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|
/*
* Realtek RTL8110/8168/8169 Gigabit Ethernet Controllers.
* There are some magic register values used which are not described in
* any datasheet or driver but seem to be necessary.
* There are slight differences between the chips in the series so some
* tweaks may be needed.
*
* we use l1 and l2 cache ops; data must reach ram for dma.
*/
#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "io.h"
#include "../port/error.h"
#include "../port/netif.h"
#include "etherif.h"
#include "ethermii.h"
typedef struct Ctlr Ctlr;
typedef struct D D; /* Transmit/Receive Descriptor */
typedef struct Dtcc Dtcc;
enum {
Debug = 0, /* beware: > 1 interferes with correct operation */
};
enum { /* registers */
Idr0 = 0x00, /* MAC address */
Mar0 = 0x08, /* Multicast address */
Dtccr = 0x10, /* Dump Tally Counter Command */
Tnpds = 0x20, /* Transmit Normal Priority Descriptors */
Thpds = 0x28, /* Transmit High Priority Descriptors */
Flash = 0x30, /* Flash Memory Read/Write */
Erbcr = 0x34, /* Early Receive Byte Count */
Ersr = 0x36, /* Early Receive Status */
Cr = 0x37, /* Command Register */
Tppoll = 0x38, /* Transmit Priority Polling */
Imr = 0x3C, /* Interrupt Mask */
Isr = 0x3E, /* Interrupt Status */
Tcr = 0x40, /* Transmit Configuration */
Rcr = 0x44, /* Receive Configuration */
Tctr = 0x48, /* Timer Count */
Mpc = 0x4C, /* Missed Packet Counter */
Cr9346 = 0x50, /* 9346 Command Register */
Config0 = 0x51, /* Configuration Register 0 */
Config1 = 0x52, /* Configuration Register 1 */
Config2 = 0x53, /* Configuration Register 2 */
Config3 = 0x54, /* Configuration Register 3 */
Config4 = 0x55, /* Configuration Register 4 */
Config5 = 0x56, /* Configuration Register 5 */
Timerint = 0x58, /* Timer Interrupt */
Mulint = 0x5C, /* Multiple Interrupt Select */
Phyar = 0x60, /* PHY Access */
Tbicsr0 = 0x64, /* TBI Control and Status */
Tbianar = 0x68, /* TBI Auto-Negotiation Advertisment */
Tbilpar = 0x6A, /* TBI Auto-Negotiation Link Partner */
Phystatus = 0x6C, /* PHY Status */
Rms = 0xDA, /* Receive Packet Maximum Size */
Cplusc = 0xE0, /* C+ Command */
Coal = 0xE2, /* Interrupt Mitigation (Coalesce) */
Rdsar = 0xE4, /* Receive Descriptor Start Address */
Etx = 0xEC, /* 8169: Early Tx Threshold; 32-byte units */
Mtps = 0xEC, /* 8168: Maximum Transmit Packet Size */
};
enum { /* Dtccr */
Cmd = 0x00000008, /* Command */
};
enum { /* Cr */
Te = 0x04, /* Transmitter Enable */
Re = 0x08, /* Receiver Enable */
Rst = 0x10, /* Software Reset */
};
enum { /* Tppoll */
Fswint = 0x01, /* Forced Software Interrupt */
Npq = 0x40, /* Normal Priority Queue polling */
Hpq = 0x80, /* High Priority Queue polling */
};
enum { /* Imr/Isr */
Rok = 0x0001, /* Receive OK */
Rer = 0x0002, /* Receive Error */
Tok = 0x0004, /* Transmit OK */
Ter = 0x0008, /* Transmit Error */
Rdu = 0x0010, /* Receive Descriptor Unavailable */
Punlc = 0x0020, /* Packet Underrun or Link Change */
Fovw = 0x0040, /* Receive FIFO Overflow */
Tdu = 0x0080, /* Transmit Descriptor Unavailable */
Swint = 0x0100, /* Software Interrupt */
Timeout = 0x4000, /* Timer */
Serr = 0x8000, /* System Error */
};
enum { /* Tcr */
MtxdmaSHIFT = 8, /* Max. DMA Burst Size */
MtxdmaMASK = 0x00000700,
Mtxdmaunlimited = 0x00000700,
Acrc = 0x00010000, /* Append CRC (not) */
Lbk0 = 0x00020000, /* Loopback Test 0 */
Lbk1 = 0x00040000, /* Loopback Test 1 */
Ifg2 = 0x00080000, /* Interframe Gap 2 */
HwveridSHIFT = 23, /* Hardware Version ID */
HwveridMASK = 0x7C800000,
Macv01 = 0x00000000, /* RTL8169 */
Macv02 = 0x00800000, /* RTL8169S/8110S */
Macv03 = 0x04000000, /* RTL8169S/8110S */
Macv04 = 0x10000000, /* RTL8169SB/8110SB */
Macv05 = 0x18000000, /* RTL8169SC/8110SC */
Macv07 = 0x24800000, /* RTL8102e */
// Macv8103e = 0x24C00000,
Macv25 = 0x28000000, /* RTL8168D */
// Macv8168dp = 0x28800000,
// Macv8168e = 0x2C000000,
Macv11 = 0x30000000, /* RTL8168B/8111B */
Macv14 = 0x30800000, /* RTL8100E */
Macv13 = 0x34000000, /* RTL8101E */
Macv07a = 0x34800000, /* RTL8102e */
Macv12 = 0x38000000, /* RTL8169B/8111B */
// Macv8168spin3 = 0x38400000,
Macv15 = 0x38800000, /* RTL8100E */
Macv12a = 0x3c000000, /* RTL8169C/8111C */
// Macv19 = 0x3c000000, /* dup Macv12a: RTL8111c-gr */
// Macv8168cspin2 = 0x3c400000,
// Macv8168cp = 0x3c800000,
// Macv8139 = 0x60000000,
// Macv8139a = 0x70000000,
// Macv8139ag = 0x70800000,
// Macv8139b = 0x78000000,
// Macv8130 = 0x7C000000,
// Macv8139c = 0x74000000,
// Macv8139d = 0x74400000,
// Macv8139cplus = 0x74800000,
// Macv8101 = 0x74c00000,
// Macv8100 = 0x78800000,
// Macv8169_8110sbl= 0x7cc00000,
// Macv8169_8110sce= 0x98000000,
Ifg0 = 0x01000000, /* Interframe Gap 0 */
Ifg1 = 0x02000000, /* Interframe Gap 1 */
};
enum { /* Rcr */
Aap = 0x00000001, /* Accept All Packets */
Apm = 0x00000002, /* Accept Physical Match */
Am = 0x00000004, /* Accept Multicast */
Ab = 0x00000008, /* Accept Broadcast */
Ar = 0x00000010, /* Accept Runt */
Aer = 0x00000020, /* Accept Error */
Sel9356 = 0x00000040, /* 9356 EEPROM used */
MrxdmaSHIFT = 8, /* Max. DMA Burst Size */
MrxdmaMASK = 0x00000700,
Mrxdmaunlimited = 0x00000700,
RxfthSHIFT = 13, /* Receive Buffer Length */
RxfthMASK = 0x0000E000,
Rxfth256 = 0x00008000,
Rxfthnone = 0x0000E000,
Rer8 = 0x00010000, /* Accept Error Packets > 8 bytes */
MulERINT = 0x01000000, /* Multiple Early Interrupt Select */
};
enum { /* Cr9346 */
Eedo = 0x01, /* */
Eedi = 0x02, /* */
Eesk = 0x04, /* */
Eecs = 0x08, /* */
Eem0 = 0x40, /* Operating Mode */
Eem1 = 0x80,
};
enum { /* Phyar */
DataMASK = 0x0000FFFF, /* 16-bit GMII/MII Register Data */
DataSHIFT = 0,
RegaddrMASK = 0x001F0000, /* 5-bit GMII/MII Register Address */
RegaddrSHIFT = 16,
Flag = 0x80000000, /* */
};
enum { /* Phystatus */
Fd = 0x01, /* Full Duplex */
Linksts = 0x02, /* Link Status */
Speed10 = 0x04, /* */
Speed100 = 0x08, /* */
Speed1000 = 0x10, /* */
Rxflow = 0x20, /* */
Txflow = 0x40, /* */
Entbi = 0x80, /* */
};
enum { /* Cplusc */
Init1 = 0x0001, /* 8168 */
Mulrw = 0x0008, /* PCI Multiple R/W Enable */
Dac = 0x0010, /* PCI Dual Address Cycle Enable */
Rxchksum = 0x0020, /* Receive Checksum Offload Enable */
Rxvlan = 0x0040, /* Receive VLAN De-tagging Enable */
Pktcntoff = 0x0080, /* 8168, 8101 */
Endian = 0x0200, /* Endian Mode */
};
struct D {
u32int control;
u32int vlan;
u32int addrlo;
u32int addrhi;
};
enum { /* Transmit Descriptor control */
TxflMASK = 0x0000FFFF, /* Transmit Frame Length */
TxflSHIFT = 0,
Tcps = 0x00010000, /* TCP Checksum Offload */
Udpcs = 0x00020000, /* UDP Checksum Offload */
Ipcs = 0x00040000, /* IP Checksum Offload */
Lgsen = 0x08000000, /* TSO; WARNING: contains lark's vomit */
};
enum { /* Receive Descriptor control */
RxflMASK = 0x00001FFF, /* Receive Frame Length */
Tcpf = 0x00004000, /* TCP Checksum Failure */
Udpf = 0x00008000, /* UDP Checksum Failure */
Ipf = 0x00010000, /* IP Checksum Failure */
Pid0 = 0x00020000, /* Protocol ID0 */
Pid1 = 0x00040000, /* Protocol ID1 */
Crce = 0x00080000, /* CRC Error */
Runt = 0x00100000, /* Runt Packet */
Res = 0x00200000, /* Receive Error Summary */
Rwt = 0x00400000, /* Receive Watchdog Timer Expired */
Fovf = 0x00800000, /* FIFO Overflow */
Bovf = 0x01000000, /* Buffer Overflow */
Bar = 0x02000000, /* Broadcast Address Received */
Pam = 0x04000000, /* Physical Address Matched */
Mar = 0x08000000, /* Multicast Address Received */
};
enum { /* General Descriptor control */
Ls = 0x10000000, /* Last Segment Descriptor */
Fs = 0x20000000, /* First Segment Descriptor */
Eor = 0x40000000, /* End of Descriptor Ring */
Own = 0x80000000, /* Ownership: belongs to hw */
};
/*
*/
enum { /* Ring sizes (<= 1024) */
Ntd = 1024, /* Transmit Ring */
/* at 1Gb/s, it only takes 12 ms. to fill a 1024-buffer ring */
Nrd = 1024, /* Receive Ring */
Nrb = 4096,
Mtu = ETHERMAXTU,
Mps = ROUNDUP(ETHERMAXTU+4, 128),
// Mps = Mtu + 8 + 14, /* if(mtu>ETHERMAXTU) */
};
struct Dtcc {
u64int txok;
u64int rxok;
u64int txer;
u32int rxer;
u16int misspkt;
u16int fae;
u32int tx1col;
u32int txmcol;
u64int rxokph;
u64int rxokbrd;
u32int rxokmu;
u16int txabt;
u16int txundrn;
};
enum { /* Variants */
Rtl8100e = (0x8136<<16)|0x10EC, /* RTL810[01]E: pci -e */
Rtl8169c = (0x0116<<16)|0x16EC, /* RTL8169C+ (USR997902) */
Rtl8169sc = (0x8167<<16)|0x10EC, /* RTL8169SC */
Rtl8168b = (0x8168<<16)|0x10EC, /* RTL8168B: pci-e */
Rtl8169 = (0x8169<<16)|0x10EC, /* RTL8169 */
/*
* trimslice is 10ec/8168 (8168b) Macv25 (8168D) but
* compulab says 8111dl.
* oui 0x732 (aaeon) phyno 1, macv = 0x28000000 phyv = 0x0002
*/
};
struct Ctlr {
void* nic;
int port;
Pcidev* pcidev;
Ctlr* next;
Ether* ether; /* point back */
int active;
QLock alock; /* attach */
Lock ilock; /* init */
int init; /* */
int pciv; /* */
int macv; /* MAC version */
int phyv; /* PHY version */
int pcie; /* flag: pci-express device? */
uvlong mchash; /* multicast hash */
Mii* mii;
// Lock tlock; /* transmit */
Rendez trendez;
D* td; /* descriptor ring */
Block** tb; /* transmit buffers */
int ntd;
int tdh; /* head - producer index (host) */
int tdt; /* tail - consumer index (NIC) */
int ntdfree;
int ntq;
int nrb;
// Lock rlock; /* receive */
Rendez rrendez;
D* rd; /* descriptor ring */
Block** rb; /* receive buffers */
int nrd;
int rdh; /* head - producer index (NIC) */
int rdt; /* tail - consumer index (host) */
int nrdfree;
Lock reglock;
int tcr; /* transmit configuration register */
int rcr; /* receive configuration register */
int imr;
int isr; /* sw copy for kprocs */
QLock slock; /* statistics */
Dtcc* dtcc;
uint txdu;
uint tcpf;
uint udpf;
uint ipf;
uint fovf;
uint ierrs;
uint rer;
uint rdu;
uint punlc;
uint fovw;
uint mcast;
uint frag; /* partial packets; rb was too small */
};
static Ctlr* rtl8169ctlrhead;
static Ctlr* rtl8169ctlrtail;
static Lock rblock; /* free receive Blocks */
static Block* rbpool;
#define csr8r(c, r) (*((uchar *) ((c)->nic)+(r)))
#define csr16r(c, r) (*((u16int *)((c)->nic)+((r)/2)))
#define csr32p(c, r) ((u32int *) ((c)->nic)+((r)/4))
#define csr32r(c, r) (*csr32p(c, r))
#define csr8w(c, r, b) (*((uchar *) ((c)->nic)+(r)) = (b), coherence())
#define csr16w(c, r, w) (*((u16int *)((c)->nic)+((r)/2)) = (w), coherence())
#define csr32w(c, r, v) (*csr32p(c, r) = (v), coherence())
static int
rtl8169miimir(Mii* mii, int pa, int ra)
{
uint r;
int timeo;
Ctlr *ctlr;
if(pa != 1)
return -1;
ctlr = mii->ctlr;
r = (ra<<16) & RegaddrMASK;
csr32w(ctlr, Phyar, r);
delay(1);
for(timeo = 0; timeo < 2000; timeo++){
if((r = csr32r(ctlr, Phyar)) & Flag)
break;
microdelay(100);
}
if(!(r & Flag))
return -1;
return (r & DataMASK)>>DataSHIFT;
}
static int
rtl8169miimiw(Mii* mii, int pa, int ra, int data)
{
uint r;
int timeo;
Ctlr *ctlr;
if(pa != 1)
return -1;
ctlr = mii->ctlr;
r = Flag|((ra<<16) & RegaddrMASK)|((data<<DataSHIFT) & DataMASK);
csr32w(ctlr, Phyar, r);
delay(1);
for(timeo = 0; timeo < 2000; timeo++){
if(!((r = csr32r(ctlr, Phyar)) & Flag))
break;
microdelay(100);
}
if(r & Flag)
return -1;
return 0;
}
static int
rtl8169mii(Ctlr* ctlr)
{
MiiPhy *phy;
/*
* Link management.
*/
if((ctlr->mii = malloc(sizeof(Mii))) == nil)
return -1;
ctlr->mii->mir = rtl8169miimir;
ctlr->mii->miw = rtl8169miimiw;
ctlr->mii->ctlr = ctlr;
/*
* Get rev number out of Phyidr2 so can config properly.
* There's probably more special stuff for Macv0[234] needed here.
*/
ilock(&ctlr->reglock);
ctlr->phyv = rtl8169miimir(ctlr->mii, 1, Phyidr2) & 0x0F;
if(ctlr->macv == Macv02){
csr8w(ctlr, 0x82, 1); /* magic */
rtl8169miimiw(ctlr->mii, 1, 0x0B, 0x0000); /* magic */
}
if(mii(ctlr->mii, (1<<1)) == 0 || (phy = ctlr->mii->curphy) == nil){
iunlock(&ctlr->reglock);
free(ctlr->mii);
ctlr->mii = nil;
return -1;
}
print("rtl8169: oui %#ux phyno %d, macv = %#8.8ux phyv = %#4.4ux\n",
phy->oui, phy->phyno, ctlr->macv, ctlr->phyv);
miiane(ctlr->mii, ~0, ~0, ~0);
iunlock(&ctlr->reglock);
return 0;
}
static Block*
rballoc(void)
{
Block *bp;
ilock(&rblock);
if((bp = rbpool) != nil){
rbpool = bp->next;
bp->next = nil;
_xinc(&bp->ref); /* prevent bp from being freed */
}
iunlock(&rblock);
return bp;
}
static void
rbfree(Block *bp)
{
bp->wp = bp->rp = bp->lim - Mps;
bp->flag &= ~(Bipck | Budpck | Btcpck | Bpktck);
ilock(&rblock);
bp->next = rbpool;
rbpool = bp;
iunlock(&rblock);
}
static void
rtl8169promiscuous(void* arg, int on)
{
Ether *edev;
Ctlr * ctlr;
edev = arg;
ctlr = edev->ctlr;
ilock(&ctlr->ilock);
ilock(&ctlr->reglock);
if(on)
ctlr->rcr |= Aap;
else
ctlr->rcr &= ~Aap;
csr32w(ctlr, Rcr, ctlr->rcr);
iunlock(&ctlr->reglock);
iunlock(&ctlr->ilock);
}
enum {
/* everyone else uses 0x04c11db7, but they both produce the same crc */
Etherpolybe = 0x04c11db6,
Bytemask = (1<<8) - 1,
};
static ulong
ethercrcbe(uchar *addr, long len)
{
int i, j;
ulong c, crc, carry;
crc = ~0UL;
for (i = 0; i < len; i++) {
c = addr[i];
for (j = 0; j < 8; j++) {
carry = ((crc & (1UL << 31))? 1: 0) ^ (c & 1);
crc <<= 1;
c >>= 1;
if (carry)
crc = (crc ^ Etherpolybe) | carry;
}
}
return crc;
}
static ulong
swabl(ulong l)
{
return l>>24 | (l>>8) & (Bytemask<<8) |
(l<<8) & (Bytemask<<16) | l<<24;
}
static void
rtl8169multicast(void* ether, uchar *eaddr, int add)
{
Ether *edev;
Ctlr *ctlr;
if (!add)
return; /* ok to keep receiving on old mcast addrs */
edev = ether;
ctlr = edev->ctlr;
ilock(&ctlr->ilock);
ilock(&ctlr->reglock);
ctlr->mchash |= 1ULL << (ethercrcbe(eaddr, Eaddrlen) >> 26);
ctlr->rcr |= Am;
csr32w(ctlr, Rcr, ctlr->rcr);
/* pci-e variants reverse the order of the hash byte registers */
if (ctlr->pcie) {
csr32w(ctlr, Mar0, swabl(ctlr->mchash>>32));
csr32w(ctlr, Mar0+4, swabl(ctlr->mchash));
} else {
csr32w(ctlr, Mar0, ctlr->mchash);
csr32w(ctlr, Mar0+4, ctlr->mchash>>32);
}
iunlock(&ctlr->reglock);
iunlock(&ctlr->ilock);
}
static long
rtl8169ifstat(Ether* edev, void* a, long n, ulong offset)
{
char *p;
Ctlr *ctlr;
Dtcc *dtcc;
int i, l, r, timeo;
ctlr = edev->ctlr;
qlock(&ctlr->slock);
p = nil;
if(waserror()){
qunlock(&ctlr->slock);
free(p);
nexterror();
}
/* copy hw statistics into ctlr->dtcc */
dtcc = ctlr->dtcc;
allcache->invse(dtcc, sizeof *dtcc);
ilock(&ctlr->reglock);
csr32w(ctlr, Dtccr+4, 0);
csr32w(ctlr, Dtccr, PCIWADDR(dtcc)|Cmd); /* initiate dma? */
for(timeo = 0; timeo < 1000; timeo++){
if(!(csr32r(ctlr, Dtccr) & Cmd))
break;
delay(1);
}
iunlock(&ctlr->reglock);
if(csr32r(ctlr, Dtccr) & Cmd)
error(Eio);
edev->oerrs = dtcc->txer;
edev->crcs = dtcc->rxer;
edev->frames = dtcc->fae;
edev->buffs = dtcc->misspkt;
edev->overflows = ctlr->txdu + ctlr->rdu;
if(n == 0){
qunlock(&ctlr->slock);
poperror();
return 0;
}
if((p = malloc(READSTR)) == nil)
error(Enomem);
l = snprint(p, READSTR, "TxOk: %llud\n", dtcc->txok);
l += snprint(p+l, READSTR-l, "RxOk: %llud\n", dtcc->rxok);
l += snprint(p+l, READSTR-l, "TxEr: %llud\n", dtcc->txer);
l += snprint(p+l, READSTR-l, "RxEr: %ud\n", dtcc->rxer);
l += snprint(p+l, READSTR-l, "MissPkt: %ud\n", dtcc->misspkt);
l += snprint(p+l, READSTR-l, "FAE: %ud\n", dtcc->fae);
l += snprint(p+l, READSTR-l, "Tx1Col: %ud\n", dtcc->tx1col);
l += snprint(p+l, READSTR-l, "TxMCol: %ud\n", dtcc->txmcol);
l += snprint(p+l, READSTR-l, "RxOkPh: %llud\n", dtcc->rxokph);
l += snprint(p+l, READSTR-l, "RxOkBrd: %llud\n", dtcc->rxokbrd);
l += snprint(p+l, READSTR-l, "RxOkMu: %ud\n", dtcc->rxokmu);
l += snprint(p+l, READSTR-l, "TxAbt: %ud\n", dtcc->txabt);
l += snprint(p+l, READSTR-l, "TxUndrn: %ud\n", dtcc->txundrn);
l += snprint(p+l, READSTR-l, "txdu: %ud\n", ctlr->txdu);
l += snprint(p+l, READSTR-l, "tcpf: %ud\n", ctlr->tcpf);
l += snprint(p+l, READSTR-l, "udpf: %ud\n", ctlr->udpf);
l += snprint(p+l, READSTR-l, "ipf: %ud\n", ctlr->ipf);
l += snprint(p+l, READSTR-l, "fovf: %ud\n", ctlr->fovf);
l += snprint(p+l, READSTR-l, "ierrs: %ud\n", ctlr->ierrs);
l += snprint(p+l, READSTR-l, "rer: %ud\n", ctlr->rer);
l += snprint(p+l, READSTR-l, "rdu: %ud\n", ctlr->rdu);
l += snprint(p+l, READSTR-l, "punlc: %ud\n", ctlr->punlc);
l += snprint(p+l, READSTR-l, "fovw: %ud\n", ctlr->fovw);
l += snprint(p+l, READSTR-l, "tcr: %#8.8ux\n", ctlr->tcr);
l += snprint(p+l, READSTR-l, "rcr: %#8.8ux\n", ctlr->rcr);
l += snprint(p+l, READSTR-l, "multicast: %ud\n", ctlr->mcast);
if(ctlr->mii != nil && ctlr->mii->curphy != nil){
l += snprint(p+l, READSTR, "phy: ");
for(i = 0; i < NMiiPhyr; i++){
if(i && ((i & 0x07) == 0))
l += snprint(p+l, READSTR-l, "\n ");
r = miimir(ctlr->mii, i);
l += snprint(p+l, READSTR-l, " %4.4ux", r);
}
snprint(p+l, READSTR-l, "\n");
}
n = readstr(offset, a, n, p);
qunlock(&ctlr->slock);
poperror();
free(p);
return n;
}
static void
rtl8169halt(Ctlr* ctlr)
{
ilock(&ctlr->reglock);
csr32w(ctlr, Timerint, 0);
csr8w(ctlr, Cr, 0);
csr16w(ctlr, Imr, 0);
csr16w(ctlr, Isr, ~0);
iunlock(&ctlr->reglock);
}
static int
rtl8169reset(Ctlr* ctlr)
{
u32int r;
int timeo;
/*
* Soft reset the controller.
*/
ilock(&ctlr->reglock);
csr8w(ctlr, Cr, Rst);
for(r = timeo = 0; timeo < 1000; timeo++){
r = csr8r(ctlr, Cr);
if(!(r & Rst))
break;
delay(1);
}
iunlock(&ctlr->reglock);
rtl8169halt(ctlr);
if(r & Rst)
return -1;
return 0;
}
static void
rtl8169shutdown(Ether *ether)
{
rtl8169reset(ether->ctlr);
}
static int
rtl8169replenish(Ether *edev)
{
int rdt;
Block *bp;
Ctlr *ctlr;
D *d;
ctlr = edev->ctlr;
if (ctlr->nrd == 0) {
iprint("rtl8169replenish: not yet initialised\n");
return -1;
}
rdt = ctlr->rdt;
assert(ctlr->rb);
assert(ctlr->rd);
while(NEXT(rdt, ctlr->nrd) != ctlr->rdh){
d = &ctlr->rd[rdt];
if (d == nil)
panic("rtl8169replenish: nil ctlr->rd[%d]", rdt);
if (d->control & Own) { /* ctlr owns it? shouldn't happen */
iprint("replenish: descriptor owned by hw\n");
break;
}
if(ctlr->rb[rdt] == nil){
bp = rballoc();
if(bp == nil){
iprint("rtl8169: no available buffers\n");
break;
}
ctlr->rb[rdt] = bp;
d->addrhi = 0;
coherence();
d->addrlo = PCIWADDR(bp->rp);
coherence();
} else
iprint("8169: replenish: rx overrun\n");
d->control = (d->control & ~RxflMASK) | Mps | Own;
coherence();
rdt = NEXT(rdt, ctlr->nrd);
ctlr->nrdfree++;
}
ctlr->rdt = rdt;
coherence();
return 0;
}
static void
ckrderrs(Ctlr *ctlr, Block *bp, ulong control)
{
if(control & Fovf)
ctlr->fovf++;
if(control & Mar)
ctlr->mcast++;
switch(control & (Pid1|Pid0)){
case Pid0:
if(control & Tcpf){
iprint("8169: bad tcp checksum\n");
ctlr->tcpf++;
break;
}
bp->flag |= Btcpck;
break;
case Pid1:
if(control & Udpf){
iprint("8169: bad udp checksum\n");
ctlr->udpf++;
break;
}
bp->flag |= Budpck;
break;
case Pid1|Pid0:
if(control & Ipf){
iprint("8169: bad ip checksum\n");
ctlr->ipf++;
break;
}
bp->flag |= Bipck;
break;
}
}
static void
badpkt(Ether *edev, int rdh, ulong control)
{
Ctlr *ctlr;
ctlr = edev->ctlr;
/* Res is only valid if Fs is set */
if(control & Res)
iprint("8169: rcv error; d->control %#.8lux\n", control);
else if (control == 0) { /* buggered? */
if (edev->link)
iprint("8169: rcv: d->control==0 (wtf?)\n");
} else {
ctlr->frag++;
iprint("8169: rcv'd frag; d->control %#.8lux\n", control);
}
if (ctlr->rb[rdh])
freeb(ctlr->rb[rdh]);
}
void
qpkt(Ether *edev, int rdh, ulong control)
{
int len;
Block *bp;
Ctlr *ctlr;
ctlr = edev->ctlr;
len = (control & RxflMASK) - 4;
if ((uint)len > Mps)
if (len < 0)
panic("8169: received pkt non-existent");
else if (len > Mps)
panic("8169: received pkt too big");
bp = ctlr->rb[rdh];
bp->wp = bp->rp + len;
bp->next = nil;
allcache->invse(bp->rp, len); /* clear any stale cached packet */
ckrderrs(ctlr, bp, control);
etheriq(edev, bp, 1);
if(Debug > 1)
iprint("R%d ", len);
}
static int
pktstoread(void* v)
{
Ctlr *ctlr = v;
return ctlr->isr & (Fovw|Rdu|Rer|Rok) &&
!(ctlr->rd[ctlr->rdh].control & Own);
}
static void
rproc(void* arg)
{
int rdh;
ulong control;
Ctlr *ctlr;
D *rd;
Ether *edev;
edev = arg;
ctlr = edev->ctlr;
while(waserror())
;
for(;;){
/* wait for next interrupt */
ilock(&ctlr->reglock);
ctlr->imr |= Fovw|Rdu|Rer|Rok;
csr16w(ctlr, Imr, ctlr->imr);
iunlock(&ctlr->reglock);
sleep(&ctlr->rrendez, pktstoread, ctlr);
/* clear saved isr bits */
ilock(&ctlr->reglock);
ctlr->isr &= ~(Fovw|Rdu|Rer|Rok);
iunlock(&ctlr->reglock);
rdh = ctlr->rdh;
for (rd = &ctlr->rd[rdh]; !(rd->control & Own);
rd = &ctlr->rd[rdh]){
control = rd->control;
if((control & (Fs|Ls|Res)) == (Fs|Ls))
qpkt(edev, rdh, control);
else
badpkt(edev, rdh, control);
ctlr->rb[rdh] = nil;
coherence();
rd->control &= Eor;
coherence();
ctlr->nrdfree--;
rdh = NEXT(rdh, ctlr->nrd);
if(ctlr->nrdfree < ctlr->nrd/2) {
/* replenish reads ctlr->rdh */
ctlr->rdh = rdh;
rtl8169replenish(edev);
/* if replenish called restart, rdh is reset */
rdh = ctlr->rdh;
}
}
ctlr->rdh = rdh;
}
}
static int
pktstosend(void* v)
{
Ether *edev = v;
Ctlr *ctlr = edev->ctlr;
return ctlr->isr & (Ter|Tok) &&
!(ctlr->td[ctlr->tdh].control & Own) && edev->link;
}
static void
tproc(void* arg)
{
int x, len;
Block *bp;
Ctlr *ctlr;
D *d;
Ether *edev;
edev = arg;
ctlr = edev->ctlr;
for(;;){
/* wait for next interrupt */
ilock(&ctlr->reglock);
ctlr->imr |= Ter|Tok;
csr16w(ctlr, Imr, ctlr->imr);
iunlock(&ctlr->reglock);
sleep(&ctlr->trendez, pktstosend, edev);
/* clear saved isr bits */
ilock(&ctlr->reglock);
ctlr->isr &= ~(Ter|Tok);
iunlock(&ctlr->reglock);
/* reclaim transmitted Blocks */
for(x = ctlr->tdh; ctlr->ntq > 0; x = NEXT(x, ctlr->ntd)){
d = &ctlr->td[x];
if(d == nil || d->control & Own)
break;
/*
* Free it up.
* Need to clean the descriptor here? Not really.
* Simple freeb for now (no chain and freeblist).
* Use ntq count for now.
*/
freeb(ctlr->tb[x]);
ctlr->tb[x] = nil;
d->control &= Eor;
coherence();
ctlr->ntq--;
}
ctlr->tdh = x;
if (ctlr->ntq > 0)
csr8w(ctlr, Tppoll, Npq); /* kick xmiter to keep it going */
/* copy as much of my output q as possible into output ring */
x = ctlr->tdt;
while(ctlr->ntq < (ctlr->ntd-1)){
if((bp = qget(edev->oq)) == nil)
break;
/* make sure the whole packet is in ram */
len = BLEN(bp);
allcache->wbse(bp->rp, len);
d = &ctlr->td[x];
assert(d);
assert(!(d->control & Own));
d->addrhi = 0;
d->addrlo = PCIWADDR(bp->rp);
ctlr->tb[x] = bp;
coherence();
d->control = (d->control & ~TxflMASK) |
Own | Fs | Ls | len;
coherence();
if(Debug > 1)
iprint("T%d ", len);
x = NEXT(x, ctlr->ntd);
ctlr->ntq++;
ctlr->tdt = x;
coherence();
csr8w(ctlr, Tppoll, Npq); /* kick xmiter again */
}
if(x != ctlr->tdt){ /* added new packet(s)? */
ctlr->tdt = x;
coherence();
csr8w(ctlr, Tppoll, Npq);
}
else if(ctlr->ntq >= (ctlr->ntd-1))
ctlr->txdu++;
}
}
static int
rtl8169init(Ether* edev)
{
u32int r;
Ctlr *ctlr;
ushort cplusc;
ctlr = edev->ctlr;
ilock(&ctlr->ilock);
rtl8169reset(ctlr);
ilock(&ctlr->reglock);
switch(ctlr->pciv){
case Rtl8169sc:
csr8w(ctlr, Cr, 0);
break;
case Rtl8168b:
case Rtl8169c:
/* 8168b manual says set c+ reg first, then command */
csr16w(ctlr, Cplusc, 0x2000); /* magic */
csr8w(ctlr, Cr, 0);
break;
}
/*
* MAC Address is not settable on some (all?) chips.
* Must put chip into config register write enable mode.
*/
csr8w(ctlr, Cr9346, Eem1|Eem0);
/*
* Transmitter.
*/
memset(ctlr->td, 0, sizeof(D)*ctlr->ntd);
ctlr->tdh = ctlr->tdt = 0;
ctlr->ntq = 0;
ctlr->td[ctlr->ntd-1].control = Eor;
/*
* Receiver.
* Need to do something here about the multicast filter.
*/
memset(ctlr->rd, 0, sizeof(D)*ctlr->nrd);
ctlr->nrdfree = ctlr->rdh = ctlr->rdt = 0;
ctlr->rd[ctlr->nrd-1].control = Eor;
rtl8169replenish(edev);
switch(ctlr->pciv){
default:
ctlr->rcr = Rxfthnone|Mrxdmaunlimited|Ab|Apm;
break;
case Rtl8168b:
case Rtl8169c:
ctlr->rcr = Rxfthnone|6<<MrxdmaSHIFT|Ab|Apm; /* DMA max 1024 */
break;
}
/*
* Setting Mulrw in Cplusc disables the Tx/Rx DMA burst
* settings in Tcr/Rcr; the (1<<14) is magic.
*/
cplusc = csr16r(ctlr, Cplusc) & ~(1<<14);
switch(ctlr->pciv){
case Rtl8168b:
case Rtl8169c:
cplusc |= Pktcntoff | Init1;
break;
}
cplusc |= /*Rxchksum|*/Mulrw;
switch(ctlr->macv){
default:
panic("ether8169: unknown macv %#08ux for vid %#ux did %#ux",
ctlr->macv, ctlr->pcidev->vid, ctlr->pcidev->did);
case Macv01:
break;
case Macv02:
case Macv03:
cplusc |= 1<<14; /* magic */
break;
case Macv05:
/*
* This is interpreted from clearly bogus code
* in the manufacturer-supplied driver, it could
* be wrong. Untested.
*/
r = csr8r(ctlr, Config2) & 0x07;
if(r == 0x01) /* 66MHz PCI */
csr32w(ctlr, 0x7C, 0x0007FFFF); /* magic */
else
csr32w(ctlr, 0x7C, 0x0007FF00); /* magic */
pciclrmwi(ctlr->pcidev);
break;
case Macv13:
/*
* This is interpreted from clearly bogus code
* in the manufacturer-supplied driver, it could
* be wrong. Untested.
*/
pcicfgw8(ctlr->pcidev, 0x68, 0x00); /* magic */
pcicfgw8(ctlr->pcidev, 0x69, 0x08); /* magic */
break;
case Macv04:
case Macv07:
case Macv07a:
case Macv11:
case Macv12:
case Macv12a:
case Macv14:
case Macv15:
case Macv25:
break;
}
/*
* Enable receiver/transmitter.
* Need to do this first or some of the settings below
* won't take.
*/
switch(ctlr->pciv){
default:
csr8w(ctlr, Cr, Te|Re);
csr32w(ctlr, Tcr, Ifg1|Ifg0|Mtxdmaunlimited);
csr32w(ctlr, Rcr, ctlr->rcr);
break;
case Rtl8169sc:
case Rtl8168b:
break;
}
ctlr->mchash = 0;
csr32w(ctlr, Mar0, 0);
csr32w(ctlr, Mar0+4, 0);
/*
* Interrupts.
* Disable Tdu for now, the transmit routine will tidy.
* Tdu means the NIC ran out of descriptors to send (i.e., the
* output ring is empty), so it doesn't really need to ever be on.
*
* The timer runs at the PCI(-E) clock frequency, 125MHz for PCI-E,
* presumably 66MHz for PCI. Thus the units for PCI-E controllers
* (e.g., 8168) are 8ns, and only the buggy 8168 seems to need to use
* timeouts to keep from stalling.
*/
csr32w(ctlr, Tctr, 0);
/* Tok makes the whole system run faster */
ctlr->imr = Serr|Fovw|Punlc|Rdu|Ter|Tok|Rer|Rok;
switch(ctlr->pciv){
case Rtl8169sc:
case Rtl8168b:
/* alleged workaround for rx fifo overflow on 8168[bd] */
ctlr->imr &= ~Rdu;
break;
}
csr16w(ctlr, Imr, ctlr->imr);
/*
* Clear missed-packet counter;
* clear early transmit threshold value;
* set the descriptor ring base addresses;
* set the maximum receive packet size;
* no early-receive interrupts.
*
* note: the maximum rx size is a filter. the size of the buffer
* in the descriptor ring is still honored. we will toss >Mtu
* packets because they've been fragmented into multiple
* rx buffers.
*/
csr32w(ctlr, Mpc, 0);
if (ctlr->pcie)
csr8w(ctlr, Mtps, Mps / 128);
else
csr8w(ctlr, Etx, 0x3f); /* max; no early transmission */
csr32w(ctlr, Tnpds+4, 0);
csr32w(ctlr, Tnpds, PCIWADDR(ctlr->td));
csr32w(ctlr, Rdsar+4, 0);
csr32w(ctlr, Rdsar, PCIWADDR(ctlr->rd));
csr16w(ctlr, Rms, 2048); /* was Mps; see above comment */
r = csr16r(ctlr, Mulint) & 0xF000; /* no early rx interrupts */
csr16w(ctlr, Mulint, r);
csr16w(ctlr, Cplusc, cplusc);
csr16w(ctlr, Coal, 0);
/*
* Set configuration.
*/
switch(ctlr->pciv){
case Rtl8169sc:
csr8w(ctlr, Cr, Te|Re);
csr32w(ctlr, Tcr, Ifg1|Ifg0|Mtxdmaunlimited);
csr32w(ctlr, Rcr, ctlr->rcr);
break;
case Rtl8168b:
case Rtl8169c:
csr16w(ctlr, Cplusc, 0x2000); /* magic */
csr8w(ctlr, Cr, Te|Re);
csr32w(ctlr, Tcr, Ifg1|Ifg0|6<<MtxdmaSHIFT); /* DMA max 1024 */
csr32w(ctlr, Rcr, ctlr->rcr);
break;
}
ctlr->tcr = csr32r(ctlr, Tcr);
csr8w(ctlr, Cr9346, 0);
iunlock(&ctlr->reglock);
iunlock(&ctlr->ilock);
// rtl8169mii(ctlr);
return 0;
}
static void
rtl8169attach(Ether* edev)
{
int timeo, s, i;
char name[KNAMELEN];
Block *bp;
Ctlr *ctlr;
ctlr = edev->ctlr;
s = splhi();
qlock(&ctlr->alock);
if(ctlr->init || waserror()) {
qunlock(&ctlr->alock);
splx(s);
return;
}
ctlr->td = ucallocalign(sizeof(D)*Ntd, 256, 0);
ctlr->tb = malloc(Ntd*sizeof(Block*));
ctlr->ntd = Ntd;
ctlr->rd = ucallocalign(sizeof(D)*Nrd, 256, 0);
ctlr->rb = malloc(Nrd*sizeof(Block*));
ctlr->nrd = Nrd;
ctlr->dtcc = mallocalign(sizeof(Dtcc), 64, 0, 0);
if(waserror()){
free(ctlr->td);
free(ctlr->tb);
free(ctlr->rd);
free(ctlr->rb);
free(ctlr->dtcc);
nexterror();
}
if(ctlr->td == nil || ctlr->tb == nil || ctlr->rd == nil ||
ctlr->rb == nil || ctlr->dtcc == nil)
error(Enomem);
/* allocate private receive-buffer pool */
ctlr->nrb = Nrb;
for(i = 0; i < Nrb; i++){
if((bp = allocb(Mps)) == nil)
error(Enomem);
bp->free = rbfree;
freeb(bp);
}
rtl8169init(edev);
ctlr->init = 1;
qunlock(&ctlr->alock);
splx(s);
poperror(); /* free */
poperror(); /* qunlock */
/* signal secondary cpus that l1 ptes are stable */
l1ptstable.word = 1;
allcache->wbse(&l1ptstable, sizeof l1ptstable);
s = spllo();
/* Don't wait long for link to be ready. */
for(timeo = 0; timeo < 50 && miistatus(ctlr->mii) != 0; timeo++)
// tsleep(&up->sleep, return0, 0, 100); /* fewer miistatus msgs */
delay(100);
while (!edev->link)
tsleep(&up->sleep, return0, 0, 10);
splx(s);
snprint(name, KNAMELEN, "#l%drproc", edev->ctlrno);
kproc(name, rproc, edev);
snprint(name, KNAMELEN, "#l%dtproc", edev->ctlrno);
kproc(name, tproc, edev);
}
/* call with ctlr->reglock held */
static void
rtl8169link(Ether* edev)
{
uint r;
int limit;
Ctlr *ctlr;
ctlr = edev->ctlr;
if(!((r = csr8r(ctlr, Phystatus)) & Linksts)){
if (edev->link) {
edev->link = 0;
csr8w(ctlr, Cr, Re);
iprint("#l%d: link down\n", edev->ctlrno);
}
return;
}
if (edev->link == 0) {
edev->link = 1;
csr8w(ctlr, Cr, Te|Re);
iprint("#l%d: link up\n", edev->ctlrno);
}
limit = 256*1024;
if(r & Speed10){
edev->mbps = 10;
limit = 65*1024;
} else if(r & Speed100)
edev->mbps = 100;
else if(r & Speed1000)
edev->mbps = 1000;
if(edev->oq != nil)
qsetlimit(edev->oq, limit);
}
static void
rtl8169transmit(Ether* edev)
{
Ctlr *ctlr;
ctlr = edev->ctlr;
if (ctlr == nil || ctlr->ntd == 0) {
iprint("rtl8169transmit: not yet initialised\n");
return;
}
wakeup(&ctlr->trendez);
}
/*
* the controller has lost its mind, so reset it.
* call with ctlr->reglock held.
*/
static void
restart(Ether *edev, char *why)
{
int i, s, del;
Ctlr *ctlr;
static int inrestart;
static Lock rstrtlck;
/* keep other cpus out */
s = splhi();
if (inrestart) {
splx(s);
return;
}
ilock(&rstrtlck);
ctlr = edev->ctlr;
if (ctlr == nil || !ctlr->init) {
iunlock(&rstrtlck);
splx(s);
return;
}
if (Debug)
iprint("#l%d: restart due to %s\n", edev->ctlrno, why);
inrestart = 1;
/* process any pkts in the rings */
wakeup(&ctlr->rrendez);
coherence();
rtl8169transmit(edev);
/* allow time to drain 1024-buffer ring */
for (del = 0; del < 13 && ctlr->ntq > 0; del++)
delay(1);
iunlock(&ctlr->reglock);
rtl8169reset(ctlr);
/* free any remaining unprocessed input buffers */
for (i = 0; i < ctlr->nrd; i++) {
freeb(ctlr->rb[i]);
ctlr->rb[i] = nil;
}
rtl8169init(edev);
ilock(&ctlr->reglock);
rtl8169link(edev);
rtl8169transmit(edev); /* drain any output queue */
wakeup(&ctlr->rrendez);
inrestart = 0;
iunlock(&rstrtlck);
splx(s);
}
static ulong
rcvdiag(Ether *edev, ulong isr)
{
Ctlr *ctlr;
ctlr = edev->ctlr;
if(!(isr & (Punlc|Rok)))
ctlr->ierrs++;
if(isr & Rer)
ctlr->rer++;
if(isr & Rdu)
ctlr->rdu++;
if(isr & Punlc)
ctlr->punlc++;
if(isr & Fovw)
ctlr->fovw++;
if (isr & (Fovw|Rdu|Rer)) {
if (isr & ~(Tdu|Tok|Rok)) /* harmless */
iprint("#l%d: isr %8.8#lux\n", edev->ctlrno, isr);
restart(edev, "rcv error");
isr = ~0;
}
return isr;
}
void
rtl8169interrupt(Ureg*, void* arg)
{
Ctlr *ctlr;
Ether *edev;
u32int isr;
edev = arg;
ctlr = edev->ctlr;
ilock(&ctlr->reglock);
while((isr = csr16r(ctlr, Isr)) != 0 && isr != 0xFFFF){
ctlr->isr |= isr; /* merge bits for [rt]proc */
csr16w(ctlr, Isr, isr); /* dismiss? */
if((isr & ctlr->imr) == 0)
break;
if(isr & Fovw && ctlr->pciv == Rtl8168b) {
/*
* Fovw means we got behind; relatively common on 8168.
* this is a big hammer, but it gets things going again.
*/
ctlr->fovw++;
restart(edev, "rx fifo overrun");
break;
}
if(isr & (Fovw|Punlc|Rdu|Rer|Rok)) {
ctlr->imr &= ~(Fovw|Rdu|Rer|Rok);
csr16w(ctlr, Imr, ctlr->imr);
wakeup(&ctlr->rrendez);
if (isr & (Fovw|Punlc|Rdu|Rer)) {
isr = rcvdiag(edev, isr);
if (isr == ~0)
break; /* restarted */
}
isr &= ~(Fovw|Rdu|Rer|Rok);
}
if(isr & (Ter|Tok)){
ctlr->imr &= ~(Ter|Tok);
csr16w(ctlr, Imr, ctlr->imr);
wakeup(&ctlr->trendez);
if (isr & Ter)
iprint("xmit err; isr %8.8#ux\n", isr);
isr &= ~(Ter|Tok);
}
if(isr & Punlc){
rtl8169link(edev);
isr &= ~Punlc;
}
/*
* Some of the reserved bits get set sometimes...
*/
if(isr & (Serr|Fovw|Punlc|Rdu|Ter|Tok|Rer|Rok))
panic("rtl8169interrupt: imr %#4.4ux isr %#4.4ux",
csr16r(ctlr, Imr), isr);
}
if (edev->link && ctlr->ntq > 0)
csr8w(ctlr, Tppoll, Npq); /* kick xmiter to keep it going */
iunlock(&ctlr->reglock);
/*
* extinguish pci-e controller interrupt source.
* should be done more cleanly.
*/
if (ctlr->pcie)
pcieintrdone();
}
int
vetmacv(Ctlr *ctlr, uint *macv)
{
*macv = csr32r(ctlr, Tcr) & HwveridMASK;
switch(*macv){
default:
return -1;
case Macv01:
case Macv02:
case Macv03:
case Macv04:
case Macv05:
case Macv07:
case Macv07a:
case Macv11:
case Macv12:
case Macv12a:
case Macv13:
case Macv14:
case Macv15:
case Macv25:
break;
}
return 0;
}
static void
rtl8169pci(void)
{
Pcidev *p;
Ctlr *ctlr;
int i, pcie;
uint macv, bar;
void *mem;
p = nil;
while(p = pcimatch(p, 0, 0)){
if(p->ccrb != 0x02 || p->ccru != 0)
continue;
pcie = 0;
switch(i = ((p->did<<16)|p->vid)){
default:
continue;
case Rtl8100e: /* RTL810[01]E ? */
case Rtl8168b: /* RTL8168B */
pcie = 1;
break;
case Rtl8169c: /* RTL8169C */
case Rtl8169sc: /* RTL8169SC */
case Rtl8169: /* RTL8169 */
break;
case (0xC107<<16)|0x1259: /* Corega CG-LAPCIGT */
i = Rtl8169;
break;
}
bar = p->mem[2].bar & ~0x0F;
assert(bar != 0);
assert(!(p->mem[2].bar & Barioaddr));
if(0) iprint("rtl8169: %d-bit register accesses\n",
((p->mem[2].bar >> Barwidthshift) & Barwidthmask) ==
Barwidth32? 32: 64);
mem = (void *)bar; /* don't need to vmap on trimslice */
if(mem == 0){
print("rtl8169: can't map %#ux\n", bar);
continue;
}
ctlr = malloc(sizeof(Ctlr));
if(ctlr == nil)
error(Enomem);
ctlr->nic = mem;
ctlr->port = bar;
ctlr->pcidev = p;
ctlr->pciv = i;
ctlr->pcie = pcie;
if(vetmacv(ctlr, &macv) == -1){
free(ctlr);
print("rtl8169: unknown mac %.4ux %.8ux\n", p->did, macv);
continue;
}
if(pcigetpms(p) > 0){
pcisetpms(p, 0);
for(i = 0; i < 6; i++)
pcicfgw32(p, PciBAR0+i*4, p->mem[i].bar);
pcicfgw8(p, PciINTL, p->intl);
pcicfgw8(p, PciLTR, p->ltr);
pcicfgw8(p, PciCLS, p->cls);
pcicfgw16(p, PciPCR, p->pcr);
}
if(rtl8169reset(ctlr)){
free(ctlr);
continue;
}
/*
* Extract the chip hardware version,
* needed to configure each properly.
*/
ctlr->macv = macv;
rtl8169mii(ctlr);
pcisetbme(p);
if(rtl8169ctlrhead != nil)
rtl8169ctlrtail->next = ctlr;
else
rtl8169ctlrhead = ctlr;
rtl8169ctlrtail = ctlr;
}
}
static int
rtl8169pnp(Ether* edev)
{
u32int r;
Ctlr *ctlr;
uchar ea[Eaddrlen];
static int once;
if(once == 0){
once = 1;
rtl8169pci();
}
/*
* Any adapter matches if no edev->port is supplied,
* otherwise the ports must match.
*/
for(ctlr = rtl8169ctlrhead; ctlr != nil; ctlr = ctlr->next){
if(ctlr->active)
continue;
if(edev->port == 0 || edev->port == ctlr->port){
ctlr->active = 1;
break;
}
}
if(ctlr == nil)
return -1;
edev->ctlr = ctlr;
ctlr->ether = edev;
edev->port = ctlr->port;
// edev->irq = ctlr->pcidev->intl; /* incorrect on trimslice */
edev->irq = Pcieirq; /* trimslice: non-msi pci-e intr */
edev->tbdf = ctlr->pcidev->tbdf;
edev->mbps = 1000;
edev->maxmtu = Mtu;
/*
* Check if the adapter's station address is to be overridden.
* If not, read it from the device and set in edev->ea.
*/
memset(ea, 0, Eaddrlen);
if(memcmp(ea, edev->ea, Eaddrlen) == 0){
r = csr32r(ctlr, Idr0);
edev->ea[0] = r;
edev->ea[1] = r>>8;
edev->ea[2] = r>>16;
edev->ea[3] = r>>24;
r = csr32r(ctlr, Idr0+4);
edev->ea[4] = r;
edev->ea[5] = r>>8;
}
edev->attach = rtl8169attach;
edev->transmit = rtl8169transmit;
edev->interrupt = rtl8169interrupt;
edev->ifstat = rtl8169ifstat;
edev->arg = edev;
edev->promiscuous = rtl8169promiscuous;
edev->multicast = rtl8169multicast;
edev->shutdown = rtl8169shutdown;
ilock(&ctlr->reglock);
rtl8169link(edev);
iunlock(&ctlr->reglock);
return 0;
}
void
ether8169link(void)
{
addethercard("rtl8169", rtl8169pnp);
}
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