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[/] [or1k/] [trunk/] [uclinux/] [uClinux-2.0.x/] [include/] [asm-alpha/] [pyxis.h] - Rev 199
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#ifndef __ALPHA_PYXIS__H__ #define __ALPHA_PYXIS__H__ #include <linux/config.h> #include <linux/types.h> /* * PYXIS is the internal name for a core logic chipset which provides * memory controller and PCI access for the 21164A chip based systems. * * This file is based on: * * Pyxis Chipset Spec * 14-Jun-96 * Rev. X2.0 * */ /*------------------------------------------------------------------------** ** ** ** I/O procedures ** ** ** ** inport[b|w|t|l], outport[b|w|t|l] 8:16:24:32 IO xfers ** ** inportbxt: 8 bits only ** ** inport: alias of inportw ** ** outport: alias of outportw ** ** ** ** inmem[b|w|t|l], outmem[b|w|t|l] 8:16:24:32 ISA memory xfers ** ** inmembxt: 8 bits only ** ** inmem: alias of inmemw ** ** outmem: alias of outmemw ** ** ** **------------------------------------------------------------------------*/ /* CIA ADDRESS BIT DEFINITIONS * * 3 3 3 3|3 3 3 3|3 3 2 2|2 2 2 2|2 2 2 2|1 1 1 1|1 1 1 1|1 1 * 9 8 7 6|5 4 3 2|1 0 9 8|7 6 5 4|3 2 1 0|9 8 7 6|5 4 3 2|1 0 9 8|7 6 5 4|3 2 1 0 * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * |1| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | |0|0|0| * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | \_/ \_/ * | | | * +-- IO space, not cached. Byte Enable --+ | * Transfer Length --+ * * * * Byte Transfer * Enable Length Transfer Byte Address * adr<6:5> adr<4:3> Length Enable Adder * --------------------------------------------- * 00 00 Byte 1110 0x000 * 01 00 Byte 1101 0x020 * 10 00 Byte 1011 0x040 * 11 00 Byte 0111 0x060 * * 00 01 Word 1100 0x008 * 01 01 Word 1001 0x028 <= Not supported in this code. * 10 01 Word 0011 0x048 * * 00 10 Tribyte 1000 0x010 * 01 10 Tribyte 0001 0x030 * * 10 11 Longword 0000 0x058 * * Note that byte enables are asserted low. * */ #define BYTE_ENABLE_SHIFT 5 #define TRANSFER_LENGTH_SHIFT 3 #define MEM_R1_MASK 0x1fffffff /* SPARSE Mem region 1 mask is 29 bits */ #define MEM_R2_MASK 0x07ffffff /* SPARSE Mem region 2 mask is 27 bits */ #define MEM_R3_MASK 0x03ffffff /* SPARSE Mem region 3 mask is 26 bits */ #ifdef CONFIG_ALPHA_SRM_SETUP /* if we are using the SRM PCI setup, we'll need to use variables instead */ #define PYXIS_DMA_WIN_BASE_DEFAULT (1024*1024*1024) #define PYXIS_DMA_WIN_SIZE_DEFAULT (1024*1024*1024) extern unsigned int PYXIS_DMA_WIN_BASE; extern unsigned int PYXIS_DMA_WIN_SIZE; #else /* SRM_SETUP */ #define PYXIS_DMA_WIN_BASE (1024*1024*1024) #define PYXIS_DMA_WIN_SIZE (1024*1024*1024) #endif /* SRM_SETUP */ /* * General Registers */ #define PYXIS_REV (IDENT_ADDR + 0x8740000080UL) #define PYXIS_PCI_LAT (IDENT_ADDR + 0x87400000C0UL) #define PYXIS_CTRL (IDENT_ADDR + 0x8740000100UL) #define PYXIS_CTRL1 (IDENT_ADDR + 0x8740000140UL) #define PYXIS_FLASH_CTRL (IDENT_ADDR + 0x8740000200UL) #define PYXIS_HAE_MEM (IDENT_ADDR + 0x8740000400UL) #define PYXIS_HAE_IO (IDENT_ADDR + 0x8740000440UL) #define PYXIS_CFG (IDENT_ADDR + 0x8740000480UL) /* * Diagnostic Registers */ #define PYXIS_DIAG (IDENT_ADDR + 0x8740002000UL) #define PYXIS_DIAG_CHECK (IDENT_ADDR + 0x8740003000UL) /* * Performance Monitor registers */ #define PYXIS_PERF_MONITOR (IDENT_ADDR + 0x8740004000UL) #define PYXIS_PERF_CONTROL (IDENT_ADDR + 0x8740004040UL) /* * Error registers */ #define PYXIS_ERR (IDENT_ADDR + 0x8740008200UL) #define PYXIS_STAT (IDENT_ADDR + 0x8740008240UL) #define PYXIS_ERR_MASK (IDENT_ADDR + 0x8740008280UL) #define PYXIS_SYN (IDENT_ADDR + 0x8740008300UL) #define PYXIS_ERR_DATA (IDENT_ADDR + 0x8740008308UL) #define PYXIS_MEAR (IDENT_ADDR + 0x8740008400UL) #define PYXIS_MESR (IDENT_ADDR + 0x8740008440UL) #define PYXIS_PCI_ERR0 (IDENT_ADDR + 0x8740008800UL) #define PYXIS_PCI_ERR1 (IDENT_ADDR + 0x8740008840UL) #define PYXIS_PCI_ERR2 (IDENT_ADDR + 0x8740008880UL) /* * PCI Address Translation Registers. */ #define PYXIS_TBIA (IDENT_ADDR + 0x8760000100UL) #define PYXIS_W0_BASE (IDENT_ADDR + 0x8760000400UL) #define PYXIS_W0_MASK (IDENT_ADDR + 0x8760000440UL) #define PYXIS_T0_BASE (IDENT_ADDR + 0x8760000480UL) #define PYXIS_W1_BASE (IDENT_ADDR + 0x8760000500UL) #define PYXIS_W1_MASK (IDENT_ADDR + 0x8760000540UL) #define PYXIS_T1_BASE (IDENT_ADDR + 0x8760000580UL) #define PYXIS_W2_BASE (IDENT_ADDR + 0x8760000600UL) #define PYXIS_W2_MASK (IDENT_ADDR + 0x8760000640UL) #define PYXIS_T2_BASE (IDENT_ADDR + 0x8760000680UL) #define PYXIS_W3_BASE (IDENT_ADDR + 0x8760000700UL) #define PYXIS_W3_MASK (IDENT_ADDR + 0x8760000740UL) #define PYXIS_T3_BASE (IDENT_ADDR + 0x8760000780UL) /* * Memory Control registers */ #define PYXIS_MCR (IDENT_ADDR + 0x8750000000UL) /* * Memory spaces: */ #define PYXIS_IACK_SC (IDENT_ADDR + 0x8720000000UL) #define PYXIS_CONF (IDENT_ADDR + 0x8700000000UL) #define PYXIS_IO (IDENT_ADDR + 0x8580000000UL) #define PYXIS_SPARSE_MEM (IDENT_ADDR + 0x8000000000UL) #define PYXIS_SPARSE_MEM_R2 (IDENT_ADDR + 0x8400000000UL) #define PYXIS_SPARSE_MEM_R3 (IDENT_ADDR + 0x8500000000UL) #define PYXIS_DENSE_MEM (IDENT_ADDR + 0x8600000000UL) /* * Byte/Word PCI Memory Spaces: */ #define PYXIS_BW_MEM (IDENT_ADDR + 0x8800000000UL) #define PYXIS_BW_IO (IDENT_ADDR + 0x8900000000UL) #define PYXIS_BW_CFG_0 (IDENT_ADDR + 0x8a00000000UL) #define PYXIS_BW_CFG_1 (IDENT_ADDR + 0x8b00000000UL) /* * Interrupt Control registers */ #define PYXIS_INT_REQ (IDENT_ADDR + 0x87A0000000UL) #define PYXIS_INT_MASK (IDENT_ADDR + 0x87A0000040UL) #define PYXIS_INT_HILO (IDENT_ADDR + 0x87A00000C0UL) #define PYXIS_INT_ROUTE (IDENT_ADDR + 0x87A0000140UL) #define PYXIS_GPO (IDENT_ADDR + 0x87A0000180UL) #define PYXIS_INT_CNFG (IDENT_ADDR + 0x87A00001C0UL) #define PYXIS_RT_COUNT (IDENT_ADDR + 0x87A0000200UL) #define PYXIS_INT_TIME (IDENT_ADDR + 0x87A0000240UL) #define PYXIS_IIC_CTRL (IDENT_ADDR + 0x87A00002C0UL) /* * Bit definitions for I/O Controller status register 0: */ #define PYXIS_STAT0_CMD 0xf #define PYXIS_STAT0_ERR (1<<4) #define PYXIS_STAT0_LOST (1<<5) #define PYXIS_STAT0_THIT (1<<6) #define PYXIS_STAT0_TREF (1<<7) #define PYXIS_STAT0_CODE_SHIFT 8 #define PYXIS_STAT0_CODE_MASK 0x7 #define PYXIS_STAT0_P_NBR_SHIFT 13 #define PYXIS_STAT0_P_NBR_MASK 0x7ffff #define HAE_ADDRESS PYXIS_HAE_MEM #ifdef __KERNEL__ /* * Translate physical memory address as seen on (PCI) bus into * a kernel virtual address and vv. */ #if defined(CONFIG_ALPHA_RUFFIAN) #if 0 /* Ruffian doesn't do 1G PCI window */ extern inline unsigned long virt_to_bus(void * address) { return virt_to_phys(address); } extern inline void * bus_to_virt(unsigned long address) { return phys_to_virt(address); } #else /* Oh, yes, it does (at least with the latest FW) */ extern inline unsigned long virt_to_bus(void * address) { return virt_to_phys(address) + PYXIS_DMA_WIN_BASE; } extern inline void * bus_to_virt(unsigned long address) { return phys_to_virt(address - PYXIS_DMA_WIN_BASE); } #endif #else /* RUFFIAN */ extern inline unsigned long virt_to_bus(void * address) { return virt_to_phys(address) + PYXIS_DMA_WIN_BASE; } extern inline void * bus_to_virt(unsigned long address) { return phys_to_virt(address - PYXIS_DMA_WIN_BASE); } #endif /* RUFFIAN */ /* * I/O functions: * * PYXIS, the 21174 PCI/memory support chipset for the EV56 (21164) * and PCA56 (21164PC) processors, can use either a sparse address * mapping scheme, or the so-called byte-word PCI address space, to * get at PCI memory and I/O. */ #define vuip volatile unsigned int * #if defined(BWIO_ENABLED) # if defined(CONFIG_ALPHA_LX164) || \ defined(CONFIG_ALPHA_SX164) /* only for the above platforms can we be sure this will work */ # define BWIO_REALLY_ENABLED # else # undef BWIO_REALLY_ENABLED # endif #else # undef BWIO_REALLY_ENABLED #endif #ifdef BWIO_REALLY_ENABLED extern inline unsigned int __inb(unsigned long addr) { register unsigned long result; __asm__ __volatile__ ( "ldbu %0,%1" : "=r" (result) : "m" (*(unsigned char *)(addr+PYXIS_BW_IO))); return result; } extern inline void __outb(unsigned char b, unsigned long addr) { __asm__ __volatile__ ( "stb %1,%0\n\t" "mb" : : "m" (*(unsigned char *)(addr+PYXIS_BW_IO)), "r" (b)); } extern inline unsigned int __inw(unsigned long addr) { register unsigned long result; __asm__ __volatile__ ( "ldwu %0,%1" : "=r" (result) : "m" (*(unsigned short *)(addr+PYXIS_BW_IO))); return result; } extern inline void __outw(unsigned short b, unsigned long addr) { __asm__ __volatile__ ( "stw %1,%0\n\t" "mb" : : "m" (*(unsigned short *)(addr+PYXIS_BW_IO)), "r" (b)); } extern inline unsigned int __inl(unsigned long addr) { register unsigned long result; __asm__ __volatile__ ( "ldl %0,%1" : "=r" (result) : "m" (*(unsigned int *)(addr+PYXIS_BW_IO))); return result; } extern inline void __outl(unsigned int b, unsigned long addr) { __asm__ __volatile__ ( "stl %1,%0\n\t" "mb" : : "m" (*(unsigned int *)(addr+PYXIS_BW_IO)), "r" (b)); } #define inb(port) __inb((port)) #define inw(port) __inw((port)) #define inl(port) __inl((port)) #define outb(x, port) __outb((x),(port)) #define outw(x, port) __outw((x),(port)) #define outl(x, port) __outl((x),(port)) #else /* BWIO_REALLY_ENABLED */ extern inline unsigned int __inb(unsigned long addr) { long result = *(vuip) ((addr << 5) + PYXIS_IO + 0x00); result >>= (addr & 3) * 8; return 0xffUL & result; } extern inline void __outb(unsigned char b, unsigned long addr) { unsigned int w; asm ("insbl %2,%1,%0" : "r="(w) : "ri"(addr & 0x3), "r"(b)); *(vuip) ((addr << 5) + PYXIS_IO + 0x00) = w; mb(); } extern inline unsigned int __inw(unsigned long addr) { long result = *(vuip) ((addr << 5) + PYXIS_IO + 0x08); result >>= (addr & 3) * 8; return 0xffffUL & result; } extern inline void __outw(unsigned short b, unsigned long addr) { unsigned int w; asm ("inswl %2,%1,%0" : "r="(w) : "ri"(addr & 0x3), "r"(b)); *(vuip) ((addr << 5) + PYXIS_IO + 0x08) = w; mb(); } extern inline unsigned int __inl(unsigned long addr) { return *(vuip) ((addr << 5) + PYXIS_IO + 0x18); } extern inline void __outl(unsigned int b, unsigned long addr) { *(vuip) ((addr << 5) + PYXIS_IO + 0x18) = b; mb(); } #define inb(port) \ (__builtin_constant_p((port))?__inb(port):_inb(port)) #define outb(x, port) \ (__builtin_constant_p((port))?__outb((x),(port)):_outb((x),(port))) #endif /* BWIO_REALLY_ENABLED */ /* * Memory functions. 64-bit and 32-bit accesses are done through * dense memory space, everything else through sparse space. * * For reading and writing 8 and 16 bit quantities we need to * go through one of the three sparse address mapping regions * and use the HAE_MEM CSR to provide some bits of the address. * The following few routines use only sparse address region 1 * which gives 1Gbyte of accessible space which relates exactly * to the amount of PCI memory mapping *into* system address space. * See p 6-17 of the specification but it looks something like this: * * 21164 Address: * * 3 2 1 * 9876543210987654321098765432109876543210 * 1ZZZZ0.PCI.QW.Address............BBLL * * ZZ = SBZ * BB = Byte offset * LL = Transfer length * * PCI Address: * * 3 2 1 * 10987654321098765432109876543210 * HHH....PCI.QW.Address........ 00 * * HHH = 31:29 HAE_MEM CSR * */ #ifdef BWIO_REALLY_ENABLED extern inline unsigned long __readb(unsigned long addr) { register unsigned long result; __asm__ __volatile__ ( "ldbu %0,%1" : "=r" (result) : "m" (*(unsigned char *)(addr+PYXIS_BW_MEM))); return result; } extern inline unsigned long __readw(unsigned long addr) { register unsigned long result; __asm__ __volatile__ ( "ldwu %0,%1" : "=r" (result) : "m" (*(unsigned short *)(addr+PYXIS_BW_MEM))); return result; } extern inline unsigned long __readl(unsigned long addr) { register unsigned long result; __asm__ __volatile__ ( "ldl %0,%1" : "=r" (result) : "m" (*(unsigned int *)(addr+PYXIS_BW_MEM))); return result; } extern inline void __writeb(unsigned char b, unsigned long addr) { __asm__ __volatile__ ( "stb %1,%0\n\t" "mb" : : "m" (*(unsigned char *)(addr+PYXIS_BW_MEM)), "r" (b)); } extern inline void __writew(unsigned short b, unsigned long addr) { __asm__ __volatile__ ( "stw %1,%0\n\t" "mb" : : "m" (*(unsigned short *)(addr+PYXIS_BW_MEM)), "r" (b)); } extern inline void __writel(unsigned int b, unsigned long addr) { __asm__ __volatile__ ( "stl %1,%0\n\t" "mb" : : "m" (*(unsigned int *)(addr+PYXIS_BW_MEM)), "r" (b)); } #define readb(addr) __readb((addr)) #define readw(addr) __readw((addr)) #define writeb(b, addr) __writeb((b),(addr)) #define writew(b, addr) __writew((b),(addr)) #else /* BWIO_REALLY_ENABLED */ #ifdef CONFIG_ALPHA_SRM_SETUP extern unsigned long pyxis_sm_base_r1, pyxis_sm_base_r2, pyxis_sm_base_r3; extern inline unsigned long __readb(unsigned long addr) { unsigned long result, shift, work; if ((addr >= pyxis_sm_base_r1) && (addr <= (pyxis_sm_base_r1 + MEM_R1_MASK))) work = (((addr & MEM_R1_MASK) << 5) + PYXIS_SPARSE_MEM + 0x00); else if ((addr >= pyxis_sm_base_r2) && (addr <= (pyxis_sm_base_r2 + MEM_R2_MASK))) work = (((addr & MEM_R2_MASK) << 5) + PYXIS_SPARSE_MEM_R2 + 0x00); else if ((addr >= pyxis_sm_base_r3) && (addr <= (pyxis_sm_base_r3 + MEM_R3_MASK))) work = (((addr & MEM_R3_MASK) << 5) + PYXIS_SPARSE_MEM_R3 + 0x00); else { #if 0 printk("__readb: address 0x%lx not covered by HAE\n", addr); #endif return 0x0ffUL; } shift = (addr & 0x3) << 3; result = *(vuip) work; result >>= shift; return 0x0ffUL & result; } extern inline unsigned long __readw(unsigned long addr) { unsigned long result, shift, work; if ((addr >= pyxis_sm_base_r1) && (addr <= (pyxis_sm_base_r1 + MEM_R1_MASK))) work = (((addr & MEM_R1_MASK) << 5) + PYXIS_SPARSE_MEM + 0x08); else if ((addr >= pyxis_sm_base_r2) && (addr <= (pyxis_sm_base_r2 + MEM_R2_MASK))) work = (((addr & MEM_R2_MASK) << 5) + PYXIS_SPARSE_MEM_R2 + 0x08); else if ((addr >= pyxis_sm_base_r3) && (addr <= (pyxis_sm_base_r3 + MEM_R3_MASK))) work = (((addr & MEM_R3_MASK) << 5) + PYXIS_SPARSE_MEM_R3 + 0x08); else { #if 0 printk("__readw: address 0x%lx not covered by HAE\n", addr); #endif return 0x0ffUL; } shift = (addr & 0x3) << 3; result = *(vuip) work; result >>= shift; return 0x0ffffUL & result; } extern inline void __writeb(unsigned char b, unsigned long addr) { unsigned long work; if ((addr >= pyxis_sm_base_r1) && (addr <= (pyxis_sm_base_r1 + MEM_R1_MASK))) work = (((addr & MEM_R1_MASK) << 5) + PYXIS_SPARSE_MEM + 0x00); else if ((addr >= pyxis_sm_base_r2) && (addr <= (pyxis_sm_base_r2 + MEM_R2_MASK))) work = (((addr & MEM_R2_MASK) << 5) + PYXIS_SPARSE_MEM_R2 + 0x00); else if ((addr >= pyxis_sm_base_r3) && (addr <= (pyxis_sm_base_r3 + MEM_R3_MASK))) work = (((addr & MEM_R3_MASK) << 5) + PYXIS_SPARSE_MEM_R3 + 0x00); else { #if 0 printk("__writeb: address 0x%lx not covered by HAE\n", addr); #endif return; } *(vuip) work = b * 0x01010101; } extern inline void __writew(unsigned short b, unsigned long addr) { unsigned long work; if ((addr >= pyxis_sm_base_r1) && (addr <= (pyxis_sm_base_r1 + MEM_R1_MASK))) work = (((addr & MEM_R1_MASK) << 5) + PYXIS_SPARSE_MEM + 0x00); else if ((addr >= pyxis_sm_base_r2) && (addr <= (pyxis_sm_base_r2 + MEM_R2_MASK))) work = (((addr & MEM_R2_MASK) << 5) + PYXIS_SPARSE_MEM_R2 + 0x00); else if ((addr >= pyxis_sm_base_r3) && (addr <= (pyxis_sm_base_r3 + MEM_R3_MASK))) work = (((addr & MEM_R3_MASK) << 5) + PYXIS_SPARSE_MEM_R3 + 0x00); else { #if 0 printk("__writew: address 0x%lx not covered by HAE\n", addr); #endif return; } *(vuip) work = b * 0x00010001; } #else /* SRM_SETUP */ extern inline unsigned long __readb(unsigned long addr) { unsigned long result, shift, msb, work, temp; shift = (addr & 0x3) << 3; msb = addr & 0xE0000000UL; temp = addr & MEM_R1_MASK ; if (msb != hae.cache) { set_hae(msb); } work = ((temp << 5) + PYXIS_SPARSE_MEM + 0x00); result = *(vuip) work; result >>= shift; return 0x0ffUL & result; } extern inline unsigned long __readw(unsigned long addr) { unsigned long result, shift, msb, work, temp; shift = (addr & 0x3) << 3; msb = addr & 0xE0000000UL; temp = addr & MEM_R1_MASK ; if (msb != hae.cache) { set_hae(msb); } work = ((temp << 5) + PYXIS_SPARSE_MEM + 0x08); result = *(vuip) work; result >>= shift; return 0x0ffffUL & result; } extern inline void __writeb(unsigned char b, unsigned long addr) { unsigned long msb ; msb = addr & 0xE0000000 ; addr &= MEM_R1_MASK ; if (msb != hae.cache) { set_hae(msb); } *(vuip) ((addr << 5) + PYXIS_SPARSE_MEM + 0x00) = b * 0x01010101; } extern inline void __writew(unsigned short b, unsigned long addr) { unsigned long msb ; msb = addr & 0xE0000000 ; addr &= MEM_R1_MASK ; if (msb != hae.cache) { set_hae(msb); } *(vuip) ((addr << 5) + PYXIS_SPARSE_MEM + 0x08) = b * 0x00010001; } #endif /* SRM_SETUP */ extern inline unsigned long __readl(unsigned long addr) { return *(vuip) (addr + PYXIS_DENSE_MEM); } extern inline void __writel(unsigned int b, unsigned long addr) { *(vuip) (addr + PYXIS_DENSE_MEM) = b; } #endif /* BWIO_REALLY_ENABLED */ #define readl(a) __readl((unsigned long)(a)) #define writel(v,a) __writel((v),(unsigned long)(a)) #undef vuip extern unsigned long pyxis_init (unsigned long mem_start, unsigned long mem_end); #endif /* __KERNEL__ */ /* * Data structure for handling PYXIS machine checks: */ struct el_PYXIS_sysdata_mcheck { u_long coma_gcr; u_long coma_edsr; u_long coma_ter; u_long coma_elar; u_long coma_ehar; u_long coma_ldlr; u_long coma_ldhr; u_long coma_base0; u_long coma_base1; u_long coma_base2; u_long coma_cnfg0; u_long coma_cnfg1; u_long coma_cnfg2; u_long epic_dcsr; u_long epic_pear; u_long epic_sear; u_long epic_tbr1; u_long epic_tbr2; u_long epic_pbr1; u_long epic_pbr2; u_long epic_pmr1; u_long epic_pmr2; u_long epic_harx1; u_long epic_harx2; u_long epic_pmlt; u_long epic_tag0; u_long epic_tag1; u_long epic_tag2; u_long epic_tag3; u_long epic_tag4; u_long epic_tag5; u_long epic_tag6; u_long epic_tag7; u_long epic_data0; u_long epic_data1; u_long epic_data2; u_long epic_data3; u_long epic_data4; u_long epic_data5; u_long epic_data6; u_long epic_data7; }; #define RTC_PORT(x) (0x70 + (x)) #define RTC_ADDR(x) (0x80 | (x)) #ifdef CONFIG_ALPHA_RUFFIAN #define RTC_ALWAYS_BCD 1 #else /* RUFFIAN */ #define RTC_ALWAYS_BCD 0 #endif /* RUFFIAN */ #endif /* __ALPHA_PYXIS__H__ */
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