/src/9/bcm/ether4330.c/
/*
* Broadcom bcm4330 wifi (sdio interface)
*/
#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "../port/error.h"
#include "../port/netif.h"
#include "../port/etherif.h"
#include "../port/sd.h"
#define CACHELINESZ 64 /* temp */
static SDiocmd IO_SEND_OP_COND = { 5, 3, 0, 0, "IO_SEND_OP_COND" };
static SDiocmd IO_RW_DIRECT = { 52, 1, 0, 0, "IO_RW_DIRECT" };
enum{
SDIODEBUG = 0,
SBDEBUG = 0,
EVENTDEBUG = 0,
VARDEBUG = 0,
FWDEBUG = 0,
Corescansz = 512,
Uploadsz = 2048,
Sdpcmsz = 12, /* sizeof(Sdpcmsz) */
Cmdsz = 16, /* sizeof(Cmd) */
SDfreq = 25*Mhz, /* standard SD frequency */
SDfreqhs = 50*Mhz, /* high speed frequency */
Wifichan = 0, /* default channel */
Firmwarecmp = 1,
ARMcm3 = 0x82A,
ARM7tdmi = 0x825,
ARMcr4 = 0x83E,
Fn0 = 0,
Fn1 = 1,
Fn2 = 2,
Fbr1 = 0x100,
Fbr2 = 0x200,
/* CCCR */
Ioenable = 0x02,
Ioready = 0x03,
Intenable = 0x04,
Intpend = 0x05,
Ioabort = 0x06,
Busifc = 0x07,
Capability = 0x08,
Blksize = 0x10,
Highspeed = 0x13,
/* SELECT_CARD args */
Rcashift = 16,
/* SEND_OP_COND args */
Hcs = 1<<30, /* host supports SDHC & SDXC */
V3_3 = 3<<20, /* 3.2-3.4 volts */
V2_8 = 3<<15, /* 2.7-2.9 volts */
V2_0 = 1<<8, /* 2.0-2.1 volts */
S18R = 1<<24, /* switch to 1.8V request */
/* Sonics Silicon Backplane (access to cores on chip) */
Sbwsize = 0x8000,
Sb32bit = 0x8000,
Sbaddr = 0x1000a,
Enumbase = 0x18000000,
Framectl= 0x1000d,
Rfhalt = 0x01,
Wfhalt = 0x02,
Clkcsr = 0x1000e,
ForceALP = 0x01, /* active low-power clock */
ForceHT = 0x02, /* high throughput clock */
ForceILP = 0x04, /* idle low-power clock */
ReqALP = 0x08,
ReqHT = 0x10,
Nohwreq = 0x20,
ALPavail = 0x40,
HTavail = 0x80,
Pullups = 0x1000f,
Wfrmcnt = 0x10019,
Rfrmcnt = 0x1001b,
/* core control regs */
Ioctrl = 0x408,
Resetctrl = 0x800,
/* socram regs */
Coreinfo = 0x00,
Bankidx = 0x10,
Bankinfo = 0x40,
Bankpda = 0x44,
/* armcr4 regs */
Cr4Cap = 0x04,
Cr4Bankidx = 0x40,
Cr4Bankinfo = 0x44,
Cr4Cpuhalt = 0x20,
/* chipcommon regs */
Gpiopullup = 0x58,
Gpiopulldown = 0x5c,
Chipctladdr = 0x650,
Chipctldata = 0x654,
/* sdio core regs */
Intstatus = 0x20,
Fcstate = 1<<4,
Fcchange = 1<<5,
FrameInt = 1<<6,
MailboxInt = 1<<7,
Intmask = 0x24,
Sbmbox = 0x40,
Sbmboxdata = 0x48,
Hostmboxdata= 0x4c,
Fwready = 0x80,
/* wifi control commands */
GetVar = 262,
SetVar = 263,
/* status */
Disconnected= 0,
Connecting,
Connected,
};
typedef struct Ctlr Ctlr;
enum{
Wpa = 1,
Wep = 2,
Wpa2 = 3,
WNameLen = 32,
WNKeys = 4,
WKeyLen = 32,
WMinKeyLen = 5,
WMaxKeyLen = 13,
};
typedef struct WKey WKey;
struct WKey
{
ushort len;
uchar dat[WKeyLen];
};
struct Ctlr {
Ether *edev;
SDio *sdio;
int iodebug;
QLock sdiolock;
QLock cmdlock;
QLock pktlock;
QLock tlock;
QLock alock;
Lock txwinlock;
Rendez cmdr;
Rendez joinr;
int joinstatus;
int cryptotype;
int chanid;
char essid[WNameLen + 1];
WKey keys[WNKeys];
Block *rsp;
Block *scanb;
int scansecs;
int status;
int chipid;
int chiprev;
int armcore;
char *regufile;
union {
u32int i;
uchar c[4];
} resetvec;
ulong chipcommon;
ulong armctl;
ulong armregs;
ulong d11ctl;
ulong socramregs;
ulong socramctl;
ulong sdregs;
int sdiorev;
int socramrev;
ulong socramsize;
ulong rambase;
short reqid;
uchar fcmask;
uchar txwindow;
uchar txseq;
uchar rxseq;
};
enum{
CMauth,
CMchannel,
CMcrypt,
CMessid,
CMkey1,
CMkey2,
CMkey3,
CMkey4,
CMrxkey,
CMrxkey0,
CMrxkey1,
CMrxkey2,
CMrxkey3,
CMtxkey,
CMdebug,
CMjoin,
};
static Cmdtab cmds[] = {
{CMauth, "auth", 2},
{CMchannel, "channel", 2},
{CMcrypt, "crypt", 2},
{CMessid, "essid", 2},
{CMkey1, "key1", 2},
{CMkey2, "key1", 2},
{CMkey3, "key1", 2},
{CMkey4, "key1", 2},
{CMrxkey, "rxkey", 3},
{CMrxkey0, "rxkey0", 3},
{CMrxkey1, "rxkey1", 3},
{CMrxkey2, "rxkey2", 3},
{CMrxkey3, "rxkey3", 3},
{CMtxkey, "txkey", 3},
{CMdebug, "debug", 2},
{CMjoin, "join", 5},
};
typedef struct Sdpcm Sdpcm;
typedef struct Cmd Cmd;
struct Sdpcm {
uchar len[2];
uchar lenck[2];
uchar seq;
uchar chanflg;
uchar nextlen;
uchar doffset;
uchar fcmask;
uchar window;
uchar version;
uchar pad;
};
struct Cmd {
uchar cmd[4];
uchar len[4];
uchar flags[2];
uchar id[2];
uchar status[4];
};
static char config40181[] = "bcmdhd.cal.40181";
static char config40183[] = "bcmdhd.cal.40183.26MHz";
static struct {
int chipid;
int chiprev;
char *fwfile;
char *cfgfile;
char *regufile;
} firmware[] = {
{ 0x4330, 3, "fw_bcm40183b1.bin", config40183, 0 },
{ 0x4330, 4, "fw_bcm40183b2.bin", config40183, 0 },
{ 43362, 0, "fw_bcm40181a0.bin", config40181, 0 },
{ 43362, 1, "fw_bcm40181a2.bin", config40181, 0 },
{ 43430, 1, "brcmfmac43430-sdio.bin", "brcmfmac43430-sdio.txt", 0 },
{ 43430, 2, "brcmfmac43436-sdio.bin", "brcmfmac43436-sdio.txt", "brcmfmac43436-sdio.clm_blob" },
{ 0x4345, 6, "brcmfmac43455-sdio.bin", "brcmfmac43455-sdio.txt", "brcmfmac43455-sdio.clm_blob" },
{ 0x4345, 9, "brcmfmac43456-sdio.bin", "brcmfmac43456-sdio.txt", "brcmfmac43456-sdio.clm_blob" },
};
static void etherbcmintr(void *);
static void bcmevent(Ctlr*, uchar*, int);
static void wlscanresult(Ether*, uchar*, int);
static void wlsetvar(Ctlr*, char*, void*, int);
static uchar*
put2(uchar *p, short v)
{
p[0] = v;
p[1] = v >> 8;
return p + 2;
}
static uchar*
put4(uchar *p, long v)
{
p[0] = v;
p[1] = v >> 8;
p[2] = v >> 16;
p[3] = v >> 24;
return p + 4;
}
static ushort
get2(uchar *p)
{
return p[0] | p[1]<<8;
}
static ulong
get4(uchar *p)
{
return p[0] | p[1]<<8 | p[2]<<16 | p[3]<<24;
}
static void
dump(char *s, void *a, int n)
{
int i;
uchar *p;
p = a;
print("%s:", s);
for(i = 0; i < n; i++)
print("%c%2.2x", i&15? ' ' : '\n', *p++);
print("\n");
}
/*
* SDIO communication with dongle
*/
static ulong
sdiocmd(Ctlr *ctl, SDiocmd *cmd, ulong arg)
{
u32int resp[4];
SDio *io;
qlock(&ctl->sdiolock);
if(waserror()){
if(SDIODEBUG) print("sdiocmd error: cmd %s arg %lux\n", cmd->name, arg);
qunlock(&ctl->sdiolock);
nexterror();
}
io = ctl->sdio;
(*io->cmd)(io, cmd, arg, resp);
qunlock(&ctl->sdiolock);
poperror();
return resp[0];
}
static ulong
trysdiocmd(Ctlr *ctl, SDiocmd *cmd, ulong arg)
{
ulong r;
if(waserror())
return 0;
r = sdiocmd(ctl, cmd, arg);
poperror();
return r;
}
static int
sdiord(Ctlr *ctl, int fn, int addr)
{
int r;
r = sdiocmd(ctl, &IO_RW_DIRECT, (0<<31)|((fn&7)<<28)|((addr&0x1FFFF)<<9));
if(r & 0xCF00){
print("ether4330: sdiord(%x, %x) fail: %2.2ux %2.2ux\n", fn, addr, (r>>8)&0xFF, r&0xFF);
error(Eio);
}
return r & 0xFF;
}
static void
sdiowr(Ctlr *ctl, int fn, int addr, int data)
{
int r;
int retry;
r = 0;
for(retry = 0; retry < 10; retry++){
r = sdiocmd(ctl, &IO_RW_DIRECT, (1<<31)|((fn&7)<<28)|((addr&0x1FFFF)<<9)|(data&0xFF));
if((r & 0xCF00) == 0)
return;
}
print("ether4330: sdiowr(%x, %x, %x) fail: %2.2ux %2.2ux\n", fn, addr, data, (r>>8)&0xFF, r&0xFF);
error(Eio);
}
static void
sdiorwext(Ctlr *ctl, int fn, int write, void *a, int len, int addr, int incr)
{
SDiocmd cmd = { 53, 1, 0, 0, "IO_RW_EXTENDED" };
int bsize, blk, bcount, m;
u32int resp[4];
SDio *io;
bsize = fn == Fn2? 512 : 64;
while(len > 0){
if(len >= 511*bsize){
blk = 1;
bcount = 511;
m = bcount*bsize;
}else if(len > bsize){
blk = 1;
bcount = len/bsize;
m = bcount*bsize;
}else{
blk = 0;
bcount = len;
m = bcount;
}
qlock(&ctl->sdiolock);
if(waserror()){
print("ether4330: sdiorwext fail: %s\n", up->errstr);
qunlock(&ctl->sdiolock);
nexterror();
}
io = ctl->sdio;
cmd.data = write? 2 : 1; /* Host2card : Card2host */
if(blk){
cmd.data += 2; /* Multiblock | Blkcnten */
(*io->iosetup)(io, write, a, bsize, bcount);
}else
(*io->iosetup)(io, write, a, bcount, 1);
(*io->cmd)(io, &cmd, write<<31 | (fn&7)<<28 | blk<<27 | incr<<26 | (addr&0x1FFFF)<<9 | (bcount&0x1FF), resp);
(*io->io)(io, write, a, m);
qunlock(&ctl->sdiolock);
poperror();
len -= m;
a = (char*)a + m;
if(incr)
addr += m;
}
}
static void
sdioset(Ctlr *ctl, int fn, int addr, int bits)
{
sdiowr(ctl, fn, addr, sdiord(ctl, fn, addr) | bits);
}
static void
sdioinit(Ctlr *ctl)
{
ulong ocr, rca;
int i;
if(ctl->sdio == nil){
/* take over /dev/sdM (emmc) */
ctl->sdio = annexsdio("M");
/* disconnect emmc from SD card (connect sdhost instead) */
for(i = 48; i <= 53; i++)
gpiosel(i, Alt0);
/* connect emmc to wifi */
for(i = 34; i <= 39; i++){
gpiosel(i, Alt3);
if(i == 34)
gpiopulloff(i);
else
gpiopullup(i);
}
}
(*ctl->sdio->bus)(ctl->sdio, 1, SDfreq);
sdiocmd(ctl, &GO_IDLE_STATE, 0);
ocr = trysdiocmd(ctl, &IO_SEND_OP_COND, 0);
i = 0;
while((ocr & (1<<31)) == 0){
if(++i > 5){
print("ether4330: no response to sdio access: ocr = %lux\n", ocr);
error(Eio);
}
ocr = trysdiocmd(ctl, &IO_SEND_OP_COND, V3_3);
tsleep(&up->sleep, return0, nil, 100);
}
rca = sdiocmd(ctl, &SEND_RELATIVE_ADDR, 0) >> Rcashift;
sdiocmd(ctl, &SELECT_CARD, rca << Rcashift);
sdioset(ctl, Fn0, Highspeed, 2);
sdioset(ctl, Fn0, Busifc, 2); /* bus width 4 */
(*ctl->sdio->bus)(ctl->sdio, 4, SDfreqhs);
sdiowr(ctl, Fn0, Fbr1+Blksize, 64);
sdiowr(ctl, Fn0, Fbr1+Blksize+1, 64>>8);
sdiowr(ctl, Fn0, Fbr2+Blksize, 512);
sdiowr(ctl, Fn0, Fbr2+Blksize+1, 512>>8);
sdioset(ctl, Fn0, Ioenable, 1<<Fn1);
sdiowr(ctl, Fn0, Intenable, 0);
for(i = 0; !(sdiord(ctl, Fn0, Ioready) & 1<<Fn1); i++){
if(i == 10){
print("ether4330: can't enable SDIO function\n");
error(Eio);
}
tsleep(&up->sleep, return0, nil, 100);
}
}
static void
sdioreset(Ctlr *ctl)
{
sdiowr(ctl, Fn0, Ioabort, 1<<3); /* reset */
}
static void
sdioabort(Ctlr *ctl, int fn)
{
sdiowr(ctl, Fn0, Ioabort, fn);
}
/*
* Chip register and memory access via SDIO
*/
static void
cfgw(Ctlr *ctl, ulong off, int val)
{
sdiowr(ctl, Fn1, off, val);
}
static int
cfgr(Ctlr *ctl, ulong off)
{
return sdiord(ctl, Fn1, off);
}
static ulong
cfgreadl(Ctlr *ctl, int fn, ulong off)
{
uchar cbuf[2*CACHELINESZ];
uchar *p;
p = (uchar*)ROUND((uintptr)cbuf, CACHELINESZ);
memset(p, 0, 4);
sdiorwext(ctl, fn, 0, p, 4, off|Sb32bit, 1);
if(SDIODEBUG) print("cfgreadl %lux: %2.2x %2.2x %2.2x %2.2x\n", off, p[0], p[1], p[2], p[3]);
return p[0] | p[1]<<8 | p[2]<<16 | p[3]<<24;
}
static void
cfgwritel(Ctlr *ctl, int fn, ulong off, u32int data)
{
uchar cbuf[2*CACHELINESZ];
uchar *p;
int retry;
p = (uchar*)ROUND((uintptr)cbuf, CACHELINESZ);
put4(p, data);
if(SDIODEBUG) print("cfgwritel %lux: %2.2x %2.2x %2.2x %2.2x\n", off, p[0], p[1], p[2], p[3]);
retry = 0;
while(waserror()){
print("ether4330: cfgwritel retry %lux %ux\n", off, data);
sdioabort(ctl, fn);
if(++retry == 3)
nexterror();
}
sdiorwext(ctl, fn, 1, p, 4, off|Sb32bit, 1);
poperror();
}
static void
sbwindow(Ctlr *ctl, ulong addr)
{
addr &= ~(Sbwsize-1);
cfgw(ctl, Sbaddr, addr>>8);
cfgw(ctl, Sbaddr+1, addr>>16);
cfgw(ctl, Sbaddr+2, addr>>24);
}
static void
sbrw(Ctlr *ctl, int fn, int write, uchar *buf, int len, ulong off)
{
int n;
USED(fn);
if(waserror()){
print("ether4330: sbrw err off %lux len %ud\n", off, len);
nexterror();
}
if(write){
if(len >= 4){
n = len;
n &= ~3;
sdiorwext(ctl, Fn1, write, buf, n, off|Sb32bit, 1);
off += n;
buf += n;
len -= n;
}
while(len > 0){
sdiowr(ctl, Fn1, off|Sb32bit, *buf);
off++;
buf++;
len--;
}
}else{
if(len >= 4){
n = len;
n &= ~3;
sdiorwext(ctl, Fn1, write, buf, n, off|Sb32bit, 1);
off += n;
buf += n;
len -= n;
}
while(len > 0){
*buf = sdiord(ctl, Fn1, off|Sb32bit);
off++;
buf++;
len--;
}
}
poperror();
}
static void
sbmem(Ctlr *ctl, int write, uchar *buf, int len, ulong off)
{
ulong n;
n = ROUNDUP(off, Sbwsize) - off;
if(n == 0)
n = Sbwsize;
while(len > 0){
if(n > len)
n = len;
sbwindow(ctl, off);
sbrw(ctl, Fn1, write, buf, n, off & (Sbwsize-1));
off += n;
buf += n;
len -= n;
n = Sbwsize;
}
}
static void
packetrw(Ctlr *ctl, int write, uchar *buf, int len)
{
int n;
int retry;
n = 2048;
while(len > 0){
if(n > len)
n = ROUND(len, 4);
retry = 0;
while(waserror()){
sdioabort(ctl, Fn2);
if(++retry == 3)
nexterror();
}
sdiorwext(ctl, Fn2, write, buf, n, Enumbase, 0);
poperror();
buf += n;
len -= n;
}
}
/*
* Configuration and control of chip cores via Silicon Backplane
*/
static void
sbdisable(Ctlr *ctl, ulong regs, int pre, int ioctl)
{
sbwindow(ctl, regs);
if((cfgreadl(ctl, Fn1, regs + Resetctrl) & 1) != 0){
cfgwritel(ctl, Fn1, regs + Ioctrl, 3|ioctl);
cfgreadl(ctl, Fn1, regs + Ioctrl);
return;
}
cfgwritel(ctl, Fn1, regs + Ioctrl, 3|pre);
cfgreadl(ctl, Fn1, regs + Ioctrl);
cfgwritel(ctl, Fn1, regs + Resetctrl, 1);
microdelay(10);
while((cfgreadl(ctl, Fn1, regs + Resetctrl) & 1) == 0)
;
cfgwritel(ctl, Fn1, regs + Ioctrl, 3|ioctl);
cfgreadl(ctl, Fn1, regs + Ioctrl);
}
static void
sbreset(Ctlr *ctl, ulong regs, int pre, int ioctl)
{
sbdisable(ctl, regs, pre, ioctl);
sbwindow(ctl, regs);
if(SBDEBUG) print("sbreset %#lux %#lux %#lux ->", regs,
cfgreadl(ctl, Fn1, regs+Ioctrl),
cfgreadl(ctl, Fn1, regs+Resetctrl));
while((cfgreadl(ctl, Fn1, regs + Resetctrl) & 1) != 0){
cfgwritel(ctl, Fn1, regs + Resetctrl, 0);
microdelay(40);
}
cfgwritel(ctl, Fn1, regs + Ioctrl, 1|ioctl);
cfgreadl(ctl, Fn1, regs + Ioctrl);
if(SBDEBUG) print("%#lux %#lux\n",
cfgreadl(ctl, Fn1, regs+Ioctrl),
cfgreadl(ctl, Fn1, regs+Resetctrl));
}
static void
corescan(Ctlr *ctl, ulong r)
{
uchar *buf;
int i, coreid, corerev;
ulong addr;
buf = sdmalloc(Corescansz);
if(buf == nil)
error(Enomem);
sbmem(ctl, 0, buf, Corescansz, r);
coreid = 0;
corerev = 0;
for(i = 0; i < Corescansz; i += 4){
switch(buf[i]&0xF){
case 0xF: /* end */
sdfree(buf);
return;
case 0x1: /* core info */
if((buf[i+4]&0xF) != 0x1)
break;
coreid = (buf[i+1] | buf[i+2]<<8) & 0xFFF;
i += 4;
corerev = buf[i+3];
break;
case 0x05: /* address */
addr = buf[i+1]<<8 | buf[i+2]<<16 | buf[i+3]<<24;
addr &= ~0xFFF;
if(SBDEBUG) print("core %x %s %#lux\n", coreid, buf[i]&0xC0? "ctl" : "mem", addr);
switch(coreid){
case 0x800:
if((buf[i] & 0xC0) == 0)
ctl->chipcommon = addr;
break;
case ARMcm3:
case ARM7tdmi:
case ARMcr4:
ctl->armcore = coreid;
if(buf[i] & 0xC0){
if(ctl->armctl == 0)
ctl->armctl = addr;
}else{
if(ctl->armregs == 0)
ctl->armregs = addr;
}
break;
case 0x80E:
if(buf[i] & 0xC0)
ctl->socramctl = addr;
else if(ctl->socramregs == 0)
ctl->socramregs = addr;
ctl->socramrev = corerev;
break;
case 0x829:
if((buf[i] & 0xC0) == 0)
ctl->sdregs = addr;
ctl->sdiorev = corerev;
break;
case 0x812:
if(buf[i] & 0xC0)
ctl->d11ctl = addr;
break;
}
}
}
sdfree(buf);
}
static void
ramscan(Ctlr *ctl)
{
ulong r, n, size;
int banks, i;
if(ctl->armcore == ARMcr4){
r = ctl->armregs;
sbwindow(ctl, r);
n = cfgreadl(ctl, Fn1, r + Cr4Cap);
if(SBDEBUG) print("cr4 banks %lux\n", n);
banks = ((n>>4) & 0xF) + (n & 0xF);
size = 0;
for(i = 0; i < banks; i++){
cfgwritel(ctl, Fn1, r + Cr4Bankidx, i);
n = cfgreadl(ctl, Fn1, r + Cr4Bankinfo);
if(SBDEBUG) print("bank %d reg %lux size %lud\n", i, n, 8192 * ((n & 0x3F) + 1));
size += 8192 * ((n & 0x3F) + 1);
}
ctl->socramsize = size;
ctl->rambase = 0x198000;
return;
}
if(ctl->socramrev <= 7 || ctl->socramrev == 12){
print("ether4330: SOCRAM rev %d not supported\n", ctl->socramrev);
error(Eio);
}
sbreset(ctl, ctl->socramctl, 0, 0);
r = ctl->socramregs;
sbwindow(ctl, r);
n = cfgreadl(ctl, Fn1, r + Coreinfo);
if(SBDEBUG) print("socramrev %d coreinfo %lux\n", ctl->socramrev, n);
banks = (n>>4) & 0xF;
size = 0;
for(i = 0; i < banks; i++){
cfgwritel(ctl, Fn1, r + Bankidx, i);
n = cfgreadl(ctl, Fn1, r + Bankinfo);
if(SBDEBUG) print("bank %d reg %lux size %lud\n", i, n, 8192 * ((n & 0x3F) + 1));
size += 8192 * ((n & 0x3F) + 1);
}
ctl->socramsize = size;
ctl->rambase = 0;
if(ctl->chipid == 43430){
cfgwritel(ctl, Fn1, r + Bankidx, 3);
cfgwritel(ctl, Fn1, r + Bankpda, 0);
}
}
static void
sbinit(Ctlr *ctl)
{
ulong r;
int chipid;
char buf[16];
sbwindow(ctl, Enumbase);
r = cfgreadl(ctl, Fn1, Enumbase);
chipid = r & 0xFFFF;
sprint(buf, chipid > 43000 ? "%d" : "%#x", chipid);
print("ether4330: chip %s rev %ld type %ld\n", buf, (r>>16)&0xF, (r>>28)&0xF);
switch(chipid){
case 0x4330:
case 43362:
case 43430:
case 0x4345:
ctl->chipid = chipid;
ctl->chiprev = (r>>16)&0xF;
break;
default:
print("ether4330: chipid %#x (%d) not supported\n", chipid, chipid);
error(Eio);
}
r = cfgreadl(ctl, Fn1, Enumbase + 63*4);
corescan(ctl, r);
if(ctl->armctl == 0 || ctl->d11ctl == 0 ||
(ctl->armcore == ARMcm3 && (ctl->socramctl == 0 || ctl->socramregs == 0)))
error("corescan didn't find essential cores\n");
if(ctl->armcore == ARMcr4)
sbreset(ctl, ctl->armctl, Cr4Cpuhalt, Cr4Cpuhalt);
else
sbdisable(ctl, ctl->armctl, 0, 0);
sbreset(ctl, ctl->d11ctl, 8|4, 4);
ramscan(ctl);
if(SBDEBUG) print("ARM %#lux D11 %#lux SOCRAM %#lux,%#lux %lud bytes @ %#lux\n",
ctl->armctl, ctl->d11ctl, ctl->socramctl, ctl->socramregs, ctl->socramsize, ctl->rambase);
cfgw(ctl, Clkcsr, 0);
microdelay(10);
if(SBDEBUG) print("chipclk: %x\n", cfgr(ctl, Clkcsr));
cfgw(ctl, Clkcsr, Nohwreq | ReqALP);
while((cfgr(ctl, Clkcsr) & (HTavail|ALPavail)) == 0)
microdelay(10);
cfgw(ctl, Clkcsr, Nohwreq | ForceALP);
microdelay(65);
if(SBDEBUG) print("chipclk: %x\n", cfgr(ctl, Clkcsr));
cfgw(ctl, Pullups, 0);
sbwindow(ctl, ctl->chipcommon);
cfgwritel(ctl, Fn1, ctl->chipcommon + Gpiopullup, 0);
cfgwritel(ctl, Fn1, ctl->chipcommon + Gpiopulldown, 0);
if(ctl->chipid != 0x4330 && ctl->chipid != 43362)
return;
cfgwritel(ctl, Fn1, ctl->chipcommon + Chipctladdr, 1);
if(cfgreadl(ctl, Fn1, ctl->chipcommon + Chipctladdr) != 1)
print("ether4330: can't set Chipctladdr\n");
else{
r = cfgreadl(ctl, Fn1, ctl->chipcommon + Chipctldata);
if(SBDEBUG) print("chipcommon PMU (%lux) %lux", cfgreadl(ctl, Fn1, ctl->chipcommon + Chipctladdr), r);
/* set SDIO drive strength >= 6mA */
r &= ~0x3800;
if(ctl->chipid == 0x4330)
r |= 3<<11;
else
r |= 7<<11;
cfgwritel(ctl, Fn1, ctl->chipcommon + Chipctldata, r);
if(SBDEBUG) print("-> %lux (= %lux)\n", r, cfgreadl(ctl, Fn1, ctl->chipcommon + Chipctldata));
}
}
static void
sbenable(Ctlr *ctl)
{
int i;
if(SBDEBUG) print("enabling HT clock...");
cfgw(ctl, Clkcsr, 0);
delay(1);
cfgw(ctl, Clkcsr, ReqHT);
for(i = 0; (cfgr(ctl, Clkcsr) & HTavail) == 0; i++){
if(i == 50){
print("ether4330: can't enable HT clock: csr %x\n",
cfgr(ctl, Clkcsr));
error(Eio);
}
tsleep(&up->sleep, return0, nil, 100);
}
cfgw(ctl, Clkcsr, cfgr(ctl, Clkcsr) | ForceHT);
delay(10);
if(SBDEBUG) print("chipclk: %x\n", cfgr(ctl, Clkcsr));
sbwindow(ctl, ctl->sdregs);
cfgwritel(ctl, Fn1, ctl->sdregs + Sbmboxdata, 4 << 16); /* protocol version */
cfgwritel(ctl, Fn1, ctl->sdregs + Intmask, FrameInt | MailboxInt | Fcchange);
sdioset(ctl, Fn0, Ioenable, 1<<Fn2);
for(i = 0; !(sdiord(ctl, Fn0, Ioready) & 1<<Fn2); i++){
if(i == 10){
print("ether4330: can't enable SDIO function 2 - ioready %x\n",
sdiord(ctl, Fn0, Ioready));
error(Eio);
}
tsleep(&up->sleep, return0, nil, 100);
}
sdiowr(ctl, Fn0, Intenable, (1<<Fn1) | (1<<Fn2) | 1);
}
/*
* Firmware and config file uploading
*/
/*
* Condense config file contents (in buffer buf with length n)
* to 'var=value\0' list for firmware:
* - remove comments (starting with '#') and blank lines
* - remove carriage returns
* - convert newlines to nulls
* - mark end with two nulls
* - pad with nulls to multiple of 4 bytes total length
*/
static int
condense(uchar *buf, int n)
{
uchar *p, *ep, *lp, *op;
int c, skipping;
skipping = 0; /* true if in a comment */
ep = buf + n; /* end of input */
op = buf; /* end of output */
lp = buf; /* start of current output line */
for(p = buf; p < ep; p++){
switch(c = *p){
case '#':
skipping = 1;
break;
case '\0':
case '\n':
skipping = 0;
if(op != lp){
*op++ = '\0';
lp = op;
}
break;
case '\r':
break;
default:
if(!skipping)
*op++ = c;
break;
}
}
if(!skipping && op != lp)
*op++ = '\0';
*op++ = '\0';
for(n = op - buf; n & 03; n++)
*op++ = '\0';
return n;
}
/*
* Try to find firmware file in /boot or in /lib/firmware.
* Throw an error if not found.
*/
static Chan*
findfirmware(char *file)
{
char nbuf[64];
Chan *c;
if(!waserror()){
snprint(nbuf, sizeof nbuf, "/boot/%s", file);
c = namec(nbuf, Aopen, OREAD, 0);
poperror();
}else if(!waserror()){
snprint(nbuf, sizeof nbuf, "/lib/firmware/%s", file);
c = namec(nbuf, Aopen, OREAD, 0);
poperror();
}else{
snprint(up->genbuf, sizeof up->genbuf, "can't find %s in /boot or /lib/firmware", file);
error(up->genbuf);
}
return c;
}
static int
upload(Ctlr *ctl, char *file, int isconfig)
{
Chan *c;
uchar *buf;
uchar *cbuf;
int off, n;
buf = cbuf = nil;
c = findfirmware(file);
if(waserror()){
cclose(c);
sdfree(buf);
sdfree(cbuf);
nexterror();
}
buf = sdmalloc(Uploadsz);
if(buf == nil)
error(Enomem);
if(Firmwarecmp){
cbuf = sdmalloc(Uploadsz);
if(cbuf == nil)
error(Enomem);
}
off = 0;
for(;;){
n = devtab[c->type]->read(c, buf, Uploadsz, off);
if(n <= 0)
break;
if(isconfig){
n = condense(buf, n);
off = ctl->socramsize - n - 4;
}else if(off == 0)
memmove(ctl->resetvec.c, buf, sizeof(ctl->resetvec.c));
while(n&3)
buf[n++] = 0;
sbmem(ctl, 1, buf, n, ctl->rambase + off);
if(isconfig)
break;
off += n;
}
if(Firmwarecmp){
if(FWDEBUG) print("compare...");
if(!isconfig)
off = 0;
for(;;){
if(!isconfig){
n = devtab[c->type]->read(c, buf, Uploadsz, off);
if(n <= 0)
break;
while(n&3)
buf[n++] = 0;
}
sbmem(ctl, 0, cbuf, n, ctl->rambase + off);
if(memcmp(buf, cbuf, n) != 0){
print("ether4330: firmware load failed offset %d\n", off);
error(Eio);
}
if(isconfig)
break;
off += n;
}
}
if(FWDEBUG) print("\n");
poperror();
cclose(c);
sdfree(buf);
sdfree(cbuf);
return n;
}
/*
* Upload regulatory file (.clm) to firmware.
* Packet format is
* [2]flag [2]type [4]len [4]crc [len]data
*/
static void
reguload(Ctlr *ctl, char *file)
{
Chan *c;
uchar *buf;
int off, n, flag;
enum {
Reguhdr = 2+2+4+4,
Regusz = 1400,
Regutyp = 2,
Flagclm = 1<<12,
Firstpkt= 1<<1,
Lastpkt = 1<<2,
};
buf = nil;
c = findfirmware(file);
if(waserror()){
cclose(c);
free(buf);
nexterror();
}
buf = malloc(Reguhdr+Regusz+1);
if(buf == nil)
error(Enomem);
put2(buf+2, Regutyp);
put2(buf+8, 0);
off = 0;
flag = Flagclm | Firstpkt;
while((flag&Lastpkt) == 0){
n = devtab[c->type]->read(c, buf+Reguhdr, Regusz+1, off);
if(n <= 0)
break;
if(n == Regusz+1)
--n;
else{
while(n&7)
buf[Reguhdr+n++] = 0;
flag |= Lastpkt;
}
put2(buf+0, flag);
put4(buf+4, n);
wlsetvar(ctl, "clmload", buf, Reguhdr + n);
off += n;
flag &= ~Firstpkt;
}
poperror();
cclose(c);
free(buf);
}
static void
fwload(Ctlr *ctl)
{
uchar buf[4];
uint i, n;
i = 0;
while(firmware[i].chipid != ctl->chipid ||
firmware[i].chiprev != ctl->chiprev){
if(++i == nelem(firmware)){
print("ether4330: no firmware for chipid %x (%d) chiprev %d\n",
ctl->chipid, ctl->chipid, ctl->chiprev);
error("no firmware");
}
}
ctl->regufile = firmware[i].regufile;
cfgw(ctl, Clkcsr, ReqALP);
while((cfgr(ctl, Clkcsr) & ALPavail) == 0)
microdelay(10);
memset(buf, 0, 4);
sbmem(ctl, 1, buf, 4, ctl->rambase + ctl->socramsize - 4);
if(FWDEBUG) print("firmware load...");
upload(ctl, firmware[i].fwfile, 0);
if(FWDEBUG) print("config load...");
n = upload(ctl, firmware[i].cfgfile, 1);
n /= 4;
n = (n & 0xFFFF) | (~n << 16);
put4(buf, n);
sbmem(ctl, 1, buf, 4, ctl->rambase + ctl->socramsize - 4);
if(ctl->armcore == ARMcr4){
sbwindow(ctl, ctl->sdregs);
cfgwritel(ctl, Fn1, ctl->sdregs + Intstatus, ~0);
if(ctl->resetvec.i != 0){
if(SBDEBUG) print("%ux\n", ctl->resetvec.i);
sbmem(ctl, 1, ctl->resetvec.c, sizeof(ctl->resetvec.c), 0);
}
sbreset(ctl, ctl->armctl, Cr4Cpuhalt, 0);
}else
sbreset(ctl, ctl->armctl, 0, 0);
}
/*
* Communication of data and control packets
*/
static void
intwait(Ctlr *ctl, int wait)
{
ulong ints, mbox;
int i;
if(waserror())
return;
for(;;){
if(ctl->sdio->cardintr != nil)
(*ctl->sdio->cardintr)(ctl->sdio, wait);
sbwindow(ctl, ctl->sdregs);
i = sdiord(ctl, Fn0, Intpend);
if(i == 0){
tsleep(&up->sleep, return0, 0, 10);
continue;
}
ints = cfgreadl(ctl, Fn1, ctl->sdregs + Intstatus);
cfgwritel(ctl, Fn1, ctl->sdregs + Intstatus, ints);
if(0) print("INTS: (%x) %lux -> %lux\n", i, ints, cfgreadl(ctl, Fn1, ctl->sdregs + Intstatus));
if(ints & MailboxInt){
mbox = cfgreadl(ctl, Fn1, ctl->sdregs + Hostmboxdata);
cfgwritel(ctl, Fn1, ctl->sdregs + Sbmbox, 2); /* ack */
if(mbox & 0x8)
print("ether4330: firmware ready\n");
}
if(ints & FrameInt)
break;
}
poperror();
}
static Block*
wlreadpkt(Ctlr *ctl)
{
Block *b;
Sdpcm *p;
int len, lenck;
b = allocb(2048);
p = (Sdpcm*)b->wp;
qlock(&ctl->pktlock);
for(;;){
packetrw(ctl, 0, b->wp, Sdpcmsz);
len = p->len[0] | p->len[1]<<8;
if(len == 0){
freeb(b);
b = nil;
break;
}
lenck = p->lenck[0] | p->lenck[1]<<8;
if(lenck != (len ^ 0xFFFF) ||
len < Sdpcmsz || len > 2048){
print("ether4330: wlreadpkt error len %.4x lenck %.4x\n", len, lenck);
cfgw(ctl, Framectl, Rfhalt);
while(cfgr(ctl, Rfrmcnt+1))
;
while(cfgr(ctl, Rfrmcnt))
;
continue;
}
if(len > Sdpcmsz)
packetrw(ctl, 0, b->wp + Sdpcmsz, len - Sdpcmsz);
b->wp += len;
break;
}
qunlock(&ctl->pktlock);
return b;
}
static void
txstart(Ether *edev)
{
Ctlr *ctl;
Sdpcm *p;
Block *b;
int len, off;
ctl = edev->ctlr;
if(!canqlock(&ctl->tlock))
return;
if(waserror()){
qunlock(&ctl->tlock);
return;
}
for(;;){
lock(&ctl->txwinlock);
if(ctl->txseq == ctl->txwindow){
//print("f");
unlock(&ctl->txwinlock);
break;
}
if(ctl->fcmask & 1<<2){
//print("x");
unlock(&ctl->txwinlock);
break;
}
unlock(&ctl->txwinlock);
b = qget(edev->oq);
if(b == nil)
break;
off = ((uintptr)b->rp & 3) + Sdpcmsz;
b = padblock(b, off + 4);
len = BLEN(b);
p = (Sdpcm*)b->rp;
memset(p, 0, off); /* TODO: refactor dup code */
put2(p->len, len);
put2(p->lenck, ~len);
p->chanflg = 2;
p->seq = ctl->txseq;
p->doffset = off;
put4(b->rp + off, 0x20); /* BDC header */
if(ctl->iodebug) dump("send", b->rp, len);
qlock(&ctl->pktlock);
if(waserror()){
if(ctl->iodebug) print("halt frame %x %x\n",
cfgr(ctl, Wfrmcnt+1), cfgr(ctl, Wfrmcnt+1));
cfgw(ctl, Framectl, Wfhalt);
while(cfgr(ctl, Wfrmcnt+1))
;
while(cfgr(ctl, Wfrmcnt))
;
qunlock(&ctl->pktlock);
nexterror();
}
packetrw(ctl, 1, b->rp, len);
ctl->txseq++;
poperror();
qunlock(&ctl->pktlock);
freeb(b);
}
poperror();
qunlock(&ctl->tlock);
}
static void
rproc(void *a)
{
Ether *edev;
Ctlr *ctl;
Block *b;
Sdpcm *p;
Cmd *q;
int flowstart;
int bdc;
edev = a;
ctl = edev->ctlr;
flowstart = 0;
for(;;){
if(flowstart){
//print("F");
flowstart = 0;
txstart(edev);
}
b = wlreadpkt(ctl);
if(b == nil){
intwait(ctl, 1);
continue;
}
p = (Sdpcm*)b->rp;
if(p->window != ctl->txwindow || p->fcmask != ctl->fcmask){
lock(&ctl->txwinlock);
if(p->window != ctl->txwindow){
if(ctl->txseq == ctl->txwindow)
flowstart = 1;
ctl->txwindow = p->window;
}
if(p->fcmask != ctl->fcmask){
if((p->fcmask & 1<<2) == 0)
flowstart = 1;
ctl->fcmask = p->fcmask;
}
unlock(&ctl->txwinlock);
}
switch(p->chanflg & 0xF){
case 0:
if(ctl->iodebug) dump("rsp", b->rp, BLEN(b));
if(BLEN(b) < Sdpcmsz + Cmdsz)
break;
q = (Cmd*)(b->rp + Sdpcmsz);
if((q->id[0] | q->id[1]<<8) != ctl->reqid)
break;
ctl->rsp = b;
wakeup(&ctl->cmdr);
continue;
case 1:
if(ctl->iodebug) dump("event", b->rp, BLEN(b));
if(BLEN(b) > p->doffset + 4){
bdc = 4 + (b->rp[p->doffset + 3] << 2);
if(BLEN(b) > p->doffset + bdc){
b->rp += p->doffset + bdc; /* skip BDC header */
bcmevent(ctl, b->rp, BLEN(b));
break;
}
}
if(ctl->iodebug && BLEN(b) != p->doffset)
print("short event %lld %d\n", BLEN(b), p->doffset);
break;
case 2:
if(ctl->iodebug) dump("packet", b->rp, BLEN(b));
if(BLEN(b) > p->doffset + 4){
bdc = 4 + (b->rp[p->doffset + 3] << 2);
if(BLEN(b) >= p->doffset + bdc + ETHERHDRSIZE){
b->rp += p->doffset + bdc; /* skip BDC header */
etheriq(edev, b);
continue;
}
}
break;
default:
dump("ether4330: bad packet", b->rp, BLEN(b));
break;
}
freeb(b);
}
}
static void
linkdown(Ctlr *ctl)
{
Ether *edev;
Netfile *f;
int i;
edev = ctl->edev;
if(edev == nil || ctl->status == Disconnected)
return;
ctl->status = Disconnected;
edev->link = 0;
/* send eof to aux/wpa */
for(i = 0; i < edev->nfile; i++){
f = edev->f[i];
if(f == nil || f->in == nil || f->inuse == 0 || f->type != 0x888e)
continue;
qwrite(f->in, 0, 0);
}
}
/*
* Command interface between host and firmware
*/
static char *eventnames[] = {
[0] = "set ssid",
[1] = "join",
[2] = "start",
[3] = "auth",
[4] = "auth ind",
[5] = "deauth",
[6] = "deauth ind",
[7] = "assoc",
[8] = "assoc ind",
[9] = "reassoc",
[10] = "reassoc ind",
[11] = "disassoc",
[12] = "disassoc ind",
[13] = "quiet start",
[14] = "quiet end",
[15] = "beacon rx",
[16] = "link",
[17] = "mic error",
[18] = "ndis link",
[19] = "roam",
[20] = "txfail",
[21] = "pmkid cache",
[22] = "retrograde tsf",
[23] = "prune",
[24] = "autoauth",
[25] = "eapol msg",
[26] = "scan complete",
[27] = "addts ind",
[28] = "delts ind",
[29] = "bcnsent ind",
[30] = "bcnrx msg",
[31] = "bcnlost msg",
[32] = "roam prep",
[33] = "pfn net found",
[34] = "pfn net lost",
[35] = "reset complete",
[36] = "join start",
[37] = "roam start",
[38] = "assoc start",
[39] = "ibss assoc",
[40] = "radio",
[41] = "psm watchdog",
[44] = "probreq msg",
[45] = "scan confirm ind",
[46] = "psk sup",
[47] = "country code changed",
[48] = "exceeded medium time",
[49] = "icv error",
[50] = "unicast decode error",
[51] = "multicast decode error",
[52] = "trace",
[53] = "bta hci event",
[54] = "if",
[55] = "p2p disc listen complete",
[56] = "rssi",
[57] = "pfn scan complete",
[58] = "extlog msg",
[59] = "action frame",
[60] = "action frame complete",
[61] = "pre assoc ind",
[62] = "pre reassoc ind",
[63] = "channel adopted",
[64] = "ap started",
[65] = "dfs ap stop",
[66] = "dfs ap resume",
[67] = "wai sta event",
[68] = "wai msg",
[69] = "escan result",
[70] = "action frame off chan complete",
[71] = "probresp msg",
[72] = "p2p probreq msg",
[73] = "dcs request",
[74] = "fifo credit map",
[75] = "action frame rx",
[76] = "wake event",
[77] = "rm complete",
[78] = "htsfsync",
[79] = "overlay req",
[80] = "csa complete ind",
[81] = "excess pm wake event",
[82] = "pfn scan none",
[83] = "pfn scan allgone",
[84] = "gtk plumbed",
[85] = "assoc ind ndis",
[86] = "reassoc ind ndis",
[87] = "assoc req ie",
[88] = "assoc resp ie",
[89] = "assoc recreated",
[90] = "action frame rx ndis",
[91] = "auth req",
[92] = "tdls peer event",
[127] = "bcmc credit support"
};
static char*
evstring(uint event)
{
static char buf[12];
if(event >= nelem(eventnames) || eventnames[event] == 0){
/* not reentrant but only called from one kproc */
snprint(buf, sizeof buf, "%d", event);
return buf;
}
return eventnames[event];
}
static void
bcmevent(Ctlr *ctl, uchar *p, int len)
{
int flags;
long event, status, reason;
if(len < ETHERHDRSIZE + 10 + 46)
return;
p += ETHERHDRSIZE + 10; /* skip bcm_ether header */
len -= ETHERHDRSIZE + 10;
flags = nhgets(p + 2);
event = nhgets(p + 6);
status = nhgetl(p + 8);
reason = nhgetl(p + 12);
if(EVENTDEBUG)
print("ether4330: [%s] status %ld flags %#x reason %ld\n",
evstring(event), status, flags, reason);
switch(event){
case 19: /* E_ROAM */
if(status == 0)
break;
/* fall through */
case 0: /* E_SET_SSID */
ctl->joinstatus = 1 + status;
wakeup(&ctl->joinr);
break;
case 16: /* E_LINK */
if(flags&1){ /* link up */
ctl->edev->link = 1;
break;
}
/* fall through */
case 5: /* E_DEAUTH */
case 6: /* E_DEAUTH_IND */
case 12: /* E_DISASSOC_IND */
linkdown(ctl);
break;
case 26: /* E_SCAN_COMPLETE */
break;
case 69: /* E_ESCAN_RESULT */
wlscanresult(ctl->edev, p + 48, len - 48);
break;
default:
if(status){
if(!EVENTDEBUG)
print("ether4330: [%s] error status %ld flags %#x reason %ld\n",
evstring(event), status, flags, reason);
dump("event", p, len);
}
}
}
static int
joindone(void *a)
{
return ((Ctlr*)a)->joinstatus;
}
static int
waitjoin(Ctlr *ctl)
{
int n;
sleep(&ctl->joinr, joindone, ctl);
n = ctl->joinstatus;
ctl->joinstatus = 0;
return n - 1;
}
static int
cmddone(void *a)
{
return ((Ctlr*)a)->rsp != nil;
}
static void
wlcmd(Ctlr *ctl, int write, int op, void *data, int dlen, void *res, int rlen)
{
Block *b;
Sdpcm *p;
Cmd *q;
int len, tlen;
if(write)
tlen = dlen + rlen;
else
tlen = MAX(dlen, rlen);
len = Sdpcmsz + Cmdsz + tlen;
b = allocb(len);
qlock(&ctl->cmdlock);
if(waserror()){
freeb(b);
qunlock(&ctl->cmdlock);
nexterror();
}
memset(b->wp, 0, len);
qlock(&ctl->pktlock);
p = (Sdpcm*)b->wp;
put2(p->len, len);
put2(p->lenck, ~len);
p->seq = ctl->txseq;
p->doffset = Sdpcmsz;
b->wp += Sdpcmsz;
q = (Cmd*)b->wp;
put4(q->cmd, op);
put4(q->len, tlen);
put2(q->flags, write? 2 : 0);
put2(q->id, ++ctl->reqid);
put4(q->status, 0);
b->wp += Cmdsz;
if(dlen > 0)
memmove(b->wp, data, dlen);
if(write)
memmove(b->wp + dlen, res, rlen);
b->wp += tlen;
if(ctl->iodebug) dump("cmd", b->rp, len);
packetrw(ctl, 1, b->rp, len);
ctl->txseq++;
qunlock(&ctl->pktlock);
freeb(b);
b = nil;
USED(b);
sleep(&ctl->cmdr, cmddone, ctl);
b = ctl->rsp;
ctl->rsp = nil;
assert(b != nil);
p = (Sdpcm*)b->rp;
q = (Cmd*)(b->rp + p->doffset);
if(q->status[0] | q->status[1] | q->status[2] | q->status[3]){
print("ether4330: cmd %d error status %ld\n", op, get4(q->status));
dump("ether4330: cmd error", b->rp, BLEN(b));
error("wlcmd error");
}
if(!write)
memmove(res, q + 1, rlen);
freeb(b);
qunlock(&ctl->cmdlock);
poperror();
}
static void
wlcmdint(Ctlr *ctl, int op, int val)
{
uchar buf[4];
put4(buf, val);
wlcmd(ctl, 1, op, buf, 4, nil, 0);
}
static void
wlgetvar(Ctlr *ctl, char *name, void *val, int len)
{
wlcmd(ctl, 0, GetVar, name, strlen(name) + 1, val, len);
}
static void
wlsetvar(Ctlr *ctl, char *name, void *val, int len)
{
if(VARDEBUG){
char buf[32];
snprint(buf, sizeof buf, "wlsetvar %s:", name);
dump(buf, val, len);
}
wlcmd(ctl, 1, SetVar, name, strlen(name) + 1, val, len);
}
static void
wlsetint(Ctlr *ctl, char *name, int val)
{
uchar buf[4];
put4(buf, val);
wlsetvar(ctl, name, buf, 4);
}
static void
wlwepkey(Ctlr *ctl, int i)
{
uchar params[164];
uchar *p;
memset(params, 0, sizeof params);
p = params;
p = put4(p, i); /* index */
p = put4(p, ctl->keys[i].len);
memmove(p, ctl->keys[i].dat, ctl->keys[i].len);
p += 32 + 18*4; /* keydata, pad */
if(ctl->keys[i].len == WMinKeyLen)
p = put4(p, 1); /* algo = WEP1 */
else
p = put4(p, 3); /* algo = WEP128 */
put4(p, 2); /* flags = Primarykey */
wlsetvar(ctl, "wsec_key", params, sizeof params);
}
static void
memreverse(char *dst, char *src, int len)
{
src += len;
while(len-- > 0)
*dst++ = *--src;
}
static void
wlwpakey(Ctlr *ctl, int id, uvlong iv, uchar *ea)
{
uchar params[164];
uchar *p;
int pairwise;
if(id == CMrxkey)
return;
pairwise = (id == CMrxkey || id == CMtxkey);
memset(params, 0, sizeof params);
p = params;
if(pairwise)
p = put4(p, 0);
else
p = put4(p, id - CMrxkey0); /* group key id */
p = put4(p, ctl->keys[0].len);
memmove((char*)p, ctl->keys[0].dat, ctl->keys[0].len);
p += 32 + 18*4; /* keydata, pad */
if(ctl->cryptotype == Wpa)
p = put4(p, 2); /* algo = TKIP */
else
p = put4(p, 4); /* algo = AES_CCM */
if(pairwise)
p = put4(p, 0);
else
p = put4(p, 2); /* flags = Primarykey */
p += 3*4;
p = put4(p, 0); //pairwise); /* iv initialised */
p += 4;
p = put4(p, iv>>16); /* iv high */
p = put2(p, iv&0xFFFF); /* iv low */
p += 2 + 2*4; /* align, pad */
if(pairwise)
memmove(p, ea, Eaddrlen);
wlsetvar(ctl, "wsec_key", params, sizeof params);
}
static void
wljoin(Ctlr *ctl, char *ssid, int chan)
{
uchar params[72];
uchar *p;
int n;
if(chan != 0)
chan |= 0x2b00; /* 20Mhz channel width */
p = params;
n = strlen(ssid);
n = MIN(n, 32);
p = put4(p, n);
memmove(p, ssid, n);
memset(p + n, 0, 32 - n);
p += 32;
p = put4(p, 0xff); /* scan type */
if(chan != 0){
p = put4(p, 2); /* num probes */
p = put4(p, 120); /* active time */
p = put4(p, 390); /* passive time */
}else{
p = put4(p, -1); /* num probes */
p = put4(p, -1); /* active time */
p = put4(p, -1); /* passive time */
}
p = put4(p, -1); /* home time */
memset(p, 0xFF, Eaddrlen); /* bssid */
p += Eaddrlen;
p = put2(p, 0); /* pad */
if(chan != 0){
p = put4(p, 1); /* num chans */
p = put2(p, chan); /* chan spec */
p = put2(p, 0); /* pad */
assert(p == params + sizeof(params));
}else{
p = put4(p, 0); /* num chans */
assert(p == params + sizeof(params) - 4);
}
wlsetvar(ctl, "join", params, chan? sizeof params : sizeof params - 4);
ctl->status = Connecting;
switch(waitjoin(ctl)){
case 0:
ctl->edev->link = 1;
ctl->status = Connected;
break;
case 3:
ctl->status = Disconnected;
error("wifi join: network not found");
case 1:
ctl->status = Disconnected;
error("wifi join: failed");
default:
ctl->status = Disconnected;
error("wifi join: error");
}
}
static void
wlscanstart(Ctlr *ctl)
{
/* version[4] action[2] sync_id[2] ssidlen[4] ssid[32] bssid[6] bss_type[1]
scan_type[1] nprobes[4] active_time[4] passive_time[4] home_time[4]
nchans[2] nssids[2] chans[nchans][2] ssids[nssids][32] */
/* hack - this is only correct on a little-endian cpu */
static uchar params[4+2+2+4+32+6+1+1+4*4+2+2+14*2+32+4] = {
1,0,0,0,
1,0,
0x34,0x12,
0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0xff,0xff,0xff,0xff,0xff,0xff,
2,
0,
0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,
14,0,
1,0,
0x01,0x2b,0x02,0x2b,0x03,0x2b,0x04,0x2b,0x05,0x2e,0x06,0x2e,0x07,0x2e,
0x08,0x2b,0x09,0x2b,0x0a,0x2b,0x0b,0x2b,0x0c,0x2b,0x0d,0x2b,0x0e,0x2b,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
};
wlcmdint(ctl, 49, 0); /* PASSIVE_SCAN */
wlsetvar(ctl, "escan", params, sizeof params);
}
static uchar*
gettlv(uchar *p, uchar *ep, int tag)
{
int len;
while(p + 1 < ep){
len = p[1];
if(p + 2 + len > ep)
return nil;
if(p[0] == tag)
return p;
p += 2 + len;
}
return nil;
}
static void
addscan(Block *bp, uchar *p, int len)
{
char bssid[24];
char *auth, *auth2;
uchar *t, *et;
int ielen;
static uchar wpaie1[4] = { 0x00, 0x50, 0xf2, 0x01 };
snprint(bssid, sizeof bssid, ";bssid=%E", p + 8);
if(strstr((char*)bp->rp, bssid) != nil)
return;
bp->wp = (uchar*)seprint((char*)bp->wp, (char*)bp->lim,
"ssid=%.*s%s;signal=%d;noise=%d;chan=%d",
p[18], (char*)p+19, bssid,
(short)get2(p+78), (signed char)p[80],
get2(p+72) & 0xF);
auth = auth2 = "";
if(get2(p + 16) & 0x10)
auth = ";wep";
ielen = get4(p + 0x78);
if(ielen > 0){
t = p + get4(p + 0x74);
et = t + ielen;
if(et > p + len)
return;
if(gettlv(t, et, 0x30) != nil){
auth = "";
auth2 = ";wpa2";
}
while((t = gettlv(t, et, 0xdd)) != nil){
if(t[1] > 4 && memcmp(t+2, wpaie1, 4) == 0){
auth = ";wpa";
break;
}
t += 2 + t[1];
}
}
bp->wp = (uchar*)seprint((char*)bp->wp, (char*)bp->lim,
"%s%s\n", auth, auth2);
}
static void
wlscanresult(Ether *edev, uchar *p, int len)
{
Ctlr *ctlr;
Netfile **ep, *f, **fp;
Block *bp;
int nbss, i;
ctlr = edev->ctlr;
if(get4(p) > len)
return;
/* TODO: more syntax checking */
bp = ctlr->scanb;
if(bp == nil)
ctlr->scanb = bp = allocb(8192);
nbss = get2(p+10);
p += 12;
len -= 12;
if(0) dump("SCAN", p, len);
if(nbss){
addscan(bp, p, len);
return;
}
i = edev->scan;
ep = &edev->f[Ntypes];
for(fp = edev->f; fp < ep && i > 0; fp++){
f = *fp;
if(f == nil || f->scan == 0)
continue;
if(i == 1)
qpass(f->in, bp);
else
qpass(f->in, copyblock(bp, BLEN(bp)));
i--;
}
if(i)
freeb(bp);
ctlr->scanb = nil;
}
static void
lproc(void *a)
{
Ether *edev;
Ctlr *ctlr;
int secs;
edev = a;
ctlr = edev->ctlr;
secs = 0;
for(;;){
tsleep(&up->sleep, return0, 0, 1000);
if(ctlr->scansecs){
if(secs == 0){
if(waserror())
ctlr->scansecs = 0;
else{
wlscanstart(ctlr);
poperror();
}
secs = ctlr->scansecs;
}
--secs;
}else
secs = 0;
}
}
static void
rxmode(Ether *edev, int prom)
{
Ctlr *ctlr = edev->ctlr;
wlsetint(ctlr, "allmulti", edev->nmaddr > 0);
/* SET_PROMISC */
wlcmdint(ctlr, 10, prom);
wlsetint(ctlr, "arp_ol", !prom);
wlsetint(ctlr, "ndoe", !prom);
}
static void
wlinit(Ether *edev, Ctlr *ctlr)
{
uchar ea[Eaddrlen];
uchar eventmask[16];
char version[128];
char *p;
static uchar keepalive[12] = {1, 0, 11, 0, 0xd8, 0xd6, 0, 0, 0, 0, 0, 0};
wlgetvar(ctlr, "cur_etheraddr", ea, Eaddrlen);
memmove(edev->ea, ea, Eaddrlen);
memmove(edev->addr, ea, Eaddrlen);
print("ether4330: addr %E\n", edev->ea);
wlsetint(ctlr, "assoc_listen", 10);
if(ctlr->chipid == 43430 || ctlr->chipid == 0x4345)
wlcmdint(ctlr, 0x56, 0); /* powersave off */
else
wlcmdint(ctlr, 0x56, 2); /* powersave FAST */
wlsetint(ctlr, "bus:txglom", 0);
wlsetint(ctlr, "bcn_timeout", 10);
wlsetint(ctlr, "assoc_retry_max", 3);
if(ctlr->chipid == 0x4330){
wlsetint(ctlr, "btc_wire", 4);
wlsetint(ctlr, "btc_mode", 1);
wlsetvar(ctlr, "mkeep_alive", keepalive, 11);
}
memset(eventmask, 0xFF, sizeof eventmask);
#define ENABLE(n) eventmask[n/8] |= 1<<(n%8)
#define DISABLE(n) eventmask[n/8] &= ~(1<<(n%8))
DISABLE(40); /* E_RADIO */
DISABLE(44); /* E_PROBREQ_MSG */
DISABLE(54); /* E_IF */
DISABLE(71); /* E_PROBRESP_MSG */
DISABLE(20); /* E_TXFAIL */
DISABLE(124); /* ? */
wlsetvar(ctlr, "event_msgs", eventmask, sizeof eventmask);
wlcmdint(ctlr, 0xb9, 0x28); /* SET_SCAN_CHANNEL_TIME */
wlcmdint(ctlr, 0xbb, 0x28); /* SET_SCAN_UNASSOC_TIME */
wlcmdint(ctlr, 0x102, 0x82); /* SET_SCAN_PASSIVE_TIME */
wlcmdint(ctlr, 2, 0); /* UP */
memset(version, 0, sizeof version);
wlgetvar(ctlr, "ver", version, sizeof version - 1);
if((p = strchr(version, '\n')) != nil)
*p = '\0';
if(0) print("ether4330: %s\n", version);
wlsetint(ctlr, "roam_off", 1);
wlcmdint(ctlr, 0x14, 1); /* SET_INFRA 1 */
rxmode(edev, edev->prom);
//wlcmdint(ctlr, 0x8e, 0); /* SET_BAND 0 */
//wlsetint(ctlr, "wsec", 1);
wlcmdint(ctlr, 2, 1); /* UP */
ctlr->keys[0].len = WMinKeyLen;
//wlwepkey(ctlr, 0);
}
/*
* Plan 9 driver interface
*/
static long
etherbcmifstat(Ether* edev, void* a, long n, ulong offset)
{
Ctlr *ctl;
char *p;
int l;
static char *cryptoname[4] = {
[0] "off",
[Wep] "wep",
[Wpa] "wpa",
[Wpa2] "wpa2",
};
/* these strings are known by aux/wpa */
static char* connectstate[] = {
[Disconnected] = "unassociated",
[Connecting] = "connecting",
[Connected] = "associated",
};
ctl = edev->ctlr;
if(ctl == nil)
return 0;
p = malloc(READSTR);
l = 0;
l += snprint(p+l, READSTR-l, "channel: %d\n", ctl->chanid);
l += snprint(p+l, READSTR-l, "essid: %s\n", ctl->essid);
l += snprint(p+l, READSTR-l, "crypt: %s\n", cryptoname[ctl->cryptotype]);
l += snprint(p+l, READSTR-l, "oq: %d\n", qlen(edev->oq));
l += snprint(p+l, READSTR-l, "txwin: %d\n", ctl->txwindow);
l += snprint(p+l, READSTR-l, "txseq: %d\n", ctl->txseq);
/*
* hack: prevent aux/wpa from trying to connect while bypassed
* as wljoin() generates spurious traffic which poisons the
* switch port tables.
*/
if(edev->bypass == nil)
l += snprint(p+l, READSTR-l, "status: %s\n", connectstate[ctl->status]);
USED(l);
n = readstr(offset, a, n, p);
free(p);
return n;
}
static void
etherbcmtransmit(Ether *edev)
{
if(edev->ctlr == nil)
return;
txstart(edev);
}
static int
wepparsekey(WKey* key, char *s)
{
uchar buf[WMaxKeyLen];
int len;
len = strlen(s);
if(len == WMinKeyLen || len == WMaxKeyLen){
key->len = len;
memmove(key->dat, s, len);
return 0;
}
else if(len == WMinKeyLen*2 || len == WMaxKeyLen*2){
len /= 2;
if(dec16(buf, len, s, len*2) == len){
key->len = len;
memmove(key->dat, buf, len);
memset(buf, 0, sizeof buf);
return 0;
}
}
return -1;
}
static int
wpaparsekey(WKey *key, uvlong *ivp, char *s)
{
uchar buf[WKeyLen];
int len;
char *e;
if(cistrncmp(s, "tkip:", 5) == 0 || cistrncmp(s, "ccmp:", 5) == 0)
s += 5;
else
return 1;
if((e = strchr(s, '@')) == nil)
return 1;
len = dec16(buf, sizeof buf, s, e - s);
if(len <= 0)
return 1;
key->len = len;
memmove(key->dat, buf, len);
memset(buf, 0, sizeof buf);
*ivp = strtoull(++e, nil, 16);
return 0;
}
static void
setauth(Ctlr *ctlr, Cmdbuf *cb, char *a)
{
uchar wpaie[32];
int i;
i = dec16(wpaie, sizeof wpaie, a, strlen(a));
if(i < 2 || i != wpaie[1] + 2)
cmderror(cb, "bad wpa ie syntax");
if(wpaie[0] == 0xdd)
ctlr->cryptotype = Wpa;
else if(wpaie[0] == 0x30)
ctlr->cryptotype = Wpa2;
else
cmderror(cb, "bad wpa ie");
wlsetvar(ctlr, "wpaie", wpaie, i);
if(ctlr->cryptotype == Wpa){
wlsetint(ctlr, "wpa_auth", 4|2); /* auth_psk | auth_unspecified */
wlsetint(ctlr, "auth", 0);
wlsetint(ctlr, "wsec", 2); /* tkip */
wlsetint(ctlr, "wpa_auth", 4); /* auth_psk */
}else{
wlsetint(ctlr, "wpa_auth", 0x80|0x40); /* auth_psk | auth_unspecified */
wlsetint(ctlr, "auth", 0);
wlsetint(ctlr, "wsec", 4); /* aes */
wlsetint(ctlr, "wpa_auth", 0x80); /* auth_psk */
}
}
static int
setcrypt(Ctlr *ctlr, Cmdbuf*, char *a)
{
if(cistrcmp(a, "wep") == 0 || cistrcmp(a, "on") == 0)
ctlr->cryptotype = Wep;
else if(cistrcmp(a, "off") == 0 || cistrcmp(a, "none") == 0)
ctlr->cryptotype = 0;
else
return 0;
wlsetint(ctlr, "auth", ctlr->cryptotype);
return 1;
}
static long
etherbcmctl(Ether* edev, void* buf, long n)
{
Ctlr *ctlr;
Cmdbuf *cb;
Cmdtab *ct;
uchar ea[Eaddrlen];
uvlong iv;
int i;
if((ctlr = edev->ctlr) == nil)
error(Enonexist);
USED(ctlr);
cb = parsecmd(buf, n);
if(waserror()){
free(cb);
nexterror();
}
ct = lookupcmd(cb, cmds, nelem(cmds));
switch(ct->index){
case CMauth:
setauth(ctlr, cb, cb->f[1]);
if(ctlr->essid[0])
wljoin(ctlr, ctlr->essid, ctlr->chanid);
break;
case CMchannel:
if((i = atoi(cb->f[1])) < 0 || i > 16)
cmderror(cb, "bad channel number");
//wlcmdint(ctlr, 30, i); /* SET_CHANNEL */
ctlr->chanid = i;
break;
case CMcrypt:
if(setcrypt(ctlr, cb, cb->f[1])){
if(ctlr->essid[0])
wljoin(ctlr, ctlr->essid, ctlr->chanid);
}else
cmderror(cb, "bad crypt type");
break;
case CMessid:
if(cistrcmp(cb->f[1], "default") == 0)
memset(ctlr->essid, 0, sizeof(ctlr->essid));
else{
strncpy(ctlr->essid, cb->f[1], sizeof(ctlr->essid) - 1);
ctlr->essid[sizeof(ctlr->essid) - 1] = '\0';
}
if(!waserror()){
wljoin(ctlr, ctlr->essid, ctlr->chanid);
poperror();
}
break;
case CMjoin: /* join essid channel wep|on|off|wpakey */
if(strcmp(cb->f[1], "") != 0){ /* empty string for no change */
if(cistrcmp(cb->f[1], "default") != 0){
strncpy(ctlr->essid, cb->f[1], sizeof(ctlr->essid)-1);
ctlr->essid[sizeof(ctlr->essid)-1] = 0;
}else
memset(ctlr->essid, 0, sizeof(ctlr->essid));
}else if(ctlr->essid[0] == 0)
cmderror(cb, "essid not set");
if((i = atoi(cb->f[2])) >= 0 && i <= 16)
ctlr->chanid = i;
else
cmderror(cb, "bad channel number");
if(!setcrypt(ctlr, cb, cb->f[3]))
setauth(ctlr, cb, cb->f[3]);
if(ctlr->essid[0])
wljoin(ctlr, ctlr->essid, ctlr->chanid);
break;
case CMkey1:
case CMkey2:
case CMkey3:
case CMkey4:
i = ct->index - CMkey1;
if(wepparsekey(&ctlr->keys[i], cb->f[1]))
cmderror(cb, "bad WEP key syntax");
memset(cb->f[1], 0, strlen(cb->f[1]));
wlsetint(ctlr, "wsec", 1); /* wep enabled */
wlwepkey(ctlr, i);
break;
case CMrxkey:
case CMrxkey0:
case CMrxkey1:
case CMrxkey2:
case CMrxkey3:
case CMtxkey:
if(parseether(ea, cb->f[1]) < 0)
cmderror(cb, "bad ether addr");
if(wpaparsekey(&ctlr->keys[0], &iv, cb->f[2]))
cmderror(cb, "bad wpa key");
memset(cb->f[2], 0, strlen(cb->f[2]));
wlwpakey(ctlr, ct->index, iv, ea);
break;
case CMdebug:
ctlr->iodebug = atoi(cb->f[1]);
break;
}
poperror();
free(cb);
return n;
}
static void
etherbcmscan(void *a, uint secs)
{
Ether* edev;
Ctlr* ctlr;
edev = a;
ctlr = edev->ctlr;
ctlr->scansecs = secs;
}
static void
etherbcmattach(Ether* edev)
{
Ctlr *ctl;
ctl = edev->ctlr;
qlock(&ctl->alock);
if(waserror()){
qunlock(&ctl->alock);
nexterror();
}
if(ctl->edev == nil){
if(ctl->chipid == 0){
sdioinit(ctl);
sbinit(ctl);
}
fwload(ctl);
sbenable(ctl);
ctl->edev = edev;
kproc("wifireader", rproc, edev);
kproc("wifitimer", lproc, edev);
if(ctl->regufile)
reguload(ctl, ctl->regufile);
wlinit(edev, ctl);
}
qunlock(&ctl->alock);
poperror();
}
static void
etherbcmshutdown(Ether *edev)
{
Ctlr *ctl = edev->ctlr;
if(ctl->sdio != nil)
sdioreset(ctl);
}
static void
etherbcmprom(void *arg, int on)
{
Ether *edev = arg;
rxmode(edev, on);
}
static void
etherbcmmulti(void *arg, uchar*, int)
{
Ether *edev = arg;
rxmode(edev, edev->prom);
}
static int
etherbcmpnp(Ether* edev)
{
static Ctlr *ctlr;
if(ctlr != nil)
return -1;
ctlr = malloc(sizeof(Ctlr));
ctlr->chanid = Wifichan;
edev->dmat = malloc(sizeof(DMAT));
edev->ctlr = ctlr;
edev->attach = etherbcmattach;
edev->transmit = etherbcmtransmit;
edev->ifstat = etherbcmifstat;
edev->ctl = etherbcmctl;
edev->scanbs = etherbcmscan;
edev->shutdown = etherbcmshutdown;
edev->promiscuous = etherbcmprom;
edev->multicast = etherbcmmulti;
edev->arg = edev;
return 0;
}
void
ether4330link(void)
{
addethercard("4330", etherbcmpnp);
}