/* $NetBSD: cpu.h,v 1.109 2013/11/10 17:18:32 christos Exp $ */ /*- * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Ralph Campbell and Rick Macklem. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#)cpu.h 8.4 (Berkeley) 1/4/94 */ #ifndef _CPU_H_ #define _CPU_H_ #include /* * Exported definitions unique to NetBSD/mips cpu support. */ #ifdef _KERNEL #if defined(_KERNEL_OPT) #include "opt_cputype.h" #include "opt_lockdebug.h" #include "opt_multiprocessor.h" #endif #ifndef _LOCORE #include #include #include typedef struct cpu_watchpoint { register_t cw_addr; register_t cw_mask; uint32_t cw_asid; uint32_t cw_mode; } cpu_watchpoint_t; /* (abstract) mode bits */ #define CPUWATCH_WRITE __BIT(0) #define CPUWATCH_READ __BIT(1) #define CPUWATCH_EXEC __BIT(2) #define CPUWATCH_MASK __BIT(3) #define CPUWATCH_ASID __BIT(4) #define CPUWATCH_RWX (CPUWATCH_EXEC|CPUWATCH_READ|CPUWATCH_WRITE) #define CPUWATCH_MAX 8 /* max possible number of watchpoints */ u_int cpuwatch_discover(void); void cpuwatch_free(cpu_watchpoint_t *); cpu_watchpoint_t *cpuwatch_alloc(void); void cpuwatch_set_all(void); void cpuwatch_clr_all(void); void cpuwatch_set(cpu_watchpoint_t *); void cpuwatch_clr(cpu_watchpoint_t *); struct cpu_info { struct cpu_data ci_data; /* MI per-cpu data */ struct cpu_info *ci_next; /* Next CPU in list */ struct cpu_softc *ci_softc; /* chip-dependent hook */ device_t ci_dev; /* owning device */ cpuid_t ci_cpuid; /* Machine-level identifier */ u_long ci_cctr_freq; /* cycle counter frequency */ u_long ci_cpu_freq; /* CPU frequency */ u_long ci_cycles_per_hz; /* CPU freq / hz */ u_long ci_divisor_delay; /* for delay/DELAY */ u_long ci_divisor_recip; /* unused, for obsolete microtime(9) */ struct lwp *ci_curlwp; /* currently running lwp */ volatile int ci_want_resched; /* user preemption pending */ int ci_mtx_count; /* negative count of held mutexes */ int ci_mtx_oldspl; /* saved SPL value */ int ci_idepth; /* hardware interrupt depth */ int ci_cpl; /* current [interrupt] priority level */ uint32_t ci_next_cp0_clk_intr; /* for hard clock intr scheduling */ struct evcnt ci_ev_count_compare; /* hard clock intr counter */ struct evcnt ci_ev_count_compare_missed; /* hard clock miss counter */ struct lwp *ci_softlwps[SOFTINT_COUNT]; volatile u_int ci_softints; struct evcnt ci_ev_fpu_loads; /* fpu load counter */ struct evcnt ci_ev_fpu_saves; /* fpu save counter */ struct evcnt ci_ev_dsp_loads; /* dsp load counter */ struct evcnt ci_ev_dsp_saves; /* dsp save counter */ struct evcnt ci_ev_tlbmisses; /* * Per-cpu pmap information */ int ci_tlb_slot; /* reserved tlb entry for cpu_info */ u_int ci_pmap_asid_cur; /* current ASID */ struct pmap_tlb_info *ci_tlb_info; /* tlb information for this cpu */ union segtab *ci_pmap_seg0tab; #ifdef _LP64 union segtab *ci_pmap_segtab; #else vaddr_t ci_pmap_srcbase; /* starting VA of ephemeral src space */ vaddr_t ci_pmap_dstbase; /* starting VA of ephemeral dst space */ #endif u_int ci_cpuwatch_count; /* number of watchpoints on this CPU */ cpu_watchpoint_t ci_cpuwatch_tab[CPUWATCH_MAX]; #ifdef MULTIPROCESSOR volatile u_long ci_flags; volatile uint64_t ci_request_ipis; /* bitmask of IPIs requested */ /* use on chips where hw cannot pass tag */ uint64_t ci_active_ipis; /* bitmask of IPIs being serviced */ uint32_t ci_ksp_tlb_slot; /* tlb entry for kernel stack */ struct evcnt ci_evcnt_all_ipis; /* aggregated IPI counter */ struct evcnt ci_evcnt_per_ipi[NIPIS]; /* individual IPI counters*/ struct evcnt ci_evcnt_synci_activate_rqst; struct evcnt ci_evcnt_synci_onproc_rqst; struct evcnt ci_evcnt_synci_deferred_rqst; struct evcnt ci_evcnt_synci_ipi_rqst; #define CPUF_PRIMARY 0x01 /* CPU is primary CPU */ #define CPUF_PRESENT 0x02 /* CPU is present */ #define CPUF_RUNNING 0x04 /* CPU is running */ #define CPUF_PAUSED 0x08 /* CPU is paused */ #define CPUF_USERPMAP 0x20 /* CPU has a user pmap activated */ #endif }; #define CPU_INFO_ITERATOR int __unused #define CPU_INFO_FOREACH(cii, ci) \ ci = &cpu_info_store; ci != NULL; ci = ci->ci_next #endif /* !_LOCORE */ #endif /* _KERNEL */ /* * CTL_MACHDEP definitions. */ #define CPU_CONSDEV 1 /* dev_t: console terminal device */ #define CPU_BOOTED_KERNEL 2 /* string: booted kernel name */ #define CPU_ROOT_DEVICE 3 /* string: root device name */ #define CPU_LLSC 4 /* OS/CPU supports LL/SC instruction */ #define CPU_LMMI 5 /* Loongson multimedia instructions */ /* * Platform can override, but note this breaks userland compatibility * with other mips platforms. */ #ifndef CPU_MAXID #define CPU_MAXID 5 /* number of valid machdep ids */ #endif #ifdef _KERNEL #if defined(_MODULAR) || defined(_LKM) || defined(_STANDALONE) /* Assume all CPU architectures are valid for LKM's and standlone progs */ #define MIPS1 1 #define MIPS3 1 #define MIPS4 1 #define MIPS32 1 #define MIPS32R2 1 #define MIPS64 1 #define MIPS64R2 1 #endif #if (MIPS1 + MIPS3 + MIPS4 + MIPS32 + MIPS32R2 + MIPS64 + MIPS64R2) == 0 #error at least one of MIPS1, MIPS3, MIPS4, MIPS32, MIPS32R2, MIPS64, or MIPS64RR2 must be specified #endif /* Shortcut for MIPS3 or above defined */ #if defined(MIPS3) || defined(MIPS4) \ || defined(MIPS32) || defined(MIPS32R2) \ || defined(MIPS64) || defined(MIPS64R2) #define MIPS3_PLUS 1 #define __HAVE_CPU_COUNTER #else #undef MIPS3_PLUS #endif /* * Macros to find the CPU architecture we're on at run-time, * or if possible, at compile-time. */ #define CPU_ARCH_MIPSx 0 /* XXX unknown */ #define CPU_ARCH_MIPS1 (1 << 0) #define CPU_ARCH_MIPS2 (1 << 1) #define CPU_ARCH_MIPS3 (1 << 2) #define CPU_ARCH_MIPS4 (1 << 3) #define CPU_ARCH_MIPS5 (1 << 4) #define CPU_ARCH_MIPS32 (1 << 5) #define CPU_ARCH_MIPS64 (1 << 6) #define CPU_ARCH_MIPS32R2 (1 << 7) #define CPU_ARCH_MIPS64R2 (1 << 8) /* Note: must be kept in sync with -ffixed-?? Makefile.mips. */ #define MIPS_CURLWP $24 #define MIPS_CURLWP_QUOTED "$24" #define MIPS_CURLWP_LABEL _L_T8 #define MIPS_CURLWP_REG _R_T8 #define TF_MIPS_CURLWP(x) TF_REG_T8(x) #ifndef _LOCORE extern struct cpu_info cpu_info_store; register struct lwp *mips_curlwp asm(MIPS_CURLWP_QUOTED); #define curlwp mips_curlwp #define curcpu() (curlwp->l_cpu) #define curpcb ((struct pcb *)lwp_getpcb(curlwp)) #ifdef MULTIPROCESSOR #define cpu_number() (curcpu()->ci_index) #define CPU_IS_PRIMARY(ci) ((ci)->ci_flags & CPUF_PRIMARY) #else #define cpu_number() (0) #define CPU_IS_PRIMARY(ci) (true) #endif /* XXX simonb * Should the following be in a cpu_info type structure? * And how many of these are per-cpu vs. per-system? (Ie, * we can assume that all cpus have the same mmu-type, but * maybe not that all cpus run at the same clock speed. * Some SGI's apparently support R12k and R14k in the same * box.) */ struct mips_options { const struct pridtab *mips_cpu; u_int mips_cpu_arch; u_int mips_cpu_mhz; /* CPU speed in MHz, estimated by mc_cpuspeed(). */ u_int mips_cpu_flags; u_int mips_num_tlb_entries; mips_prid_t mips_cpu_id; mips_prid_t mips_fpu_id; bool mips_has_r4k_mmu; bool mips_has_llsc; u_int mips3_pg_shift; u_int mips3_pg_cached; u_int mips3_cca_devmem; #ifdef MIPS3_PLUS #ifdef _LP64 uint64_t mips3_xkphys_cached; #endif uint64_t mips3_tlb_vpn_mask; uint64_t mips3_tlb_pfn_mask; uint32_t mips3_tlb_pg_mask; #endif }; extern struct mips_options mips_options; #define CPU_MIPS_R4K_MMU 0x0001 #define CPU_MIPS_NO_LLSC 0x0002 #define CPU_MIPS_CAUSE_IV 0x0004 #define CPU_MIPS_HAVE_SPECIAL_CCA 0x0008 /* Defaults to '3' if not set. */ #define CPU_MIPS_CACHED_CCA_MASK 0x0070 #define CPU_MIPS_CACHED_CCA_SHIFT 4 #define CPU_MIPS_DOUBLE_COUNT 0x0080 /* 1 cp0 count == 2 clock cycles */ #define CPU_MIPS_USE_WAIT 0x0100 /* Use "wait"-based cpu_idle() */ #define CPU_MIPS_NO_WAIT 0x0200 /* Inverse of previous, for mips32/64 */ #define CPU_MIPS_D_CACHE_COHERENT 0x0400 /* D-cache is fully coherent */ #define CPU_MIPS_I_D_CACHE_COHERENT 0x0800 /* I-cache funcs don't need to flush the D-cache */ #define CPU_MIPS_NO_LLADDR 0x1000 #define CPU_MIPS_HAVE_MxCR 0x2000 /* have mfcr, mtcr insns */ #define CPU_MIPS_LOONGSON2 0x4000 #define MIPS_NOT_SUPP 0x8000 #define CPU_MIPS_HAVE_DSP 0x10000 #endif /* !_LOCORE */ #if ((MIPS1 + MIPS3 + MIPS4 + MIPS32 + MIPS32R2 + MIPS64 + MIPS64R2) == 1) || defined(_LOCORE) #if defined(MIPS1) # define CPUISMIPS3 0 # define CPUIS64BITS 0 # define CPUISMIPS32 0 # define CPUISMIPS32R2 0 # define CPUISMIPS64 0 # define CPUISMIPS64R2 0 # define CPUISMIPSNN 0 # define MIPS_HAS_R4K_MMU 0 # define MIPS_HAS_CLOCK 0 # define MIPS_HAS_LLSC 0 # define MIPS_HAS_LLADDR 0 # define MIPS_HAS_DSP 0 # define MIPS_HAS_LMMI 0 #elif defined(MIPS3) || defined(MIPS4) # define CPUISMIPS3 1 # define CPUIS64BITS 1 # define CPUISMIPS32 0 # define CPUISMIPS32R2 0 # define CPUISMIPS64 0 # define CPUISMIPS64R2 0 # define CPUISMIPSNN 0 # define MIPS_HAS_R4K_MMU 1 # define MIPS_HAS_CLOCK 1 # if defined(_LOCORE) # if !defined(MIPS3_4100) # define MIPS_HAS_LLSC 1 # else # define MIPS_HAS_LLSC 0 # endif # else /* _LOCORE */ # define MIPS_HAS_LLSC (mips_options.mips_has_llsc) # endif /* _LOCORE */ # define MIPS_HAS_LLADDR ((mips_options.mips_cpu_flags & CPU_MIPS_NO_LLADDR) == 0) # define MIPS_HAS_DSP 0 # if defined(MIPS3_LOONGSON2) # define MIPS_HAS_LMMI ((mips_options.mips_cpu_flags & CPU_MIPS_LOONGSON2) != 0) # else # define MIPS_HAS_LMMI 0 # endif #elif defined(MIPS32) # define CPUISMIPS3 1 # define CPUIS64BITS 0 # define CPUISMIPS32 1 # define CPUISMIPS32R2 0 # define CPUISMIPS64 0 # define CPUISMIPS64R2 0 # define CPUISMIPSNN 1 # define MIPS_HAS_R4K_MMU 1 # define MIPS_HAS_CLOCK 1 # define MIPS_HAS_LLSC 1 # define MIPS_HAS_LLADDR ((mips_options.mips_cpu_flags & CPU_MIPS_NO_LLADDR) == 0) # define MIPS_HAS_DSP 0 # define MIPS_HAS_LMMI 0 #elif defined(MIPS32R2) # define CPUISMIPS3 1 # define CPUIS64BITS 0 # define CPUISMIPS32 0 # define CPUISMIPS32R2 1 # define CPUISMIPS64 0 # define CPUISMIPS64R2 0 # define CPUISMIPSNN 1 # define MIPS_HAS_R4K_MMU 1 # define MIPS_HAS_CLOCK 1 # define MIPS_HAS_LLSC 1 # define MIPS_HAS_LLADDR ((mips_options.mips_cpu_flags & CPU_MIPS_NO_LLADDR) == 0) # define MIPS_HAS_DSP (mips_options.mips_cpu_flags & CPU_MIPS_HAVE_DSP) # define MIPS_HAS_LMMI 0 #elif defined(MIPS64) # define CPUISMIPS3 1 # define CPUIS64BITS 1 # define CPUISMIPS32 0 # define CPUISMIPS32R2 0 # define CPUISMIPS64 1 # define CPUISMIPS64R2 0 # define CPUISMIPSNN 1 # define MIPS_HAS_R4K_MMU 1 # define MIPS_HAS_CLOCK 1 # define MIPS_HAS_LLSC 1 # define MIPS_HAS_LLADDR ((mips_options.mips_cpu_flags & CPU_MIPS_NO_LLADDR) == 0) # define MIPS_HAS_DSP 0 # define MIPS_HAS_LMMI 0 #elif defined(MIPS64R2) # define CPUISMIPS3 1 # define CPUIS64BITS 1 # define CPUISMIPS32 0 # define CPUISMIPS32R2 0 # define CPUISMIPS64 0 # define CPUISMIPS64R2 1 # define CPUISMIPSNN 1 # define MIPS_HAS_R4K_MMU 1 # define MIPS_HAS_CLOCK 1 # define MIPS_HAS_LLSC 1 # define MIPS_HAS_LLADDR ((mips_options.mips_cpu_flags & CPU_MIPS_NO_LLADDR) == 0) # define MIPS_HAS_DSP (mips_options.mips_cpu_flags & CPU_MIPS_HAVE_DSP) # define MIPS_HAS_LMMI 0 #endif #else /* run-time test */ #ifndef _LOCORE #define MIPS_HAS_R4K_MMU (mips_options.mips_has_r4k_mmu) #define MIPS_HAS_LLSC (mips_options.mips_has_llsc) #define MIPS_HAS_LLADDR ((mips_options.mips_cpu_flags & CPU_MIPS_NO_LLADDR) == 0) # define MIPS_HAS_DSP (mips_options.mips_cpu_flags & CPU_MIPS_HAVE_DSP) /* This test is ... rather bogus */ #define CPUISMIPS3 ((mips_options.mips_cpu_arch & \ (CPU_ARCH_MIPS3 | CPU_ARCH_MIPS4 | CPU_ARCH_MIPS32 | CPU_ARCH_MIPS64)) != 0) /* And these aren't much better while the previous test exists as is... */ #define CPUISMIPS4 ((mips_options.mips_cpu_arch & CPU_ARCH_MIPS4) != 0) #define CPUISMIPS5 ((mips_options.mips_cpu_arch & CPU_ARCH_MIPS5) != 0) #define CPUISMIPS32 ((mips_options.mips_cpu_arch & CPU_ARCH_MIPS32) != 0) #define CPUISMIPS32R2 ((mips_options.mips_cpu_arch & CPU_ARCH_MIPS32R2) != 0) #define CPUISMIPS64 ((mips_options.mips_cpu_arch & CPU_ARCH_MIPS64) != 0) #define CPUISMIPS64R2 ((mips_options.mips_cpu_arch & CPU_ARCH_MIPS64R2) != 0) #define CPUISMIPSNN ((mips_options.mips_cpu_arch & (CPU_ARCH_MIPS32 | CPU_ARCH_MIPS32R2 | CPU_ARCH_MIPS64 | CPU_ARCH_MIPS64R2)) != 0) #define CPUIS64BITS ((mips_options.mips_cpu_arch & \ (CPU_ARCH_MIPS3 | CPU_ARCH_MIPS4 | CPU_ARCH_MIPS64 | CPU_ARCH_MIPS64R2)) != 0) #define MIPS_HAS_CLOCK (mips_options.mips_cpu_arch >= CPU_ARCH_MIPS3) #else /* !_LOCORE */ #define MIPS_HAS_LLSC 0 #endif /* !_LOCORE */ #endif /* run-time test */ #ifndef _LOCORE /* * definitions of cpu-dependent requirements * referenced in generic code */ /* * Send an inter-processor interupt to each other CPU (excludes curcpu()) */ void cpu_broadcast_ipi(int); /* * Send an inter-processor interupt to CPUs in cpuset (excludes curcpu()) */ void cpu_multicast_ipi(__cpuset_t, int); /* * Send an inter-processor interupt to another CPU. */ int cpu_send_ipi(struct cpu_info *, int); /* * cpu_intr(ppl, pc, status); (most state needed by clockframe) */ void cpu_intr(int, vaddr_t, uint32_t); /* * Arguments to hardclock and gatherstats encapsulate the previous * machine state in an opaque clockframe. */ struct clockframe { vaddr_t pc; /* program counter at time of interrupt */ uint32_t sr; /* status register at time of interrupt */ bool intr; /* interrupted a interrupt */ }; /* * A port must provde CLKF_USERMODE() for use in machine-independent code. * These differ on r4000 and r3000 systems; provide them in the * port-dependent file that includes this one, using the macros below. */ /* mips1 versions */ #define MIPS1_CLKF_USERMODE(framep) ((framep)->sr & MIPS_SR_KU_PREV) /* mips3 versions */ #define MIPS3_CLKF_USERMODE(framep) ((framep)->sr & MIPS_SR_KSU_USER) #define CLKF_PC(framep) ((framep)->pc) #define CLKF_INTR(framep) ((framep)->intr) #if defined(MIPS3_PLUS) && !defined(MIPS1) /* XXX bogus! */ #define CLKF_USERMODE(framep) MIPS3_CLKF_USERMODE(framep) #endif #if !defined(MIPS3_PLUS) && defined(MIPS1) /* XXX bogus! */ #define CLKF_USERMODE(framep) MIPS1_CLKF_USERMODE(framep) #endif #if defined(MIPS3_PLUS) && defined(MIPS1) /* XXX bogus! */ #define CLKF_USERMODE(framep) \ ((CPUISMIPS3) ? MIPS3_CLKF_USERMODE(framep): MIPS1_CLKF_USERMODE(framep)) #endif /* * Misc prototypes and variable declarations. */ #define LWP_PC(l) cpu_lwp_pc(l) struct proc; struct lwp; struct pcb; struct reg; /* * Preempt the current process if in interrupt from user mode, * or after the current trap/syscall if in system mode. */ void cpu_need_resched(struct cpu_info *, int); /* * Notify the current lwp (l) that it has a signal pending, * process as soon as possible. */ void cpu_signotify(struct lwp *); /* * Give a profiling tick to the current process when the user profiling * buffer pages are invalid. On the MIPS, request an ast to send us * through trap, marking the proc as needing a profiling tick. */ void cpu_need_proftick(struct lwp *); void cpu_set_curpri(int); extern int mips_poolpage_vmfreelist; /* freelist to allocate poolpages */ struct cpu_info * cpu_info_alloc(struct pmap_tlb_info *, cpuid_t, cpuid_t, cpuid_t, cpuid_t); void cpu_attach_common(device_t, struct cpu_info *); void cpu_startup_common(void); #ifdef _LP64 void cpu_vmspace_exec(struct lwp *, vaddr_t, vaddr_t); #endif #ifdef MULTIPROCESSOR void cpu_hatch(struct cpu_info *ci); void cpu_trampoline(void); void cpu_boot_secondary_processors(void); void cpu_halt(void); void cpu_halt_others(void); void cpu_pause(struct reg *); void cpu_pause_others(void); void cpu_resume(int); void cpu_resume_others(void); int cpu_is_paused(int); void cpu_debug_dump(void); extern volatile __cpuset_t cpus_running; extern volatile __cpuset_t cpus_hatched; extern volatile __cpuset_t cpus_paused; extern volatile __cpuset_t cpus_resumed; extern volatile __cpuset_t cpus_halted; #endif /* copy.S */ int32_t kfetch_32(volatile uint32_t *, uint32_t); int8_t ufetch_int8(void *); int16_t ufetch_int16(void *); int32_t ufetch_int32(void *); uint8_t ufetch_uint8(void *); uint16_t ufetch_uint16(void *); uint32_t ufetch_uint32(void *); int8_t ufetch_int8_intrsafe(void *); int16_t ufetch_int16_intrsafe(void *); int32_t ufetch_int32_intrsafe(void *); uint8_t ufetch_uint8_intrsafe(void *); uint16_t ufetch_uint16_intrsafe(void *); uint32_t ufetch_uint32_intrsafe(void *); #ifdef _LP64 int64_t ufetch_int64(void *); uint64_t ufetch_uint64(void *); int64_t ufetch_int64_intrsafe(void *); uint64_t ufetch_uint64_intrsafe(void *); #endif char ufetch_char(void *); short ufetch_short(void *); int ufetch_int(void *); long ufetch_long(void *); char ufetch_char_intrsafe(void *); short ufetch_short_intrsafe(void *); int ufetch_int_intrsafe(void *); long ufetch_long_intrsafe(void *); u_char ufetch_uchar(void *); u_short ufetch_ushort(void *); u_int ufetch_uint(void *); u_long ufetch_ulong(void *); u_char ufetch_uchar_intrsafe(void *); u_short ufetch_ushort_intrsafe(void *); u_int ufetch_uint_intrsafe(void *); u_long ufetch_ulong_intrsafe(void *); void *ufetch_ptr(void *); int ustore_int8(void *, int8_t); int ustore_int16(void *, int16_t); int ustore_int32(void *, int32_t); int ustore_uint8(void *, uint8_t); int ustore_uint16(void *, uint16_t); int ustore_uint32(void *, uint32_t); int ustore_int8_intrsafe(void *, int8_t); int ustore_int16_intrsafe(void *, int16_t); int ustore_int32_intrsafe(void *, int32_t); int ustore_uint8_intrsafe(void *, uint8_t); int ustore_uint16_intrsafe(void *, uint16_t); int ustore_uint32_intrsafe(void *, uint32_t); #ifdef _LP64 int ustore_int64(void *, int64_t); int ustore_uint64(void *, uint64_t); int ustore_int64_intrsafe(void *, int64_t); int ustore_uint64_intrsafe(void *, uint64_t); #endif int ustore_char(void *, char); int ustore_char_intrsafe(void *, char); int ustore_short(void *, short); int ustore_short_intrsafe(void *, short); int ustore_int(void *, int); int ustore_int_intrsafe(void *, int); int ustore_long(void *, long); int ustore_long_intrsafe(void *, long); int ustore_uchar(void *, u_char); int ustore_uchar_intrsafe(void *, u_char); int ustore_ushort(void *, u_short); int ustore_ushort_intrsafe(void *, u_short); int ustore_uint(void *, u_int); int ustore_uint_intrsafe(void *, u_int); int ustore_ulong(void *, u_long); int ustore_ulong_intrsafe(void *, u_long); int ustore_ptr(void *, void *); int ustore_ptr_intrsafe(void *, void *); int ustore_uint32_isync(void *, uint32_t); /* trap.c */ void netintr(void); int kdbpeek(vaddr_t); /* mips_dsp.c */ void dsp_init(void); void dsp_discard(void); void dsp_load(void); void dsp_save(void); bool dsp_used_p(void); extern const pcu_ops_t mips_dsp_ops; /* mips_fpu.c */ void fpu_init(void); void fpu_discard(void); void fpu_load(void); void fpu_save(void); bool fpu_used_p(void); extern const pcu_ops_t mips_fpu_ops; /* mips_machdep.c */ void dumpsys(void); int savectx(struct pcb *); void cpu_identify(device_t); /* locore*.S */ int badaddr(void *, size_t); int badaddr64(uint64_t, size_t); /* vm_machdep.c */ void * cpu_uarea_alloc(bool); bool cpu_uarea_free(void *); void cpu_proc_fork(struct proc *, struct proc *); vaddr_t cpu_lwp_pc(struct lwp *); int ioaccess(vaddr_t, paddr_t, vsize_t); int iounaccess(vaddr_t, vsize_t); #endif /* ! _LOCORE */ #endif /* _KERNEL */ #endif /* _CPU_H_ */