/src/capstonenext/MCInstPrinter.c

Source
/* Capstone Disassembly Engine */
/* By Rot127 <unisono@quyllur.org>, 2023 */

#include "MCInstPrinter.h"
#include "cs_priv.h"
#include <capstone/platform.h>

extern bool ARM_getFeatureBits(unsigned int mode, unsigned int feature);
extern bool PPC_getFeatureBits(unsigned int mode, unsigned int feature);
extern bool Mips_getFeatureBits(unsigned int mode, unsigned int feature);
extern bool AArch64_getFeatureBits(unsigned int mode, unsigned int feature);
extern bool TriCore_getFeatureBits(unsigned int mode, unsigned int feature);
extern bool Sparc_getFeatureBits(unsigned int mode, unsigned int feature);
extern bool RISCV_getFeatureBits(unsigned int mode, unsigned int feature);

static bool testFeatureBits(const MCInst *MI, uint32_t Value)
{
  assert(MI && MI->csh);
  switch (MI->csh->arch) {
  default:
    assert(0 && "Not implemented for current arch.");
    return false;
#ifdef CAPSTONE_HAS_ARM
  case CS_ARCH_ARM:
    return ARM_getFeatureBits(MI->csh->mode, Value);
#endif
#ifdef CAPSTONE_HAS_POWERPC
  case CS_ARCH_PPC:
    return PPC_getFeatureBits(MI->csh->mode, Value);
#endif
#ifdef CAPSTONE_HAS_MIPS
  case CS_ARCH_MIPS:
    return Mips_getFeatureBits(MI->csh->mode, Value);
#endif
#ifdef CAPSTONE_HAS_AARCH64
  case CS_ARCH_AARCH64:
    return AArch64_getFeatureBits(MI->csh->mode, Value);
#endif
#ifdef CAPSTONE_HAS_TRICORE
  case CS_ARCH_TRICORE:
    return TriCore_getFeatureBits(MI->csh->mode, Value);
#endif
#ifdef CAPSTONE_HAS_SPARC
  case CS_ARCH_SPARC:
    return Sparc_getFeatureBits(MI->csh->mode, Value);
#endif
#ifdef CAPSTONE_HAS_RISCV
  case CS_ARCH_RISCV:
    return RISCV_getFeatureBits(MI->csh->mode, Value);
#endif
  }
}

static bool matchAliasCondition(MCInst *MI, const MCRegisterInfo *MRI,
        unsigned *OpIdx, const AliasMatchingData *M,
        const AliasPatternCond *C,
        bool *OrPredicateResult)
{
  // Feature tests are special, they don't consume operands.
  if (C->Kind == AliasPatternCond_K_Feature)
    return testFeatureBits(MI, C->Value);
  if (C->Kind == AliasPatternCond_K_NegFeature)
    return !testFeatureBits(MI, C->Value);
  // For feature tests where just one feature is required in a list, set the
  // predicate result bit to whether the expression will return true, and only
  // return the real result at the end of list marker.
  if (C->Kind == AliasPatternCond_K_OrFeature) {
    *OrPredicateResult |= testFeatureBits(MI, C->Value);
    return true;
  }
  if (C->Kind == AliasPatternCond_K_OrNegFeature) {
    *OrPredicateResult |= !(testFeatureBits(MI, C->Value));
    return true;
  }
  if (C->Kind == AliasPatternCond_K_EndOrFeatures) {
    bool Res = *OrPredicateResult;
    *OrPredicateResult = false;
    return Res;
  }

  // Get and consume an operand.
  MCOperand *Opnd = MCInst_getOperand(MI, *OpIdx);
  ++(*OpIdx);

  // Check the specific condition for the operand.
  switch (C->Kind) {
  default:
    assert(0 && "invalid kind");
  case AliasPatternCond_K_Imm:
    // Operand must be a specific immediate.
    return MCOperand_isImm(Opnd) &&
           MCOperand_getImm(Opnd) == (int32_t)C->Value;
  case AliasPatternCond_K_Reg:
    // Operand must be a specific register.
    return MCOperand_isReg(Opnd) &&
           MCOperand_getReg(Opnd) == C->Value;
  case AliasPatternCond_K_TiedReg:
    // Operand must match the register of another operand.
    return MCOperand_isReg(Opnd) &&
           MCOperand_getReg(Opnd) ==
             MCOperand_getReg(
               MCInst_getOperand(MI, C->Value));
  case AliasPatternCond_K_RegClass:
    // Operand must be a register in this class. Value is a register class
    // id.
    return MCOperand_isReg(Opnd) &&
           MCRegisterClass_contains(
             MCRegisterInfo_getRegClass(MRI, C->Value),
             MCOperand_getReg(Opnd));
  case AliasPatternCond_K_Custom:
    // Operand must match some custom criteria.
    assert(M->ValidateMCOperand &&
           "A custom validator should be set but isn't.");
    return M->ValidateMCOperand(Opnd, C->Value);
  case AliasPatternCond_K_Ignore:
    // Operand can be anything.
    return true;
  case AliasPatternCond_K_Feature:
  case AliasPatternCond_K_NegFeature:
  case AliasPatternCond_K_OrFeature:
  case AliasPatternCond_K_OrNegFeature:
  case AliasPatternCond_K_EndOrFeatures:
    assert(0 && "handled earlier");
  }
  return false;
}

/// Check if PatternsForOpcode is all zero.
static inline bool validOpToPatter(const PatternsForOpcode *P)
{
  return !(P->Opcode == 0 && P->PatternStart == 0 && P->NumPatterns == 0);
}

const char *matchAliasPatterns(MCInst *MI, const AliasMatchingData *M)
{
  // TODO Rewrite to C

  // auto It = lower_bound(M.OpToPatterns, MI->getOpcode(),
  //                       [](const PatternsForOpcode &L, unsigned Opcode) {
  //                         return L.Opcode < Opcode;
  //                       });
  // if (It == M.OpToPatterns.end() || It->Opcode != MI->getOpcode())
  //   return nullptr;

  // Binary search by opcode. Return false if there are no aliases for this
  // opcode.
  unsigned MIOpcode = MI->Opcode;
  size_t i = 0;
  uint32_t PatternOpcode = M->OpToPatterns[i].Opcode;
  while (PatternOpcode < MIOpcode && validOpToPatter(&M->OpToPatterns[i]))
    PatternOpcode = M->OpToPatterns[++i].Opcode;
  if (PatternOpcode != MI->Opcode ||
      !validOpToPatter(&M->OpToPatterns[i]))
    return NULL;

  // // Try all patterns for this opcode.
  uint32_t AsmStrOffset = ~0U;
  const AliasPattern *Patterns =
    M->Patterns + M->OpToPatterns[i].PatternStart;
  for (const AliasPattern *P = Patterns;
       P != Patterns + M->OpToPatterns[i].NumPatterns; ++P) {
    // Check operand count first.
    if (MCInst_getNumOperands(MI) != P->NumOperands)
      return NULL;

    // Test all conditions for this pattern.
    const AliasPatternCond *Conds =
      M->PatternConds + P->AliasCondStart;
    unsigned OpIdx = 0;
    bool OrPredicateResult = false;
    bool allMatch = true;
    for (const AliasPatternCond *C = Conds;
         C != Conds + P->NumConds; ++C) {
      if (!matchAliasCondition(MI, MI->MRI, &OpIdx, M, C,
             &OrPredicateResult)) {
        allMatch = false;
        break;
      }
    }
    if (allMatch) {
      AsmStrOffset = P->AsmStrOffset;
      break;
    }
  }
  // If no alias matched, don't print an alias.
  if (AsmStrOffset == ~0U)
    return NULL;

  // Go to offset AsmStrOffset and use the null terminated string there. The
  // offset should point to the beginning of an alias string, so it should
  // either be zero or be preceded by a null byte.
  return M->AsmStrings + AsmStrOffset;
}

// TODO Add functionality to toggle the flag.
bool getUseMarkup(void)
{
  return false;
}

/// Utility functions to make adding mark ups simpler.
const char *markup(const char *s)
{
  static const char *no_markup = "";
  if (getUseMarkup())
    return s;
  else
    return no_markup;
}

// binary search for encoding in IndexType array
// return -1 if not found, or index if found
unsigned int binsearch_IndexTypeEncoding(const struct IndexType *index,
           size_t size, uint16_t encoding)
{
  // binary searching since the index is sorted in encoding order
  size_t left, right, m;

  right = size - 1;

  if (encoding < index[0].encoding || encoding > index[right].encoding)
    // not found
    return -1;

  left = 0;

  while (left <= right) {
    m = (left + right) / 2;
    if (encoding == index[m].encoding) {
      // LLVM actually uses lower_bound for the index table search
      // Here we need to check if a previous entry is of the same encoding
      // and return the first one.
      while (m > 0 && encoding == index[m - 1].encoding)
        --m;
      return m;
    }

    if (encoding < index[m].encoding)
      right = m - 1;
    else
      left = m + 1;
  }

  // not found
  return -1;
}

// binary search for encoding in IndexTypeStr array
// return -1 if not found, or index if found
unsigned int binsearch_IndexTypeStrEncoding(const struct IndexTypeStr *index,
              size_t size, const char *name)
{
  // binary searching since the index is sorted in encoding order
  size_t left, right, m;

  right = size - 1;

  int str_left_cmp = strcmp(name, index[0].name);
  int str_right_cmp = strcmp(name, index[right].name);
  if (str_left_cmp < 0 || str_right_cmp > 0)
    // not found
    return -1;

  left = 0;

  while (left <= right) {
    m = (left + right) / 2;
    if (strcmp(name, index[m].name) == 0) {
      // LLVM actually uses lower_bound for the index table search
      // Here we need to check if a previous entry is of the same encoding
      // and return the first one.
      while (m > 0 && (strcmp(name, index[m - 1].name) == 0))
        --m;
      return m;
    }

    if (strcmp(name, index[m].name) < 0)
      right = m - 1;
    else
      left = m + 1;
  }

  // not found
  return -1;
}

Coverage Report

Created: 2026-03-03 06:14

Line	Count	Source
1		/* Capstone Disassembly Engine */
2		/* By Rot127 <unisono@quyllur.org>, 2023 */
3
4		#include "MCInstPrinter.h"
5		#include "cs_priv.h"
6		#include <capstone/platform.h>
7
8		extern bool ARM_getFeatureBits(unsigned int mode, unsigned int feature);
9		extern bool PPC_getFeatureBits(unsigned int mode, unsigned int feature);
10		extern bool Mips_getFeatureBits(unsigned int mode, unsigned int feature);
11		extern bool AArch64_getFeatureBits(unsigned int mode, unsigned int feature);
12		extern bool TriCore_getFeatureBits(unsigned int mode, unsigned int feature);
13		extern bool Sparc_getFeatureBits(unsigned int mode, unsigned int feature);
14		extern bool RISCV_getFeatureBits(unsigned int mode, unsigned int feature);
15
16		static bool testFeatureBits(const MCInst *MI, uint32_t Value)
17	39.6k	{
18	39.6k	assert(MI && MI->csh);
19	39.6k	switch (MI->csh->arch) {
20	0	default:
21	0	assert(0 && "Not implemented for current arch.");
22	0	return false;
23	0	#ifdef CAPSTONE_HAS_ARM
24	3.44k	case CS_ARCH_ARM:
25	3.44k	return ARM_getFeatureBits(MI->csh->mode, Value);
26	0	#endif
27	0	#ifdef CAPSTONE_HAS_POWERPC
28	40	case CS_ARCH_PPC:
29	40	return PPC_getFeatureBits(MI->csh->mode, Value);
30	0	#endif
31	0	#ifdef CAPSTONE_HAS_MIPS
32	5.08k	case CS_ARCH_MIPS:
33	5.08k	return Mips_getFeatureBits(MI->csh->mode, Value);
34	0	#endif
35	0	#ifdef CAPSTONE_HAS_AARCH64
36	29.4k	case CS_ARCH_AARCH64:
37	29.4k	return AArch64_getFeatureBits(MI->csh->mode, Value);
38	0	#endif
39	0	#ifdef CAPSTONE_HAS_TRICORE
40	0	case CS_ARCH_TRICORE:
41	0	return TriCore_getFeatureBits(MI->csh->mode, Value);
42	0	#endif
43	0	#ifdef CAPSTONE_HAS_SPARC
44	1.50k	case CS_ARCH_SPARC:
45	1.50k	return Sparc_getFeatureBits(MI->csh->mode, Value);
46	0	#endif
47	0	#ifdef CAPSTONE_HAS_RISCV
48	123	case CS_ARCH_RISCV:
49	123	return RISCV_getFeatureBits(MI->csh->mode, Value);
50	39.6k	#endif
51	39.6k	}
52	39.6k	}
53
54		static bool matchAliasCondition(MCInst MI, const MCRegisterInfo MRI,
55		unsigned OpIdx, const AliasMatchingData M,
56		const AliasPatternCond *C,
57		bool *OrPredicateResult)
58	429k	{
59		// Feature tests are special, they don't consume operands.
60	429k	if (C->Kind == AliasPatternCond_K_Feature)
61	6.29k	return testFeatureBits(MI, C->Value);
62	422k	if (C->Kind == AliasPatternCond_K_NegFeature)
63	3.82k	return !testFeatureBits(MI, C->Value);
64		// For feature tests where just one feature is required in a list, set the
65		// predicate result bit to whether the expression will return true, and only
66		// return the real result at the end of list marker.
67	418k	if (C->Kind == AliasPatternCond_K_OrFeature) {
68	29.5k	*OrPredicateResult \|= testFeatureBits(MI, C->Value);
69	29.5k	return true;
70	29.5k	}
71	389k	if (C->Kind == AliasPatternCond_K_OrNegFeature) {
72	10	*OrPredicateResult \|= !(testFeatureBits(MI, C->Value));
73	10	return true;
74	10	}
75	389k	if (C->Kind == AliasPatternCond_K_EndOrFeatures) {
76	12.9k	bool Res = *OrPredicateResult;
77	12.9k	*OrPredicateResult = false;
78	12.9k	return Res;
79	12.9k	}
80
81		// Get and consume an operand.
82	376k	MCOperand Opnd = MCInst_getOperand(MI, OpIdx);
83	376k	++(*OpIdx);
84
85		// Check the specific condition for the operand.
86	376k	switch (C->Kind) {
87	0	default:
88	0	assert(0 && "invalid kind");
89	111k	case AliasPatternCond_K_Imm:
90		// Operand must be a specific immediate.
91	111k	return MCOperand_isImm(Opnd) &&
92	111k	MCOperand_getImm(Opnd) == (int32_t)C->Value;
93	36.5k	case AliasPatternCond_K_Reg:
94		// Operand must be a specific register.
95	36.5k	return MCOperand_isReg(Opnd) &&
96	36.5k	MCOperand_getReg(Opnd) == C->Value;
97	1.42k	case AliasPatternCond_K_TiedReg:
98		// Operand must match the register of another operand.
99	1.42k	return MCOperand_isReg(Opnd) &&
100	1.42k	MCOperand_getReg(Opnd) ==
101	1.42k	MCOperand_getReg(
102	1.42k	MCInst_getOperand(MI, C->Value));
103	159k	case AliasPatternCond_K_RegClass:
104		// Operand must be a register in this class. Value is a register class
105		// id.
106	159k	return MCOperand_isReg(Opnd) &&
107	159k	MCRegisterClass_contains(
108	159k	MCRegisterInfo_getRegClass(MRI, C->Value),
109	159k	MCOperand_getReg(Opnd));
110	7.27k	case AliasPatternCond_K_Custom:
111		// Operand must match some custom criteria.
112	7.27k	assert(M->ValidateMCOperand &&
113	7.27k	"A custom validator should be set but isn't.");
114	7.27k	return M->ValidateMCOperand(Opnd, C->Value);
115	59.6k	case AliasPatternCond_K_Ignore:
116		// Operand can be anything.
117	59.6k	return true;
118	0	case AliasPatternCond_K_Feature:
119	0	case AliasPatternCond_K_NegFeature:
120	0	case AliasPatternCond_K_OrFeature:
121	0	case AliasPatternCond_K_OrNegFeature:
122	0	case AliasPatternCond_K_EndOrFeatures:
123	0	assert(0 && "handled earlier");
124	376k	}
125	0	return false;
126	376k	}
127
128		/// Check if PatternsForOpcode is all zero.
129		static inline bool validOpToPatter(const PatternsForOpcode *P)
130	96.0M	{
131	96.0M	return !(P->Opcode == 0 && P->PatternStart == 0 && P->NumPatterns == 0);
132	96.0M	}
133
134		const char matchAliasPatterns(MCInst MI, const AliasMatchingData *M)
135	738k	{
136		// TODO Rewrite to C
137
138		// auto It = lower_bound(M.OpToPatterns, MI->getOpcode(),
139		// [](const PatternsForOpcode &L, unsigned Opcode) {
140		// return L.Opcode < Opcode;
141		// });
142		// if (It == M.OpToPatterns.end() \|\| It->Opcode != MI->getOpcode())
143		// return nullptr;
144
145		// Binary search by opcode. Return false if there are no aliases for this
146		// opcode.
147	738k	unsigned MIOpcode = MI->Opcode;
148	738k	size_t i = 0;
149	738k	uint32_t PatternOpcode = M->OpToPatterns[i].Opcode;
150	96.5M	while (PatternOpcode < MIOpcode && validOpToPatter(&M->OpToPatterns[i]))
151	95.7M	PatternOpcode = M->OpToPatterns[++i].Opcode;
152	738k	if (PatternOpcode != MI->Opcode \|\|
153	72.7k	!validOpToPatter(&M->OpToPatterns[i]))
154	665k	return NULL;
155
156		// // Try all patterns for this opcode.
157	72.7k	uint32_t AsmStrOffset = ~0U;
158	72.7k	const AliasPattern *Patterns =
159	72.7k	M->Patterns + M->OpToPatterns[i].PatternStart;
160	72.7k	for (const AliasPattern *P = Patterns;
161	203k	P != Patterns + M->OpToPatterns[i].NumPatterns; ++P) {
162		// Check operand count first.
163	155k	if (MCInst_getNumOperands(MI) != P->NumOperands)
164	0	return NULL;
165
166		// Test all conditions for this pattern.
167	155k	const AliasPatternCond *Conds =
168	155k	M->PatternConds + P->AliasCondStart;
169	155k	unsigned OpIdx = 0;
170	155k	bool OrPredicateResult = false;
171	155k	bool allMatch = true;
172	155k	for (const AliasPatternCond *C = Conds;
173	453k	C != Conds + P->NumConds; ++C) {
174	429k	if (!matchAliasCondition(MI, MI->MRI, &OpIdx, M, C,
175	429k	&OrPredicateResult)) {
176	130k	allMatch = false;
177	130k	break;
178	130k	}
179	429k	}
180	155k	if (allMatch) {
181	24.6k	AsmStrOffset = P->AsmStrOffset;
182	24.6k	break;
183	24.6k	}
184	155k	}
185		// If no alias matched, don't print an alias.
186	72.7k	if (AsmStrOffset == ~0U)
187	48.1k	return NULL;
188
189		// Go to offset AsmStrOffset and use the null terminated string there. The
190		// offset should point to the beginning of an alias string, so it should
191		// either be zero or be preceded by a null byte.
192	24.6k	return M->AsmStrings + AsmStrOffset;
193	72.7k	}
194
195		// TODO Add functionality to toggle the flag.
196		bool getUseMarkup(void)
197	3.92M	{
198	3.92M	return false;
199	3.92M	}
200
201		/// Utility functions to make adding mark ups simpler.
202		const char markup(const char s)
203	3.85M	{
204	3.85M	static const char *no_markup = "";
205	3.85M	if (getUseMarkup())
206	0	return s;
207	3.85M	else
208	3.85M	return no_markup;
209	3.85M	}
210
211		// binary search for encoding in IndexType array
212		// return -1 if not found, or index if found
213		unsigned int binsearch_IndexTypeEncoding(const struct IndexType *index,
214		size_t size, uint16_t encoding)
215	53.2k	{
216		// binary searching since the index is sorted in encoding order
217	53.2k	size_t left, right, m;
218
219	53.2k	right = size - 1;
220
221	53.2k	if (encoding < index[0].encoding \|\| encoding > index[right].encoding)
222		// not found
223	7.95k	return -1;
224
225	45.2k	left = 0;
226
227	225k	while (left <= right) {
228	207k	m = (left + right) / 2;
229	207k	if (encoding == index[m].encoding) {
230		// LLVM actually uses lower_bound for the index table search
231		// Here we need to check if a previous entry is of the same encoding
232		// and return the first one.
233	27.9k	while (m > 0 && encoding == index[m - 1].encoding)
234	0	--m;
235	27.9k	return m;
236	27.9k	}
237
238	179k	if (encoding < index[m].encoding)
239	65.4k	right = m - 1;
240	114k	else
241	114k	left = m + 1;
242	179k	}
243
244		// not found
245	17.3k	return -1;
246	45.2k	}
247
248		// binary search for encoding in IndexTypeStr array
249		// return -1 if not found, or index if found
250		unsigned int binsearch_IndexTypeStrEncoding(const struct IndexTypeStr *index,
251		size_t size, const char *name)
252	979	{
253		// binary searching since the index is sorted in encoding order
254	979	size_t left, right, m;
255
256	979	right = size - 1;
257
258	979	int str_left_cmp = strcmp(name, index[0].name);
259	979	int str_right_cmp = strcmp(name, index[right].name);
260	979	if (str_left_cmp < 0 \|\| str_right_cmp > 0)
261		// not found
262	0	return -1;
263
264	979	left = 0;
265
266	10.2k	while (left <= right) {
267	10.1k	m = (left + right) / 2;
268	10.1k	if (strcmp(name, index[m].name) == 0) {
269		// LLVM actually uses lower_bound for the index table search
270		// Here we need to check if a previous entry is of the same encoding
271		// and return the first one.
272	919	while (m > 0 && (strcmp(name, index[m - 1].name) == 0))
273	0	--m;
274	919	return m;
275	919	}
276
277	9.27k	if (strcmp(name, index[m].name) < 0)
278	4.16k	right = m - 1;
279	5.11k	else
280	5.11k	left = m + 1;
281	9.27k	}
282
283		// not found
284	60	return -1;
285	979	}