/src/capstonenext/arch/Sparc/SparcMapping.c

Source (jump to first uncovered line)
/* Capstone Disassembly Engine */
/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2015 */

#ifdef CAPSTONE_HAS_SPARC

#include <stdio.h> // debug
#include <string.h>

#include "../../Mapping.h"
#include "../../utils.h"
#include "../../cs_simple_types.h"

#include "SparcMapping.h"

void Sparc_init_cs_detail(MCInst *MI)
{
  if (!detail_is_set(MI)) {
    return;
  }
  memset(get_detail(MI), 0,
         offsetof(cs_detail, sparc) + sizeof(cs_sparc));
  Sparc_get_detail(MI)->cc = SPARC_CC_UNDEF;
  Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_NONE;
}

const insn_map sparc_insns[] = {
#include "SparcGenCSMappingInsn.inc"
};

void Sparc_set_instr_map_data(MCInst *MI)
{
  map_cs_id(MI, sparc_insns, ARR_SIZE(sparc_insns));
  map_implicit_reads(MI, sparc_insns);
  map_implicit_writes(MI, sparc_insns);
  map_groups(MI, sparc_insns);
  const sparc_suppl_info *suppl_info =
    map_get_suppl_info(MI, sparc_insns);
  if (suppl_info) {
    Sparc_get_detail(MI)->format = suppl_info->form;
  }
}

/// Adds details which are not defined consistently as LLVM operands like
/// condition codes for alias instructions or branch hint bits.
static void Sparc_add_bit_details(MCInst *MI, const uint8_t *Bytes,
          size_t BytesLen)
{
  if (!Bytes || BytesLen < 4 || !detail_is_set(MI)) {
    return;
  }
  uint32_t insn = readBytes32(MI, Bytes);

  // CC field
  cs_sparc *detail = Sparc_get_detail(MI);
  switch (detail->format) {
  default:
    break;
  case SPARC_INSN_FORM_F2_2: {
    // This format is used either by B or FB instructions.
    // The op2 == 6 for the FB and 2 for B.
    // This is the only indicator we have here to determine which CC field is used
    // if we don't want big switch cases.
    //
    // See: Opcode Maps - Table 39 - Sparc V9 ISA
    size_t op2 = get_insn_field_r(insn, 22, 24);
    detail->cc_field = op2 == 6 ? SPARC_CC_FIELD_FCC0 :
                SPARC_CC_FIELD_ICC;
    break;
  }
  case SPARC_INSN_FORM_F2_3:
    detail->cc_field = get_insn_field_r(insn, 20, 21);
    if (get_insn_field_r(insn, 22, 24) == 1) {
      // BPcc and FBPcc encode their fields in two bits.
      // BPcc needs the upper bit set to match our CC field enum.
      detail->cc_field |= 0x4;
    }
    break;
  case SPARC_INSN_FORM_TRAPSP:
    detail->cc_field = 0x4 | get_insn_field_r(insn, 11, 12);
    break;
  case SPARC_INSN_FORM_F4_1:
  case SPARC_INSN_FORM_F4_2:
    detail->cc_field = get_insn_field_r(insn, 11, 12);
    detail->cc_field |= get_insn_field_r(insn, 18, 18) << 2;
    break;
  case SPARC_INSN_FORM_F4_3:
    detail->cc_field = get_insn_field_r(insn, 11, 13);
    break;
  }

  // Condition codes
  switch (detail->format) {
  default:
    break;
  case SPARC_INSN_FORM_F2_1:
  case SPARC_INSN_FORM_F2_2:
  case SPARC_INSN_FORM_F2_3:
  case SPARC_INSN_FORM_TRAPSP: {
    // cond
    // Alias instructions don't define the conditions as operands.
    // We need to add them here to the details again.
    sparc_cc cc = get_insn_field_r(insn, 25, 28);
    if (MCInst_getOpcode(MI) == Sparc_CBCOND ||
        MCInst_getOpcode(MI) == Sparc_CBCONDA) {
      cc += SPARC_CC_CPCC_BEGIN;
    }
    detail->cc = cc;
    break;
  }
  case SPARC_INSN_FORM_F4_1:
  case SPARC_INSN_FORM_F4_2:
  case SPARC_INSN_FORM_F4_3: {
    sparc_cc cc = get_insn_field_r(insn, 14, 17);
    detail->cc = cc;
    break;
  }
  case SPARC_INSN_FORM_F2_4: {
    // cond
    // Alias instructions don't define the conditions as operands.
    // We need to add them here to the details again.
    sparc_cc rcc = get_insn_field_r(insn, 25, 27);
    detail->cc = rcc + SPARC_CC_REG_BEGIN;
    break;
  }
  case SPARC_INSN_FORM_F4_4R:
  case SPARC_INSN_FORM_F4_4I: {
    sparc_cc rcc = get_insn_field_r(insn, 10, 12);
    detail->cc = rcc + SPARC_CC_REG_BEGIN;
    break;
  }
  }
  switch (detail->cc_field) {
  default:
  case SPARC_CC_FIELD_ICC:
  case SPARC_CC_FIELD_XCC:
    break;
  case SPARC_CC_FIELD_FCC0:
  case SPARC_CC_FIELD_FCC1:
  case SPARC_CC_FIELD_FCC2:
  case SPARC_CC_FIELD_FCC3:
    detail->cc += SPARC_CC_FCC_BEGIN;
    break;
  }

  // Hints
  switch (detail->format) {
  default:
    break;
  case SPARC_INSN_FORM_F2_2:
    detail->hint = get_insn_field_r(insn, 29, 29);
    break;
  case SPARC_INSN_FORM_F2_3:
  case SPARC_INSN_FORM_F2_4:
    detail->hint = get_insn_field_r(insn, 29, 29);
    detail->hint |= get_insn_field_r(insn, 19, 19) == 0 ?
          SPARC_HINT_PN :
          SPARC_HINT_PT;
    break;
  }
}

bool Sparc_getInstruction(csh handle, const uint8_t *code, size_t code_len,
        MCInst *instr, uint16_t *size, uint64_t address,
        void *info)
{
  Sparc_init_cs_detail(instr);
  bool Result = Sparc_LLVM_getInstruction(handle, code, code_len, instr,
            size, address,
            info) != MCDisassembler_Fail;
  Sparc_set_instr_map_data(instr);

  Sparc_add_bit_details(instr, code, code_len);
  return Result;
}

void Sparc_init_mri(MCRegisterInfo *MRI)
{
  MCRegisterInfo_InitMCRegisterInfo(
    MRI, SparcRegDesc, sizeof(SparcRegDesc), 0, 0,
    SparcMCRegisterClasses, ARR_SIZE(SparcMCRegisterClasses), 0, 0,
    SparcRegDiffLists, 0, SparcSubRegIdxLists,
    ARR_SIZE(SparcSubRegIdxLists), 0);
}

const char *Sparc_reg_name(csh handle, unsigned int reg)
{
  int syntax_opt = ((cs_struct *)(uintptr_t)handle)->syntax;

  if (syntax_opt & CS_OPT_SYNTAX_NOREGNAME) {
    return Sparc_LLVM_getRegisterName(reg, Sparc_NoRegAltName);
  }
  return Sparc_LLVM_getRegisterName(reg, Sparc_RegNamesStateReg);
}

void Sparc_get_insn_id(cs_struct *h, cs_insn *insn, unsigned int id)
{
  // Not used by Sparc. Information is set after disassembly.
}

static const char *const insn_name_maps[] = {
#include "SparcGenCSMappingInsnName.inc"
};

#ifndef CAPSTONE_DIET
static const name_map insn_alias_mnem_map[] = {
#include "SparcGenCSAliasMnemMap.inc"
  { SPARC_INS_ALIAS_CALL, "call" },
  { SPARC_INS_ALIAS_END, NULL },
};
#endif

static void insert_op(MCInst *MI, unsigned index, cs_sparc_op op)
{
  if (!detail_is_set(MI)) {
    return;
  }
  Sparc_check_safe_inc(MI);

  cs_sparc_op *ops = Sparc_get_detail(MI)->operands;
  int i = Sparc_get_detail(MI)->op_count;
  if (index == -1) {
    ops[i] = op;
    Sparc_inc_op_count(MI);
    return;
  }
  for (; i > 0 && i > index; --i) {
    ops[i] = ops[i - 1];
  }
  ops[index] = op;
  Sparc_inc_op_count(MI);
}

/// Inserts a register to the detail operands at @index.
/// Already present operands are moved.
/// If @index is -1 the operand is appended.
static void Sparc_insert_detail_op_reg_at(MCInst *MI, unsigned index,
            sparc_reg Reg, cs_ac_type access)
{
  if (!detail_is_set(MI))
    return;

  cs_sparc_op op = { 0 };
  op.type = SPARC_OP_REG;
  op.reg = Reg;
  op.access = access;
  insert_op(MI, index, op);
}

static void Sparc_correct_details(MCInst *MI)
{
  if (!detail_is_set(MI)) {
    return;
  }
  switch (MCInst_getOpcode(MI)) {
  default:
    return;
  case Sparc_LDSTUBri:
  case Sparc_LDSTUBrr:
  case Sparc_LDSTUBAri:
  case Sparc_LDSTUBArr:
    // The memory gets written back with ones
    // but there is not write back memory operand defined
    // (if even possible).
    Sparc_get_detail(MI)->operands[0].access = CS_AC_READ_WRITE;
    break;
  case Sparc_RDPSR:
    Sparc_insert_detail_op_reg_at(MI, 0, SPARC_REG_PSR, CS_AC_READ);
    break;
  case Sparc_PWRPSRri:
  case Sparc_PWRPSRrr:
  case Sparc_WRPSRri:
  case Sparc_WRPSRrr:
    Sparc_insert_detail_op_reg_at(MI, -1, SPARC_REG_PSR,
                CS_AC_WRITE);
    break;
  case Sparc_RDWIM:
    Sparc_insert_detail_op_reg_at(MI, 0, SPARC_REG_WIM, CS_AC_READ);
    break;
  case Sparc_WRWIMri:
  case Sparc_WRWIMrr:
    Sparc_insert_detail_op_reg_at(MI, -1, SPARC_REG_WIM,
                CS_AC_WRITE);
    break;
  case Sparc_RDTBR:
    Sparc_insert_detail_op_reg_at(MI, 0, SPARC_REG_TBR, CS_AC_READ);
    break;
  case Sparc_WRTBRri:
  case Sparc_WRTBRrr:
    Sparc_insert_detail_op_reg_at(MI, -1, SPARC_REG_TBR,
                CS_AC_WRITE);
    break;
  }
}

void Sparc_printer(MCInst *MI, SStream *O, void * /* MCRegisterInfo* */ info)
{
  MCRegisterInfo *MRI = (MCRegisterInfo *)info;
  MI->MRI = MRI;
  MI->flat_insn->usesAliasDetails = map_use_alias_details(MI);
  Sparc_LLVM_printInst(MI, MI->address, "", O);

#ifndef CAPSTONE_DIET
  map_set_alias_id(MI, O, insn_alias_mnem_map,
       ARR_SIZE(insn_alias_mnem_map));
  Sparc_correct_details(MI);
#endif
}

const char *Sparc_insn_name(csh handle, unsigned int id)
{
#ifndef CAPSTONE_DIET
  if (id < SPARC_INS_ALIAS_END && id > SPARC_INS_ALIAS_BEGIN) {
    if (id - SPARC_INS_ALIAS_BEGIN >= ARR_SIZE(insn_alias_mnem_map))
      return NULL;

    return insn_alias_mnem_map[id - SPARC_INS_ALIAS_BEGIN - 1].name;
  }
  if (id >= SPARC_INS_ENDING)
    return NULL;

  if (id < ARR_SIZE(insn_name_maps))
    return insn_name_maps[id];
  // not found
  return NULL;
#else
  return NULL;
#endif
}

#ifndef CAPSTONE_DIET
static const name_map group_name_maps[] = {
  { SPARC_GRP_INVALID, NULL },

  { SPARC_GRP_JUMP, "jump" },
  { SPARC_GRP_CALL, "call" },
  { SPARC_GRP_RET, "return" },
  { SPARC_GRP_INT, "int" },
  { SPARC_GRP_IRET, "iret" },
  { SPARC_GRP_PRIVILEGE, "privilege" },
  { SPARC_GRP_BRANCH_RELATIVE, "branch_relative" },

// architecture-specific groups
#include "SparcGenCSFeatureName.inc"
};
#endif

const char *Sparc_group_name(csh handle, unsigned int id)
{
#ifndef CAPSTONE_DIET
  return id2name(group_name_maps, ARR_SIZE(group_name_maps), id);
#else
  return NULL;
#endif
}

static const map_insn_ops insn_operands[] = {
#include "SparcGenCSMappingInsnOp.inc"
};

void Sparc_set_detail_op_imm(MCInst *MI, unsigned OpNum, sparc_op_type ImmType,
           int64_t Imm)
{
  if (!detail_is_set(MI))
    return;
  CS_ASSERT_RET((map_get_op_type(MI, OpNum) & ~CS_OP_MEM) == CS_OP_IMM);
  CS_ASSERT_RET(ImmType == SPARC_OP_IMM);

  Sparc_get_detail_op(MI, 0)->type = ImmType;
  Sparc_get_detail_op(MI, 0)->imm = Imm;
  Sparc_get_detail_op(MI, 0)->access = map_get_op_access(MI, OpNum);
  Sparc_inc_op_count(MI);
}

void Sparc_set_detail_op_reg(MCInst *MI, unsigned OpNum, sparc_reg Reg)
{
  if (!detail_is_set(MI))
    return;
  CS_ASSERT_RET((map_get_op_type(MI, OpNum) & ~CS_OP_MEM) == CS_OP_REG);

  switch (Reg) {
  default:
    Sparc_get_detail_op(MI, 0)->type = SPARC_OP_REG;
    Sparc_get_detail_op(MI, 0)->reg = Reg;
    Sparc_get_detail_op(MI, 0)->access =
      map_get_op_access(MI, OpNum);
    Sparc_inc_op_count(MI);
    return;
  // The LLVM definition is inconsistent with the cc fields.
  // Sometimes they are encoded as register, sometimes not at all.
  // For Capstone they are always saved in the cc_field field for now.
  case SPARC_REG_ICC:
    Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_ICC;
    break;
  case SPARC_REG_FCC0:
    Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC0;
    break;
  case SPARC_REG_FCC1:
    Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC1;
    break;
  case SPARC_REG_FCC2:
    Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC2;
    break;
  case SPARC_REG_FCC3:
    Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC3;
    break;
  }
}

static inline bool is_single_reg_mem_case(MCInst *MI, unsigned OpNo)
{
  if (map_get_op_type(MI, OpNo) != CS_OP_MEM_REG) {
    return false;
  }
  cs_sparc_op *prev_op = Sparc_get_detail_op(MI, -1);
  if (prev_op && prev_op->type == SPARC_OP_MEM) {
    return false;
  }
  if (MI->size == 1) {
    return true;
  } else if (MI->size > OpNo + 1 &&
       Sparc_get_detail(MI)->operands[0].type != SPARC_OP_MEM) {
    // Next operand is not a memory operand (disponent or index reg).
    return !(map_get_op_type(MI, OpNo + 1) & SPARC_OP_MEM);
  }
  return false;
}

void Sparc_add_cs_detail_0(MCInst *MI, sparc_op_group op_group, unsigned OpNo)
{
  if (!detail_is_set(MI) || !map_fill_detail_ops(MI))
    return;

  cs_op_type op_type = map_get_op_type(MI, OpNo);

  switch (op_group) {
  default:
  case Sparc_OP_GROUP_GetPCX:
    printf("Operand group %d not handled!\n", op_group);
    return;
  case Sparc_OP_GROUP_Operand:
    if (op_type & CS_OP_MEM) {
      if (is_single_reg_mem_case(MI, OpNo)) {
        Sparc_get_detail_op(MI, 0)->type = SPARC_OP_MEM;
        Sparc_get_detail_op(MI, 0)->mem.base =
          MCInst_getOpVal(MI, OpNo);
        Sparc_get_detail_op(MI, 0)->access =
          map_get_op_access(MI, OpNo);
        Sparc_inc_op_count(MI);
      }
      break;
    }
    if (op_type == CS_OP_IMM) {
      Sparc_set_detail_op_imm(MI, OpNo, SPARC_OP_IMM,
            MCInst_getOpVal(MI, OpNo));
    } else if (op_type == CS_OP_REG) {
      Sparc_set_detail_op_reg(MI, OpNo,
            MCInst_getOpVal(MI, OpNo));
    } else {
      CS_ASSERT_RET(0 && "Op type not handled.");
    }
    Sparc_get_detail_op(MI, 0)->access =
      map_get_op_access(MI, OpNo);
    break;
  case Sparc_OP_GROUP_CCOperand: {
    // Handled in Sparc_add_bit_details().
    break;
  }
  case Sparc_OP_GROUP_MemOperand: {
    cs_sparc_op *prev_op = Sparc_get_detail_op(MI, -1);
    if (prev_op && prev_op->type == SPARC_OP_MEM) {
      // Already added.
      break;
    }
    MCOperand *Op1 = MCInst_getOperand(MI, (OpNo));
    MCOperand *Op2 = MCInst_getOperand(MI, (OpNo + 1));
    if (!MCOperand_isReg(Op1) ||
        MCOperand_getReg(Op1) == Sparc_G0) {
      // Ignored
      return;
    }
    Sparc_get_detail_op(MI, 0)->type = SPARC_OP_MEM;
    Sparc_get_detail_op(MI, 0)->access =
      map_get_op_access(MI, OpNo);
    Sparc_get_detail_op(MI, 0)->mem.base = MCOperand_getReg(Op1);

    if (MCOperand_isReg(Op2) && MCOperand_getReg(Op2) != Sparc_G0) {
      Sparc_get_detail_op(MI, 0)->mem.index =
        MCOperand_getReg(Op2);
    } else if (MCOperand_isImm(Op2) && MCOperand_getImm(Op2) != 0) {
      Sparc_get_detail_op(MI, 0)->mem.disp =
        MCOperand_getImm(Op2);
    }
    Sparc_inc_op_count(MI);
    break;
  }
  case Sparc_OP_GROUP_ASITag:
    Sparc_get_detail_op(MI, 0)->type = SPARC_OP_ASI;
    Sparc_get_detail_op(MI, 0)->access =
      map_get_op_access(MI, OpNo);
    Sparc_get_detail_op(MI, 0)->asi =
      MCOperand_getImm(MCInst_getOperand(MI, OpNo));
    Sparc_inc_op_count(MI);
    break;
  case Sparc_OP_GROUP_MembarTag:
    Sparc_get_detail_op(MI, 0)->type = SPARC_OP_MEMBAR_TAG;
    Sparc_get_detail_op(MI, 0)->access =
      map_get_op_access(MI, OpNo);
    Sparc_get_detail_op(MI, 0)->membar_tag =
      MCOperand_getImm(MCInst_getOperand(MI, OpNo));
    Sparc_inc_op_count(MI);
    break;
  }
}

#endif

Coverage Report

Created: 2025-08-28 06:43

Line	Count	Source (jump to first uncovered line)
1		/* Capstone Disassembly Engine */
2		/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2015 */
3
4		#ifdef CAPSTONE_HAS_SPARC
5
6		#include <stdio.h> // debug
7		#include <string.h>
8
9		#include "../../Mapping.h"
10		#include "../../utils.h"
11		#include "../../cs_simple_types.h"
12
13		#include "SparcMapping.h"
14
15		void Sparc_init_cs_detail(MCInst *MI)
16	48.2k	{
17	48.2k	if (!detail_is_set(MI)) {
18	0	return;
19	0	}
20	48.2k	memset(get_detail(MI), 0,
21	48.2k	offsetof(cs_detail, sparc) + sizeof(cs_sparc));
22	48.2k	Sparc_get_detail(MI)->cc = SPARC_CC_UNDEF;
23	48.2k	Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_NONE;
24	48.2k	}
25
26		const insn_map sparc_insns[] = {
27		#include "SparcGenCSMappingInsn.inc"
28		};
29
30		void Sparc_set_instr_map_data(MCInst *MI)
31	48.2k	{
32	48.2k	map_cs_id(MI, sparc_insns, ARR_SIZE(sparc_insns));
33	48.2k	map_implicit_reads(MI, sparc_insns);
34	48.2k	map_implicit_writes(MI, sparc_insns);
35	48.2k	map_groups(MI, sparc_insns);
36	48.2k	const sparc_suppl_info *suppl_info =
37	48.2k	map_get_suppl_info(MI, sparc_insns);
38	48.2k	if (suppl_info) {
39	48.2k	Sparc_get_detail(MI)->format = suppl_info->form;
40	48.2k	}
41	48.2k	}
42
43		/// Adds details which are not defined consistently as LLVM operands like
44		/// condition codes for alias instructions or branch hint bits.
45		static void Sparc_add_bit_details(MCInst MI, const uint8_t Bytes,
46		size_t BytesLen)
47	48.2k	{
48	48.2k	if (!Bytes \|\| BytesLen < 4 \|\| !detail_is_set(MI)) {
49	646	return;
50	646	}
51	47.5k	uint32_t insn = readBytes32(MI, Bytes);
52
53		// CC field
54	47.5k	cs_sparc *detail = Sparc_get_detail(MI);
55	47.5k	switch (detail->format) {
56	31.8k	default:
57	31.8k	break;
58	31.8k	case SPARC_INSN_FORM_F2_2: {
59		// This format is used either by B or FB instructions.
60		// The op2 == 6 for the FB and 2 for B.
61		// This is the only indicator we have here to determine which CC field is used
62		// if we don't want big switch cases.
63		//
64		// See: Opcode Maps - Table 39 - Sparc V9 ISA
65	6.03k	size_t op2 = get_insn_field_r(insn, 22, 24);
66	6.03k	detail->cc_field = op2 == 6 ? SPARC_CC_FIELD_FCC0 :
67	6.03k	SPARC_CC_FIELD_ICC;
68	6.03k	break;
69	0	}
70	7.04k	case SPARC_INSN_FORM_F2_3:
71	7.04k	detail->cc_field = get_insn_field_r(insn, 20, 21);
72	7.04k	if (get_insn_field_r(insn, 22, 24) == 1) {
73		// BPcc and FBPcc encode their fields in two bits.
74		// BPcc needs the upper bit set to match our CC field enum.
75	4.58k	detail->cc_field \|= 0x4;
76	4.58k	}
77	7.04k	break;
78	509	case SPARC_INSN_FORM_TRAPSP:
79	509	detail->cc_field = 0x4 \| get_insn_field_r(insn, 11, 12);
80	509	break;
81	996	case SPARC_INSN_FORM_F4_1:
82	1.57k	case SPARC_INSN_FORM_F4_2:
83	1.57k	detail->cc_field = get_insn_field_r(insn, 11, 12);
84	1.57k	detail->cc_field \|= get_insn_field_r(insn, 18, 18) << 2;
85	1.57k	break;
86	610	case SPARC_INSN_FORM_F4_3:
87	610	detail->cc_field = get_insn_field_r(insn, 11, 13);
88	610	break;
89	47.5k	}
90
91		// Condition codes
92	47.5k	switch (detail->format) {
93	25.2k	default:
94	25.2k	break;
95	25.2k	case SPARC_INSN_FORM_F2_1:
96	10.7k	case SPARC_INSN_FORM_F2_2:
97	17.7k	case SPARC_INSN_FORM_F2_3:
98	18.2k	case SPARC_INSN_FORM_TRAPSP: {
99		// cond
100		// Alias instructions don't define the conditions as operands.
101		// We need to add them here to the details again.
102	18.2k	sparc_cc cc = get_insn_field_r(insn, 25, 28);
103	18.2k	if (MCInst_getOpcode(MI) == Sparc_CBCOND \|\|
104	18.2k	MCInst_getOpcode(MI) == Sparc_CBCONDA) {
105	3.87k	cc += SPARC_CC_CPCC_BEGIN;
106	3.87k	}
107	18.2k	detail->cc = cc;
108	18.2k	break;
109	17.7k	}
110	996	case SPARC_INSN_FORM_F4_1:
111	1.57k	case SPARC_INSN_FORM_F4_2:
112	2.18k	case SPARC_INSN_FORM_F4_3: {
113	2.18k	sparc_cc cc = get_insn_field_r(insn, 14, 17);
114	2.18k	detail->cc = cc;
115	2.18k	break;
116	1.57k	}
117	1.68k	case SPARC_INSN_FORM_F2_4: {
118		// cond
119		// Alias instructions don't define the conditions as operands.
120		// We need to add them here to the details again.
121	1.68k	sparc_cc rcc = get_insn_field_r(insn, 25, 27);
122	1.68k	detail->cc = rcc + SPARC_CC_REG_BEGIN;
123	1.68k	break;
124	1.57k	}
125	112	case SPARC_INSN_FORM_F4_4R:
126	221	case SPARC_INSN_FORM_F4_4I: {
127	221	sparc_cc rcc = get_insn_field_r(insn, 10, 12);
128	221	detail->cc = rcc + SPARC_CC_REG_BEGIN;
129	221	break;
130	112	}
131	47.5k	}
132	47.5k	switch (detail->cc_field) {
133	31.8k	default:
134	38.9k	case SPARC_CC_FIELD_ICC:
135	41.7k	case SPARC_CC_FIELD_XCC:
136	41.7k	break;
137	3.32k	case SPARC_CC_FIELD_FCC0:
138	4.37k	case SPARC_CC_FIELD_FCC1:
139	4.79k	case SPARC_CC_FIELD_FCC2:
140	5.86k	case SPARC_CC_FIELD_FCC3:
141	5.86k	detail->cc += SPARC_CC_FCC_BEGIN;
142	5.86k	break;
143	47.5k	}
144
145		// Hints
146	47.5k	switch (detail->format) {
147	32.8k	default:
148	32.8k	break;
149	32.8k	case SPARC_INSN_FORM_F2_2:
150	6.03k	detail->hint = get_insn_field_r(insn, 29, 29);
151	6.03k	break;
152	7.04k	case SPARC_INSN_FORM_F2_3:
153	8.73k	case SPARC_INSN_FORM_F2_4:
154	8.73k	detail->hint = get_insn_field_r(insn, 29, 29);
155	8.73k	detail->hint \|= get_insn_field_r(insn, 19, 19) == 0 ?
156	1.55k	SPARC_HINT_PN :
157	8.73k	SPARC_HINT_PT;
158	8.73k	break;
159	47.5k	}
160	47.5k	}
161
162		bool Sparc_getInstruction(csh handle, const uint8_t *code, size_t code_len,
163		MCInst instr, uint16_t size, uint64_t address,
164		void *info)
165	48.2k	{
166	48.2k	Sparc_init_cs_detail(instr);
167	48.2k	bool Result = Sparc_LLVM_getInstruction(handle, code, code_len, instr,
168	48.2k	size, address,
169	48.2k	info) != MCDisassembler_Fail;
170	48.2k	Sparc_set_instr_map_data(instr);
171
172	48.2k	Sparc_add_bit_details(instr, code, code_len);
173	48.2k	return Result;
174	48.2k	}
175
176		void Sparc_init_mri(MCRegisterInfo *MRI)
177	1.71k	{
178	1.71k	MCRegisterInfo_InitMCRegisterInfo(
179	1.71k	MRI, SparcRegDesc, sizeof(SparcRegDesc), 0, 0,
180	1.71k	SparcMCRegisterClasses, ARR_SIZE(SparcMCRegisterClasses), 0, 0,
181	1.71k	SparcRegDiffLists, 0, SparcSubRegIdxLists,
182	1.71k	ARR_SIZE(SparcSubRegIdxLists), 0);
183	1.71k	}
184
185		const char *Sparc_reg_name(csh handle, unsigned int reg)
186	19.7k	{
187	19.7k	int syntax_opt = ((cs_struct *)(uintptr_t)handle)->syntax;
188
189	19.7k	if (syntax_opt & CS_OPT_SYNTAX_NOREGNAME) {
190	0	return Sparc_LLVM_getRegisterName(reg, Sparc_NoRegAltName);
191	0	}
192	19.7k	return Sparc_LLVM_getRegisterName(reg, Sparc_RegNamesStateReg);
193	19.7k	}
194
195		void Sparc_get_insn_id(cs_struct h, cs_insn insn, unsigned int id)
196	47.2k	{
197		// Not used by Sparc. Information is set after disassembly.
198	47.2k	}
199
200		static const char *const insn_name_maps[] = {
201		#include "SparcGenCSMappingInsnName.inc"
202		};
203
204		#ifndef CAPSTONE_DIET
205		static const name_map insn_alias_mnem_map[] = {
206		#include "SparcGenCSAliasMnemMap.inc"
207		{ SPARC_INS_ALIAS_CALL, "call" },
208		{ SPARC_INS_ALIAS_END, NULL },
209		};
210		#endif
211
212		static void insert_op(MCInst *MI, unsigned index, cs_sparc_op op)
213	1.20k	{
214	1.20k	if (!detail_is_set(MI)) {
215	0	return;
216	0	}
217	1.20k	Sparc_check_safe_inc(MI);
218
219	1.20k	cs_sparc_op *ops = Sparc_get_detail(MI)->operands;
220	1.20k	int i = Sparc_get_detail(MI)->op_count;
221	1.20k	if (index == -1) {
222	1.08k	ops[i] = op;
223	1.08k	Sparc_inc_op_count(MI);
224	1.08k	return;
225	1.08k	}
226	246	for (; i > 0 && i > index; --i) {
227	123	ops[i] = ops[i - 1];
228	123	}
229	123	ops[index] = op;
230	123	Sparc_inc_op_count(MI);
231	123	}
232
233		/// Inserts a register to the detail operands at @index.
234		/// Already present operands are moved.
235		/// If @index is -1 the operand is appended.
236		static void Sparc_insert_detail_op_reg_at(MCInst *MI, unsigned index,
237		sparc_reg Reg, cs_ac_type access)
238	1.20k	{
239	1.20k	if (!detail_is_set(MI))
240	0	return;
241
242	1.20k	cs_sparc_op op = { 0 };
243	1.20k	op.type = SPARC_OP_REG;
244	1.20k	op.reg = Reg;
245	1.20k	op.access = access;
246	1.20k	insert_op(MI, index, op);
247	1.20k	}
248
249		static void Sparc_correct_details(MCInst *MI)
250	47.2k	{
251	47.2k	if (!detail_is_set(MI)) {
252	0	return;
253	0	}
254	47.2k	switch (MCInst_getOpcode(MI)) {
255	45.3k	default:
256	45.3k	return;
257	45.3k	case Sparc_LDSTUBri:
258	243	case Sparc_LDSTUBrr:
259	536	case Sparc_LDSTUBAri:
260	687	case Sparc_LDSTUBArr:
261		// The memory gets written back with ones
262		// but there is not write back memory operand defined
263		// (if even possible).
264	687	Sparc_get_detail(MI)->operands[0].access = CS_AC_READ_WRITE;
265	687	break;
266	38	case Sparc_RDPSR:
267	38	Sparc_insert_detail_op_reg_at(MI, 0, SPARC_REG_PSR, CS_AC_READ);
268	38	break;
269	21	case Sparc_PWRPSRri:
270	90	case Sparc_PWRPSRrr:
271	235	case Sparc_WRPSRri:
272	814	case Sparc_WRPSRrr:
273	814	Sparc_insert_detail_op_reg_at(MI, -1, SPARC_REG_PSR,
274	814	CS_AC_WRITE);
275	814	break;
276	67	case Sparc_RDWIM:
277	67	Sparc_insert_detail_op_reg_at(MI, 0, SPARC_REG_WIM, CS_AC_READ);
278	67	break;
279	24	case Sparc_WRWIMri:
280	158	case Sparc_WRWIMrr:
281	158	Sparc_insert_detail_op_reg_at(MI, -1, SPARC_REG_WIM,
282	158	CS_AC_WRITE);
283	158	break;
284	18	case Sparc_RDTBR:
285	18	Sparc_insert_detail_op_reg_at(MI, 0, SPARC_REG_TBR, CS_AC_READ);
286	18	break;
287	86	case Sparc_WRTBRri:
288	112	case Sparc_WRTBRrr:
289	112	Sparc_insert_detail_op_reg_at(MI, -1, SPARC_REG_TBR,
290	112	CS_AC_WRITE);
291	112	break;
292	47.2k	}
293	47.2k	}
294
295		void Sparc_printer(MCInst MI, SStream O, void * /* MCRegisterInfo* */ info)
296	47.2k	{
297	47.2k	MCRegisterInfo MRI = (MCRegisterInfo )info;
298	47.2k	MI->MRI = MRI;
299	47.2k	MI->flat_insn->usesAliasDetails = map_use_alias_details(MI);
300	47.2k	Sparc_LLVM_printInst(MI, MI->address, "", O);
301
302	47.2k	#ifndef CAPSTONE_DIET
303	47.2k	map_set_alias_id(MI, O, insn_alias_mnem_map,
304	47.2k	ARR_SIZE(insn_alias_mnem_map));
305	47.2k	Sparc_correct_details(MI);
306	47.2k	#endif
307	47.2k	}
308
309		const char *Sparc_insn_name(csh handle, unsigned int id)
310	47.2k	{
311	47.2k	#ifndef CAPSTONE_DIET
312	47.2k	if (id < SPARC_INS_ALIAS_END && id > SPARC_INS_ALIAS_BEGIN) {
313	0	if (id - SPARC_INS_ALIAS_BEGIN >= ARR_SIZE(insn_alias_mnem_map))
314	0	return NULL;
315
316	0	return insn_alias_mnem_map[id - SPARC_INS_ALIAS_BEGIN - 1].name;
317	0	}
318	47.2k	if (id >= SPARC_INS_ENDING)
319	0	return NULL;
320
321	47.2k	if (id < ARR_SIZE(insn_name_maps))
322	47.2k	return insn_name_maps[id];
323		// not found
324	0	return NULL;
325		#else
326		return NULL;
327		#endif
328	47.2k	}
329
330		#ifndef CAPSTONE_DIET
331		static const name_map group_name_maps[] = {
332		{ SPARC_GRP_INVALID, NULL },
333
334		{ SPARC_GRP_JUMP, "jump" },
335		{ SPARC_GRP_CALL, "call" },
336		{ SPARC_GRP_RET, "return" },
337		{ SPARC_GRP_INT, "int" },
338		{ SPARC_GRP_IRET, "iret" },
339		{ SPARC_GRP_PRIVILEGE, "privilege" },
340		{ SPARC_GRP_BRANCH_RELATIVE, "branch_relative" },
341
342		// architecture-specific groups
343		#include "SparcGenCSFeatureName.inc"
344		};
345		#endif
346
347		const char *Sparc_group_name(csh handle, unsigned int id)
348	115k	{
349	115k	#ifndef CAPSTONE_DIET
350	115k	return id2name(group_name_maps, ARR_SIZE(group_name_maps), id);
351		#else
352		return NULL;
353		#endif
354	115k	}
355
356		static const map_insn_ops insn_operands[] = {
357		#include "SparcGenCSMappingInsnOp.inc"
358		};
359
360		void Sparc_set_detail_op_imm(MCInst *MI, unsigned OpNum, sparc_op_type ImmType,
361		int64_t Imm)
362	27.7k	{
363	27.7k	if (!detail_is_set(MI))
364	0	return;
365	27.7k	CS_ASSERT_RET((map_get_op_type(MI, OpNum) & ~CS_OP_MEM) == CS_OP_IMM);
366	27.7k	CS_ASSERT_RET(ImmType == SPARC_OP_IMM);
367
368	27.7k	Sparc_get_detail_op(MI, 0)->type = ImmType;
369	27.7k	Sparc_get_detail_op(MI, 0)->imm = Imm;
370	27.7k	Sparc_get_detail_op(MI, 0)->access = map_get_op_access(MI, OpNum);
371	27.7k	Sparc_inc_op_count(MI);
372	27.7k	}
373
374		void Sparc_set_detail_op_reg(MCInst *MI, unsigned OpNum, sparc_reg Reg)
375	37.3k	{
376	37.3k	if (!detail_is_set(MI))
377	0	return;
378	37.3k	CS_ASSERT_RET((map_get_op_type(MI, OpNum) & ~CS_OP_MEM) == CS_OP_REG);
379
380	37.3k	switch (Reg) {
381	33.8k	default:
382	33.8k	Sparc_get_detail_op(MI, 0)->type = SPARC_OP_REG;
383	33.8k	Sparc_get_detail_op(MI, 0)->reg = Reg;
384	33.8k	Sparc_get_detail_op(MI, 0)->access =
385	33.8k	map_get_op_access(MI, OpNum);
386	33.8k	Sparc_inc_op_count(MI);
387	33.8k	return;
388		// The LLVM definition is inconsistent with the cc fields.
389		// Sometimes they are encoded as register, sometimes not at all.
390		// For Capstone they are always saved in the cc_field field for now.
391	0	case SPARC_REG_ICC:
392	0	Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_ICC;
393	0	break;
394	408	case SPARC_REG_FCC0:
395	408	Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC0;
396	408	break;
397	1.05k	case SPARC_REG_FCC1:
398	1.05k	Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC1;
399	1.05k	break;
400	997	case SPARC_REG_FCC2:
401	997	Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC2;
402	997	break;
403	1.07k	case SPARC_REG_FCC3:
404	1.07k	Sparc_get_detail(MI)->cc_field = SPARC_CC_FIELD_FCC3;
405	1.07k	break;
406	37.3k	}
407	37.3k	}
408
409		static inline bool is_single_reg_mem_case(MCInst *MI, unsigned OpNo)
410	21.4k	{
411	21.4k	if (map_get_op_type(MI, OpNo) != CS_OP_MEM_REG) {
412	5.86k	return false;
413	5.86k	}
414	15.6k	cs_sparc_op *prev_op = Sparc_get_detail_op(MI, -1);
415	15.6k	if (prev_op && prev_op->type == SPARC_OP_MEM) {
416	14.8k	return false;
417	14.8k	}
418	760	if (MI->size == 1) {
419	0	return true;
420	760	} else if (MI->size > OpNo + 1 &&
421	760	Sparc_get_detail(MI)->operands[0].type != SPARC_OP_MEM) {
422		// Next operand is not a memory operand (disponent or index reg).
423	630	return !(map_get_op_type(MI, OpNo + 1) & SPARC_OP_MEM);
424	630	}
425	130	return false;
426	760	}
427
428		void Sparc_add_cs_detail_0(MCInst *MI, sparc_op_group op_group, unsigned OpNo)
429	116k	{
430	116k	if (!detail_is_set(MI) \|\| !map_fill_detail_ops(MI))
431	0	return;
432
433	116k	cs_op_type op_type = map_get_op_type(MI, OpNo);
434
435	116k	switch (op_group) {
436	0	default:
437	0	case Sparc_OP_GROUP_GetPCX:
438	0	printf("Operand group %d not handled!\n", op_group);
439	0	return;
440	86.6k	case Sparc_OP_GROUP_Operand:
441	86.6k	if (op_type & CS_OP_MEM) {
442	21.4k	if (is_single_reg_mem_case(MI, OpNo)) {
443	630	Sparc_get_detail_op(MI, 0)->type = SPARC_OP_MEM;
444	630	Sparc_get_detail_op(MI, 0)->mem.base =
445	630	MCInst_getOpVal(MI, OpNo);
446	630	Sparc_get_detail_op(MI, 0)->access =
447	630	map_get_op_access(MI, OpNo);
448	630	Sparc_inc_op_count(MI);
449	630	}
450	21.4k	break;
451	21.4k	}
452	65.1k	if (op_type == CS_OP_IMM) {
453	27.7k	Sparc_set_detail_op_imm(MI, OpNo, SPARC_OP_IMM,
454	27.7k	MCInst_getOpVal(MI, OpNo));
455	37.3k	} else if (op_type == CS_OP_REG) {
456	37.3k	Sparc_set_detail_op_reg(MI, OpNo,
457	37.3k	MCInst_getOpVal(MI, OpNo));
458	37.3k	} else {
459	0	CS_ASSERT_RET(0 && "Op type not handled.");
460	0	}
461	65.1k	Sparc_get_detail_op(MI, 0)->access =
462	65.1k	map_get_op_access(MI, OpNo);
463	65.1k	break;
464	14.0k	case Sparc_OP_GROUP_CCOperand: {
465		// Handled in Sparc_add_bit_details().
466	14.0k	break;
467	86.6k	}
468	11.5k	case Sparc_OP_GROUP_MemOperand: {
469	11.5k	cs_sparc_op *prev_op = Sparc_get_detail_op(MI, -1);
470	11.5k	if (prev_op && prev_op->type == SPARC_OP_MEM) {
471		// Already added.
472	0	break;
473	0	}
474	11.5k	MCOperand *Op1 = MCInst_getOperand(MI, (OpNo));
475	11.5k	MCOperand *Op2 = MCInst_getOperand(MI, (OpNo + 1));
476	11.5k	if (!MCOperand_isReg(Op1) \|\|
477	11.5k	MCOperand_getReg(Op1) == Sparc_G0) {
478		// Ignored
479	654	return;
480	654	}
481	10.9k	Sparc_get_detail_op(MI, 0)->type = SPARC_OP_MEM;
482	10.9k	Sparc_get_detail_op(MI, 0)->access =
483	10.9k	map_get_op_access(MI, OpNo);
484	10.9k	Sparc_get_detail_op(MI, 0)->mem.base = MCOperand_getReg(Op1);
485
486	10.9k	if (MCOperand_isReg(Op2) && MCOperand_getReg(Op2) != Sparc_G0) {
487	3.92k	Sparc_get_detail_op(MI, 0)->mem.index =
488	3.92k	MCOperand_getReg(Op2);
489	6.99k	} else if (MCOperand_isImm(Op2) && MCOperand_getImm(Op2) != 0) {
490	5.58k	Sparc_get_detail_op(MI, 0)->mem.disp =
491	5.58k	MCOperand_getImm(Op2);
492	5.58k	}
493	10.9k	Sparc_inc_op_count(MI);
494	10.9k	break;
495	11.5k	}
496	3.68k	case Sparc_OP_GROUP_ASITag:
497	3.68k	Sparc_get_detail_op(MI, 0)->type = SPARC_OP_ASI;
498	3.68k	Sparc_get_detail_op(MI, 0)->access =
499	3.68k	map_get_op_access(MI, OpNo);
500	3.68k	Sparc_get_detail_op(MI, 0)->asi =
501	3.68k	MCOperand_getImm(MCInst_getOperand(MI, OpNo));
502	3.68k	Sparc_inc_op_count(MI);
503	3.68k	break;
504	299	case Sparc_OP_GROUP_MembarTag:
505	299	Sparc_get_detail_op(MI, 0)->type = SPARC_OP_MEMBAR_TAG;
506	299	Sparc_get_detail_op(MI, 0)->access =
507	299	map_get_op_access(MI, OpNo);
508	299	Sparc_get_detail_op(MI, 0)->membar_tag =
509	299	MCOperand_getImm(MCInst_getOperand(MI, OpNo));
510	299	Sparc_inc_op_count(MI);
511	299	break;
512	116k	}
513	116k	}
514
515		#endif