Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Goto Masanori | 1065 | 93.01% | 1 | 25.00% |
Linus Torvalds | 75 | 6.55% | 1 | 25.00% |
James Bottomley | 4 | 0.35% | 1 | 25.00% |
Andrew Morton | 1 | 0.09% | 1 | 25.00% |
Total | 1145 | 4 |
/* * Workbit NinjaSCSI-32Bi/UDE PCI/CardBus SCSI Host Bus Adapter driver * I/O routine * * This software may be used and distributed according to the terms of * the GNU General Public License. */ #ifndef _NSP32_IO_H #define _NSP32_IO_H static inline void nsp32_write1(unsigned int base, unsigned int index, unsigned char val) { outb(val, (base + index)); } static inline unsigned char nsp32_read1(unsigned int base, unsigned int index) { return inb(base + index); } static inline void nsp32_write2(unsigned int base, unsigned int index, unsigned short val) { outw(val, (base + index)); } static inline unsigned short nsp32_read2(unsigned int base, unsigned int index) { return inw(base + index); } static inline void nsp32_write4(unsigned int base, unsigned int index, unsigned long val) { outl(val, (base + index)); } static inline unsigned long nsp32_read4(unsigned int base, unsigned int index) { return inl(base + index); } /*==============================================*/ static inline void nsp32_mmio_write1(unsigned long base, unsigned int index, unsigned char val) { volatile unsigned char *ptr; ptr = (unsigned char *)(base + NSP32_MMIO_OFFSET + index); writeb(val, ptr); } static inline unsigned char nsp32_mmio_read1(unsigned long base, unsigned int index) { volatile unsigned char *ptr; ptr = (unsigned char *)(base + NSP32_MMIO_OFFSET + index); return readb(ptr); } static inline void nsp32_mmio_write2(unsigned long base, unsigned int index, unsigned short val) { volatile unsigned short *ptr; ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + index); writew(cpu_to_le16(val), ptr); } static inline unsigned short nsp32_mmio_read2(unsigned long base, unsigned int index) { volatile unsigned short *ptr; ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + index); return le16_to_cpu(readw(ptr)); } static inline void nsp32_mmio_write4(unsigned long base, unsigned int index, unsigned long val) { volatile unsigned long *ptr; ptr = (unsigned long *)(base + NSP32_MMIO_OFFSET + index); writel(cpu_to_le32(val), ptr); } static inline unsigned long nsp32_mmio_read4(unsigned long base, unsigned int index) { volatile unsigned long *ptr; ptr = (unsigned long *)(base + NSP32_MMIO_OFFSET + index); return le32_to_cpu(readl(ptr)); } /*==============================================*/ static inline unsigned char nsp32_index_read1(unsigned int base, unsigned int reg) { outb(reg, base + INDEX_REG); return inb(base + DATA_REG_LOW); } static inline void nsp32_index_write1(unsigned int base, unsigned int reg, unsigned char val) { outb(reg, base + INDEX_REG ); outb(val, base + DATA_REG_LOW); } static inline unsigned short nsp32_index_read2(unsigned int base, unsigned int reg) { outb(reg, base + INDEX_REG); return inw(base + DATA_REG_LOW); } static inline void nsp32_index_write2(unsigned int base, unsigned int reg, unsigned short val) { outb(reg, base + INDEX_REG ); outw(val, base + DATA_REG_LOW); } static inline unsigned long nsp32_index_read4(unsigned int base, unsigned int reg) { unsigned long h,l; outb(reg, base + INDEX_REG); l = inw(base + DATA_REG_LOW); h = inw(base + DATA_REG_HI ); return ((h << 16) | l); } static inline void nsp32_index_write4(unsigned int base, unsigned int reg, unsigned long val) { unsigned long h,l; h = (val & 0xffff0000) >> 16; l = (val & 0x0000ffff) >> 0; outb(reg, base + INDEX_REG ); outw(l, base + DATA_REG_LOW); outw(h, base + DATA_REG_HI ); } /*==============================================*/ static inline unsigned char nsp32_mmio_index_read1(unsigned long base, unsigned int reg) { volatile unsigned short *index_ptr, *data_ptr; index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG); data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW); writeb(reg, index_ptr); return readb(data_ptr); } static inline void nsp32_mmio_index_write1(unsigned long base, unsigned int reg, unsigned char val) { volatile unsigned short *index_ptr, *data_ptr; index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG); data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW); writeb(reg, index_ptr); writeb(val, data_ptr ); } static inline unsigned short nsp32_mmio_index_read2(unsigned long base, unsigned int reg) { volatile unsigned short *index_ptr, *data_ptr; index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG); data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW); writeb(reg, index_ptr); return le16_to_cpu(readw(data_ptr)); } static inline void nsp32_mmio_index_write2(unsigned long base, unsigned int reg, unsigned short val) { volatile unsigned short *index_ptr, *data_ptr; index_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + INDEX_REG); data_ptr = (unsigned short *)(base + NSP32_MMIO_OFFSET + DATA_REG_LOW); writeb(reg, index_ptr); writew(cpu_to_le16(val), data_ptr ); } /*==============================================*/ static inline void nsp32_multi_read4(unsigned int base, unsigned int reg, void *buf, unsigned long count) { insl(base + reg, buf, count); } static inline void nsp32_fifo_read(unsigned int base, void *buf, unsigned long count) { nsp32_multi_read4(base, FIFO_DATA_LOW, buf, count); } static inline void nsp32_multi_write4(unsigned int base, unsigned int reg, void *buf, unsigned long count) { outsl(base + reg, buf, count); } static inline void nsp32_fifo_write(unsigned int base, void *buf, unsigned long count) { nsp32_multi_write4(base, FIFO_DATA_LOW, buf, count); } #endif /* _NSP32_IO_H */ /* end */
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