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/*
* CRIS virtual CPU header
*
* Copyright (c) 2007 AXIS Communications AB
* Written by Edgar E. Iglesias
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#ifndef CRIS_CPU_H
#define CRIS_CPU_H
#include "qemu-common.h"
#include "cpu-qom.h"
#include "exec/cpu-defs.h"
#define EXCP_NMI 1
#define EXCP_GURU 2
#define EXCP_BUSFAULT 3
#define EXCP_IRQ 4
#define EXCP_BREAK 5
/* CRIS-specific interrupt pending bits. */
#define CPU_INTERRUPT_NMI CPU_INTERRUPT_TGT_EXT_3
/* CRUS CPU device objects interrupt lines. */
#define CRIS_CPU_IRQ 0
#define CRIS_CPU_NMI 1
/* Register aliases. R0 - R15 */
#define R_FP 8
#define R_SP 14
#define R_ACR 15
/* Support regs, P0 - P15 */
#define PR_BZ 0
#define PR_VR 1
#define PR_PID 2
#define PR_SRS 3
#define PR_WZ 4
#define PR_EXS 5
#define PR_EDA 6
#define PR_PREFIX 6 /* On CRISv10 P6 is reserved, we use it as prefix. */
#define PR_MOF 7
#define PR_DZ 8
#define PR_EBP 9
#define PR_ERP 10
#define PR_SRP 11
#define PR_NRP 12
#define PR_CCS 13
#define PR_USP 14
#define PRV10_BRP 14
#define PR_SPC 15
/* CPU flags. */
#define Q_FLAG 0x80000000
#define M_FLAG_V32 0x40000000
#define PFIX_FLAG 0x800 /* CRISv10 Only. */
#define F_FLAG_V10 0x400
#define P_FLAG_V10 0x200
#define S_FLAG 0x200
#define R_FLAG 0x100
#define P_FLAG 0x80
#define M_FLAG_V10 0x80
#define U_FLAG 0x40
#define I_FLAG 0x20
#define X_FLAG 0x10
#define N_FLAG 0x08
#define Z_FLAG 0x04
#define V_FLAG 0x02
#define C_FLAG 0x01
#define ALU_FLAGS 0x1F
/* Condition codes. */
#define CC_CC 0
#define CC_CS 1
#define CC_NE 2
#define CC_EQ 3
#define CC_VC 4
#define CC_VS 5
#define CC_PL 6
#define CC_MI 7
#define CC_LS 8
#define CC_HI 9
#define CC_GE 10
#define CC_LT 11
#define CC_GT 12
#define CC_LE 13
#define CC_A 14
#define CC_P 15
typedef struct {
uint32_t hi;
uint32_t lo;
} TLBSet;
typedef struct CPUCRISState {
uint32_t regs[16];
/* P0 - P15 are referred to as special registers in the docs. */
uint32_t pregs[16];
/* Pseudo register for the PC. Not directly accessible on CRIS. */
uint32_t pc;
/* Pseudo register for the kernel stack. */
uint32_t ksp;
/* Branch. */
int dslot;
int btaken;
uint32_t btarget;
/* Condition flag tracking. */
uint32_t cc_op;
uint32_t cc_mask;
uint32_t cc_dest;
uint32_t cc_src;
uint32_t cc_result;
/* size of the operation, 1 = byte, 2 = word, 4 = dword. */
int cc_size;
/* X flag at the time of cc snapshot. */
int cc_x;
/* CRIS has certain insns that lockout interrupts. */
int locked_irq;
int interrupt_vector;
int fault_vector;
int trap_vector;
/* FIXME: add a check in the translator to avoid writing to support
register sets beyond the 4th. The ISA allows up to 256! but in
practice there is no core that implements more than 4.
Support function registers are used to control units close to the
core. Accesses do not pass down the normal hierarchy.
*/
uint32_t sregs[4][16];
/* Linear feedback shift reg in the mmu. Used to provide pseudo
randomness for the 'hint' the mmu gives to sw for choosing valid
sets on TLB refills. */
uint32_t mmu_rand_lfsr;
/*
* We just store the stores to the tlbset here for later evaluation
* when the hw needs access to them.
*
* One for I and another for D.
*/
TLBSet tlbsets[2][4][16];
/* Fields up to this point are cleared by a CPU reset */
struct {} end_reset_fields;
CPU_COMMON
/* Members from load_info on are preserved across resets. */
void *load_info;
} CPUCRISState;
/**
* CRISCPU:
* @env: #CPUCRISState
*
* A CRIS CPU.
*/
struct CRISCPU {
/*< private >*/
CPUState parent_obj;
/*< public >*/
CPUCRISState env;
};
static inline CRISCPU *cris_env_get_cpu(CPUCRISState *env)
{
return container_of(env, CRISCPU, env);
}
#define ENV_OFFSET offsetof(CRISCPU, env)
#ifndef CONFIG_USER_ONLY
extern const struct VMStateDescription vmstate_cris_cpu;
#endif
void cris_cpu_do_interrupt(CPUState *cpu);
void crisv10_cpu_do_interrupt(CPUState *cpu);
bool cris_cpu_exec_interrupt(CPUState *cpu, int int_req);
void cris_cpu_dump_state(CPUState *cs, FILE *f, int flags);
hwaddr cris_cpu_get_phys_page_debug(CPUState *cpu, vaddr addr);
int crisv10_cpu_gdb_read_register(CPUState *cpu, uint8_t *buf, int reg);
int cris_cpu_gdb_read_register(CPUState *cpu, uint8_t *buf, int reg);
int cris_cpu_gdb_write_register(CPUState *cpu, uint8_t *buf, int reg);
/* you can call this signal handler from your SIGBUS and SIGSEGV
signal handlers to inform the virtual CPU of exceptions. non zero
is returned if the signal was handled by the virtual CPU. */
int cpu_cris_signal_handler(int host_signum, void *pinfo,
void *puc);
void cris_initialize_tcg(void);
void cris_initialize_crisv10_tcg(void);
/* Instead of computing the condition codes after each CRIS instruction,
* QEMU just stores one operand (called CC_SRC), the result
* (called CC_DEST) and the type of operation (called CC_OP). When the
* condition codes are needed, the condition codes can be calculated
* using this information. Condition codes are not generated if they
* are only needed for conditional branches.
*/
enum {
CC_OP_DYNAMIC, /* Use env->cc_op */
CC_OP_FLAGS,
CC_OP_CMP,
CC_OP_MOVE,
CC_OP_ADD,
CC_OP_ADDC,
CC_OP_MCP,
CC_OP_ADDU,
CC_OP_SUB,
CC_OP_SUBU,
CC_OP_NEG,
CC_OP_BTST,
CC_OP_MULS,
CC_OP_MULU,
CC_OP_DSTEP,
CC_OP_MSTEP,
CC_OP_BOUND,
CC_OP_OR,
CC_OP_AND,
CC_OP_XOR,
CC_OP_LSL,
CC_OP_LSR,
CC_OP_ASR,
CC_OP_LZ
};
/* CRIS uses 8k pages. */
#define MMAP_SHIFT TARGET_PAGE_BITS
#define CRIS_CPU_TYPE_SUFFIX "-" TYPE_CRIS_CPU
#define CRIS_CPU_TYPE_NAME(name) (name CRIS_CPU_TYPE_SUFFIX)
#define CPU_RESOLVING_TYPE TYPE_CRIS_CPU
#define cpu_signal_handler cpu_cris_signal_handler
/* MMU modes definitions */
#define MMU_MODE0_SUFFIX _kernel
#define MMU_MODE1_SUFFIX _user
#define MMU_USER_IDX 1
static inline int cpu_mmu_index (CPUCRISState *env, bool ifetch)
{
return !!(env->pregs[PR_CCS] & U_FLAG);
}
bool cris_cpu_tlb_fill(CPUState *cs, vaddr address, int size,
MMUAccessType access_type, int mmu_idx,
bool probe, uintptr_t retaddr);
/* Support function regs. */
#define SFR_RW_GC_CFG 0][0
#define SFR_RW_MM_CFG env->pregs[PR_SRS]][0
#define SFR_RW_MM_KBASE_LO env->pregs[PR_SRS]][1
#define SFR_RW_MM_KBASE_HI env->pregs[PR_SRS]][2
#define SFR_R_MM_CAUSE env->pregs[PR_SRS]][3
#define SFR_RW_MM_TLB_SEL env->pregs[PR_SRS]][4
#define SFR_RW_MM_TLB_LO env->pregs[PR_SRS]][5
#define SFR_RW_MM_TLB_HI env->pregs[PR_SRS]][6
typedef CPUCRISState CPUArchState;
typedef CRISCPU ArchCPU;
#include "exec/cpu-all.h"
static inline void cpu_get_tb_cpu_state(CPUCRISState *env, target_ulong *pc,
target_ulong *cs_base, uint32_t *flags)
{
*pc = env->pc;
*cs_base = 0;
*flags = env->dslot |
(env->pregs[PR_CCS] & (S_FLAG | P_FLAG | U_FLAG
| X_FLAG | PFIX_FLAG));
}
#define cpu_list cris_cpu_list
void cris_cpu_list(void);
#endif
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