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MOXA linux-2.6.x / linux-2.6.9-uc0 from sdlinux-moxaart.tgz
[linux-2.6.9-moxart.git] / drivers / net / atp.h
blob0edc642c2c2f4c1d9a90d94d1db07c1a63c0a1bd
1 /* Linux header file for the ATP pocket ethernet adapter. */
2 /* v1.09 8/9/2000 becker@scyld.com. */
3
4 #include <linux/if_ether.h>
5 #include <linux/types.h>
6
7 /* The header prepended to received packets. */
8 struct rx_header {
9 ushort pad; /* Pad. */
10 ushort rx_count;
11 ushort rx_status; /* Unknown bit assignments :-<. */
12 ushort cur_addr; /* Apparently the current buffer address(?) */
13 };
14
15 #define PAR_DATA 0
16 #define PAR_STATUS 1
17 #define PAR_CONTROL 2
18
19 enum chip_type { RTL8002, RTL8012 };
20
21 #define Ctrl_LNibRead 0x08 /* LP_PSELECP */
22 #define Ctrl_HNibRead 0
23 #define Ctrl_LNibWrite 0x08 /* LP_PSELECP */
24 #define Ctrl_HNibWrite 0
25 #define Ctrl_SelData 0x04 /* LP_PINITP */
26 #define Ctrl_IRQEN 0x10 /* LP_PINTEN */
27
28 #define EOW 0xE0
29 #define EOC 0xE0
30 #define WrAddr 0x40 /* Set address of EPLC read, write register. */
31 #define RdAddr 0xC0
32 #define HNib 0x10
33
34 enum page0_regs
35 {
36 /* The first six registers hold the ethernet physical station address. */
37 PAR0 = 0, PAR1 = 1, PAR2 = 2, PAR3 = 3, PAR4 = 4, PAR5 = 5,
38 TxCNT0 = 6, TxCNT1 = 7, /* The transmit byte count. */
39 TxSTAT = 8, RxSTAT = 9, /* Tx and Rx status. */
40 ISR = 10, IMR = 11, /* Interrupt status and mask. */
41 CMR1 = 12, /* Command register 1. */
42 CMR2 = 13, /* Command register 2. */
43 MODSEL = 14, /* Mode select register. */
44 MAR = 14, /* Memory address register (?). */
45 CMR2_h = 0x1d, };
46
47 enum eepage_regs
48 { PROM_CMD = 6, PROM_DATA = 7 }; /* Note that PROM_CMD is in the "high" bits. */
49
50
51 #define ISR_TxOK 0x01
52 #define ISR_RxOK 0x04
53 #define ISR_TxErr 0x02
54 #define ISRh_RxErr 0x11 /* ISR, high nibble */
55
56 #define CMR1h_MUX 0x08 /* Select printer multiplexor on 8012. */
57 #define CMR1h_RESET 0x04 /* Reset. */
58 #define CMR1h_RxENABLE 0x02 /* Rx unit enable. */
59 #define CMR1h_TxENABLE 0x01 /* Tx unit enable. */
60 #define CMR1h_TxRxOFF 0x00
61 #define CMR1_ReXmit 0x08 /* Trigger a retransmit. */
62 #define CMR1_Xmit 0x04 /* Trigger a transmit. */
63 #define CMR1_IRQ 0x02 /* Interrupt active. */
64 #define CMR1_BufEnb 0x01 /* Enable the buffer(?). */
65 #define CMR1_NextPkt 0x01 /* Enable the buffer(?). */
66
67 #define CMR2_NULL 8
68 #define CMR2_IRQOUT 9
69 #define CMR2_RAMTEST 10
70 #define CMR2_EEPROM 12 /* Set to page 1, for reading the EEPROM. */
71
72 #define CMR2h_OFF 0 /* No accept mode. */
73 #define CMR2h_Physical 1 /* Accept a physical address match only. */
74 #define CMR2h_Normal 2 /* Accept physical and broadcast address. */
75 #define CMR2h_PROMISC 3 /* Promiscuous mode. */
76
77 /* An inline function used below: it differs from inb() by explicitly return an unsigned
78 char, saving a truncation. */
79 static inline unsigned char inbyte(unsigned short port)
80 {
81 unsigned char _v;
82 __asm__ __volatile__ ("inb %w1,%b0" :"=a" (_v):"d" (port));
83 return _v;
84 }
85
86 /* Read register OFFSET.
87 This command should always be terminated with read_end(). */
88 static inline unsigned char read_nibble(short port, unsigned char offset)
89 {
90 unsigned char retval;
91 outb(EOC+offset, port + PAR_DATA);
92 outb(RdAddr+offset, port + PAR_DATA);
93 inbyte(port + PAR_STATUS); /* Settling time delay */
94 retval = inbyte(port + PAR_STATUS);
95 outb(EOC+offset, port + PAR_DATA);
96
97 return retval;
98 }
99
100 /* Functions for bulk data read. The interrupt line is always disabled. */
101 /* Get a byte using read mode 0, reading data from the control lines. */
102 static inline unsigned char read_byte_mode0(short ioaddr)
103 {
104 unsigned char low_nib;
105
106 outb(Ctrl_LNibRead, ioaddr + PAR_CONTROL);
107 inbyte(ioaddr + PAR_STATUS);
108 low_nib = (inbyte(ioaddr + PAR_STATUS) >> 3) & 0x0f;
109 outb(Ctrl_HNibRead, ioaddr + PAR_CONTROL);
110 inbyte(ioaddr + PAR_STATUS); /* Settling time delay -- needed! */
111 inbyte(ioaddr + PAR_STATUS); /* Settling time delay -- needed! */
112 return low_nib | ((inbyte(ioaddr + PAR_STATUS) << 1) & 0xf0);
113 }
114
115 /* The same as read_byte_mode0(), but does multiple inb()s for stability. */
116 static inline unsigned char read_byte_mode2(short ioaddr)
117 {
118 unsigned char low_nib;
119
120 outb(Ctrl_LNibRead, ioaddr + PAR_CONTROL);
121 inbyte(ioaddr + PAR_STATUS);
122 low_nib = (inbyte(ioaddr + PAR_STATUS) >> 3) & 0x0f;
123 outb(Ctrl_HNibRead, ioaddr + PAR_CONTROL);
124 inbyte(ioaddr + PAR_STATUS); /* Settling time delay -- needed! */
125 return low_nib | ((inbyte(ioaddr + PAR_STATUS) << 1) & 0xf0);
126 }
127
128 /* Read a byte through the data register. */
129 static inline unsigned char read_byte_mode4(short ioaddr)
130 {
131 unsigned char low_nib;
132
133 outb(RdAddr | MAR, ioaddr + PAR_DATA);
134 low_nib = (inbyte(ioaddr + PAR_STATUS) >> 3) & 0x0f;
135 outb(RdAddr | HNib | MAR, ioaddr + PAR_DATA);
136 return low_nib | ((inbyte(ioaddr + PAR_STATUS) << 1) & 0xf0);
137 }
138
139 /* Read a byte through the data register, double reading to allow settling. */
140 static inline unsigned char read_byte_mode6(short ioaddr)
141 {
142 unsigned char low_nib;
143
144 outb(RdAddr | MAR, ioaddr + PAR_DATA);
145 inbyte(ioaddr + PAR_STATUS);
146 low_nib = (inbyte(ioaddr + PAR_STATUS) >> 3) & 0x0f;
147 outb(RdAddr | HNib | MAR, ioaddr + PAR_DATA);
148 inbyte(ioaddr + PAR_STATUS);
149 return low_nib | ((inbyte(ioaddr + PAR_STATUS) << 1) & 0xf0);
150 }
151
152 static inline void
153 write_reg(short port, unsigned char reg, unsigned char value)
154 {
155 unsigned char outval;
156 outb(EOC | reg, port + PAR_DATA);
157 outval = WrAddr | reg;
158 outb(outval, port + PAR_DATA);
159 outb(outval, port + PAR_DATA); /* Double write for PS/2. */
160
161 outval &= 0xf0;
162 outval |= value;
163 outb(outval, port + PAR_DATA);
164 outval &= 0x1f;
165 outb(outval, port + PAR_DATA);
166 outb(outval, port + PAR_DATA);
167
168 outb(EOC | outval, port + PAR_DATA);
169 }
170
171 static inline void
172 write_reg_high(short port, unsigned char reg, unsigned char value)
173 {
174 unsigned char outval = EOC | HNib | reg;
175
176 outb(outval, port + PAR_DATA);
177 outval &= WrAddr | HNib | 0x0f;
178 outb(outval, port + PAR_DATA);
179 outb(outval, port + PAR_DATA); /* Double write for PS/2. */
180
181 outval = WrAddr | HNib | value;
182 outb(outval, port + PAR_DATA);
183 outval &= HNib | 0x0f; /* HNib | value */
184 outb(outval, port + PAR_DATA);
185 outb(outval, port + PAR_DATA);
186
187 outb(EOC | HNib | outval, port + PAR_DATA);
188 }
189
190 /* Write a byte out using nibble mode. The low nibble is written first. */
191 static inline void
192 write_reg_byte(short port, unsigned char reg, unsigned char value)
193 {
194 unsigned char outval;
195 outb(EOC | reg, port + PAR_DATA); /* Reset the address register. */
196 outval = WrAddr | reg;
197 outb(outval, port + PAR_DATA);
198 outb(outval, port + PAR_DATA); /* Double write for PS/2. */
199
200 outb((outval & 0xf0) | (value & 0x0f), port + PAR_DATA);
201 outb(value & 0x0f, port + PAR_DATA);
202 value >>= 4;
203 outb(value, port + PAR_DATA);
204 outb(0x10 | value, port + PAR_DATA);
205 outb(0x10 | value, port + PAR_DATA);
206
207 outb(EOC | value, port + PAR_DATA); /* Reset the address register. */
208 }
209
210 /*
211 * Bulk data writes to the packet buffer. The interrupt line remains enabled.
212 * The first, faster method uses only the dataport (data modes 0, 2 & 4).
213 * The second (backup) method uses data and control regs (modes 1, 3 & 5).
214 * It should only be needed when there is skew between the individual data
215 * lines.
216 */
217 static inline void write_byte_mode0(short ioaddr, unsigned char value)
218 {
219 outb(value & 0x0f, ioaddr + PAR_DATA);
220 outb((value>>4) | 0x10, ioaddr + PAR_DATA);
221 }
222
223 static inline void write_byte_mode1(short ioaddr, unsigned char value)
224 {
225 outb(value & 0x0f, ioaddr + PAR_DATA);
226 outb(Ctrl_IRQEN | Ctrl_LNibWrite, ioaddr + PAR_CONTROL);
227 outb((value>>4) | 0x10, ioaddr + PAR_DATA);
228 outb(Ctrl_IRQEN | Ctrl_HNibWrite, ioaddr + PAR_CONTROL);
229 }
230
231 /* Write 16bit VALUE to the packet buffer: the same as above just doubled. */
232 static inline void write_word_mode0(short ioaddr, unsigned short value)
233 {
234 outb(value & 0x0f, ioaddr + PAR_DATA);
235 value >>= 4;
236 outb((value & 0x0f) | 0x10, ioaddr + PAR_DATA);
237 value >>= 4;
238 outb(value & 0x0f, ioaddr + PAR_DATA);
239 value >>= 4;
240 outb((value & 0x0f) | 0x10, ioaddr + PAR_DATA);
241 }
242
243 /* EEPROM_Ctrl bits. */
244 #define EE_SHIFT_CLK 0x04 /* EEPROM shift clock. */
245 #define EE_CS 0x02 /* EEPROM chip select. */
246 #define EE_CLK_HIGH 0x12
247 #define EE_CLK_LOW 0x16
248 #define EE_DATA_WRITE 0x01 /* EEPROM chip data in. */
249 #define EE_DATA_READ 0x08 /* EEPROM chip data out. */
250
251 /* Delay between EEPROM clock transitions. */
252 #define eeprom_delay(ticks) \
253 do { int _i = 40; while (--_i > 0) { __SLOW_DOWN_IO; }} while (0)
254
255 /* The EEPROM commands include the alway-set leading bit. */
256 #define EE_WRITE_CMD(offset) (((5 << 6) + (offset)) << 17)
257 #define EE_READ(offset) (((6 << 6) + (offset)) << 17)
258 #define EE_ERASE(offset) (((7 << 6) + (offset)) << 17)
259 #define EE_CMD_SIZE 27 /* The command+address+data size. */
MOXA 2.6.9 from sdlinux-moxaart.tgz