/* $OpenBSD: alpha_cpu.h,v 1.9 2009/01/17 18:30:08 miod Exp $ */ /* $NetBSD: alpha_cpu.h,v 1.43 2001/12/18 04:18:22 thorpej Exp $ */ /* * Copyright (c) 1996 Carnegie-Mellon University. * All rights reserved. * * Author: Chris G. Demetriou * * Permission to use, copy, modify and distribute this software and * its documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND * FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * Carnegie Mellon requests users of this software to return to * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 * * any improvements or extensions that they make and grant Carnegie the * rights to redistribute these changes. */ #ifndef __ALPHA_ALPHA_CPU_H__ #define __ALPHA_ALPHA_CPU_H__ /* * Alpha CPU + OSF/1 PALcode definitions for use by the kernel. * * Definitions for: * * Process Control Block * Interrupt/Exception/Syscall Stack Frame * Processor Status Register * Machine Check Error Summary Register * Machine Check Logout Area * Per CPU state Management of Machine Check Handling * Virtual Memory Management * Kernel Entry Vectors * MMCSR Fault Type Codes * Translation Buffer Invalidation * * and miscellaneous PALcode operations. */ /* * Process Control Block definitions [OSF/1 PALcode Specific] */ struct alpha_pcb { unsigned long apcb_ksp; /* kernel stack ptr */ unsigned long apcb_usp; /* user stack ptr */ unsigned long apcb_ptbr; /* page table base reg */ unsigned int apcb_cpc; /* charged process cycles */ unsigned int apcb_asn; /* address space number */ unsigned long apcb_unique; /* process unique value */ #define apcb_backup_ksp apcb_unique /* backup kernel stack ptr */ unsigned long apcb_flags; /* flags; see below */ unsigned long apcb_decrsv0; /* DEC reserved */ unsigned long apcb_decrsv1; /* DEC reserved */ }; #define ALPHA_PCB_FLAGS_FEN 0x0000000000000001 #define ALPHA_PCB_FLAGS_PME 0x4000000000000000 /* * Interrupt/Exception/Syscall "Hardware" (really PALcode) * Stack Frame definitions * * These are quadword offsets from the sp on kernel entry, i.e. * to get to the value in question you access (sp + (offset * 8)). * * On syscall entry, A0-A2 aren't written to memory but space * _is_ reserved for them. */ #define ALPHA_HWFRAME_PS 0 /* processor status register */ #define ALPHA_HWFRAME_PC 1 /* program counter */ #define ALPHA_HWFRAME_GP 2 /* global pointer */ #define ALPHA_HWFRAME_A0 3 /* a0 */ #define ALPHA_HWFRAME_A1 4 /* a1 */ #define ALPHA_HWFRAME_A2 5 /* a2 */ #define ALPHA_HWFRAME_SIZE 6 /* 6 8-byte words */ /* * Processor Status Register [OSF/1 PALcode Specific] * * Includes user/kernel mode bit, interrupt priority levels, etc. */ #define ALPHA_PSL_USERMODE 0x0008 /* set -> user mode */ #define ALPHA_PSL_IPL_MASK 0x0007 /* interrupt level mask */ #define ALPHA_PSL_IPL_0 0x0000 /* all interrupts enabled */ #define ALPHA_PSL_IPL_SOFT 0x0001 /* software ints disabled */ #define ALPHA_PSL_IPL_IO 0x0004 /* I/O dev ints disabled */ #define ALPHA_PSL_IPL_CLOCK 0x0005 /* clock ints disabled */ #define ALPHA_PSL_IPL_HIGH 0x0006 /* all but mchecks disabled */ #define ALPHA_PSL_MUST_BE_ZERO 0xfffffffffffffff0 /* Convenience constants: what must be set/clear in user mode */ #define ALPHA_PSL_USERSET ALPHA_PSL_USERMODE #define ALPHA_PSL_USERCLR (ALPHA_PSL_MUST_BE_ZERO | ALPHA_PSL_IPL_MASK) /* * Interrupt Type Code Definitions [OSF/1 PALcode Specific] */ #define ALPHA_INTR_XPROC 0 /* interprocessor interrupt */ #define ALPHA_INTR_CLOCK 1 /* clock interrupt */ #define ALPHA_INTR_ERROR 2 /* correctable error or mcheck */ #define ALPHA_INTR_DEVICE 3 /* device interrupt */ #define ALPHA_INTR_PERF 4 /* performance counter */ #define ALPHA_INTR_PASSIVE 5 /* passive release */ /* * Machine Check Error Summary Register definitions [OSF/1 PALcode Specific] * * The following bits are values as read. On write, _PCE, _SCE, and * _MIP are "write 1 to clear." */ #define ALPHA_MCES_IMP \ 0xffffffff00000000 /* impl. dependent */ #define ALPHA_MCES_RSVD \ 0x00000000ffffffe0 /* reserved */ #define ALPHA_MCES_DSC \ 0x0000000000000010 /* disable system correctable error reporting */ #define ALPHA_MCES_DPC \ 0x0000000000000008 /* disable processor correctable error reporting */ #define ALPHA_MCES_PCE \ 0x0000000000000004 /* processor correctable error in progress */ #define ALPHA_MCES_SCE \ 0x0000000000000002 /* system correctable error in progress */ #define ALPHA_MCES_MIP \ 0x0000000000000001 /* machine check in progress */ /* * Machine Check Error Summary Register definitions [OSF/1 PALcode Specific] * * Note that these are *generic* OSF/1 PALcode specific defines. There are * platform variations to these entities. */ struct alpha_logout_area { unsigned int la_frame_size; /* frame size */ unsigned int la_flags; /* flags; see below */ unsigned int la_cpu_offset; /* offset to cpu area */ unsigned int la_system_offset; /* offset to system area */ }; #define ALPHA_LOGOUT_FLAGS_RETRY 0x80000000 /* OK to continue */ #define ALPHA_LOGOUT_FLAGS_SE 0x40000000 /* second error */ #define ALPHA_LOGOUT_FLAGS_SBZ 0x3fffffff /* should be zero */ #define ALPHA_LOGOUT_NOT_BUILT \ (struct alpha_logout_area *)0xffffffffffffffff) #define ALPHA_LOGOUT_PAL_AREA(lap) \ (unsigned long *)((unsigned char *)(lap) + 16) #define ALPHA_LOGOUT_PAL_SIZE(lap) \ ((lap)->la_cpu_offset - 16) #define ALPHA_LOGOUT_CPU_AREA(lap) \ (unsigned long *)((unsigned char *)(lap) + (lap)->la_cpu_offset) #define ALPHA_LOGOUT_CPU_SIZE(lap) \ ((lap)->la_system_offset - (lap)->la_cpu_offset) #define ALPHA_LOGOUT_SYSTEM_AREA(lap) \ (unsigned long *)((unsigned char *)(lap) + (lap)->la_system_offset) #define ALPHA_LOGOUT_SYSTEM_SIZE(lap) \ ((lap)->la_frame_size - (lap)->la_system_offset) /* types of machine checks */ #define ALPHA_SYS_ERROR 0x620 /* System correctable error */ #define ALPHA_PROC_ERROR 0x630 /* Processor correctable error */ #define ALPHA_SYS_MCHECK 0x660 /* System machine check */ #define ALPHA_PROC_MCHECK 0x670 /* Processor machine check */ #define ALPHA_ENV_MCHECK 0x680 /* Environmental machine check */ /* * Virtual Memory Management definitions [OSF/1 PALcode Specific] * * Includes user and kernel space addresses and information, * page table entry definitions, etc. * * NOTE THAT THESE DEFINITIONS MAY CHANGE IN FUTURE ALPHA CPUS! */ #define ALPHA_PGSHIFT 13 #define ALPHA_PGBYTES (1 << ALPHA_PGSHIFT) #define ALPHA_USEG_BASE 0 /* virtual */ #define ALPHA_USEG_END 0x000003ffffffffff #define ALPHA_K0SEG_BASE 0xfffffc0000000000 /* direct-mapped */ #define ALPHA_K0SEG_END 0xfffffdffffffffff #define ALPHA_K1SEG_BASE 0xfffffe0000000000 /* virtual */ #define ALPHA_K1SEG_END 0xffffffffffffffff #define ALPHA_K0SEG_TO_PHYS(x) ((x) & ~ALPHA_K0SEG_BASE) #define ALPHA_PHYS_TO_K0SEG(x) ((x) | ALPHA_K0SEG_BASE) #define ALPHA_PTE_VALID 0x0001UL #define ALPHA_PTE_FAULT_ON_READ 0x0002UL #define ALPHA_PTE_FAULT_ON_WRITE 0x0004UL #define ALPHA_PTE_FAULT_ON_EXECUTE 0x0008UL #define ALPHA_PTE_ASM 0x0010UL /* addr. space match */ #define ALPHA_PTE_GRANULARITY 0x0060UL /* granularity hint */ #define ALPHA_PTE_PROT 0xff00UL #define ALPHA_PTE_KR 0x0100UL #define ALPHA_PTE_UR 0x0200UL #define ALPHA_PTE_KW 0x1000UL #define ALPHA_PTE_UW 0x2000UL #define ALPHA_PTE_WRITE (ALPHA_PTE_KW | ALPHA_PTE_UW) #define ALPHA_PTE_SOFTWARE 0x00000000ffff0000UL #define ALPHA_PTE_PALCODE (~ALPHA_PTE_SOFTWARE) /* shorthand */ #define ALPHA_PTE_PFN 0xffffffff00000000UL #define ALPHA_PTE_TO_PFN(pte) ((pte) >> 32) #define ALPHA_PTE_FROM_PFN(pfn) ((pfn) << 32) typedef unsigned long alpha_pt_entry_t; /* * Kernel Entry Vectors. [OSF/1 PALcode Specific] */ #define ALPHA_KENTRY_INT 0 #define ALPHA_KENTRY_ARITH 1 #define ALPHA_KENTRY_MM 2 #define ALPHA_KENTRY_IF 3 #define ALPHA_KENTRY_UNA 4 #define ALPHA_KENTRY_SYS 5 /* * MMCSR Fault Type Codes. [OSF/1 PALcode Specific] */ #define ALPHA_MMCSR_INVALTRANS 0 #define ALPHA_MMCSR_ACCESS 1 #define ALPHA_MMCSR_FOR 2 #define ALPHA_MMCSR_FOE 3 #define ALPHA_MMCSR_FOW 4 /* * Instruction Fault Type Codes. [OSF/1 PALcode Specific] */ #define ALPHA_IF_CODE_BPT 0 #define ALPHA_IF_CODE_BUGCHK 1 #define ALPHA_IF_CODE_GENTRAP 2 #define ALPHA_IF_CODE_FEN 3 #define ALPHA_IF_CODE_OPDEC 4 #ifdef _KERNEL /* * Translation Buffer Invalidation definitions [OSF/1 PALcode Specific] */ #define ALPHA_TBIA() alpha_pal_tbi(-2, 0) /* all TB entries */ #define ALPHA_TBIAP() alpha_pal_tbi(-1, 0) /* all per-process */ #define ALPHA_TBISI(va) alpha_pal_tbi(1, (va)) /* ITB entry for va */ #define ALPHA_TBISD(va) alpha_pal_tbi(2, (va)) /* DTB entry for va */ #define ALPHA_TBIS(va) alpha_pal_tbi(3, (va)) /* all for va */ #endif /* _KERNEL */ /* * Bits used in the amask instruction [EV56 and later] */ #define ALPHA_AMASK_BWX 0x0001 /* byte/word extension */ #define ALPHA_AMASK_FIX 0x0002 /* floating point conv. ext. */ #define ALPHA_AMASK_CIX 0x0004 /* count extension */ #define ALPHA_AMASK_MVI 0x0100 /* multimedia extension */ #define ALPHA_AMASK_PAT 0x0200 /* precise arith. traps */ #define ALPHA_AMASK_ALL (ALPHA_AMASK_BWX|ALPHA_AMASK_FIX| \ ALPHA_AMASK_CIX|ALPHA_AMASK_MVI| \ ALPHA_AMASK_PAT) #define ALPHA_AMASK_BITS \ "\20\12PAT\11MVI\3CIX\2FIX\1BWX" /* * Chip family IDs returned by implver instruction */ #define ALPHA_IMPLVER_EV4 0 /* LCA/EV4/EV45 */ #define ALPHA_IMPLVER_EV5 1 /* EV5/EV56/PCA56 */ #define ALPHA_IMPLVER_EV6 2 /* EV6 */ #ifdef _KERNEL /* * Maximum processor ID we allow from `whami', and related constants. * * XXX This is not really processor or PALcode specific, but this is * a convenient place to put these definitions. * * XXX This is clipped at 63 so that we can use `long's for proc bitmasks. */ #define ALPHA_WHAMI_MAXID 63 #define ALPHA_MAXPROCS (ALPHA_WHAMI_MAXID + 1) /* * Misc. support routines. */ const char *alpha_dsr_sysname(void); /* * Stubs for Alpha instructions normally inaccessible from C. */ unsigned long alpha_amask(unsigned long); unsigned long alpha_implver(void); #endif /* _KERNEL */ /* XXX Expose the insn wrappers to userspace, for now. */ static __inline unsigned long alpha_rpcc(void) { unsigned long v0; __asm __volatile("rpcc %0" : "=r" (v0)); return (v0); } #define alpha_mb() __asm __volatile("mb" : : : "memory") #define alpha_wmb() __asm __volatile("mb" : : : "memory") /* XXX */ #if defined(_KERNEL) || defined(_STANDALONE) /* * Stubs for OSF/1 PALcode operations. */ #include void alpha_pal_cflush(unsigned long); void alpha_pal_halt(void) __attribute__((__noreturn__)); unsigned long _alpha_pal_swpipl(unsigned long); /* for profiling */ void alpha_pal_wrent(void *, unsigned long); void alpha_pal_wrvptptr(unsigned long); #define alpha_pal_draina() __asm __volatile("call_pal %0 # PAL_draina" \ : : "i" (PAL_draina) : "memory") #define alpha_pal_imb() __asm __volatile("call_pal %0 # PAL_imb" \ : : "i" (PAL_imb) : "memory") static __inline unsigned long alpha_pal_rdmces(void) { register unsigned long v0 __asm("$0"); __asm __volatile("call_pal %1 # PAL_OSF1_rdmces" : "=r" (v0) : "i" (PAL_OSF1_rdmces) /* clobbers t0, t8..t11 */ : "$1", "$22", "$23", "$24", "$25"); return (v0); } static __inline unsigned long alpha_pal_rdps(void) { register unsigned long v0 __asm("$0"); __asm __volatile("call_pal %1 # PAL_OSF1_rdps" : "=r" (v0) : "i" (PAL_OSF1_rdps) /* clobbers t0, t8..t11 */ : "$1", "$22", "$23", "$24", "$25"); return (v0); } static __inline unsigned long alpha_pal_rdusp(void) { register unsigned long v0 __asm("$0"); __asm __volatile("call_pal %1 # PAL_OSF1_rdusp" : "=r" (v0) : "i" (PAL_OSF1_rdusp) /* clobbers t0, t8..t11 */ : "$1", "$22", "$23", "$24", "$25"); return (v0); } static __inline unsigned long alpha_pal_rdval(void) { register unsigned long v0 __asm("$0"); __asm __volatile("call_pal %1 # PAL_OSF1_rdval" : "=r" (v0) : "i" (PAL_OSF1_rdval) /* clobbers t0, t8..t11 */ : "$1", "$22", "$23", "$24", "$25"); return (v0); } static __inline unsigned long alpha_pal_swpctx(unsigned long ctx) { register unsigned long a0 __asm("$16") = ctx; register unsigned long v0 __asm("$0"); __asm __volatile("call_pal %2 # PAL_OSF1_swpctx" : "=r" (a0), "=r" (v0) : "i" (PAL_OSF1_swpctx), "0" (a0) /* clobbers t0, t8..t11, a0 (above) */ : "$1", "$22", "$23", "$24", "$25", "memory"); return (v0); } static __inline unsigned long alpha_pal_swpipl(unsigned long ipl) { register unsigned long a0 __asm("$16") = ipl; register unsigned long v0 __asm("$0"); __asm __volatile("call_pal %2 # PAL_OSF1_swpipl" : "=r" (a0), "=r" (v0) : "i" (PAL_OSF1_swpipl), "0" (a0) /* clobbers t0, t8..t11, a0 (above) */ : "$1", "$22", "$23", "$24", "$25", "memory"); return (v0); } static __inline void alpha_pal_tbi(unsigned long op, vaddr_t va) { register unsigned long a0 __asm("$16") = op; register unsigned long a1 __asm("$17") = va; __asm __volatile("call_pal %2 # PAL_OSF1_tbi" : "=r" (a0), "=r" (a1) : "i" (PAL_OSF1_tbi), "0" (a0), "1" (a1) /* clobbers t0, t8..t11, a0 (above), a1 (above) */ : "$1", "$22", "$23", "$24", "$25"); } static __inline unsigned long alpha_pal_whami(void) { register unsigned long v0 __asm("$0"); __asm __volatile("call_pal %1 # PAL_OSF1_whami" : "=r" (v0) : "i" (PAL_OSF1_whami) /* clobbers t0, t8..t11 */ : "$1", "$22", "$23", "$24", "$25"); return (v0); } static __inline void alpha_pal_wrfen(unsigned long onoff) { register unsigned long a0 __asm("$16") = onoff; __asm __volatile("call_pal %1 # PAL_OSF1_wrfen" : "=r" (a0) : "i" (PAL_OSF1_wrfen), "0" (a0) /* clobbers t0, t8..t11, a0 (above) */ : "$1", "$22", "$23", "$24", "$25"); } static __inline void alpha_pal_wripir(unsigned long cpu_id) { register unsigned long a0 __asm("$16") = cpu_id; __asm __volatile("call_pal %1 # PAL_ipir" : "=r" (a0) : "i" (PAL_ipir), "0" (a0) /* clobbers t0, t8..t11, a0 (above) */ : "$1", "$22", "$23", "$24", "$25"); } static __inline void alpha_pal_wrusp(unsigned long usp) { register unsigned long a0 __asm("$16") = usp; __asm __volatile("call_pal %1 # PAL_OSF1_wrusp" : "=r" (a0) : "i" (PAL_OSF1_wrusp), "0" (a0) /* clobbers t0, t8..t11, a0 (above) */ : "$1", "$22", "$23", "$24", "$25"); } static __inline void alpha_pal_wrmces(unsigned long mces) { register unsigned long a0 __asm("$16") = mces; __asm __volatile("call_pal %1 # PAL_OSF1_wrmces" : "=r" (a0) : "i" (PAL_OSF1_wrmces), "0" (a0) /* clobbers t0, t8..t11 */ : "$1", "$22", "$23", "$24", "$25"); } static __inline void alpha_pal_wrval(unsigned long val) { register unsigned long a0 __asm("$16") = val; __asm __volatile("call_pal %1 # PAL_OSF1_wrval" : "=r" (a0) : "i" (PAL_OSF1_wrval), "0" (a0) /* clobbers t0, t8..t11, a0 (above) */ : "$1", "$22", "$23", "$24", "$25"); } #endif /* _KERNEL */ #endif /* __ALPHA_ALPHA_CPU_H__ */