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https://github.com/xemu-project/xemu.git
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abb80995d7
Signed-off-by: Richard Henderson <richard.henderson@linaro.org> Message-id: 20221020030641.2066807-10-richard.henderson@linaro.org Reviewed-by: Peter Maydell <peter.maydell@linaro.org> Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
632 lines
22 KiB
C
632 lines
22 KiB
C
#ifndef TARGET_ARM_TRANSLATE_H
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#define TARGET_ARM_TRANSLATE_H
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#include "exec/translator.h"
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#include "internals.h"
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/* internal defines */
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/*
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* Save pc_save across a branch, so that we may restore the value from
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* before the branch at the point the label is emitted.
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*/
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typedef struct DisasLabel {
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TCGLabel *label;
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target_ulong pc_save;
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} DisasLabel;
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typedef struct DisasContext {
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DisasContextBase base;
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const ARMISARegisters *isar;
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/* The address of the current instruction being translated. */
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target_ulong pc_curr;
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/*
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* For TARGET_TB_PCREL, the full value of cpu_pc is not known
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* (although the page offset is known). For convenience, the
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* translation loop uses the full virtual address that triggered
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* the translation, from base.pc_start through pc_curr.
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* For efficiency, we do not update cpu_pc for every instruction.
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* Instead, pc_save has the value of pc_curr at the time of the
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* last update to cpu_pc, which allows us to compute the addend
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* needed to bring cpu_pc current: pc_curr - pc_save.
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* If cpu_pc now contains the destination of an indirect branch,
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* pc_save contains -1 to indicate that relative updates are no
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* longer possible.
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*/
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target_ulong pc_save;
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target_ulong page_start;
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uint32_t insn;
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/* Nonzero if this instruction has been conditionally skipped. */
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int condjmp;
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/* The label that will be jumped to when the instruction is skipped. */
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DisasLabel condlabel;
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/* Thumb-2 conditional execution bits. */
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int condexec_mask;
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int condexec_cond;
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/* M-profile ECI/ICI exception-continuable instruction state */
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int eci;
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/*
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* trans_ functions for insns which are continuable should set this true
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* after decode (ie after any UNDEF checks)
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*/
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bool eci_handled;
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int sctlr_b;
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MemOp be_data;
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#if !defined(CONFIG_USER_ONLY)
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int user;
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#endif
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ARMMMUIdx mmu_idx; /* MMU index to use for normal loads/stores */
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uint8_t tbii; /* TBI1|TBI0 for insns */
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uint8_t tbid; /* TBI1|TBI0 for data */
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uint8_t tcma; /* TCMA1|TCMA0 for MTE */
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bool ns; /* Use non-secure CPREG bank on access */
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int fp_excp_el; /* FP exception EL or 0 if enabled */
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int sve_excp_el; /* SVE exception EL or 0 if enabled */
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int sme_excp_el; /* SME exception EL or 0 if enabled */
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int vl; /* current vector length in bytes */
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int svl; /* current streaming vector length in bytes */
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bool vfp_enabled; /* FP enabled via FPSCR.EN */
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int vec_len;
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int vec_stride;
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bool v7m_handler_mode;
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bool v8m_secure; /* true if v8M and we're in Secure mode */
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bool v8m_stackcheck; /* true if we need to perform v8M stack limit checks */
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bool v8m_fpccr_s_wrong; /* true if v8M FPCCR.S != v8m_secure */
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bool v7m_new_fp_ctxt_needed; /* ASPEN set but no active FP context */
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bool v7m_lspact; /* FPCCR.LSPACT set */
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/* Immediate value in AArch32 SVC insn; must be set if is_jmp == DISAS_SWI
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* so that top level loop can generate correct syndrome information.
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*/
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uint32_t svc_imm;
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int current_el;
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GHashTable *cp_regs;
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uint64_t features; /* CPU features bits */
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bool aarch64;
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bool thumb;
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/* Because unallocated encodings generate different exception syndrome
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* information from traps due to FP being disabled, we can't do a single
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* "is fp access disabled" check at a high level in the decode tree.
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* To help in catching bugs where the access check was forgotten in some
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* code path, we set this flag when the access check is done, and assert
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* that it is set at the point where we actually touch the FP regs.
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*/
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bool fp_access_checked;
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bool sve_access_checked;
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/* ARMv8 single-step state (this is distinct from the QEMU gdbstub
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* single-step support).
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*/
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bool ss_active;
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bool pstate_ss;
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/* True if the insn just emitted was a load-exclusive instruction
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* (necessary for syndrome information for single step exceptions),
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* ie A64 LDX*, LDAX*, A32/T32 LDREX*, LDAEX*.
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*/
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bool is_ldex;
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/* True if AccType_UNPRIV should be used for LDTR et al */
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bool unpriv;
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/* True if v8.3-PAuth is active. */
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bool pauth_active;
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/* True if v8.5-MTE access to tags is enabled. */
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bool ata;
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/* True if v8.5-MTE tag checks affect the PE; index with is_unpriv. */
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bool mte_active[2];
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/* True with v8.5-BTI and SCTLR_ELx.BT* set. */
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bool bt;
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/* True if any CP15 access is trapped by HSTR_EL2 */
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bool hstr_active;
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/* True if memory operations require alignment */
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bool align_mem;
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/* True if PSTATE.IL is set */
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bool pstate_il;
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/* True if PSTATE.SM is set. */
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bool pstate_sm;
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/* True if PSTATE.ZA is set. */
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bool pstate_za;
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/* True if non-streaming insns should raise an SME Streaming exception. */
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bool sme_trap_nonstreaming;
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/* True if the current instruction is non-streaming. */
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bool is_nonstreaming;
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/* True if MVE insns are definitely not predicated by VPR or LTPSIZE */
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bool mve_no_pred;
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/*
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* >= 0, a copy of PSTATE.BTYPE, which will be 0 without v8.5-BTI.
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* < 0, set by the current instruction.
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*/
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int8_t btype;
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/* A copy of cpu->dcz_blocksize. */
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uint8_t dcz_blocksize;
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/* True if this page is guarded. */
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bool guarded_page;
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/* Bottom two bits of XScale c15_cpar coprocessor access control reg */
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int c15_cpar;
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/* TCG op of the current insn_start. */
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TCGOp *insn_start;
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#define TMP_A64_MAX 16
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int tmp_a64_count;
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TCGv_i64 tmp_a64[TMP_A64_MAX];
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} DisasContext;
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typedef struct DisasCompare {
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TCGCond cond;
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TCGv_i32 value;
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bool value_global;
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} DisasCompare;
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/* Share the TCG temporaries common between 32 and 64 bit modes. */
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extern TCGv_i32 cpu_NF, cpu_ZF, cpu_CF, cpu_VF;
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extern TCGv_i64 cpu_exclusive_addr;
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extern TCGv_i64 cpu_exclusive_val;
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/*
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* Constant expanders for the decoders.
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*/
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static inline int negate(DisasContext *s, int x)
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{
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return -x;
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}
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static inline int plus_1(DisasContext *s, int x)
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{
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return x + 1;
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}
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static inline int plus_2(DisasContext *s, int x)
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{
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return x + 2;
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}
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static inline int plus_12(DisasContext *s, int x)
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{
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return x + 12;
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}
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static inline int times_2(DisasContext *s, int x)
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{
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return x * 2;
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}
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static inline int times_4(DisasContext *s, int x)
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{
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return x * 4;
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}
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static inline int times_2_plus_1(DisasContext *s, int x)
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{
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return x * 2 + 1;
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}
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static inline int rsub_64(DisasContext *s, int x)
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{
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return 64 - x;
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}
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static inline int rsub_32(DisasContext *s, int x)
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{
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return 32 - x;
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}
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static inline int rsub_16(DisasContext *s, int x)
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{
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return 16 - x;
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}
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static inline int rsub_8(DisasContext *s, int x)
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{
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return 8 - x;
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}
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static inline int neon_3same_fp_size(DisasContext *s, int x)
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{
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/* Convert 0==fp32, 1==fp16 into a MO_* value */
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return MO_32 - x;
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}
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static inline int arm_dc_feature(DisasContext *dc, int feature)
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{
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return (dc->features & (1ULL << feature)) != 0;
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}
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static inline int get_mem_index(DisasContext *s)
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{
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return arm_to_core_mmu_idx(s->mmu_idx);
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}
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static inline void disas_set_insn_syndrome(DisasContext *s, uint32_t syn)
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{
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/* We don't need to save all of the syndrome so we mask and shift
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* out unneeded bits to help the sleb128 encoder do a better job.
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*/
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syn &= ARM_INSN_START_WORD2_MASK;
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syn >>= ARM_INSN_START_WORD2_SHIFT;
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/* We check and clear insn_start_idx to catch multiple updates. */
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assert(s->insn_start != NULL);
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tcg_set_insn_start_param(s->insn_start, 2, syn);
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s->insn_start = NULL;
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}
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static inline int curr_insn_len(DisasContext *s)
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{
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return s->base.pc_next - s->pc_curr;
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}
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/* is_jmp field values */
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#define DISAS_JUMP DISAS_TARGET_0 /* only pc was modified dynamically */
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/* CPU state was modified dynamically; exit to main loop for interrupts. */
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#define DISAS_UPDATE_EXIT DISAS_TARGET_1
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/* These instructions trap after executing, so the A32/T32 decoder must
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* defer them until after the conditional execution state has been updated.
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* WFI also needs special handling when single-stepping.
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*/
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#define DISAS_WFI DISAS_TARGET_2
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#define DISAS_SWI DISAS_TARGET_3
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/* WFE */
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#define DISAS_WFE DISAS_TARGET_4
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#define DISAS_HVC DISAS_TARGET_5
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#define DISAS_SMC DISAS_TARGET_6
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#define DISAS_YIELD DISAS_TARGET_7
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/* M profile branch which might be an exception return (and so needs
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* custom end-of-TB code)
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*/
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#define DISAS_BX_EXCRET DISAS_TARGET_8
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/*
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* For instructions which want an immediate exit to the main loop, as opposed
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* to attempting to use lookup_and_goto_ptr. Unlike DISAS_UPDATE_EXIT, this
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* doesn't write the PC on exiting the translation loop so you need to ensure
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* something (gen_a64_update_pc or runtime helper) has done so before we reach
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* return from cpu_tb_exec.
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*/
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#define DISAS_EXIT DISAS_TARGET_9
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/* CPU state was modified dynamically; no need to exit, but do not chain. */
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#define DISAS_UPDATE_NOCHAIN DISAS_TARGET_10
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#ifdef TARGET_AARCH64
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void a64_translate_init(void);
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void gen_a64_update_pc(DisasContext *s, target_long diff);
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extern const TranslatorOps aarch64_translator_ops;
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#else
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static inline void a64_translate_init(void)
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{
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}
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static inline void gen_a64_update_pc(DisasContext *s, target_long diff)
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{
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}
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#endif
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void arm_test_cc(DisasCompare *cmp, int cc);
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void arm_free_cc(DisasCompare *cmp);
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void arm_jump_cc(DisasCompare *cmp, TCGLabel *label);
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void arm_gen_test_cc(int cc, TCGLabel *label);
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MemOp pow2_align(unsigned i);
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void unallocated_encoding(DisasContext *s);
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void gen_exception_insn_el(DisasContext *s, target_long pc_diff, int excp,
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uint32_t syn, uint32_t target_el);
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void gen_exception_insn(DisasContext *s, target_long pc_diff,
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int excp, uint32_t syn);
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/* Return state of Alternate Half-precision flag, caller frees result */
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static inline TCGv_i32 get_ahp_flag(void)
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{
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TCGv_i32 ret = tcg_temp_new_i32();
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tcg_gen_ld_i32(ret, cpu_env,
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offsetof(CPUARMState, vfp.xregs[ARM_VFP_FPSCR]));
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tcg_gen_extract_i32(ret, ret, 26, 1);
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return ret;
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}
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/* Set bits within PSTATE. */
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static inline void set_pstate_bits(uint32_t bits)
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{
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TCGv_i32 p = tcg_temp_new_i32();
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tcg_debug_assert(!(bits & CACHED_PSTATE_BITS));
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tcg_gen_ld_i32(p, cpu_env, offsetof(CPUARMState, pstate));
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tcg_gen_ori_i32(p, p, bits);
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tcg_gen_st_i32(p, cpu_env, offsetof(CPUARMState, pstate));
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tcg_temp_free_i32(p);
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}
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/* Clear bits within PSTATE. */
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static inline void clear_pstate_bits(uint32_t bits)
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{
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TCGv_i32 p = tcg_temp_new_i32();
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tcg_debug_assert(!(bits & CACHED_PSTATE_BITS));
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tcg_gen_ld_i32(p, cpu_env, offsetof(CPUARMState, pstate));
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tcg_gen_andi_i32(p, p, ~bits);
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tcg_gen_st_i32(p, cpu_env, offsetof(CPUARMState, pstate));
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tcg_temp_free_i32(p);
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}
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/* If the singlestep state is Active-not-pending, advance to Active-pending. */
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static inline void gen_ss_advance(DisasContext *s)
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{
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if (s->ss_active) {
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s->pstate_ss = 0;
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clear_pstate_bits(PSTATE_SS);
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}
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}
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/* Generate an architectural singlestep exception */
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static inline void gen_swstep_exception(DisasContext *s, int isv, int ex)
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{
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/* Fill in the same_el field of the syndrome in the helper. */
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uint32_t syn = syn_swstep(false, isv, ex);
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gen_helper_exception_swstep(cpu_env, tcg_constant_i32(syn));
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}
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/*
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* Given a VFP floating point constant encoded into an 8 bit immediate in an
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* instruction, expand it to the actual constant value of the specified
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* size, as per the VFPExpandImm() pseudocode in the Arm ARM.
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*/
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uint64_t vfp_expand_imm(int size, uint8_t imm8);
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/* Vector operations shared between ARM and AArch64. */
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void gen_gvec_ceq0(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_clt0(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_cgt0(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_cle0(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_cge0(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_mla(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_mls(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_cmtst(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_sshl(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_ushl(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_cmtst_i64(TCGv_i64 d, TCGv_i64 a, TCGv_i64 b);
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void gen_ushl_i32(TCGv_i32 d, TCGv_i32 a, TCGv_i32 b);
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void gen_sshl_i32(TCGv_i32 d, TCGv_i32 a, TCGv_i32 b);
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void gen_ushl_i64(TCGv_i64 d, TCGv_i64 a, TCGv_i64 b);
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void gen_sshl_i64(TCGv_i64 d, TCGv_i64 a, TCGv_i64 b);
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void gen_gvec_uqadd_qc(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_sqadd_qc(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_uqsub_qc(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_sqsub_qc(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
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uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_ssra(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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int64_t shift, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_usra(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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int64_t shift, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_srshr(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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int64_t shift, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_urshr(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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int64_t shift, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_srsra(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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int64_t shift, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_ursra(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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int64_t shift, uint32_t opr_sz, uint32_t max_sz);
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void gen_gvec_sri(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
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int64_t shift, uint32_t opr_sz, uint32_t max_sz);
|
|
void gen_gvec_sli(unsigned vece, uint32_t rd_ofs, uint32_t rm_ofs,
|
|
int64_t shift, uint32_t opr_sz, uint32_t max_sz);
|
|
|
|
void gen_gvec_sqrdmlah_qc(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
|
|
uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
|
|
void gen_gvec_sqrdmlsh_qc(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
|
|
uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
|
|
|
|
void gen_gvec_sabd(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
|
|
uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
|
|
void gen_gvec_uabd(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
|
|
uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
|
|
|
|
void gen_gvec_saba(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
|
|
uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
|
|
void gen_gvec_uaba(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
|
|
uint32_t rm_ofs, uint32_t opr_sz, uint32_t max_sz);
|
|
|
|
/*
|
|
* Forward to the isar_feature_* tests given a DisasContext pointer.
|
|
*/
|
|
#define dc_isar_feature(name, ctx) \
|
|
({ DisasContext *ctx_ = (ctx); isar_feature_##name(ctx_->isar); })
|
|
|
|
/* Note that the gvec expanders operate on offsets + sizes. */
|
|
typedef void GVecGen2Fn(unsigned, uint32_t, uint32_t, uint32_t, uint32_t);
|
|
typedef void GVecGen2iFn(unsigned, uint32_t, uint32_t, int64_t,
|
|
uint32_t, uint32_t);
|
|
typedef void GVecGen3Fn(unsigned, uint32_t, uint32_t,
|
|
uint32_t, uint32_t, uint32_t);
|
|
typedef void GVecGen4Fn(unsigned, uint32_t, uint32_t, uint32_t,
|
|
uint32_t, uint32_t, uint32_t);
|
|
|
|
/* Function prototype for gen_ functions for calling Neon helpers */
|
|
typedef void NeonGenOneOpFn(TCGv_i32, TCGv_i32);
|
|
typedef void NeonGenOneOpEnvFn(TCGv_i32, TCGv_ptr, TCGv_i32);
|
|
typedef void NeonGenTwoOpFn(TCGv_i32, TCGv_i32, TCGv_i32);
|
|
typedef void NeonGenTwoOpEnvFn(TCGv_i32, TCGv_ptr, TCGv_i32, TCGv_i32);
|
|
typedef void NeonGenThreeOpEnvFn(TCGv_i32, TCGv_env, TCGv_i32,
|
|
TCGv_i32, TCGv_i32);
|
|
typedef void NeonGenTwo64OpFn(TCGv_i64, TCGv_i64, TCGv_i64);
|
|
typedef void NeonGenTwo64OpEnvFn(TCGv_i64, TCGv_ptr, TCGv_i64, TCGv_i64);
|
|
typedef void NeonGenNarrowFn(TCGv_i32, TCGv_i64);
|
|
typedef void NeonGenNarrowEnvFn(TCGv_i32, TCGv_ptr, TCGv_i64);
|
|
typedef void NeonGenWidenFn(TCGv_i64, TCGv_i32);
|
|
typedef void NeonGenTwoOpWidenFn(TCGv_i64, TCGv_i32, TCGv_i32);
|
|
typedef void NeonGenOneSingleOpFn(TCGv_i32, TCGv_i32, TCGv_ptr);
|
|
typedef void NeonGenTwoSingleOpFn(TCGv_i32, TCGv_i32, TCGv_i32, TCGv_ptr);
|
|
typedef void NeonGenTwoDoubleOpFn(TCGv_i64, TCGv_i64, TCGv_i64, TCGv_ptr);
|
|
typedef void NeonGenOne64OpFn(TCGv_i64, TCGv_i64);
|
|
typedef void CryptoTwoOpFn(TCGv_ptr, TCGv_ptr);
|
|
typedef void CryptoThreeOpIntFn(TCGv_ptr, TCGv_ptr, TCGv_i32);
|
|
typedef void CryptoThreeOpFn(TCGv_ptr, TCGv_ptr, TCGv_ptr);
|
|
typedef void AtomicThreeOpFn(TCGv_i64, TCGv_i64, TCGv_i64, TCGArg, MemOp);
|
|
typedef void WideShiftImmFn(TCGv_i64, TCGv_i64, int64_t shift);
|
|
typedef void WideShiftFn(TCGv_i64, TCGv_ptr, TCGv_i64, TCGv_i32);
|
|
typedef void ShiftImmFn(TCGv_i32, TCGv_i32, int32_t shift);
|
|
typedef void ShiftFn(TCGv_i32, TCGv_ptr, TCGv_i32, TCGv_i32);
|
|
|
|
/**
|
|
* arm_tbflags_from_tb:
|
|
* @tb: the TranslationBlock
|
|
*
|
|
* Extract the flag values from @tb.
|
|
*/
|
|
static inline CPUARMTBFlags arm_tbflags_from_tb(const TranslationBlock *tb)
|
|
{
|
|
return (CPUARMTBFlags){ tb->flags, tb->cs_base };
|
|
}
|
|
|
|
/*
|
|
* Enum for argument to fpstatus_ptr().
|
|
*/
|
|
typedef enum ARMFPStatusFlavour {
|
|
FPST_FPCR,
|
|
FPST_FPCR_F16,
|
|
FPST_STD,
|
|
FPST_STD_F16,
|
|
} ARMFPStatusFlavour;
|
|
|
|
/**
|
|
* fpstatus_ptr: return TCGv_ptr to the specified fp_status field
|
|
*
|
|
* We have multiple softfloat float_status fields in the Arm CPU state struct
|
|
* (see the comment in cpu.h for details). Return a TCGv_ptr which has
|
|
* been set up to point to the requested field in the CPU state struct.
|
|
* The options are:
|
|
*
|
|
* FPST_FPCR
|
|
* for non-FP16 operations controlled by the FPCR
|
|
* FPST_FPCR_F16
|
|
* for operations controlled by the FPCR where FPCR.FZ16 is to be used
|
|
* FPST_STD
|
|
* for A32/T32 Neon operations using the "standard FPSCR value"
|
|
* FPST_STD_F16
|
|
* as FPST_STD, but where FPCR.FZ16 is to be used
|
|
*/
|
|
static inline TCGv_ptr fpstatus_ptr(ARMFPStatusFlavour flavour)
|
|
{
|
|
TCGv_ptr statusptr = tcg_temp_new_ptr();
|
|
int offset;
|
|
|
|
switch (flavour) {
|
|
case FPST_FPCR:
|
|
offset = offsetof(CPUARMState, vfp.fp_status);
|
|
break;
|
|
case FPST_FPCR_F16:
|
|
offset = offsetof(CPUARMState, vfp.fp_status_f16);
|
|
break;
|
|
case FPST_STD:
|
|
offset = offsetof(CPUARMState, vfp.standard_fp_status);
|
|
break;
|
|
case FPST_STD_F16:
|
|
offset = offsetof(CPUARMState, vfp.standard_fp_status_f16);
|
|
break;
|
|
default:
|
|
g_assert_not_reached();
|
|
}
|
|
tcg_gen_addi_ptr(statusptr, cpu_env, offset);
|
|
return statusptr;
|
|
}
|
|
|
|
/**
|
|
* finalize_memop:
|
|
* @s: DisasContext
|
|
* @opc: size+sign+align of the memory operation
|
|
*
|
|
* Build the complete MemOp for a memory operation, including alignment
|
|
* and endianness.
|
|
*
|
|
* If (op & MO_AMASK) then the operation already contains the required
|
|
* alignment, e.g. for AccType_ATOMIC. Otherwise, this an optionally
|
|
* unaligned operation, e.g. for AccType_NORMAL.
|
|
*
|
|
* In the latter case, there are configuration bits that require alignment,
|
|
* and this is applied here. Note that there is no way to indicate that
|
|
* no alignment should ever be enforced; this must be handled manually.
|
|
*/
|
|
static inline MemOp finalize_memop(DisasContext *s, MemOp opc)
|
|
{
|
|
if (s->align_mem && !(opc & MO_AMASK)) {
|
|
opc |= MO_ALIGN;
|
|
}
|
|
return opc | s->be_data;
|
|
}
|
|
|
|
/**
|
|
* asimd_imm_const: Expand an encoded SIMD constant value
|
|
*
|
|
* Expand a SIMD constant value. This is essentially the pseudocode
|
|
* AdvSIMDExpandImm, except that we also perform the boolean NOT needed for
|
|
* VMVN and VBIC (when cmode < 14 && op == 1).
|
|
*
|
|
* The combination cmode == 15 op == 1 is a reserved encoding for AArch32;
|
|
* callers must catch this; we return the 64-bit constant value defined
|
|
* for AArch64.
|
|
*
|
|
* cmode = 2,3,4,5,6,7,10,11,12,13 imm=0 was UNPREDICTABLE in v7A but
|
|
* is either not unpredictable or merely CONSTRAINED UNPREDICTABLE in v8A;
|
|
* we produce an immediate constant value of 0 in these cases.
|
|
*/
|
|
uint64_t asimd_imm_const(uint32_t imm, int cmode, int op);
|
|
|
|
/*
|
|
* gen_disas_label:
|
|
* Create a label and cache a copy of pc_save.
|
|
*/
|
|
static inline DisasLabel gen_disas_label(DisasContext *s)
|
|
{
|
|
return (DisasLabel){
|
|
.label = gen_new_label(),
|
|
.pc_save = s->pc_save,
|
|
};
|
|
}
|
|
|
|
/*
|
|
* set_disas_label:
|
|
* Emit a label and restore the cached copy of pc_save.
|
|
*/
|
|
static inline void set_disas_label(DisasContext *s, DisasLabel l)
|
|
{
|
|
gen_set_label(l.label);
|
|
s->pc_save = l.pc_save;
|
|
}
|
|
|
|
/*
|
|
* Helpers for implementing sets of trans_* functions.
|
|
* Defer the implementation of NAME to FUNC, with optional extra arguments.
|
|
*/
|
|
#define TRANS(NAME, FUNC, ...) \
|
|
static bool trans_##NAME(DisasContext *s, arg_##NAME *a) \
|
|
{ return FUNC(s, __VA_ARGS__); }
|
|
#define TRANS_FEAT(NAME, FEAT, FUNC, ...) \
|
|
static bool trans_##NAME(DisasContext *s, arg_##NAME *a) \
|
|
{ return dc_isar_feature(FEAT, s) && FUNC(s, __VA_ARGS__); }
|
|
|
|
#define TRANS_FEAT_NONSTREAMING(NAME, FEAT, FUNC, ...) \
|
|
static bool trans_##NAME(DisasContext *s, arg_##NAME *a) \
|
|
{ \
|
|
s->is_nonstreaming = true; \
|
|
return dc_isar_feature(FEAT, s) && FUNC(s, __VA_ARGS__); \
|
|
}
|
|
|
|
#endif /* TARGET_ARM_TRANSLATE_H */
|