memcg: don't need to free memcg via RCU or workqueue
[linux-2.6.git] / drivers / scsi / nsp32_io.h
blobe3f3c27b01efb1e67ebf93faab1658b61aea821b
1 /*
2 * Workbit NinjaSCSI-32Bi/UDE PCI/CardBus SCSI Host Bus Adapter driver
3 * I/O routine
5 * This software may be used and distributed according to the terms of
6 * the GNU General Public License.
7 */
9 #ifndef _NSP32_IO_H
10 #define _NSP32_IO_H
12 static inline void nsp32_write1(unsigned int base,
13 unsigned int index,
14 unsigned char val)
16 outb(val, (base + index));
19 static inline unsigned char nsp32_read1(unsigned int base,
20 unsigned int index)
22 return inb(base + index);
25 static inline void nsp32_write2(unsigned int base,
26 unsigned int index,
27 unsigned short val)
29 outw(val, (base + index));
32 static inline unsigned short nsp32_read2(unsigned int base,
33 unsigned int index)
35 return inw(base + index);
38 static inline void nsp32_write4(unsigned int base,
39 unsigned int index,
40 unsigned long val)
42 outl(val, (base + index));
45 static inline unsigned long nsp32_read4(unsigned int base,
46 unsigned int index)
48 return inl(base + index);
51 /*==============================================*/
53 static inline void nsp32_mmio_write1(unsigned long base,
54 unsigned int index,
55 unsigned char val)
57 volatile unsigned char *ptr;
59 ptr = (unsigned char *)(base + NSP32_MMIO_OFFSET + index);
61 writeb(val, ptr);
64 static inline unsigned char nsp32_mmio_read1(unsigned long base,
65 unsigned int index)
67 volatile unsigned char *ptr;
69 ptr = (unsigned char *)(base + NSP32_MMIO_OFFSET + index);
71 return readb(ptr);
74 static inline void nsp32_mmio_write2(unsigned long base,
75 unsigned int index,
76 unsigned short val)
78 volatile unsigned short *ptr;
80 ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + index);
82 writew(cpu_to_le16(val), ptr);
85 static inline unsigned short nsp32_mmio_read2(unsigned long base,
86 unsigned int index)
88 volatile unsigned short *ptr;
90 ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + index);
92 return le16_to_cpu(readw(ptr));
95 static inline void nsp32_mmio_write4(unsigned long base,
96 unsigned int index,
97 unsigned long val)
99 volatile unsigned long *ptr;
101 ptr = (unsigned long *)(base + NSP32_MMIO_OFFSET + index);
103 writel(cpu_to_le32(val), ptr);
106 static inline unsigned long nsp32_mmio_read4(unsigned long base,
107 unsigned int index)
109 volatile unsigned long *ptr;
111 ptr = (unsigned long *)(base + NSP32_MMIO_OFFSET + index);
113 return le32_to_cpu(readl(ptr));
116 /*==============================================*/
118 static inline unsigned char nsp32_index_read1(unsigned int base,
119 unsigned int reg)
121 outb(reg, base + INDEX_REG);
122 return inb(base + DATA_REG_LOW);
125 static inline void nsp32_index_write1(unsigned int base,
126 unsigned int reg,
127 unsigned char val)
129 outb(reg, base + INDEX_REG );
130 outb(val, base + DATA_REG_LOW);
133 static inline unsigned short nsp32_index_read2(unsigned int base,
134 unsigned int reg)
136 outb(reg, base + INDEX_REG);
137 return inw(base + DATA_REG_LOW);
140 static inline void nsp32_index_write2(unsigned int base,
141 unsigned int reg,
142 unsigned short val)
144 outb(reg, base + INDEX_REG );
145 outw(val, base + DATA_REG_LOW);
148 static inline unsigned long nsp32_index_read4(unsigned int base,
149 unsigned int reg)
151 unsigned long h,l;
153 outb(reg, base + INDEX_REG);
154 l = inw(base + DATA_REG_LOW);
155 h = inw(base + DATA_REG_HI );
157 return ((h << 16) | l);
160 static inline void nsp32_index_write4(unsigned int base,
161 unsigned int reg,
162 unsigned long val)
164 unsigned long h,l;
166 h = (val & 0xffff0000) >> 16;
167 l = (val & 0x0000ffff) >> 0;
169 outb(reg, base + INDEX_REG );
170 outw(l, base + DATA_REG_LOW);
171 outw(h, base + DATA_REG_HI );
174 /*==============================================*/
176 static inline unsigned char nsp32_mmio_index_read1(unsigned long base,
177 unsigned int reg)
179 volatile unsigned short *index_ptr, *data_ptr;
181 index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG);
182 data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW);
184 writeb(reg, index_ptr);
185 return readb(data_ptr);
188 static inline void nsp32_mmio_index_write1(unsigned long base,
189 unsigned int reg,
190 unsigned char val)
192 volatile unsigned short *index_ptr, *data_ptr;
194 index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG);
195 data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW);
197 writeb(reg, index_ptr);
198 writeb(val, data_ptr );
201 static inline unsigned short nsp32_mmio_index_read2(unsigned long base,
202 unsigned int reg)
204 volatile unsigned short *index_ptr, *data_ptr;
206 index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG);
207 data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW);
209 writeb(reg, index_ptr);
210 return le16_to_cpu(readw(data_ptr));
213 static inline void nsp32_mmio_index_write2(unsigned long base,
214 unsigned int reg,
215 unsigned short val)
217 volatile unsigned short *index_ptr, *data_ptr;
219 index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG);
220 data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW);
222 writeb(reg, index_ptr);
223 writew(cpu_to_le16(val), data_ptr );
226 /*==============================================*/
228 static inline void nsp32_multi_read4(unsigned int base,
229 unsigned int reg,
230 void *buf,
231 unsigned long count)
233 insl(base + reg, buf, count);
236 static inline void nsp32_fifo_read(unsigned int base,
237 void *buf,
238 unsigned long count)
240 nsp32_multi_read4(base, FIFO_DATA_LOW, buf, count);
243 static inline void nsp32_multi_write4(unsigned int base,
244 unsigned int reg,
245 void *buf,
246 unsigned long count)
248 outsl(base + reg, buf, count);
251 static inline void nsp32_fifo_write(unsigned int base,
252 void *buf,
253 unsigned long count)
255 nsp32_multi_write4(base, FIFO_DATA_LOW, buf, count);
258 #endif /* _NSP32_IO_H */
259 /* end */