1*1b8adde7SWilliam Kucharski #ifdef ALLMULTI
2*1b8adde7SWilliam Kucharski #error multicast support is not yet implemented
3*1b8adde7SWilliam Kucharski #endif
4*1b8adde7SWilliam Kucharski /*
5*1b8adde7SWilliam Kucharski DAVICOM DM9009/DM9102/DM9102A Etherboot Driver V1.00
6*1b8adde7SWilliam Kucharski
7*1b8adde7SWilliam Kucharski This driver was ported from Marty Connor's Tulip Etherboot driver.
8*1b8adde7SWilliam Kucharski Thanks Marty Connor (mdc@etherboot.org)
9*1b8adde7SWilliam Kucharski
10*1b8adde7SWilliam Kucharski This davicom etherboot driver supports DM9009/DM9102/DM9102A/
11*1b8adde7SWilliam Kucharski DM9102A+DM9801/DM9102A+DM9802 NICs.
12*1b8adde7SWilliam Kucharski
13*1b8adde7SWilliam Kucharski This software may be used and distributed according to the terms
14*1b8adde7SWilliam Kucharski of the GNU Public License, incorporated herein by reference.
15*1b8adde7SWilliam Kucharski
16*1b8adde7SWilliam Kucharski */
17*1b8adde7SWilliam Kucharski
18*1b8adde7SWilliam Kucharski /*********************************************************************/
19*1b8adde7SWilliam Kucharski /* Revision History */
20*1b8adde7SWilliam Kucharski /*********************************************************************/
21*1b8adde7SWilliam Kucharski
22*1b8adde7SWilliam Kucharski /*
23*1b8adde7SWilliam Kucharski 19 OCT 2000 Sten 1.00
24*1b8adde7SWilliam Kucharski Different half and full duplex mode
25*1b8adde7SWilliam Kucharski Do the different programming for DM9801/DM9802
26*1b8adde7SWilliam Kucharski
27*1b8adde7SWilliam Kucharski 12 OCT 2000 Sten 0.90
28*1b8adde7SWilliam Kucharski This driver was ported from tulip driver and it
29*1b8adde7SWilliam Kucharski has the following difference.
30*1b8adde7SWilliam Kucharski Changed symbol tulip/TULIP to davicom/DAVICOM
31*1b8adde7SWilliam Kucharski Deleted some code that did not use in this driver.
32*1b8adde7SWilliam Kucharski Used chain-strcture to replace ring structure
33*1b8adde7SWilliam Kucharski for both TX/RX descriptor.
34*1b8adde7SWilliam Kucharski Allocated two tx descriptor.
35*1b8adde7SWilliam Kucharski According current media mode to set operating
36*1b8adde7SWilliam Kucharski register(CR6)
37*1b8adde7SWilliam Kucharski */
38*1b8adde7SWilliam Kucharski
39*1b8adde7SWilliam Kucharski /*********************************************************************/
40*1b8adde7SWilliam Kucharski /* Declarations */
41*1b8adde7SWilliam Kucharski /*********************************************************************/
42*1b8adde7SWilliam Kucharski
43*1b8adde7SWilliam Kucharski #include "etherboot.h"
44*1b8adde7SWilliam Kucharski #include "nic.h"
45*1b8adde7SWilliam Kucharski #include "pci.h"
46*1b8adde7SWilliam Kucharski
47*1b8adde7SWilliam Kucharski #undef DAVICOM_DEBUG
48*1b8adde7SWilliam Kucharski #undef DAVICOM_DEBUG_WHERE
49*1b8adde7SWilliam Kucharski
50*1b8adde7SWilliam Kucharski #define TX_TIME_OUT 2*TICKS_PER_SEC
51*1b8adde7SWilliam Kucharski
52*1b8adde7SWilliam Kucharski typedef unsigned char u8;
53*1b8adde7SWilliam Kucharski typedef signed char s8;
54*1b8adde7SWilliam Kucharski typedef unsigned short u16;
55*1b8adde7SWilliam Kucharski typedef signed short s16;
56*1b8adde7SWilliam Kucharski typedef unsigned int u32;
57*1b8adde7SWilliam Kucharski typedef signed int s32;
58*1b8adde7SWilliam Kucharski
59*1b8adde7SWilliam Kucharski /* Register offsets for davicom device */
60*1b8adde7SWilliam Kucharski enum davicom_offsets {
61*1b8adde7SWilliam Kucharski CSR0=0, CSR1=0x08, CSR2=0x10, CSR3=0x18, CSR4=0x20, CSR5=0x28,
62*1b8adde7SWilliam Kucharski CSR6=0x30, CSR7=0x38, CSR8=0x40, CSR9=0x48, CSR10=0x50, CSR11=0x58,
63*1b8adde7SWilliam Kucharski CSR12=0x60, CSR13=0x68, CSR14=0x70, CSR15=0x78, CSR16=0x80, CSR20=0xA0
64*1b8adde7SWilliam Kucharski };
65*1b8adde7SWilliam Kucharski
66*1b8adde7SWilliam Kucharski /* EEPROM Address width definitions */
67*1b8adde7SWilliam Kucharski #define EEPROM_ADDRLEN 6
68*1b8adde7SWilliam Kucharski #define EEPROM_SIZE 32 /* 1 << EEPROM_ADDRLEN */
69*1b8adde7SWilliam Kucharski /* Used to be 128, but we only need to read enough to get the MAC
70*1b8adde7SWilliam Kucharski address at bytes 20..25 */
71*1b8adde7SWilliam Kucharski
72*1b8adde7SWilliam Kucharski /* Data Read from the EEPROM */
73*1b8adde7SWilliam Kucharski static unsigned char ee_data[EEPROM_SIZE];
74*1b8adde7SWilliam Kucharski
75*1b8adde7SWilliam Kucharski /* The EEPROM commands include the alway-set leading bit. */
76*1b8adde7SWilliam Kucharski #define EE_WRITE_CMD (5 << addr_len)
77*1b8adde7SWilliam Kucharski #define EE_READ_CMD (6 << addr_len)
78*1b8adde7SWilliam Kucharski #define EE_ERASE_CMD (7 << addr_len)
79*1b8adde7SWilliam Kucharski
80*1b8adde7SWilliam Kucharski /* EEPROM_Ctrl bits. */
81*1b8adde7SWilliam Kucharski #define EE_SHIFT_CLK 0x02 /* EEPROM shift clock. */
82*1b8adde7SWilliam Kucharski #define EE_CS 0x01 /* EEPROM chip select. */
83*1b8adde7SWilliam Kucharski #define EE_DATA_WRITE 0x04 /* EEPROM chip data in. */
84*1b8adde7SWilliam Kucharski #define EE_WRITE_0 0x01
85*1b8adde7SWilliam Kucharski #define EE_WRITE_1 0x05
86*1b8adde7SWilliam Kucharski #define EE_DATA_READ 0x08 /* EEPROM chip data out. */
87*1b8adde7SWilliam Kucharski #define EE_ENB (0x4800 | EE_CS)
88*1b8adde7SWilliam Kucharski
89*1b8adde7SWilliam Kucharski /* Sten 10/11 for phyxcer */
90*1b8adde7SWilliam Kucharski #define PHY_DATA_0 0x0
91*1b8adde7SWilliam Kucharski #define PHY_DATA_1 0x20000
92*1b8adde7SWilliam Kucharski #define MDCLKH 0x10000
93*1b8adde7SWilliam Kucharski
94*1b8adde7SWilliam Kucharski /* Delay between EEPROM clock transitions. Even at 33Mhz current PCI
95*1b8adde7SWilliam Kucharski implementations don't overrun the EEPROM clock. We add a bus
96*1b8adde7SWilliam Kucharski turn-around to insure that this remains true. */
97*1b8adde7SWilliam Kucharski #define eeprom_delay() inl(ee_addr)
98*1b8adde7SWilliam Kucharski
99*1b8adde7SWilliam Kucharski /* helpful macro if on a big_endian machine for changing byte order.
100*1b8adde7SWilliam Kucharski not strictly needed on Intel
101*1b8adde7SWilliam Kucharski Already defined in Etherboot includes
102*1b8adde7SWilliam Kucharski #define le16_to_cpu(val) (val)
103*1b8adde7SWilliam Kucharski */
104*1b8adde7SWilliam Kucharski
105*1b8adde7SWilliam Kucharski /* transmit and receive descriptor format */
106*1b8adde7SWilliam Kucharski struct txdesc {
107*1b8adde7SWilliam Kucharski volatile unsigned long status; /* owner, status */
108*1b8adde7SWilliam Kucharski unsigned long buf1sz:11, /* size of buffer 1 */
109*1b8adde7SWilliam Kucharski buf2sz:11, /* size of buffer 2 */
110*1b8adde7SWilliam Kucharski control:10; /* control bits */
111*1b8adde7SWilliam Kucharski const unsigned char *buf1addr; /* buffer 1 address */
112*1b8adde7SWilliam Kucharski const unsigned char *buf2addr; /* buffer 2 address */
113*1b8adde7SWilliam Kucharski };
114*1b8adde7SWilliam Kucharski
115*1b8adde7SWilliam Kucharski struct rxdesc {
116*1b8adde7SWilliam Kucharski volatile unsigned long status; /* owner, status */
117*1b8adde7SWilliam Kucharski unsigned long buf1sz:11, /* size of buffer 1 */
118*1b8adde7SWilliam Kucharski buf2sz:11, /* size of buffer 2 */
119*1b8adde7SWilliam Kucharski control:10; /* control bits */
120*1b8adde7SWilliam Kucharski unsigned char *buf1addr; /* buffer 1 address */
121*1b8adde7SWilliam Kucharski unsigned char *buf2addr; /* buffer 2 address */
122*1b8adde7SWilliam Kucharski };
123*1b8adde7SWilliam Kucharski
124*1b8adde7SWilliam Kucharski /* Size of transmit and receive buffers */
125*1b8adde7SWilliam Kucharski #define BUFLEN 1536
126*1b8adde7SWilliam Kucharski
127*1b8adde7SWilliam Kucharski /*********************************************************************/
128*1b8adde7SWilliam Kucharski /* Global Storage */
129*1b8adde7SWilliam Kucharski /*********************************************************************/
130*1b8adde7SWilliam Kucharski
131*1b8adde7SWilliam Kucharski /* PCI Bus parameters */
132*1b8adde7SWilliam Kucharski static unsigned short vendor, dev_id;
133*1b8adde7SWilliam Kucharski static unsigned long ioaddr;
134*1b8adde7SWilliam Kucharski
135*1b8adde7SWilliam Kucharski /* Note: transmit and receive buffers must be longword aligned and
136*1b8adde7SWilliam Kucharski longword divisable */
137*1b8adde7SWilliam Kucharski
138*1b8adde7SWilliam Kucharski /* transmit descriptor and buffer */
139*1b8adde7SWilliam Kucharski #define NTXD 2
140*1b8adde7SWilliam Kucharski static struct txdesc txd[NTXD] __attribute__ ((aligned(4)));
141*1b8adde7SWilliam Kucharski static unsigned char txb[BUFLEN] __attribute__ ((aligned(4)));
142*1b8adde7SWilliam Kucharski
143*1b8adde7SWilliam Kucharski /* receive descriptor(s) and buffer(s) */
144*1b8adde7SWilliam Kucharski #define NRXD 4
145*1b8adde7SWilliam Kucharski static struct rxdesc rxd[NRXD] __attribute__ ((aligned(4)));
146*1b8adde7SWilliam Kucharski static unsigned char rxb[NRXD * BUFLEN] __attribute__ ((aligned(4)));
147*1b8adde7SWilliam Kucharski static int rxd_tail;
148*1b8adde7SWilliam Kucharski static int TxPtr;
149*1b8adde7SWilliam Kucharski
150*1b8adde7SWilliam Kucharski
151*1b8adde7SWilliam Kucharski /*********************************************************************/
152*1b8adde7SWilliam Kucharski /* Function Prototypes */
153*1b8adde7SWilliam Kucharski /*********************************************************************/
154*1b8adde7SWilliam Kucharski static void whereami(const char *str);
155*1b8adde7SWilliam Kucharski static int read_eeprom(unsigned long ioaddr, int location, int addr_len);
156*1b8adde7SWilliam Kucharski static int davicom_probe(struct dev *dev, struct pci_device *pci);
157*1b8adde7SWilliam Kucharski static void davicom_init_chain(struct nic *nic); /* Sten 10/9 */
158*1b8adde7SWilliam Kucharski static void davicom_reset(struct nic *nic);
159*1b8adde7SWilliam Kucharski static void davicom_transmit(struct nic *nic, const char *d, unsigned int t,
160*1b8adde7SWilliam Kucharski unsigned int s, const char *p);
161*1b8adde7SWilliam Kucharski static int davicom_poll(struct nic *nic, int retrieve);
162*1b8adde7SWilliam Kucharski static void davicom_disable(struct dev *dev);
163*1b8adde7SWilliam Kucharski #ifdef DAVICOM_DEBUG
164*1b8adde7SWilliam Kucharski static void davicom_more(void);
165*1b8adde7SWilliam Kucharski #endif /* DAVICOM_DEBUG */
166*1b8adde7SWilliam Kucharski static void davicom_wait(unsigned int nticks);
167*1b8adde7SWilliam Kucharski static int phy_read(int);
168*1b8adde7SWilliam Kucharski static void phy_write(int, u16);
169*1b8adde7SWilliam Kucharski static void phy_write_1bit(u32, u32);
170*1b8adde7SWilliam Kucharski static int phy_read_1bit(u32);
171*1b8adde7SWilliam Kucharski static void davicom_media_chk(struct nic *);
172*1b8adde7SWilliam Kucharski
173*1b8adde7SWilliam Kucharski
174*1b8adde7SWilliam Kucharski /*********************************************************************/
175*1b8adde7SWilliam Kucharski /* Utility Routines */
176*1b8adde7SWilliam Kucharski /*********************************************************************/
whereami(const char * str)177*1b8adde7SWilliam Kucharski static inline void whereami(const char *str)
178*1b8adde7SWilliam Kucharski {
179*1b8adde7SWilliam Kucharski printf("%s\n", str);
180*1b8adde7SWilliam Kucharski /* sleep(2); */
181*1b8adde7SWilliam Kucharski }
182*1b8adde7SWilliam Kucharski
183*1b8adde7SWilliam Kucharski #ifdef DAVICOM_DEBUG
davicom_more()184*1b8adde7SWilliam Kucharski static void davicom_more()
185*1b8adde7SWilliam Kucharski {
186*1b8adde7SWilliam Kucharski printf("\n\n-- more --");
187*1b8adde7SWilliam Kucharski while (!iskey())
188*1b8adde7SWilliam Kucharski /* wait */;
189*1b8adde7SWilliam Kucharski getchar();
190*1b8adde7SWilliam Kucharski printf("\n\n");
191*1b8adde7SWilliam Kucharski }
192*1b8adde7SWilliam Kucharski #endif /* DAVICOM_DEBUG */
193*1b8adde7SWilliam Kucharski
davicom_wait(unsigned int nticks)194*1b8adde7SWilliam Kucharski static void davicom_wait(unsigned int nticks)
195*1b8adde7SWilliam Kucharski {
196*1b8adde7SWilliam Kucharski unsigned int to = currticks() + nticks;
197*1b8adde7SWilliam Kucharski while (currticks() < to)
198*1b8adde7SWilliam Kucharski /* wait */ ;
199*1b8adde7SWilliam Kucharski }
200*1b8adde7SWilliam Kucharski
201*1b8adde7SWilliam Kucharski
202*1b8adde7SWilliam Kucharski /*********************************************************************/
203*1b8adde7SWilliam Kucharski /* For DAVICOM phyxcer register by MII interface */
204*1b8adde7SWilliam Kucharski /*********************************************************************/
205*1b8adde7SWilliam Kucharski /*
206*1b8adde7SWilliam Kucharski Read a word data from phy register
207*1b8adde7SWilliam Kucharski */
phy_read(int location)208*1b8adde7SWilliam Kucharski static int phy_read(int location)
209*1b8adde7SWilliam Kucharski {
210*1b8adde7SWilliam Kucharski int i, phy_addr=1;
211*1b8adde7SWilliam Kucharski u16 phy_data;
212*1b8adde7SWilliam Kucharski u32 io_dcr9;
213*1b8adde7SWilliam Kucharski
214*1b8adde7SWilliam Kucharski whereami("phy_read\n");
215*1b8adde7SWilliam Kucharski
216*1b8adde7SWilliam Kucharski io_dcr9 = ioaddr + CSR9;
217*1b8adde7SWilliam Kucharski
218*1b8adde7SWilliam Kucharski /* Send 33 synchronization clock to Phy controller */
219*1b8adde7SWilliam Kucharski for (i=0; i<34; i++)
220*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_1);
221*1b8adde7SWilliam Kucharski
222*1b8adde7SWilliam Kucharski /* Send start command(01) to Phy */
223*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_0);
224*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_1);
225*1b8adde7SWilliam Kucharski
226*1b8adde7SWilliam Kucharski /* Send read command(10) to Phy */
227*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_1);
228*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_0);
229*1b8adde7SWilliam Kucharski
230*1b8adde7SWilliam Kucharski /* Send Phy addres */
231*1b8adde7SWilliam Kucharski for (i=0x10; i>0; i=i>>1)
232*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, phy_addr&i ? PHY_DATA_1: PHY_DATA_0);
233*1b8adde7SWilliam Kucharski
234*1b8adde7SWilliam Kucharski /* Send register addres */
235*1b8adde7SWilliam Kucharski for (i=0x10; i>0; i=i>>1)
236*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, location&i ? PHY_DATA_1: PHY_DATA_0);
237*1b8adde7SWilliam Kucharski
238*1b8adde7SWilliam Kucharski /* Skip transition state */
239*1b8adde7SWilliam Kucharski phy_read_1bit(io_dcr9);
240*1b8adde7SWilliam Kucharski
241*1b8adde7SWilliam Kucharski /* read 16bit data */
242*1b8adde7SWilliam Kucharski for (phy_data=0, i=0; i<16; i++) {
243*1b8adde7SWilliam Kucharski phy_data<<=1;
244*1b8adde7SWilliam Kucharski phy_data|=phy_read_1bit(io_dcr9);
245*1b8adde7SWilliam Kucharski }
246*1b8adde7SWilliam Kucharski
247*1b8adde7SWilliam Kucharski return phy_data;
248*1b8adde7SWilliam Kucharski }
249*1b8adde7SWilliam Kucharski
250*1b8adde7SWilliam Kucharski /*
251*1b8adde7SWilliam Kucharski Write a word to Phy register
252*1b8adde7SWilliam Kucharski */
phy_write(int location,u16 phy_data)253*1b8adde7SWilliam Kucharski static void phy_write(int location, u16 phy_data)
254*1b8adde7SWilliam Kucharski {
255*1b8adde7SWilliam Kucharski u16 i, phy_addr=1;
256*1b8adde7SWilliam Kucharski u32 io_dcr9;
257*1b8adde7SWilliam Kucharski
258*1b8adde7SWilliam Kucharski whereami("phy_write\n");
259*1b8adde7SWilliam Kucharski
260*1b8adde7SWilliam Kucharski io_dcr9 = ioaddr + CSR9;
261*1b8adde7SWilliam Kucharski
262*1b8adde7SWilliam Kucharski /* Send 33 synchronization clock to Phy controller */
263*1b8adde7SWilliam Kucharski for (i=0; i<34; i++)
264*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_1);
265*1b8adde7SWilliam Kucharski
266*1b8adde7SWilliam Kucharski /* Send start command(01) to Phy */
267*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_0);
268*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_1);
269*1b8adde7SWilliam Kucharski
270*1b8adde7SWilliam Kucharski /* Send write command(01) to Phy */
271*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_0);
272*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_1);
273*1b8adde7SWilliam Kucharski
274*1b8adde7SWilliam Kucharski /* Send Phy addres */
275*1b8adde7SWilliam Kucharski for (i=0x10; i>0; i=i>>1)
276*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, phy_addr&i ? PHY_DATA_1: PHY_DATA_0);
277*1b8adde7SWilliam Kucharski
278*1b8adde7SWilliam Kucharski /* Send register addres */
279*1b8adde7SWilliam Kucharski for (i=0x10; i>0; i=i>>1)
280*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, location&i ? PHY_DATA_1: PHY_DATA_0);
281*1b8adde7SWilliam Kucharski
282*1b8adde7SWilliam Kucharski /* written trasnition */
283*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_1);
284*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, PHY_DATA_0);
285*1b8adde7SWilliam Kucharski
286*1b8adde7SWilliam Kucharski /* Write a word data to PHY controller */
287*1b8adde7SWilliam Kucharski for (i=0x8000; i>0; i>>=1)
288*1b8adde7SWilliam Kucharski phy_write_1bit(io_dcr9, phy_data&i ? PHY_DATA_1: PHY_DATA_0);
289*1b8adde7SWilliam Kucharski }
290*1b8adde7SWilliam Kucharski
291*1b8adde7SWilliam Kucharski /*
292*1b8adde7SWilliam Kucharski Write one bit data to Phy Controller
293*1b8adde7SWilliam Kucharski */
phy_write_1bit(u32 ee_addr,u32 phy_data)294*1b8adde7SWilliam Kucharski static void phy_write_1bit(u32 ee_addr, u32 phy_data)
295*1b8adde7SWilliam Kucharski {
296*1b8adde7SWilliam Kucharski whereami("phy_write_1bit\n");
297*1b8adde7SWilliam Kucharski outl(phy_data, ee_addr); /* MII Clock Low */
298*1b8adde7SWilliam Kucharski eeprom_delay();
299*1b8adde7SWilliam Kucharski outl(phy_data|MDCLKH, ee_addr); /* MII Clock High */
300*1b8adde7SWilliam Kucharski eeprom_delay();
301*1b8adde7SWilliam Kucharski outl(phy_data, ee_addr); /* MII Clock Low */
302*1b8adde7SWilliam Kucharski eeprom_delay();
303*1b8adde7SWilliam Kucharski }
304*1b8adde7SWilliam Kucharski
305*1b8adde7SWilliam Kucharski /*
306*1b8adde7SWilliam Kucharski Read one bit phy data from PHY controller
307*1b8adde7SWilliam Kucharski */
phy_read_1bit(u32 ee_addr)308*1b8adde7SWilliam Kucharski static int phy_read_1bit(u32 ee_addr)
309*1b8adde7SWilliam Kucharski {
310*1b8adde7SWilliam Kucharski int phy_data;
311*1b8adde7SWilliam Kucharski
312*1b8adde7SWilliam Kucharski whereami("phy_read_1bit\n");
313*1b8adde7SWilliam Kucharski
314*1b8adde7SWilliam Kucharski outl(0x50000, ee_addr);
315*1b8adde7SWilliam Kucharski eeprom_delay();
316*1b8adde7SWilliam Kucharski
317*1b8adde7SWilliam Kucharski phy_data=(inl(ee_addr)>>19) & 0x1;
318*1b8adde7SWilliam Kucharski
319*1b8adde7SWilliam Kucharski outl(0x40000, ee_addr);
320*1b8adde7SWilliam Kucharski eeprom_delay();
321*1b8adde7SWilliam Kucharski
322*1b8adde7SWilliam Kucharski return phy_data;
323*1b8adde7SWilliam Kucharski }
324*1b8adde7SWilliam Kucharski
325*1b8adde7SWilliam Kucharski /*
326*1b8adde7SWilliam Kucharski DM9801/DM9802 present check and program
327*1b8adde7SWilliam Kucharski */
HPNA_process(void)328*1b8adde7SWilliam Kucharski static void HPNA_process(void)
329*1b8adde7SWilliam Kucharski {
330*1b8adde7SWilliam Kucharski
331*1b8adde7SWilliam Kucharski if ( (phy_read(3) & 0xfff0) == 0xb900 ) {
332*1b8adde7SWilliam Kucharski if ( phy_read(31) == 0x4404 ) {
333*1b8adde7SWilliam Kucharski /* DM9801 present */
334*1b8adde7SWilliam Kucharski if (phy_read(3) == 0xb901)
335*1b8adde7SWilliam Kucharski phy_write(16, 0x5); /* DM9801 E4 */
336*1b8adde7SWilliam Kucharski else
337*1b8adde7SWilliam Kucharski phy_write(16, 0x1005); /* DM9801 E3 and others */
338*1b8adde7SWilliam Kucharski phy_write(25, ((phy_read(24) + 3) & 0xff) | 0xf000);
339*1b8adde7SWilliam Kucharski } else {
340*1b8adde7SWilliam Kucharski /* DM9802 present */
341*1b8adde7SWilliam Kucharski phy_write(16, 0x5);
342*1b8adde7SWilliam Kucharski phy_write(25, (phy_read(25) & 0xff00) + 2);
343*1b8adde7SWilliam Kucharski }
344*1b8adde7SWilliam Kucharski }
345*1b8adde7SWilliam Kucharski }
346*1b8adde7SWilliam Kucharski
347*1b8adde7SWilliam Kucharski /*
348*1b8adde7SWilliam Kucharski Sense media mode and set CR6
349*1b8adde7SWilliam Kucharski */
davicom_media_chk(struct nic * nic __unused)350*1b8adde7SWilliam Kucharski static void davicom_media_chk(struct nic * nic __unused)
351*1b8adde7SWilliam Kucharski {
352*1b8adde7SWilliam Kucharski unsigned long to, csr6;
353*1b8adde7SWilliam Kucharski
354*1b8adde7SWilliam Kucharski csr6 = 0x00200000; /* SF */
355*1b8adde7SWilliam Kucharski outl(csr6, ioaddr + CSR6);
356*1b8adde7SWilliam Kucharski
357*1b8adde7SWilliam Kucharski if (vendor == PCI_VENDOR_ID_DAVICOM && dev_id == PCI_DEVICE_ID_DM9009) {
358*1b8adde7SWilliam Kucharski /* Set to 10BaseT mode for DM9009 */
359*1b8adde7SWilliam Kucharski phy_write(0, 0);
360*1b8adde7SWilliam Kucharski } else {
361*1b8adde7SWilliam Kucharski /* For DM9102/DM9102A */
362*1b8adde7SWilliam Kucharski to = currticks() + 2 * TICKS_PER_SEC;
363*1b8adde7SWilliam Kucharski while ( ((phy_read(1) & 0x24)!=0x24) && (currticks() < to))
364*1b8adde7SWilliam Kucharski /* wait */ ;
365*1b8adde7SWilliam Kucharski
366*1b8adde7SWilliam Kucharski if ( (phy_read(1) & 0x24) == 0x24 ) {
367*1b8adde7SWilliam Kucharski if (phy_read(17) & 0xa000)
368*1b8adde7SWilliam Kucharski csr6 |= 0x00000200; /* Full Duplex mode */
369*1b8adde7SWilliam Kucharski } else
370*1b8adde7SWilliam Kucharski csr6 |= 0x00040000; /* Select DM9801/DM9802 when Ethernet link failed */
371*1b8adde7SWilliam Kucharski }
372*1b8adde7SWilliam Kucharski
373*1b8adde7SWilliam Kucharski /* set the chip's operating mode */
374*1b8adde7SWilliam Kucharski outl(csr6, ioaddr + CSR6);
375*1b8adde7SWilliam Kucharski
376*1b8adde7SWilliam Kucharski /* DM9801/DM9802 present check & program */
377*1b8adde7SWilliam Kucharski if (csr6 & 0x40000)
378*1b8adde7SWilliam Kucharski HPNA_process();
379*1b8adde7SWilliam Kucharski }
380*1b8adde7SWilliam Kucharski
381*1b8adde7SWilliam Kucharski
382*1b8adde7SWilliam Kucharski /*********************************************************************/
383*1b8adde7SWilliam Kucharski /* EEPROM Reading Code */
384*1b8adde7SWilliam Kucharski /*********************************************************************/
385*1b8adde7SWilliam Kucharski /* EEPROM routines adapted from the Linux Tulip Code */
386*1b8adde7SWilliam Kucharski /* Reading a serial EEPROM is a "bit" grungy, but we work our way
387*1b8adde7SWilliam Kucharski through:->.
388*1b8adde7SWilliam Kucharski */
read_eeprom(unsigned long ioaddr,int location,int addr_len)389*1b8adde7SWilliam Kucharski static int read_eeprom(unsigned long ioaddr, int location, int addr_len)
390*1b8adde7SWilliam Kucharski {
391*1b8adde7SWilliam Kucharski int i;
392*1b8adde7SWilliam Kucharski unsigned short retval = 0;
393*1b8adde7SWilliam Kucharski long ee_addr = ioaddr + CSR9;
394*1b8adde7SWilliam Kucharski int read_cmd = location | EE_READ_CMD;
395*1b8adde7SWilliam Kucharski
396*1b8adde7SWilliam Kucharski whereami("read_eeprom\n");
397*1b8adde7SWilliam Kucharski
398*1b8adde7SWilliam Kucharski outl(EE_ENB & ~EE_CS, ee_addr);
399*1b8adde7SWilliam Kucharski outl(EE_ENB, ee_addr);
400*1b8adde7SWilliam Kucharski
401*1b8adde7SWilliam Kucharski /* Shift the read command bits out. */
402*1b8adde7SWilliam Kucharski for (i = 4 + addr_len; i >= 0; i--) {
403*1b8adde7SWilliam Kucharski short dataval = (read_cmd & (1 << i)) ? EE_DATA_WRITE : 0;
404*1b8adde7SWilliam Kucharski outl(EE_ENB | dataval, ee_addr);
405*1b8adde7SWilliam Kucharski eeprom_delay();
406*1b8adde7SWilliam Kucharski outl(EE_ENB | dataval | EE_SHIFT_CLK, ee_addr);
407*1b8adde7SWilliam Kucharski eeprom_delay();
408*1b8adde7SWilliam Kucharski }
409*1b8adde7SWilliam Kucharski outl(EE_ENB, ee_addr);
410*1b8adde7SWilliam Kucharski
411*1b8adde7SWilliam Kucharski for (i = 16; i > 0; i--) {
412*1b8adde7SWilliam Kucharski outl(EE_ENB | EE_SHIFT_CLK, ee_addr);
413*1b8adde7SWilliam Kucharski eeprom_delay();
414*1b8adde7SWilliam Kucharski retval = (retval << 1) | ((inl(ee_addr) & EE_DATA_READ) ? 1 : 0);
415*1b8adde7SWilliam Kucharski outl(EE_ENB, ee_addr);
416*1b8adde7SWilliam Kucharski eeprom_delay();
417*1b8adde7SWilliam Kucharski }
418*1b8adde7SWilliam Kucharski
419*1b8adde7SWilliam Kucharski /* Terminate the EEPROM access. */
420*1b8adde7SWilliam Kucharski outl(EE_ENB & ~EE_CS, ee_addr);
421*1b8adde7SWilliam Kucharski return retval;
422*1b8adde7SWilliam Kucharski }
423*1b8adde7SWilliam Kucharski
424*1b8adde7SWilliam Kucharski /*********************************************************************/
425*1b8adde7SWilliam Kucharski /* davicom_init_chain - setup the tx and rx descriptors */
426*1b8adde7SWilliam Kucharski /* Sten 10/9 */
427*1b8adde7SWilliam Kucharski /*********************************************************************/
davicom_init_chain(struct nic * nic)428*1b8adde7SWilliam Kucharski static void davicom_init_chain(struct nic *nic)
429*1b8adde7SWilliam Kucharski {
430*1b8adde7SWilliam Kucharski int i;
431*1b8adde7SWilliam Kucharski
432*1b8adde7SWilliam Kucharski /* setup the transmit descriptor */
433*1b8adde7SWilliam Kucharski /* Sten: Set 2 TX descriptor but use one TX buffer because
434*1b8adde7SWilliam Kucharski it transmit a packet and wait complete every time. */
435*1b8adde7SWilliam Kucharski for (i=0; i<NTXD; i++) {
436*1b8adde7SWilliam Kucharski txd[i].buf1addr = (void *)virt_to_bus(&txb[0]); /* Used same TX buffer */
437*1b8adde7SWilliam Kucharski txd[i].buf2addr = (void *)virt_to_bus(&txd[i+1]); /* Point to Next TX desc */
438*1b8adde7SWilliam Kucharski txd[i].buf1sz = 0;
439*1b8adde7SWilliam Kucharski txd[i].buf2sz = 0;
440*1b8adde7SWilliam Kucharski txd[i].control = 0x184; /* Begin/End/Chain */
441*1b8adde7SWilliam Kucharski txd[i].status = 0x00000000; /* give ownership to Host */
442*1b8adde7SWilliam Kucharski }
443*1b8adde7SWilliam Kucharski
444*1b8adde7SWilliam Kucharski /* construct perfect filter frame with mac address as first match
445*1b8adde7SWilliam Kucharski and broadcast address for all others */
446*1b8adde7SWilliam Kucharski for (i=0; i<192; i++) txb[i] = 0xFF;
447*1b8adde7SWilliam Kucharski txb[0] = nic->node_addr[0];
448*1b8adde7SWilliam Kucharski txb[1] = nic->node_addr[1];
449*1b8adde7SWilliam Kucharski txb[4] = nic->node_addr[2];
450*1b8adde7SWilliam Kucharski txb[5] = nic->node_addr[3];
451*1b8adde7SWilliam Kucharski txb[8] = nic->node_addr[4];
452*1b8adde7SWilliam Kucharski txb[9] = nic->node_addr[5];
453*1b8adde7SWilliam Kucharski
454*1b8adde7SWilliam Kucharski /* setup receive descriptor */
455*1b8adde7SWilliam Kucharski for (i=0; i<NRXD; i++) {
456*1b8adde7SWilliam Kucharski rxd[i].buf1addr = (void *)virt_to_bus(&rxb[i * BUFLEN]);
457*1b8adde7SWilliam Kucharski rxd[i].buf2addr = (void *)virt_to_bus(&rxd[i+1]); /* Point to Next RX desc */
458*1b8adde7SWilliam Kucharski rxd[i].buf1sz = BUFLEN;
459*1b8adde7SWilliam Kucharski rxd[i].buf2sz = 0; /* not used */
460*1b8adde7SWilliam Kucharski rxd[i].control = 0x4; /* Chain Structure */
461*1b8adde7SWilliam Kucharski rxd[i].status = 0x80000000; /* give ownership to device */
462*1b8adde7SWilliam Kucharski }
463*1b8adde7SWilliam Kucharski
464*1b8adde7SWilliam Kucharski /* Chain the last descriptor to first */
465*1b8adde7SWilliam Kucharski txd[NTXD - 1].buf2addr = (void *)virt_to_bus(&txd[0]);
466*1b8adde7SWilliam Kucharski rxd[NRXD - 1].buf2addr = (void *)virt_to_bus(&rxd[0]);
467*1b8adde7SWilliam Kucharski TxPtr = 0;
468*1b8adde7SWilliam Kucharski rxd_tail = 0;
469*1b8adde7SWilliam Kucharski }
470*1b8adde7SWilliam Kucharski
471*1b8adde7SWilliam Kucharski
472*1b8adde7SWilliam Kucharski /*********************************************************************/
473*1b8adde7SWilliam Kucharski /* davicom_reset - Reset adapter */
474*1b8adde7SWilliam Kucharski /*********************************************************************/
davicom_reset(struct nic * nic)475*1b8adde7SWilliam Kucharski static void davicom_reset(struct nic *nic)
476*1b8adde7SWilliam Kucharski {
477*1b8adde7SWilliam Kucharski unsigned long to;
478*1b8adde7SWilliam Kucharski
479*1b8adde7SWilliam Kucharski whereami("davicom_reset\n");
480*1b8adde7SWilliam Kucharski
481*1b8adde7SWilliam Kucharski /* Stop Tx and RX */
482*1b8adde7SWilliam Kucharski outl(inl(ioaddr + CSR6) & ~0x00002002, ioaddr + CSR6);
483*1b8adde7SWilliam Kucharski
484*1b8adde7SWilliam Kucharski /* Reset the chip, holding bit 0 set at least 50 PCI cycles. */
485*1b8adde7SWilliam Kucharski outl(0x00000001, ioaddr + CSR0);
486*1b8adde7SWilliam Kucharski
487*1b8adde7SWilliam Kucharski davicom_wait(TICKS_PER_SEC);
488*1b8adde7SWilliam Kucharski
489*1b8adde7SWilliam Kucharski /* TX/RX descriptor burst */
490*1b8adde7SWilliam Kucharski outl(0x0C00000, ioaddr + CSR0); /* Sten 10/9 */
491*1b8adde7SWilliam Kucharski
492*1b8adde7SWilliam Kucharski /* set up transmit and receive descriptors */
493*1b8adde7SWilliam Kucharski davicom_init_chain(nic); /* Sten 10/9 */
494*1b8adde7SWilliam Kucharski
495*1b8adde7SWilliam Kucharski /* Point to receive descriptor */
496*1b8adde7SWilliam Kucharski outl(virt_to_bus(&rxd[0]), ioaddr + CSR3);
497*1b8adde7SWilliam Kucharski outl(virt_to_bus(&txd[0]), ioaddr + CSR4); /* Sten 10/9 */
498*1b8adde7SWilliam Kucharski
499*1b8adde7SWilliam Kucharski /* According phyxcer media mode to set CR6,
500*1b8adde7SWilliam Kucharski DM9102/A phyxcer can auto-detect media mode */
501*1b8adde7SWilliam Kucharski davicom_media_chk(nic);
502*1b8adde7SWilliam Kucharski
503*1b8adde7SWilliam Kucharski /* Prepare Setup Frame Sten 10/9 */
504*1b8adde7SWilliam Kucharski txd[TxPtr].buf1sz = 192;
505*1b8adde7SWilliam Kucharski txd[TxPtr].control = 0x024; /* SF/CE */
506*1b8adde7SWilliam Kucharski txd[TxPtr].status = 0x80000000; /* Give ownership to device */
507*1b8adde7SWilliam Kucharski
508*1b8adde7SWilliam Kucharski /* Start Tx */
509*1b8adde7SWilliam Kucharski outl(inl(ioaddr + CSR6) | 0x00002000, ioaddr + CSR6);
510*1b8adde7SWilliam Kucharski /* immediate transmit demand */
511*1b8adde7SWilliam Kucharski outl(0, ioaddr + CSR1);
512*1b8adde7SWilliam Kucharski
513*1b8adde7SWilliam Kucharski to = currticks() + TX_TIME_OUT;
514*1b8adde7SWilliam Kucharski while ((txd[TxPtr].status & 0x80000000) && (currticks() < to)) /* Sten 10/9 */
515*1b8adde7SWilliam Kucharski /* wait */ ;
516*1b8adde7SWilliam Kucharski
517*1b8adde7SWilliam Kucharski if (currticks() >= to) {
518*1b8adde7SWilliam Kucharski printf ("TX Setup Timeout!\n");
519*1b8adde7SWilliam Kucharski }
520*1b8adde7SWilliam Kucharski /* Point to next TX descriptor */
521*1b8adde7SWilliam Kucharski TxPtr = (++TxPtr >= NTXD) ? 0:TxPtr; /* Sten 10/9 */
522*1b8adde7SWilliam Kucharski
523*1b8adde7SWilliam Kucharski #ifdef DAVICOM_DEBUG
524*1b8adde7SWilliam Kucharski printf("txd.status = %X\n", txd.status);
525*1b8adde7SWilliam Kucharski printf("ticks = %d\n", currticks() - (to - TX_TIME_OUT));
526*1b8adde7SWilliam Kucharski davicom_more();
527*1b8adde7SWilliam Kucharski #endif
528*1b8adde7SWilliam Kucharski
529*1b8adde7SWilliam Kucharski /* enable RX */
530*1b8adde7SWilliam Kucharski outl(inl(ioaddr + CSR6) | 0x00000002, ioaddr + CSR6);
531*1b8adde7SWilliam Kucharski /* immediate poll demand */
532*1b8adde7SWilliam Kucharski outl(0, ioaddr + CSR2);
533*1b8adde7SWilliam Kucharski }
534*1b8adde7SWilliam Kucharski
535*1b8adde7SWilliam Kucharski
536*1b8adde7SWilliam Kucharski /*********************************************************************/
537*1b8adde7SWilliam Kucharski /* eth_transmit - Transmit a frame */
538*1b8adde7SWilliam Kucharski /*********************************************************************/
davicom_transmit(struct nic * nic,const char * d,unsigned int t,unsigned int s,const char * p)539*1b8adde7SWilliam Kucharski static void davicom_transmit(struct nic *nic, const char *d, unsigned int t,
540*1b8adde7SWilliam Kucharski unsigned int s, const char *p)
541*1b8adde7SWilliam Kucharski {
542*1b8adde7SWilliam Kucharski unsigned long to;
543*1b8adde7SWilliam Kucharski
544*1b8adde7SWilliam Kucharski whereami("davicom_transmit\n");
545*1b8adde7SWilliam Kucharski
546*1b8adde7SWilliam Kucharski /* Stop Tx */
547*1b8adde7SWilliam Kucharski /* outl(inl(ioaddr + CSR6) & ~0x00002000, ioaddr + CSR6); */
548*1b8adde7SWilliam Kucharski
549*1b8adde7SWilliam Kucharski /* setup ethernet header */
550*1b8adde7SWilliam Kucharski memcpy(&txb[0], d, ETH_ALEN); /* DA 6byte */
551*1b8adde7SWilliam Kucharski memcpy(&txb[ETH_ALEN], nic->node_addr, ETH_ALEN); /* SA 6byte*/
552*1b8adde7SWilliam Kucharski txb[ETH_ALEN*2] = (t >> 8) & 0xFF; /* Frame type: 2byte */
553*1b8adde7SWilliam Kucharski txb[ETH_ALEN*2+1] = t & 0xFF;
554*1b8adde7SWilliam Kucharski memcpy(&txb[ETH_HLEN], p, s); /* Frame data */
555*1b8adde7SWilliam Kucharski
556*1b8adde7SWilliam Kucharski /* setup the transmit descriptor */
557*1b8adde7SWilliam Kucharski txd[TxPtr].buf1sz = ETH_HLEN+s;
558*1b8adde7SWilliam Kucharski txd[TxPtr].control = 0x00000184; /* LS+FS+CE */
559*1b8adde7SWilliam Kucharski txd[TxPtr].status = 0x80000000; /* give ownership to device */
560*1b8adde7SWilliam Kucharski
561*1b8adde7SWilliam Kucharski /* immediate transmit demand */
562*1b8adde7SWilliam Kucharski outl(0, ioaddr + CSR1);
563*1b8adde7SWilliam Kucharski
564*1b8adde7SWilliam Kucharski to = currticks() + TX_TIME_OUT;
565*1b8adde7SWilliam Kucharski while ((txd[TxPtr].status & 0x80000000) && (currticks() < to))
566*1b8adde7SWilliam Kucharski /* wait */ ;
567*1b8adde7SWilliam Kucharski
568*1b8adde7SWilliam Kucharski if (currticks() >= to) {
569*1b8adde7SWilliam Kucharski printf ("TX Timeout!\n");
570*1b8adde7SWilliam Kucharski }
571*1b8adde7SWilliam Kucharski
572*1b8adde7SWilliam Kucharski /* Point to next TX descriptor */
573*1b8adde7SWilliam Kucharski TxPtr = (++TxPtr >= NTXD) ? 0:TxPtr; /* Sten 10/9 */
574*1b8adde7SWilliam Kucharski
575*1b8adde7SWilliam Kucharski }
576*1b8adde7SWilliam Kucharski
577*1b8adde7SWilliam Kucharski /*********************************************************************/
578*1b8adde7SWilliam Kucharski /* eth_poll - Wait for a frame */
579*1b8adde7SWilliam Kucharski /*********************************************************************/
davicom_poll(struct nic * nic,int retrieve)580*1b8adde7SWilliam Kucharski static int davicom_poll(struct nic *nic, int retrieve)
581*1b8adde7SWilliam Kucharski {
582*1b8adde7SWilliam Kucharski whereami("davicom_poll\n");
583*1b8adde7SWilliam Kucharski
584*1b8adde7SWilliam Kucharski if (rxd[rxd_tail].status & 0x80000000)
585*1b8adde7SWilliam Kucharski return 0;
586*1b8adde7SWilliam Kucharski
587*1b8adde7SWilliam Kucharski if ( ! retrieve ) return 1;
588*1b8adde7SWilliam Kucharski
589*1b8adde7SWilliam Kucharski whereami("davicom_poll got one\n");
590*1b8adde7SWilliam Kucharski
591*1b8adde7SWilliam Kucharski nic->packetlen = (rxd[rxd_tail].status & 0x3FFF0000) >> 16;
592*1b8adde7SWilliam Kucharski
593*1b8adde7SWilliam Kucharski if( rxd[rxd_tail].status & 0x00008000){
594*1b8adde7SWilliam Kucharski rxd[rxd_tail].status = 0x80000000;
595*1b8adde7SWilliam Kucharski rxd_tail++;
596*1b8adde7SWilliam Kucharski if (rxd_tail == NRXD) rxd_tail = 0;
597*1b8adde7SWilliam Kucharski return 0;
598*1b8adde7SWilliam Kucharski }
599*1b8adde7SWilliam Kucharski
600*1b8adde7SWilliam Kucharski /* copy packet to working buffer */
601*1b8adde7SWilliam Kucharski /* XXX - this copy could be avoided with a little more work
602*1b8adde7SWilliam Kucharski but for now we are content with it because the optimised
603*1b8adde7SWilliam Kucharski memcpy is quite fast */
604*1b8adde7SWilliam Kucharski
605*1b8adde7SWilliam Kucharski memcpy(nic->packet, rxb + rxd_tail * BUFLEN, nic->packetlen);
606*1b8adde7SWilliam Kucharski
607*1b8adde7SWilliam Kucharski /* return the descriptor and buffer to receive ring */
608*1b8adde7SWilliam Kucharski rxd[rxd_tail].status = 0x80000000;
609*1b8adde7SWilliam Kucharski rxd_tail++;
610*1b8adde7SWilliam Kucharski if (rxd_tail == NRXD) rxd_tail = 0;
611*1b8adde7SWilliam Kucharski
612*1b8adde7SWilliam Kucharski return 1;
613*1b8adde7SWilliam Kucharski }
614*1b8adde7SWilliam Kucharski
615*1b8adde7SWilliam Kucharski /*********************************************************************/
616*1b8adde7SWilliam Kucharski /* eth_disable - Disable the interface */
617*1b8adde7SWilliam Kucharski /*********************************************************************/
davicom_disable(struct dev * dev)618*1b8adde7SWilliam Kucharski static void davicom_disable(struct dev *dev)
619*1b8adde7SWilliam Kucharski {
620*1b8adde7SWilliam Kucharski struct nic *nic = (struct nic *)dev;
621*1b8adde7SWilliam Kucharski whereami("davicom_disable\n");
622*1b8adde7SWilliam Kucharski
623*1b8adde7SWilliam Kucharski davicom_reset(nic);
624*1b8adde7SWilliam Kucharski
625*1b8adde7SWilliam Kucharski /* disable interrupts */
626*1b8adde7SWilliam Kucharski outl(0x00000000, ioaddr + CSR7);
627*1b8adde7SWilliam Kucharski
628*1b8adde7SWilliam Kucharski /* Stop the chip's Tx and Rx processes. */
629*1b8adde7SWilliam Kucharski outl(inl(ioaddr + CSR6) & ~0x00002002, ioaddr + CSR6);
630*1b8adde7SWilliam Kucharski
631*1b8adde7SWilliam Kucharski /* Clear the missed-packet counter. */
632*1b8adde7SWilliam Kucharski (volatile unsigned long)inl(ioaddr + CSR8);
633*1b8adde7SWilliam Kucharski }
634*1b8adde7SWilliam Kucharski
635*1b8adde7SWilliam Kucharski
636*1b8adde7SWilliam Kucharski /*********************************************************************/
637*1b8adde7SWilliam Kucharski /* eth_irq - enable, disable and force interrupts */
638*1b8adde7SWilliam Kucharski /*********************************************************************/
davicom_irq(struct nic * nic __unused,irq_action_t action __unused)639*1b8adde7SWilliam Kucharski static void davicom_irq(struct nic *nic __unused, irq_action_t action __unused)
640*1b8adde7SWilliam Kucharski {
641*1b8adde7SWilliam Kucharski switch ( action ) {
642*1b8adde7SWilliam Kucharski case DISABLE :
643*1b8adde7SWilliam Kucharski break;
644*1b8adde7SWilliam Kucharski case ENABLE :
645*1b8adde7SWilliam Kucharski break;
646*1b8adde7SWilliam Kucharski case FORCE :
647*1b8adde7SWilliam Kucharski break;
648*1b8adde7SWilliam Kucharski }
649*1b8adde7SWilliam Kucharski }
650*1b8adde7SWilliam Kucharski
651*1b8adde7SWilliam Kucharski
652*1b8adde7SWilliam Kucharski /*********************************************************************/
653*1b8adde7SWilliam Kucharski /* eth_probe - Look for an adapter */
654*1b8adde7SWilliam Kucharski /*********************************************************************/
davicom_probe(struct dev * dev,struct pci_device * pci)655*1b8adde7SWilliam Kucharski static int davicom_probe(struct dev *dev, struct pci_device *pci)
656*1b8adde7SWilliam Kucharski {
657*1b8adde7SWilliam Kucharski struct nic *nic = (struct nic *)dev;
658*1b8adde7SWilliam Kucharski unsigned int i;
659*1b8adde7SWilliam Kucharski
660*1b8adde7SWilliam Kucharski whereami("davicom_probe\n");
661*1b8adde7SWilliam Kucharski
662*1b8adde7SWilliam Kucharski if (pci->ioaddr == 0)
663*1b8adde7SWilliam Kucharski return 0;
664*1b8adde7SWilliam Kucharski
665*1b8adde7SWilliam Kucharski vendor = pci->vendor;
666*1b8adde7SWilliam Kucharski dev_id = pci->dev_id;
667*1b8adde7SWilliam Kucharski ioaddr = pci->ioaddr & ~3;
668*1b8adde7SWilliam Kucharski
669*1b8adde7SWilliam Kucharski nic->irqno = 0;
670*1b8adde7SWilliam Kucharski nic->ioaddr = pci->ioaddr & ~3;
671*1b8adde7SWilliam Kucharski
672*1b8adde7SWilliam Kucharski /* wakeup chip */
673*1b8adde7SWilliam Kucharski pcibios_write_config_dword(pci->bus, pci->devfn, 0x40, 0x00000000);
674*1b8adde7SWilliam Kucharski
675*1b8adde7SWilliam Kucharski /* Stop the chip's Tx and Rx processes. */
676*1b8adde7SWilliam Kucharski outl(inl(ioaddr + CSR6) & ~0x00002002, ioaddr + CSR6);
677*1b8adde7SWilliam Kucharski
678*1b8adde7SWilliam Kucharski /* Clear the missed-packet counter. */
679*1b8adde7SWilliam Kucharski (volatile unsigned long)inl(ioaddr + CSR8);
680*1b8adde7SWilliam Kucharski
681*1b8adde7SWilliam Kucharski /* Get MAC Address */
682*1b8adde7SWilliam Kucharski /* read EEPROM data */
683*1b8adde7SWilliam Kucharski for (i = 0; i < sizeof(ee_data)/2; i++)
684*1b8adde7SWilliam Kucharski ((unsigned short *)ee_data)[i] =
685*1b8adde7SWilliam Kucharski le16_to_cpu(read_eeprom(ioaddr, i, EEPROM_ADDRLEN));
686*1b8adde7SWilliam Kucharski
687*1b8adde7SWilliam Kucharski /* extract MAC address from EEPROM buffer */
688*1b8adde7SWilliam Kucharski for (i=0; i<ETH_ALEN; i++)
689*1b8adde7SWilliam Kucharski nic->node_addr[i] = ee_data[20+i];
690*1b8adde7SWilliam Kucharski
691*1b8adde7SWilliam Kucharski printf("Davicom %! at ioaddr %#hX\n", nic->node_addr, ioaddr);
692*1b8adde7SWilliam Kucharski
693*1b8adde7SWilliam Kucharski /* initialize device */
694*1b8adde7SWilliam Kucharski davicom_reset(nic);
695*1b8adde7SWilliam Kucharski
696*1b8adde7SWilliam Kucharski dev->disable = davicom_disable;
697*1b8adde7SWilliam Kucharski nic->poll = davicom_poll;
698*1b8adde7SWilliam Kucharski nic->transmit = davicom_transmit;
699*1b8adde7SWilliam Kucharski nic->irq = davicom_irq;
700*1b8adde7SWilliam Kucharski
701*1b8adde7SWilliam Kucharski return 1;
702*1b8adde7SWilliam Kucharski }
703*1b8adde7SWilliam Kucharski
704*1b8adde7SWilliam Kucharski static struct pci_id davicom_nics[] = {
705*1b8adde7SWilliam Kucharski PCI_ROM(0x1282, 0x9100, "davicom9100", "Davicom 9100"),
706*1b8adde7SWilliam Kucharski PCI_ROM(0x1282, 0x9102, "davicom9102", "Davicom 9102"),
707*1b8adde7SWilliam Kucharski PCI_ROM(0x1282, 0x9009, "davicom9009", "Davicom 9009"),
708*1b8adde7SWilliam Kucharski PCI_ROM(0x1282, 0x9132, "davicom9132", "Davicom 9132"), /* Needs probably some fixing */
709*1b8adde7SWilliam Kucharski };
710*1b8adde7SWilliam Kucharski
711*1b8adde7SWilliam Kucharski struct pci_driver davicom_driver = {
712*1b8adde7SWilliam Kucharski .type = NIC_DRIVER,
713*1b8adde7SWilliam Kucharski .name = "DAVICOM",
714*1b8adde7SWilliam Kucharski .probe = davicom_probe,
715*1b8adde7SWilliam Kucharski .ids = davicom_nics,
716*1b8adde7SWilliam Kucharski .id_count = sizeof(davicom_nics)/sizeof(davicom_nics[0]),
717*1b8adde7SWilliam Kucharski .class = 0,
718*1b8adde7SWilliam Kucharski };
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