arm/include/locore.h

1.4.2.3  rmind /*	$NetBSD: locore.h,v 1.4.2.3 2014/05/18 17:44:58 rmind Exp $	*/
1.4.2.2  rmind
1.4.2.2  rmind /*
1.4.2.2  rmind  * Copyright (c) 1994-1996 Mark Brinicombe.
1.4.2.2  rmind  * Copyright (c) 1994 Brini.
1.4.2.2  rmind  * All rights reserved.
1.4.2.2  rmind  *
1.4.2.2  rmind  * This code is derived from software written for Brini by Mark Brinicombe
1.4.2.2  rmind  *
1.4.2.2  rmind  * Redistribution and use in source and binary forms, with or without
1.4.2.2  rmind  * modification, are permitted provided that the following conditions
1.4.2.2  rmind  * are met:
1.4.2.2  rmind  * 1. Redistributions of source code must retain the above copyright
1.4.2.2  rmind  *    notice, this list of conditions and the following disclaimer.
1.4.2.2  rmind  * 2. Redistributions in binary form must reproduce the above copyright
1.4.2.2  rmind  *    notice, this list of conditions and the following disclaimer in the
1.4.2.2  rmind  *    documentation and/or other materials provided with the distribution.
1.4.2.2  rmind  * 3. All advertising materials mentioning features or use of this software
1.4.2.2  rmind  *    must display the following acknowledgement:
1.4.2.2  rmind  *	This product includes software developed by Brini.
1.4.2.2  rmind  * 4. The name of the company nor the name of the author may be used to
1.4.2.2  rmind  *    endorse or promote products derived from this software without specific
1.4.2.2  rmind  *    prior written permission.
1.4.2.2  rmind  *
1.4.2.2  rmind  * THIS SOFTWARE IS PROVIDED BY BRINI ``AS IS'' AND ANY EXPRESS OR IMPLIED
1.4.2.2  rmind  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
1.4.2.2  rmind  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.4.2.2  rmind  * IN NO EVENT SHALL BRINI OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
1.4.2.2  rmind  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
1.4.2.2  rmind  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
1.4.2.2  rmind  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.4.2.2  rmind  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.4.2.2  rmind  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.4.2.2  rmind  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.4.2.2  rmind  * SUCH DAMAGE.
1.4.2.2  rmind  *
1.4.2.2  rmind  * RiscBSD kernel project
1.4.2.2  rmind  *
1.4.2.2  rmind  * cpu.h
1.4.2.2  rmind  *
1.4.2.2  rmind  * CPU specific symbols
1.4.2.2  rmind  *
1.4.2.2  rmind  * Created      : 18/09/94
1.4.2.2  rmind  *
1.4.2.2  rmind  * Based on kate/katelib/arm6.h
1.4.2.2  rmind  */
1.4.2.2  rmind
1.4.2.2  rmind #ifndef _ARM_LOCORE_H_
1.4.2.2  rmind #define _ARM_LOCORE_H_
1.4.2.2  rmind
1.4.2.2  rmind #ifdef _KERNEL_OPT
1.4.2.2  rmind #include "opt_cpuoptions.h"
1.4.2.2  rmind #include "opt_cputypes.h"
1.4.2.3  rmind #include "opt_arm_debug.h"
1.4.2.2  rmind #endif
1.4.2.2  rmind
1.4.2.2  rmind #include <arm/cpuconf.h>
1.4.2.2  rmind #include <arm/armreg.h>
1.4.2.2  rmind
1.4.2.2  rmind #include <machine/frame.h>
1.4.2.2  rmind
1.4.2.2  rmind #ifdef _LOCORE
1.4.2.2  rmind
1.4.2.2  rmind #if defined(_ARM_ARCH_6)
1.4.2.2  rmind #define IRQdisable	cpsid	i
1.4.2.2  rmind #define IRQenable	cpsie	i
1.4.2.2  rmind #elif defined(__PROG32)
1.4.2.2  rmind #define IRQdisable \
1.4.2.2  rmind 	stmfd	sp!, {r0} ; \
1.4.2.2  rmind 	mrs	r0, cpsr ; \
1.4.2.2  rmind 	orr	r0, r0, #(I32_bit) ; \
1.4.2.2  rmind 	msr	cpsr_c, r0 ; \
1.4.2.2  rmind 	ldmfd	sp!, {r0}
1.4.2.2  rmind
1.4.2.2  rmind #define IRQenable \
1.4.2.2  rmind 	stmfd	sp!, {r0} ; \
1.4.2.2  rmind 	mrs	r0, cpsr ; \
1.4.2.2  rmind 	bic	r0, r0, #(I32_bit) ; \
1.4.2.2  rmind 	msr	cpsr_c, r0 ; \
1.4.2.2  rmind 	ldmfd	sp!, {r0}
1.4.2.2  rmind #else
1.4.2.2  rmind /* Not yet used in 26-bit code */
1.4.2.2  rmind #endif
1.4.2.2  rmind
1.4.2.2  rmind #if defined (TPIDRPRW_IS_CURCPU)
1.4.2.2  rmind #define GET_CURCPU(rX)		mrc	p15, 0, rX, c13, c0, 4
1.4.2.2  rmind #define GET_CURLWP(rX)		GET_CURCPU(rX); ldr rX, [rX, #CI_CURLWP]
1.4.2.2  rmind #elif defined (TPIDRPRW_IS_CURLWP)
1.4.2.2  rmind #define GET_CURLWP(rX)		mrc	p15, 0, rX, c13, c0, 4
1.4.2.2  rmind #define GET_CURCPU(rX)		GET_CURLWP(rX); ldr rX, [rX, #L_CPU]
1.4.2.2  rmind #elif !defined(MULTIPROCESSOR)
1.4.2.2  rmind #define GET_CURCPU(rX)		ldr rX, =_C_LABEL(cpu_info_store)
1.4.2.2  rmind #define GET_CURLWP(rX)		GET_CURCPU(rX); ldr rX, [rX, #CI_CURLWP]
1.4.2.2  rmind #endif
1.4.2.2  rmind #define GET_CURPCB(rX)		GET_CURLWP(rX); ldr rX, [rX, #L_PCB]
1.4.2.2  rmind
1.4.2.2  rmind #else /* !_LOCORE */
1.4.2.2  rmind
1.4.2.2  rmind #include <arm/cpufunc.h>
1.4.2.2  rmind
1.4.2.2  rmind #ifdef __PROG32
1.4.2.2  rmind #define IRQdisable __set_cpsr_c(I32_bit, I32_bit);
1.4.2.2  rmind #define IRQenable __set_cpsr_c(I32_bit, 0);
1.4.2.2  rmind #else
1.4.2.2  rmind #define IRQdisable set_r15(R15_IRQ_DISABLE, R15_IRQ_DISABLE);
1.4.2.2  rmind #define IRQenable set_r15(R15_IRQ_DISABLE, 0);
1.4.2.2  rmind #endif
1.4.2.2  rmind
1.4.2.2  rmind /*
1.4.2.2  rmind  * Validate a PC or PSR for a user process.  Used by various system calls
1.4.2.2  rmind  * that take a context passed by the user and restore it.
1.4.2.2  rmind  */
1.4.2.2  rmind
1.4.2.2  rmind #ifdef __PROG32
1.4.2.2  rmind #define VALID_R15_PSR(r15,psr)						\
1.4.2.2  rmind 	(((psr) & PSR_MODE) == PSR_USR32_MODE &&			\
1.4.2.2  rmind 		((psr) & (I32_bit | F32_bit)) == 0)
1.4.2.2  rmind #else
1.4.2.2  rmind #define VALID_R15_PSR(r15,psr)						\
1.4.2.2  rmind 	(((r15) & R15_MODE) == R15_MODE_USR &&				\
1.4.2.2  rmind 		((r15) & (R15_IRQ_DISABLE | R15_FIQ_DISABLE)) == 0)
1.4.2.2  rmind #endif
1.4.2.2  rmind
1.4.2.2  rmind
1.4.2.2  rmind
1.4.2.2  rmind /* The address of the vector page. */
1.4.2.2  rmind extern vaddr_t vector_page;
1.4.2.2  rmind #ifdef __PROG32
1.4.2.2  rmind void	arm32_vector_init(vaddr_t, int);
1.4.2.2  rmind
1.4.2.2  rmind #define	ARM_VEC_RESET			(1 << 0)
1.4.2.2  rmind #define	ARM_VEC_UNDEFINED		(1 << 1)
1.4.2.2  rmind #define	ARM_VEC_SWI			(1 << 2)
1.4.2.2  rmind #define	ARM_VEC_PREFETCH_ABORT		(1 << 3)
1.4.2.2  rmind #define	ARM_VEC_DATA_ABORT		(1 << 4)
1.4.2.2  rmind #define	ARM_VEC_ADDRESS_EXCEPTION	(1 << 5)
1.4.2.2  rmind #define	ARM_VEC_IRQ			(1 << 6)
1.4.2.2  rmind #define	ARM_VEC_FIQ			(1 << 7)
1.4.2.2  rmind
1.4.2.2  rmind #define	ARM_NVEC			8
1.4.2.2  rmind #define	ARM_VEC_ALL			0xffffffff
1.4.2.2  rmind #endif /* __PROG32 */
1.4.2.2  rmind
1.4.2.2  rmind #ifndef acorn26
1.4.2.2  rmind /*
1.4.2.2  rmind  * cpu device glue (belongs in cpuvar.h)
1.4.2.2  rmind  */
1.4.2.2  rmind void	cpu_attach(device_t, cpuid_t);
1.4.2.2  rmind #endif
1.4.2.2  rmind
1.4.2.2  rmind /* 1 == use cpu_sleep(), 0 == don't */
1.4.2.2  rmind extern int cpu_do_powersave;
1.4.2.3  rmind extern int cpu_printfataltraps;
1.4.2.2  rmind extern int cpu_fpu_present;
1.4.2.3  rmind extern int cpu_hwdiv_present;
1.4.2.3  rmind extern int cpu_neon_present;
1.4.2.3  rmind extern int cpu_simd_present;
1.4.2.3  rmind extern int cpu_simdex_present;
1.4.2.3  rmind extern int cpu_umull_present;
1.4.2.3  rmind extern int cpu_synchprim_present;
1.4.2.3  rmind
1.4.2.3  rmind extern int cpu_instruction_set_attributes[6];
1.4.2.3  rmind extern int cpu_memory_model_features[4];
1.4.2.3  rmind extern int cpu_processor_features[2];
1.4.2.3  rmind extern int cpu_media_and_vfp_features[2];
1.4.2.3  rmind
1.4.2.3  rmind extern bool arm_has_tlbiasid_p;
1.4.2.3  rmind #ifdef MULTIPROCESSOR
1.4.2.3  rmind extern u_int arm_cpu_max;
1.4.2.3  rmind extern volatile u_int arm_cpu_hatched;
1.4.2.3  rmind #endif
1.4.2.2  rmind
1.4.2.2  rmind #if !defined(CPU_ARMV7)
1.4.2.2  rmind #define	CPU_IS_ARMV7_P()		false
1.4.2.2  rmind #elif defined(CPU_ARMV6) || defined(CPU_PRE_ARMV6)
1.4.2.2  rmind extern bool cpu_armv7_p;
1.4.2.2  rmind #define	CPU_IS_ARMV7_P()		(cpu_armv7_p)
1.4.2.2  rmind #else
1.4.2.2  rmind #define	CPU_IS_ARMV7_P()		true
1.4.2.2  rmind #endif
1.4.2.3  rmind #if !defined(CPU_ARMV6)
1.4.2.3  rmind #define	CPU_IS_ARMV6_P()		false
1.4.2.3  rmind #elif defined(CPU_ARMV7) || defined(CPU_PRE_ARMV6)
1.4.2.3  rmind extern bool cpu_armv6_p;
1.4.2.3  rmind #define	CPU_IS_ARMV6_P()		(cpu_armv6_p)
1.4.2.3  rmind #else
1.4.2.3  rmind #define	CPU_IS_ARMV6_P()		true
1.4.2.3  rmind #endif
1.4.2.3  rmind
1.4.2.3  rmind /*
1.4.2.3  rmind  * Used by the fault code to read the current instruction.
1.4.2.3  rmind  */
1.4.2.3  rmind static inline uint32_t
1.4.2.3  rmind read_insn(vaddr_t va, bool user_p)
1.4.2.3  rmind {
1.4.2.3  rmind 	uint32_t insn;
1.4.2.3  rmind 	if (user_p) {
1.4.2.3  rmind 		__asm __volatile("ldrt %0, [%1]" : "=&r"(insn) : "r"(va));
1.4.2.3  rmind 	} else {
1.4.2.3  rmind 		insn = *(const uint32_t *)va;
1.4.2.3  rmind 	}
1.4.2.3  rmind #if defined(__ARMEB__) && defined(_ARM_ARCH_7)
1.4.2.3  rmind 	insn = bswap32(insn);
1.4.2.3  rmind #endif
1.4.2.3  rmind 	return insn;
1.4.2.3  rmind }
1.4.2.3  rmind
1.4.2.3  rmind /*
1.4.2.3  rmind  * Used by the fault code to read the current thumb instruction.
1.4.2.3  rmind  */
1.4.2.3  rmind static inline uint32_t
1.4.2.3  rmind read_thumb_insn(vaddr_t va, bool user_p)
1.4.2.3  rmind {
1.4.2.3  rmind 	va &= ~1;
1.4.2.3  rmind 	uint32_t insn;
1.4.2.3  rmind 	if (user_p) {
1.4.2.3  rmind #ifdef _ARM_ARCH_T2
1.4.2.3  rmind 		__asm __volatile("ldrht %0, [%1], #0" : "=&r"(insn) : "r"(va));
1.4.2.3  rmind #else
1.4.2.3  rmind 		__asm __volatile("ldrt %0, [%1]" : "=&r"(insn) : "r"(va & ~3));
1.4.2.3  rmind #ifdef __ARMEB__
1.4.2.3  rmind 		insn = (uint16_t) (insn >> (((va ^ 2) & 2) << 3));
1.4.2.3  rmind #else
1.4.2.3  rmind 		insn = (uint16_t) (insn >> ((va & 2) << 3));
1.4.2.3  rmind #endif
1.4.2.3  rmind #endif
1.4.2.3  rmind 	} else {
1.4.2.3  rmind 		insn = *(const uint16_t *)va;
1.4.2.3  rmind 	}
1.4.2.3  rmind #if defined(__ARMEB__) && defined(_ARM_ARCH_7)
1.4.2.3  rmind 	insn = bswap16(insn);
1.4.2.3  rmind #endif
1.4.2.3  rmind 	return insn;
1.4.2.3  rmind }
1.4.2.3  rmind
1.4.2.3  rmind static inline void
1.4.2.3  rmind arm_dmb(void)
1.4.2.3  rmind {
1.4.2.3  rmind 	if (CPU_IS_ARMV6_P())
1.4.2.3  rmind 		armreg_dmb_write(0);
1.4.2.3  rmind 	else if (CPU_IS_ARMV7_P())
1.4.2.3  rmind 		__asm __volatile("dmb");
1.4.2.3  rmind }
1.4.2.3  rmind
1.4.2.3  rmind static inline void
1.4.2.3  rmind arm_dsb(void)
1.4.2.3  rmind {
1.4.2.3  rmind 	if (CPU_IS_ARMV6_P())
1.4.2.3  rmind 		armreg_dsb_write(0);
1.4.2.3  rmind 	else if (CPU_IS_ARMV7_P())
1.4.2.3  rmind 		__asm __volatile("dsb");
1.4.2.3  rmind }
1.4.2.3  rmind
1.4.2.3  rmind static inline void
1.4.2.3  rmind arm_isb(void)
1.4.2.3  rmind {
1.4.2.3  rmind 	if (CPU_IS_ARMV6_P())
1.4.2.3  rmind 		armreg_isb_write(0);
1.4.2.3  rmind 	else if (CPU_IS_ARMV7_P())
1.4.2.3  rmind 		__asm __volatile("isb");
1.4.2.3  rmind }
1.4.2.2  rmind
1.4.2.2  rmind /*
1.4.2.2  rmind  * Random cruft
1.4.2.2  rmind  */
1.4.2.2  rmind
1.4.2.2  rmind struct lwp;
1.4.2.2  rmind
1.4.2.3  rmind /* cpu.c */
1.4.2.3  rmind void	identify_arm_cpu(device_t, struct cpu_info *);
1.4.2.2  rmind
1.4.2.2  rmind /* cpuswitch.S */
1.4.2.2  rmind struct pcb;
1.4.2.2  rmind void	savectx(struct pcb *);
1.4.2.2  rmind
1.4.2.2  rmind /* ast.c */
1.4.2.2  rmind void	userret(struct lwp *);
1.4.2.2  rmind
1.4.2.2  rmind /* *_machdep.c */
1.4.2.2  rmind void	bootsync(void);
1.4.2.2  rmind
1.4.2.2  rmind /* fault.c */
1.4.2.2  rmind int	badaddr_read(void *, size_t, void *);
1.4.2.2  rmind
1.4.2.2  rmind /* syscall.c */
1.4.2.2  rmind void	swi_handler(trapframe_t *);
1.4.2.2  rmind
1.4.2.2  rmind /* arm_machdep.c */
1.4.2.2  rmind void	ucas_ras_check(trapframe_t *);
1.4.2.2  rmind
1.4.2.2  rmind /* vfp_init.c */
1.4.2.3  rmind void	vfp_attach(struct cpu_info *);
1.4.2.2  rmind void	vfp_discardcontext(bool);
1.4.2.2  rmind void	vfp_savecontext(void);
1.4.2.2  rmind void	vfp_kernel_acquire(void);
1.4.2.2  rmind void	vfp_kernel_release(void);
1.4.2.2  rmind bool	vfp_used_p(void);
1.4.2.2  rmind extern const pcu_ops_t arm_vfp_ops;
1.4.2.2  rmind
1.4.2.2  rmind #endif	/* !_LOCORE */
1.4.2.2  rmind
1.4.2.2  rmind #endif /* !_ARM_LOCORE_H_ */