675 lines
24 KiB
C
675 lines
24 KiB
C
#ifndef CAPSTONE_ENGINE_H
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#define CAPSTONE_ENGINE_H
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/* Capstone Disassembly Engine */
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/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2016 */
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#ifdef __cplusplus
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extern "C" {
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#endif
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#if !defined(_MSC_VER) || !defined(_KERNEL_MODE)
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#include <stdint.h>
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#endif
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#include <stdarg.h>
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#if defined(CAPSTONE_HAS_OSXKERNEL)
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#include <libkern/libkern.h>
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#else
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#include <stdlib.h>
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#include <stdio.h>
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#endif
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#include "platform.h"
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#ifdef _MSC_VER
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#pragma warning(disable:4201)
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#pragma warning(disable:4100)
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#define CAPSTONE_API __cdecl
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#ifdef CAPSTONE_SHARED
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#define CAPSTONE_EXPORT __declspec(dllexport)
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#else // defined(CAPSTONE_STATIC)
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#define CAPSTONE_EXPORT
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#endif
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#else
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#define CAPSTONE_API
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#if defined(__GNUC__) && !defined(CAPSTONE_STATIC)
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#define CAPSTONE_EXPORT __attribute__((visibility("default")))
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#else // defined(CAPSTONE_STATIC)
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#define CAPSTONE_EXPORT
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#endif
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#endif
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#ifdef __GNUC__
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#define CAPSTONE_DEPRECATED __attribute__((deprecated))
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#elif defined(_MSC_VER)
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#define CAPSTONE_DEPRECATED __declspec(deprecated)
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#else
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#pragma message("WARNING: You need to implement CAPSTONE_DEPRECATED for this compiler")
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#define CAPSTONE_DEPRECATED
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#endif
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// Capstone API version
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#define CS_API_MAJOR 3
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#define CS_API_MINOR 0
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// Capstone package version
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#define CS_VERSION_MAJOR CS_API_MAJOR
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#define CS_VERSION_MINOR CS_API_MINOR
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#define CS_VERSION_EXTRA 5
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// Macro to create combined version which can be compared to
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// result of cs_version() API.
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#define CS_MAKE_VERSION(major, minor) ((major << 8) + minor)
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// Handle using with all API
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typedef size_t csh;
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// Architecture type
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typedef enum cs_arch {
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CS_ARCH_ARM = 0, // ARM architecture (including Thumb, Thumb-2)
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CS_ARCH_ARM64, // ARM-64, also called AArch64
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CS_ARCH_MIPS, // Mips architecture
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CS_ARCH_X86, // X86 architecture (including x86 & x86-64)
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CS_ARCH_PPC, // PowerPC architecture
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CS_ARCH_SPARC, // Sparc architecture
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CS_ARCH_SYSZ, // SystemZ architecture
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CS_ARCH_XCORE, // XCore architecture
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CS_ARCH_MAX,
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CS_ARCH_ALL = 0xFFFF, // All architectures - for cs_support()
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} cs_arch;
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// Support value to verify diet mode of the engine.
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// If cs_support(CS_SUPPORT_DIET) return True, the engine was compiled
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// in diet mode.
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#define CS_SUPPORT_DIET (CS_ARCH_ALL + 1)
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// Support value to verify X86 reduce mode of the engine.
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// If cs_support(CS_SUPPORT_X86_REDUCE) return True, the engine was compiled
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// in X86 reduce mode.
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#define CS_SUPPORT_X86_REDUCE (CS_ARCH_ALL + 2)
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// Mode type
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typedef enum cs_mode {
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CS_MODE_LITTLE_ENDIAN = 0, // little-endian mode (default mode)
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CS_MODE_ARM = 0, // 32-bit ARM
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CS_MODE_16 = 1 << 1, // 16-bit mode (X86)
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CS_MODE_32 = 1 << 2, // 32-bit mode (X86)
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CS_MODE_64 = 1 << 3, // 64-bit mode (X86, PPC)
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CS_MODE_THUMB = 1 << 4, // ARM's Thumb mode, including Thumb-2
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CS_MODE_MCLASS = 1 << 5, // ARM's Cortex-M series
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CS_MODE_V8 = 1 << 6, // ARMv8 A32 encodings for ARM
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CS_MODE_MICRO = 1 << 4, // MicroMips mode (MIPS)
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CS_MODE_MIPS3 = 1 << 5, // Mips III ISA
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CS_MODE_MIPS32R6 = 1 << 6, // Mips32r6 ISA
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CS_MODE_MIPSGP64 = 1 << 7, // General Purpose Registers are 64-bit wide (MIPS)
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CS_MODE_V9 = 1 << 4, // SparcV9 mode (Sparc)
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CS_MODE_BIG_ENDIAN = 1 << 31, // big-endian mode
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CS_MODE_MIPS32 = CS_MODE_32, // Mips32 ISA (Mips)
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CS_MODE_MIPS64 = CS_MODE_64, // Mips64 ISA (Mips)
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} cs_mode;
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typedef void* (CAPSTONE_API *cs_malloc_t)(size_t size);
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typedef void* (CAPSTONE_API *cs_calloc_t)(size_t nmemb, size_t size);
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typedef void* (CAPSTONE_API *cs_realloc_t)(void *ptr, size_t size);
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typedef void (CAPSTONE_API *cs_free_t)(void *ptr);
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typedef int (CAPSTONE_API *cs_vsnprintf_t)(char *str, size_t size, const char *format, va_list ap);
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// User-defined dynamic memory related functions: malloc/calloc/realloc/free/vsnprintf()
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// By default, Capstone uses system's malloc(), calloc(), realloc(), free() & vsnprintf().
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typedef struct cs_opt_mem {
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cs_malloc_t malloc;
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cs_calloc_t calloc;
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cs_realloc_t realloc;
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cs_free_t free;
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cs_vsnprintf_t vsnprintf;
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} cs_opt_mem;
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// Runtime option for the disassembled engine
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typedef enum cs_opt_type {
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CS_OPT_INVALID = 0, // No option specified
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CS_OPT_SYNTAX, // Assembly output syntax
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CS_OPT_DETAIL, // Break down instruction structure into details
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CS_OPT_MODE, // Change engine's mode at run-time
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CS_OPT_MEM, // User-defined dynamic memory related functions
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CS_OPT_SKIPDATA, // Skip data when disassembling. Then engine is in SKIPDATA mode.
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CS_OPT_SKIPDATA_SETUP, // Setup user-defined function for SKIPDATA option
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} cs_opt_type;
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// Runtime option value (associated with option type above)
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typedef enum cs_opt_value {
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CS_OPT_OFF = 0, // Turn OFF an option - default option of CS_OPT_DETAIL, CS_OPT_SKIPDATA.
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CS_OPT_ON = 3, // Turn ON an option (CS_OPT_DETAIL, CS_OPT_SKIPDATA).
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CS_OPT_SYNTAX_DEFAULT = 0, // Default asm syntax (CS_OPT_SYNTAX).
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CS_OPT_SYNTAX_INTEL, // X86 Intel asm syntax - default on X86 (CS_OPT_SYNTAX).
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CS_OPT_SYNTAX_ATT, // X86 ATT asm syntax (CS_OPT_SYNTAX).
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CS_OPT_SYNTAX_NOREGNAME, // Prints register name with only number (CS_OPT_SYNTAX)
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} cs_opt_value;
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//> Common instruction operand types - to be consistent across all architectures.
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typedef enum cs_op_type {
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CS_OP_INVALID = 0, // uninitialized/invalid operand.
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CS_OP_REG, // Register operand.
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CS_OP_IMM, // Immediate operand.
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CS_OP_MEM, // Memory operand.
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CS_OP_FP, // Floating-Point operand.
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} cs_op_type;
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//> Common instruction groups - to be consistent across all architectures.
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typedef enum cs_group_type {
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CS_GRP_INVALID = 0, // uninitialized/invalid group.
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CS_GRP_JUMP, // all jump instructions (conditional+direct+indirect jumps)
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CS_GRP_CALL, // all call instructions
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CS_GRP_RET, // all return instructions
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CS_GRP_INT, // all interrupt instructions (int+syscall)
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CS_GRP_IRET, // all interrupt return instructions
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} cs_group_type;
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/*
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User-defined callback function for SKIPDATA option.
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See tests/test_skipdata.c for sample code demonstrating this API.
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@code: the input buffer containing code to be disassembled.
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This is the same buffer passed to cs_disasm().
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@code_size: size (in bytes) of the above @code buffer.
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@offset: the position of the currently-examining byte in the input
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buffer @code mentioned above.
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@user_data: user-data passed to cs_option() via @user_data field in
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cs_opt_skipdata struct below.
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@return: return number of bytes to skip, or 0 to immediately stop disassembling.
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*/
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typedef size_t (CAPSTONE_API *cs_skipdata_cb_t)(const uint8_t *code, size_t code_size, size_t offset, void *user_data);
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// User-customized setup for SKIPDATA option
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typedef struct cs_opt_skipdata {
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// Capstone considers data to skip as special "instructions".
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// User can specify the string for this instruction's "mnemonic" here.
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// By default (if @mnemonic is NULL), Capstone use ".byte".
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const char *mnemonic;
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// User-defined callback function to be called when Capstone hits data.
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// If the returned value from this callback is positive (>0), Capstone
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// will skip exactly that number of bytes & continue. Otherwise, if
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// the callback returns 0, Capstone stops disassembling and returns
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// immediately from cs_disasm()
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// NOTE: if this callback pointer is NULL, Capstone would skip a number
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// of bytes depending on architectures, as following:
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// Arm: 2 bytes (Thumb mode) or 4 bytes.
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// Arm64: 4 bytes.
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// Mips: 4 bytes.
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// PowerPC: 4 bytes.
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// Sparc: 4 bytes.
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// SystemZ: 2 bytes.
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// X86: 1 bytes.
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// XCore: 2 bytes.
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cs_skipdata_cb_t callback; // default value is NULL
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// User-defined data to be passed to @callback function pointer.
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void *user_data;
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} cs_opt_skipdata;
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#include "arm.h"
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#include "arm64.h"
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#include "mips.h"
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#include "ppc.h"
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#include "sparc.h"
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#include "systemz.h"
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#include "x86.h"
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#include "xcore.h"
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// NOTE: All information in cs_detail is only available when CS_OPT_DETAIL = CS_OPT_ON
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typedef struct cs_detail {
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uint8_t regs_read[12]; // list of implicit registers read by this insn
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uint8_t regs_read_count; // number of implicit registers read by this insn
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uint8_t regs_write[20]; // list of implicit registers modified by this insn
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uint8_t regs_write_count; // number of implicit registers modified by this insn
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uint8_t groups[8]; // list of group this instruction belong to
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uint8_t groups_count; // number of groups this insn belongs to
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// Architecture-specific instruction info
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union {
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cs_x86 x86; // X86 architecture, including 16-bit, 32-bit & 64-bit mode
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cs_arm64 arm64; // ARM64 architecture (aka AArch64)
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cs_arm arm; // ARM architecture (including Thumb/Thumb2)
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cs_mips mips; // MIPS architecture
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cs_ppc ppc; // PowerPC architecture
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cs_sparc sparc; // Sparc architecture
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cs_sysz sysz; // SystemZ architecture
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cs_xcore xcore; // XCore architecture
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};
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} cs_detail;
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// Detail information of disassembled instruction
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typedef struct cs_insn {
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// Instruction ID (basically a numeric ID for the instruction mnemonic)
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// Find the instruction id in the '[ARCH]_insn' enum in the header file
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// of corresponding architecture, such as 'arm_insn' in arm.h for ARM,
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// 'x86_insn' in x86.h for X86, etc...
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// This information is available even when CS_OPT_DETAIL = CS_OPT_OFF
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// NOTE: in Skipdata mode, "data" instruction has 0 for this id field.
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unsigned int id;
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// Address (EIP) of this instruction
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// This information is available even when CS_OPT_DETAIL = CS_OPT_OFF
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uint64_t address;
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// Size of this instruction
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// This information is available even when CS_OPT_DETAIL = CS_OPT_OFF
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uint16_t size;
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// Machine bytes of this instruction, with number of bytes indicated by @size above
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// This information is available even when CS_OPT_DETAIL = CS_OPT_OFF
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uint8_t bytes[16];
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// Ascii text of instruction mnemonic
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// This information is available even when CS_OPT_DETAIL = CS_OPT_OFF
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char mnemonic[32];
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// Ascii text of instruction operands
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// This information is available even when CS_OPT_DETAIL = CS_OPT_OFF
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char op_str[160];
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// Pointer to cs_detail.
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// NOTE: detail pointer is only valid when both requirements below are met:
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// (1) CS_OP_DETAIL = CS_OPT_ON
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// (2) Engine is not in Skipdata mode (CS_OP_SKIPDATA option set to CS_OPT_ON)
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//
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// NOTE 2: when in Skipdata mode, or when detail mode is OFF, even if this pointer
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// is not NULL, its content is still irrelevant.
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cs_detail *detail;
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} cs_insn;
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// Calculate the offset of a disassembled instruction in its buffer, given its position
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// in its array of disassembled insn
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// NOTE: this macro works with position (>=1), not index
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#define CS_INSN_OFFSET(insns, post) (insns[post - 1].address - insns[0].address)
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// All type of errors encountered by Capstone API.
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// These are values returned by cs_errno()
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typedef enum cs_err {
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CS_ERR_OK = 0, // No error: everything was fine
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CS_ERR_MEM, // Out-Of-Memory error: cs_open(), cs_disasm(), cs_disasm_iter()
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CS_ERR_ARCH, // Unsupported architecture: cs_open()
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CS_ERR_HANDLE, // Invalid handle: cs_op_count(), cs_op_index()
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CS_ERR_CSH, // Invalid csh argument: cs_close(), cs_errno(), cs_option()
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CS_ERR_MODE, // Invalid/unsupported mode: cs_open()
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CS_ERR_OPTION, // Invalid/unsupported option: cs_option()
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CS_ERR_DETAIL, // Information is unavailable because detail option is OFF
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CS_ERR_MEMSETUP, // Dynamic memory management uninitialized (see CS_OPT_MEM)
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CS_ERR_VERSION, // Unsupported version (bindings)
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CS_ERR_DIET, // Access irrelevant data in "diet" engine
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CS_ERR_SKIPDATA, // Access irrelevant data for "data" instruction in SKIPDATA mode
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CS_ERR_X86_ATT, // X86 AT&T syntax is unsupported (opt-out at compile time)
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CS_ERR_X86_INTEL, // X86 Intel syntax is unsupported (opt-out at compile time)
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} cs_err;
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/*
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Return combined API version & major and minor version numbers.
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@major: major number of API version
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@minor: minor number of API version
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@return hexical number as (major << 8 | minor), which encodes both
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major & minor versions.
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NOTE: This returned value can be compared with version number made
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with macro CS_MAKE_VERSION
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For example, second API version would return 1 in @major, and 1 in @minor
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The return value would be 0x0101
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NOTE: if you only care about returned value, but not major and minor values,
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set both @major & @minor arguments to NULL.
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*/
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CAPSTONE_EXPORT
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unsigned int CAPSTONE_API cs_version(int *major, int *minor);
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/*
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This API can be used to either ask for archs supported by this library,
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or check to see if the library was compile with 'diet' option (or called
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in 'diet' mode).
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To check if a particular arch is supported by this library, set @query to
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arch mode (CS_ARCH_* value).
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To verify if this library supports all the archs, use CS_ARCH_ALL.
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To check if this library is in 'diet' mode, set @query to CS_SUPPORT_DIET.
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@return True if this library supports the given arch, or in 'diet' mode.
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*/
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CAPSTONE_EXPORT
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bool CAPSTONE_API cs_support(int query);
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/*
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Initialize CS handle: this must be done before any usage of CS.
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@arch: architecture type (CS_ARCH_*)
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@mode: hardware mode. This is combined of CS_MODE_*
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@handle: pointer to handle, which will be updated at return time
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@return CS_ERR_OK on success, or other value on failure (refer to cs_err enum
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for detailed error).
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*/
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CAPSTONE_EXPORT
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cs_err CAPSTONE_API cs_open(cs_arch arch, cs_mode mode, csh *handle);
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/*
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Close CS handle: MUST do to release the handle when it is not used anymore.
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NOTE: this must be only called when there is no longer usage of Capstone,
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not even access to cs_insn array. The reason is the this API releases some
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cached memory, thus access to any Capstone API after cs_close() might crash
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your application.
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In fact,this API invalidate @handle by ZERO out its value (i.e *handle = 0).
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@handle: pointer to a handle returned by cs_open()
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@return CS_ERR_OK on success, or other value on failure (refer to cs_err enum
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for detailed error).
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*/
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CAPSTONE_EXPORT
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cs_err CAPSTONE_API cs_close(csh *handle);
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/*
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Set option for disassembling engine at runtime
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@handle: handle returned by cs_open()
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@type: type of option to be set
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@value: option value corresponding with @type
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@return: CS_ERR_OK on success, or other value on failure.
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Refer to cs_err enum for detailed error.
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NOTE: in the case of CS_OPT_MEM, handle's value can be anything,
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so that cs_option(handle, CS_OPT_MEM, value) can (i.e must) be called
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even before cs_open()
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*/
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CAPSTONE_EXPORT
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cs_err CAPSTONE_API cs_option(csh handle, cs_opt_type type, size_t value);
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/*
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Report the last error number when some API function fail.
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Like glibc's errno, cs_errno might not retain its old value once accessed.
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@handle: handle returned by cs_open()
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@return: error code of cs_err enum type (CS_ERR_*, see above)
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*/
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CAPSTONE_EXPORT
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cs_err CAPSTONE_API cs_errno(csh handle);
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/*
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Return a string describing given error code.
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@code: error code (see CS_ERR_* above)
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@return: returns a pointer to a string that describes the error code
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passed in the argument @code
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*/
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CAPSTONE_EXPORT
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const char * CAPSTONE_API cs_strerror(cs_err code);
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/*
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Disassemble binary code, given the code buffer, size, address and number
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of instructions to be decoded.
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This API dynamically allocate memory to contain disassembled instruction.
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Resulted instructions will be put into @*insn
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NOTE 1: this API will automatically determine memory needed to contain
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output disassembled instructions in @insn.
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NOTE 2: caller must free the allocated memory itself to avoid memory leaking.
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NOTE 3: for system with scarce memory to be dynamically allocated such as
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OS kernel or firmware, the API cs_disasm_iter() might be a better choice than
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cs_disasm(). The reason is that with cs_disasm(), based on limited available
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memory, we have to calculate in advance how many instructions to be disassembled,
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which complicates things. This is especially troublesome for the case @count=0,
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when cs_disasm() runs uncontrollably (until either end of input buffer, or
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when it encounters an invalid instruction).
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@handle: handle returned by cs_open()
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@code: buffer containing raw binary code to be disassembled.
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@code_size: size of the above code buffer.
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@address: address of the first instruction in given raw code buffer.
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@insn: array of instructions filled in by this API.
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NOTE: @insn will be allocated by this function, and should be freed
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with cs_free() API.
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@count: number of instructions to be disassembled, or 0 to get all of them
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@return: the number of successfully disassembled instructions,
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or 0 if this function failed to disassemble the given code
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On failure, call cs_errno() for error code.
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*/
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CAPSTONE_EXPORT
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size_t CAPSTONE_API cs_disasm(csh handle,
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const uint8_t *code, size_t code_size,
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uint64_t address,
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size_t count,
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cs_insn **insn);
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/*
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Deprecated function - to be retired in the next version!
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Use cs_disasm() instead of cs_disasm_ex()
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*/
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CAPSTONE_EXPORT
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CAPSTONE_DEPRECATED
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size_t CAPSTONE_API cs_disasm_ex(csh handle,
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const uint8_t *code, size_t code_size,
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uint64_t address,
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size_t count,
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cs_insn **insn);
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/*
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Free memory allocated by cs_malloc() or cs_disasm() (argument @insn)
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@insn: pointer returned by @insn argument in cs_disasm() or cs_malloc()
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@count: number of cs_insn structures returned by cs_disasm(), or 1
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to free memory allocated by cs_malloc().
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*/
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CAPSTONE_EXPORT
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void CAPSTONE_API cs_free(cs_insn *insn, size_t count);
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/*
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Allocate memory for 1 instruction to be used by cs_disasm_iter().
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@handle: handle returned by cs_open()
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NOTE: when no longer in use, you can reclaim the memory allocated for
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this instruction with cs_free(insn, 1)
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*/
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CAPSTONE_EXPORT
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cs_insn * CAPSTONE_API cs_malloc(csh handle);
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/*
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Fast API to disassemble binary code, given the code buffer, size, address
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and number of instructions to be decoded.
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This API put the resulted instruction into a given cache in @insn.
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See tests/test_iter.c for sample code demonstrating this API.
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NOTE 1: this API will update @code, @size & @address to point to the next
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instruction in the input buffer. Therefore, it is convenient to use
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cs_disasm_iter() inside a loop to quickly iterate all the instructions.
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While decoding one instruction at a time can also be achieved with
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cs_disasm(count=1), some benchmarks shown that cs_disasm_iter() can be 30%
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faster on random input.
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NOTE 2: the cache in @insn can be created with cs_malloc() API.
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NOTE 3: for system with scarce memory to be dynamically allocated such as
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OS kernel or firmware, this API is recommended over cs_disasm(), which
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allocates memory based on the number of instructions to be disassembled.
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The reason is that with cs_disasm(), based on limited available memory,
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we have to calculate in advance how many instructions to be disassembled,
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which complicates things. This is especially troublesome for the case
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@count=0, when cs_disasm() runs uncontrollably (until either end of input
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buffer, or when it encounters an invalid instruction).
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@handle: handle returned by cs_open()
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@code: buffer containing raw binary code to be disassembled
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@size: size of above code
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@address: address of the first insn in given raw code buffer
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@insn: pointer to instruction to be filled in by this API.
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@return: true if this API successfully decode 1 instruction,
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or false otherwise.
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On failure, call cs_errno() for error code.
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*/
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CAPSTONE_EXPORT
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bool CAPSTONE_API cs_disasm_iter(csh handle,
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const uint8_t **code, size_t *size,
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uint64_t *address, cs_insn *insn);
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/*
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Return friendly name of register in a string.
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Find the instruction id from header file of corresponding architecture (arm.h for ARM,
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x86.h for X86, ...)
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WARN: when in 'diet' mode, this API is irrelevant because engine does not
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store register name.
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@handle: handle returned by cs_open()
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@reg_id: register id
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@return: string name of the register, or NULL if @reg_id is invalid.
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*/
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CAPSTONE_EXPORT
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const char * CAPSTONE_API cs_reg_name(csh handle, unsigned int reg_id);
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/*
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Return friendly name of an instruction in a string.
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Find the instruction id from header file of corresponding architecture (arm.h for ARM, x86.h for X86, ...)
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WARN: when in 'diet' mode, this API is irrelevant because the engine does not
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store instruction name.
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@handle: handle returned by cs_open()
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@insn_id: instruction id
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@return: string name of the instruction, or NULL if @insn_id is invalid.
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*/
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CAPSTONE_EXPORT
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const char * CAPSTONE_API cs_insn_name(csh handle, unsigned int insn_id);
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/*
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Return friendly name of a group id (that an instruction can belong to)
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Find the group id from header file of corresponding architecture (arm.h for ARM, x86.h for X86, ...)
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WARN: when in 'diet' mode, this API is irrelevant because the engine does not
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store group name.
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@handle: handle returned by cs_open()
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@group_id: group id
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@return: string name of the group, or NULL if @group_id is invalid.
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*/
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CAPSTONE_EXPORT
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const char * CAPSTONE_API cs_group_name(csh handle, unsigned int group_id);
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/*
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Check if a disassembled instruction belong to a particular group.
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Find the group id from header file of corresponding architecture (arm.h for ARM, x86.h for X86, ...)
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Internally, this simply verifies if @group_id matches any member of insn->groups array.
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NOTE: this API is only valid when detail option is ON (which is OFF by default).
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WARN: when in 'diet' mode, this API is irrelevant because the engine does not
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update @groups array.
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@handle: handle returned by cs_open()
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@insn: disassembled instruction structure received from cs_disasm() or cs_disasm_iter()
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@group_id: group that you want to check if this instruction belong to.
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@return: true if this instruction indeed belongs to aboved group, or false otherwise.
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*/
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CAPSTONE_EXPORT
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bool CAPSTONE_API cs_insn_group(csh handle, const cs_insn *insn, unsigned int group_id);
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/*
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Check if a disassembled instruction IMPLICITLY used a particular register.
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Find the register id from header file of corresponding architecture (arm.h for ARM, x86.h for X86, ...)
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Internally, this simply verifies if @reg_id matches any member of insn->regs_read array.
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NOTE: this API is only valid when detail option is ON (which is OFF by default)
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WARN: when in 'diet' mode, this API is irrelevant because the engine does not
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update @regs_read array.
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@insn: disassembled instruction structure received from cs_disasm() or cs_disasm_iter()
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@reg_id: register that you want to check if this instruction used it.
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@return: true if this instruction indeed implicitly used aboved register, or false otherwise.
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*/
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CAPSTONE_EXPORT
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bool CAPSTONE_API cs_reg_read(csh handle, const cs_insn *insn, unsigned int reg_id);
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/*
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Check if a disassembled instruction IMPLICITLY modified a particular register.
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Find the register id from header file of corresponding architecture (arm.h for ARM, x86.h for X86, ...)
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Internally, this simply verifies if @reg_id matches any member of insn->regs_write array.
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NOTE: this API is only valid when detail option is ON (which is OFF by default)
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WARN: when in 'diet' mode, this API is irrelevant because the engine does not
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update @regs_write array.
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@insn: disassembled instruction structure received from cs_disasm() or cs_disasm_iter()
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@reg_id: register that you want to check if this instruction modified it.
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@return: true if this instruction indeed implicitly modified aboved register, or false otherwise.
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*/
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CAPSTONE_EXPORT
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bool CAPSTONE_API cs_reg_write(csh handle, const cs_insn *insn, unsigned int reg_id);
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/*
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Count the number of operands of a given type.
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Find the operand type in header file of corresponding architecture (arm.h for ARM, x86.h for X86, ...)
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NOTE: this API is only valid when detail option is ON (which is OFF by default)
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@handle: handle returned by cs_open()
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@insn: disassembled instruction structure received from cs_disasm() or cs_disasm_iter()
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@op_type: Operand type to be found.
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@return: number of operands of given type @op_type in instruction @insn,
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or -1 on failure.
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*/
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CAPSTONE_EXPORT
|
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int CAPSTONE_API cs_op_count(csh handle, const cs_insn *insn, unsigned int op_type);
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|
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/*
|
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Retrieve the position of operand of given type in <arch>.operands[] array.
|
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Later, the operand can be accessed using the returned position.
|
|
Find the operand type in header file of corresponding architecture (arm.h for ARM, x86.h for X86, ...)
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|
|
NOTE: this API is only valid when detail option is ON (which is OFF by default)
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|
|
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@handle: handle returned by cs_open()
|
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@insn: disassembled instruction structure received from cs_disasm() or cs_disasm_iter()
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@op_type: Operand type to be found.
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@position: position of the operand to be found. This must be in the range
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[1, cs_op_count(handle, insn, op_type)]
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@return: index of operand of given type @op_type in <arch>.operands[] array
|
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in instruction @insn, or -1 on failure.
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*/
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CAPSTONE_EXPORT
|
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int CAPSTONE_API cs_op_index(csh handle, const cs_insn *insn, unsigned int op_type,
|
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unsigned int position);
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|
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#ifdef __cplusplus
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}
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#endif
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#endif
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