[ARM] Support register switch in nommu mode
[linux-2.6/verdex.git] / drivers / fc4 / soc.h
blobd38cf5b28eede3ec2d602b00ff3824b960637955
1 /* soc.h: Definitions for Sparc SUNW,soc Fibre Channel Sbus driver.
3 * Copyright (C) 1996,1997 Jakub Jelinek (jj@sunsite.mff.cuni.cz)
4 */
6 #ifndef __SOC_H
7 #define __SOC_H
9 #include "fc.h"
10 #include "fcp.h"
11 #include "fcp_impl.h"
13 /* Hardware register offsets and constants first {{{ */
14 #define CFG 0x00UL /* Config Register */
15 #define SAE 0x04UL /* Slave Access Error Register */
16 #define CMD 0x08UL /* Command and Status Register */
17 #define IMASK 0x0cUL /* Interrupt Mask Register */
19 /* Config Register */
20 #define SOC_CFG_EXT_RAM_BANK_MASK 0x07000000
21 #define SOC_CFG_EEPROM_BANK_MASK 0x00030000
22 #define SOC_CFG_BURST64_MASK 0x00000700
23 #define SOC_CFG_SBUS_PARITY_TEST 0x00000020
24 #define SOC_CFG_SBUS_PARITY_CHECK 0x00000010
25 #define SOC_CFG_SBUS_ENHANCED 0x00000008
26 #define SOC_CFG_BURST_MASK 0x00000007
27 /* Bursts */
28 #define SOC_CFG_BURST_4 0x00000000
29 #define SOC_CFG_BURST_16 0x00000004
30 #define SOC_CFG_BURST_32 0x00000005
31 #define SOC_CFG_BURST_64 0x00000006
33 /* Slave Access Error Register */
34 #define SOC_SAE_ALIGNMENT 0x00000004
35 #define SOC_SAE_UNSUPPORTED 0x00000002
36 #define SOC_SAE_PARITY 0x00000001
38 /* Command & Status Register */
39 #define SOC_CMD_RSP_QALL 0x000f0000
40 #define SOC_CMD_RSP_Q0 0x00010000
41 #define SOC_CMD_RSP_Q1 0x00020000
42 #define SOC_CMD_RSP_Q2 0x00040000
43 #define SOC_CMD_RSP_Q3 0x00080000
44 #define SOC_CMD_REQ_QALL 0x00000f00
45 #define SOC_CMD_REQ_Q0 0x00000100
46 #define SOC_CMD_REQ_Q1 0x00000200
47 #define SOC_CMD_REQ_Q2 0x00000400
48 #define SOC_CMD_REQ_Q3 0x00000800
49 #define SOC_CMD_SAE 0x00000080
50 #define SOC_CMD_INTR_PENDING 0x00000008
51 #define SOC_CMD_NON_QUEUED 0x00000004
52 #define SOC_CMD_IDLE 0x00000002
53 #define SOC_CMD_SOFT_RESET 0x00000001
55 /* Interrupt Mask Register */
56 #define SOC_IMASK_RSP_QALL 0x000f0000
57 #define SOC_IMASK_RSP_Q0 0x00010000
58 #define SOC_IMASK_RSP_Q1 0x00020000
59 #define SOC_IMASK_RSP_Q2 0x00040000
60 #define SOC_IMASK_RSP_Q3 0x00080000
61 #define SOC_IMASK_REQ_QALL 0x00000f00
62 #define SOC_IMASK_REQ_Q0 0x00000100
63 #define SOC_IMASK_REQ_Q1 0x00000200
64 #define SOC_IMASK_REQ_Q2 0x00000400
65 #define SOC_IMASK_REQ_Q3 0x00000800
66 #define SOC_IMASK_SAE 0x00000080
67 #define SOC_IMASK_NON_QUEUED 0x00000004
69 #define SOC_INTR(s, cmd) \
70 (((cmd & SOC_CMD_RSP_QALL) | ((~cmd) & SOC_CMD_REQ_QALL)) \
71 & s->imask)
73 #define SOC_SETIMASK(s, i) \
74 do { (s)->imask = (i); \
75 sbus_writel((i), (s)->regs + IMASK); \
76 } while(0)
78 /* XRAM
80 * This is a 64KB register area. It accepts only halfword access.
81 * That's why here are the following inline functions...
84 typedef void __iomem *xram_p;
86 /* Get 32bit number from XRAM */
87 static inline u32 xram_get_32(xram_p x)
89 return ((sbus_readw(x + 0x00UL) << 16) |
90 (sbus_readw(x + 0x02UL)));
93 /* Like the above, but when we don't care about the high 16 bits */
94 static inline u32 xram_get_32low(xram_p x)
96 return (u32) sbus_readw(x + 0x02UL);
99 static inline u16 xram_get_16(xram_p x)
101 return sbus_readw(x);
104 static inline u8 xram_get_8(xram_p x)
106 if ((unsigned long)x & 0x1UL) {
107 x = x - 1;
108 return (u8) sbus_readw(x);
109 } else {
110 return (u8) (sbus_readw(x) >> 8);
114 static inline void xram_copy_from(void *p, xram_p x, int len)
116 for (len >>= 2; len > 0; len--, x += sizeof(u32)) {
117 u32 val, *p32 = p;
119 val = ((sbus_readw(x + 0x00UL) << 16) |
120 (sbus_readw(x + 0x02UL)));
121 *p32++ = val;
122 p = p32;
126 static inline void xram_copy_to(xram_p x, void *p, int len)
128 for (len >>= 2; len > 0; len--, x += sizeof(u32)) {
129 u32 tmp, *p32 = p;
131 tmp = *p32++;
132 p = p32;
133 sbus_writew(tmp >> 16, x + 0x00UL);
134 sbus_writew(tmp, x + 0x02UL);
138 static inline void xram_bzero(xram_p x, int len)
140 for (len >>= 1; len > 0; len--, x += sizeof(u16))
141 sbus_writew(0, x);
144 /* Circular Queue */
146 #define SOC_CQ_REQ_OFFSET (0x100 * sizeof(u16))
147 #define SOC_CQ_RSP_OFFSET (0x110 * sizeof(u16))
149 typedef struct {
150 u32 address;
151 u8 in;
152 u8 out;
153 u8 last;
154 u8 seqno;
155 } soc_hw_cq;
157 #define SOC_PORT_A 0x0000 /* From/To Port A */
158 #define SOC_PORT_B 0x0001 /* From/To Port A */
159 #define SOC_FC_HDR 0x0002 /* Contains FC Header */
160 #define SOC_NORSP 0x0004 /* Don't generate response nor interrupt */
161 #define SOC_NOINT 0x0008 /* Generate response but not interrupt */
162 #define SOC_XFERRDY 0x0010 /* Generate XFERRDY */
163 #define SOC_IGNOREPARAM 0x0020 /* Ignore PARAM field in the FC header */
164 #define SOC_COMPLETE 0x0040 /* Command completed */
165 #define SOC_UNSOLICITED 0x0080 /* For request this is the packet to establish unsolicited pools, */
166 /* for rsp this is unsolicited packet */
167 #define SOC_STATUS 0x0100 /* State change (on/off line) */
169 typedef struct {
170 u32 token;
171 u16 flags;
172 u8 class;
173 u8 segcnt;
174 u32 bytecnt;
175 } soc_hdr;
177 typedef struct {
178 u32 base;
179 u32 count;
180 } soc_data;
182 #define SOC_CQTYPE_OUTBOUND 0x01
183 #define SOC_CQTYPE_INBOUND 0x02
184 #define SOC_CQTYPE_SIMPLE 0x03
185 #define SOC_CQTYPE_IO_WRITE 0x04
186 #define SOC_CQTYPE_IO_READ 0x05
187 #define SOC_CQTYPE_UNSOLICITED 0x06
188 #define SOC_CQTYPE_DIAG 0x07
189 #define SOC_CQTYPE_OFFLINE 0x08
190 #define SOC_CQTYPE_RESPONSE 0x10
191 #define SOC_CQTYPE_INLINE 0x20
193 #define SOC_CQFLAGS_CONT 0x01
194 #define SOC_CQFLAGS_FULL 0x02
195 #define SOC_CQFLAGS_BADHDR 0x04
196 #define SOC_CQFLAGS_BADPKT 0x08
198 typedef struct {
199 soc_hdr shdr;
200 soc_data data[3];
201 fc_hdr fchdr;
202 u8 count;
203 u8 type;
204 u8 flags;
205 u8 seqno;
206 } soc_req;
208 #define SOC_OK 0
209 #define SOC_P_RJT 2
210 #define SOC_F_RJT 3
211 #define SOC_P_BSY 4
212 #define SOC_F_BSY 5
213 #define SOC_ONLINE 0x10
214 #define SOC_OFFLINE 0x11
215 #define SOC_TIMEOUT 0x12
216 #define SOC_OVERRUN 0x13
217 #define SOC_UNKOWN_CQ_TYPE 0x20
218 #define SOC_BAD_SEG_CNT 0x21
219 #define SOC_MAX_XCHG_EXCEEDED 0x22
220 #define SOC_BAD_XID 0x23
221 #define SOC_XCHG_BUSY 0x24
222 #define SOC_BAD_POOL_ID 0x25
223 #define SOC_INSUFFICIENT_CQES 0x26
224 #define SOC_ALLOC_FAIL 0x27
225 #define SOC_BAD_SID 0x28
226 #define SOC_NO_SEG_INIT 0x29
228 typedef struct {
229 soc_hdr shdr;
230 u32 status;
231 soc_data data;
232 u8 xxx1[12];
233 fc_hdr fchdr;
234 u8 count;
235 u8 type;
236 u8 flags;
237 u8 seqno;
238 } soc_rsp;
240 /* }}} */
242 /* Now our software structures and constants we use to drive the beast {{{ */
244 #define SOC_CQ_REQ0_SIZE 4
245 #define SOC_CQ_REQ1_SIZE 64
246 #define SOC_CQ_RSP0_SIZE 8
247 #define SOC_CQ_RSP1_SIZE 4
249 #define SOC_SOLICITED_RSP_Q 0
250 #define SOC_UNSOLICITED_RSP_Q 1
252 struct soc;
254 typedef struct {
255 /* This must come first */
256 fc_channel fc;
257 struct soc *s;
258 u16 flags;
259 u16 mask;
260 } soc_port;
262 typedef struct {
263 soc_hw_cq __iomem *hw_cq; /* Related XRAM cq */
264 soc_req __iomem *pool;
265 u8 in;
266 u8 out;
267 u8 last;
268 u8 seqno;
269 } soc_cq_rsp;
271 typedef struct {
272 soc_hw_cq __iomem *hw_cq; /* Related XRAM cq */
273 soc_req *pool;
274 u8 in;
275 u8 out;
276 u8 last;
277 u8 seqno;
278 } soc_cq_req;
280 struct soc {
281 spinlock_t lock;
282 soc_port port[2]; /* Every SOC has one or two FC ports */
283 soc_cq_req req[2]; /* Request CQs */
284 soc_cq_rsp rsp[2]; /* Response CQs */
285 int soc_no;
286 void __iomem *regs;
287 xram_p xram;
288 fc_wwn wwn;
289 u32 imask; /* Our copy of regs->imask */
290 u32 cfg; /* Our copy of regs->cfg */
291 char serv_params[80];
292 struct soc *next;
293 int curr_port; /* Which port will have priority to fcp_queue_empty */
295 soc_req *req_cpu;
296 u32 req_dvma;
299 /* }}} */
301 #endif /* !(__SOC_H) */