#ifndef IR_H #define IR_H #include #include #include #include #include #define IR_VERSION "0.0.1" #if defined(IR_TARGET_X86) # define IR_TARGET "x86" #elif defined(IR_TARGET_X64) # define IR_TARGET "x86_64" #elif defined(IR_TARGET_AARCH64) # define IR_TARGET "aarch64" #else # error "Unknown IR target" #endif #if defined(__SIZEOF_SIZE_T__) # if __SIZEOF_SIZE_T__ == 8 # define IR_64 1 # elif __SIZEOF_SIZE_T__ != 4 # error "Unknown addr size" # endif #else # error "Unknown addr size" #endif #if defined(__BYTE_ORDER__) # if defined(__ORDER_LITTLE_ENDIAN__) # if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ # define IR_STRUCT_LOHI(lo, hi) struct {lo; hi;} # endif # endif # if defined(__ORDER_BIG_ENDIAN__) # if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__ # define IR_STRUCT_LOHI(lo, hi) struct {hi; lo;} # endif # endif #endif #ifndef IR_STRUCT_LOHI # error "Unknown byte order" #endif #ifdef IR_PHP # include "ir_php.h" #endif /* IR Type flags (low 4 bits are used for type size) */ #define IR_TYPE_SIGNED (1<<4) #define IR_TYPE_UNSIGNED (1<<5) #define IR_TYPE_FP (1<<6) #define IR_TYPE_SPECIAL (1<<7) #define IR_TYPE_BOOL (IR_TYPE_SPECIAL|IR_TYPE_UNSIGNED) #define IR_TYPE_ADDR (IR_TYPE_SPECIAL|IR_TYPE_UNSIGNED) #define IR_TYPE_CHAR (IR_TYPE_SPECIAL|IR_TYPE_SIGNED) /* List of IR types */ #define IR_TYPES(_) \ _(BOOL, bool, b, IR_TYPE_BOOL) \ _(U8, uint8_t, u8, IR_TYPE_UNSIGNED) \ _(U16, uint16_t, u16, IR_TYPE_UNSIGNED) \ _(U32, uint32_t, u32, IR_TYPE_UNSIGNED) \ _(U64, uint64_t, u64, IR_TYPE_UNSIGNED) \ _(ADDR, uintptr_t, addr, IR_TYPE_ADDR) \ _(CHAR, char, c, IR_TYPE_CHAR) \ _(I8, int8_t, i8, IR_TYPE_SIGNED) \ _(I16, int16_t, i16, IR_TYPE_SIGNED) \ _(I32, int32_t, i32, IR_TYPE_SIGNED) \ _(I64, int64_t, i64, IR_TYPE_SIGNED) \ _(DOUBLE, double, d, IR_TYPE_FP) \ _(FLOAT, float, f, IR_TYPE_FP) \ #define IR_IS_TYPE_UNSIGNED(t) ((t) < IR_CHAR) #define IR_IS_TYPE_SIGNED(t) ((t) >= IR_CHAR && (t) < IR_DOUBLE) #define IR_IS_TYPE_INT(t) ((t) < IR_DOUBLE) #define IR_IS_TYPE_FP(t) ((t) >= IR_DOUBLE) #define IR_TYPE_ENUM(name, type, field, flags) IR_ ## name, typedef enum _ir_type { IR_VOID, IR_TYPES(IR_TYPE_ENUM) IR_LAST_TYPE } ir_type; /* List of IR opcodes * ================== * * Each instruction is described by a type (opcode, flags, op1_type, op2_type, op3_type) * * flags * ----- * v - void * d - data IR_OP_FLAG_DATA * r - ref IR_OP_FLAG_DATA alias * c - control IR_OP_FLAG_CONTROL * S - control IR_OP_FLAG_CONTROL + IR_OP_FLAG_BB_START * E - control IR_OP_FLAG_CONTROL + IR_OP_FLAG_BB_END * T - control IR_OP_FLAG_CONTROL + IR_OP_FLAG_BB_END + IR_OP_FLAG_TERMINATOR * l - load IR_OP_FLAG_MEM + IR_OP_FLAG_MEM_LOAD * s - store IR_OP_FLAG_MEM + IR_OP_FLAG_STORE * x - call IR_OP_FLAG_MEM + IR_OP_FLAG_CALL * a - alloc IR_OP_FLAG_MEM + IR_OP_FLAG_ALLOC * 0-3 - number of input edges * N - number of arguments is defined in the insn->inputs_count (MERGE) * P - number of arguments is defined in the op1->inputs_count (PHI) * X1-X3 - number of extra data ops * C - commutative operation ("d2C" => IR_OP_FLAG_DATA + IR_OP_FLAG_COMMUTATIVE) * * operand types * ------------- * ___ - unused * def - reference to a definition op (data-flow use-def dependency edge) * ref - memory reference (data-flow use-def dependency edge) * var - variable reference (data-flow use-def dependency edge) * arg - argument referene CALL/TAILCALL/CARG->CARG * src - reference to a previous control region (IF, IF_TRUE, IF_FALSE, MERGE, LOOP_BEGIN, LOOP_END, RETURN) * reg - data-control dependency on region (PHI, VAR, PARAM) * beg - reference to a LOOP_BEGIN region (LOOP_END) * ret - reference to a previous RETURN instruction (RETURN) * ent - reference to a previous ENTRY instruction (ENTRY) * str - string: variable/argument name (VAR, PARAM, CALL, TAILCALL) * num - number: argument number (PARAM) * prb - branch probability 1-99 (0 - unspecified): (IF_TRUE, IF_FALSE, CASE_VAL, CASE_DEFAULT) * * The order of IR opcodes is carefully selected for efficient folding. * - foldable instruction go first * - NOP is never used (code 0 is used as ANY pattern) * - CONST is the most often used instruction (encode with 1 bit) * - equality inversion: EQ <-> NE => op =^ 1 * - comparison inversio: [U]LT <-> [U]GT, [U]LE <-> [U]GE => op =^ 3 */ #define IR_OPS(_) \ /* special op (must be the first !!!) */ \ _(NOP, v, ___, ___, ___) /* empty instruction */ \ \ /* constants reference */ \ _(C_BOOL, r0, ___, ___, ___) /* constant */ \ _(C_U8, r0, ___, ___, ___) /* constant */ \ _(C_U16, r0, ___, ___, ___) /* constant */ \ _(C_U32, r0, ___, ___, ___) /* constant */ \ _(C_U64, r0, ___, ___, ___) /* constant */ \ _(C_ADDR, r0, ___, ___, ___) /* constant */ \ _(C_CHAR, r0, ___, ___, ___) /* constant */ \ _(C_I8, r0, ___, ___, ___) /* constant */ \ _(C_I16, r0, ___, ___, ___) /* constant */ \ _(C_I32, r0, ___, ___, ___) /* constant */ \ _(C_I64, r0, ___, ___, ___) /* constant */ \ _(C_DOUBLE, r0, ___, ___, ___) /* constant */ \ _(C_FLOAT, r0, ___, ___, ___) /* constant */ \ \ /* equality ops */ \ _(EQ, d2C, def, def, ___) /* equal */ \ _(NE, d2C, def, def, ___) /* not equal */ \ \ /* comparison ops (order matters, LT must be a modulo of 4 !!!) */ \ _(LT, d2, def, def, ___) /* less */ \ _(GE, d2, def, def, ___) /* greater or equal */ \ _(LE, d2, def, def, ___) /* less or equal */ \ _(GT, d2, def, def, ___) /* greater */ \ _(ULT, d2, def, def, ___) /* unsigned less */ \ _(UGE, d2, def, def, ___) /* unsigned greater or equal */ \ _(ULE, d2, def, def, ___) /* unsigned less or equal */ \ _(UGT, d2, def, def, ___) /* unsigned greater */ \ \ /* arithmetic ops */ \ _(ADD, d2C, def, def, ___) /* addition */ \ _(SUB, d2, def, def, ___) /* subtraction (must be ADD+1) */ \ _(MUL, d2C, def, def, ___) /* multiplication */ \ _(DIV, d2, def, def, ___) /* division */ \ _(MOD, d2, def, def, ___) /* modulo */ \ _(NEG, d1, def, ___, ___) /* change sign */ \ _(ABS, d1, def, ___, ___) /* absolute value */ \ /* (LDEXP, MIN, MAX, FPMATH) */ \ \ /* type conversion ops */ \ _(SEXT, d1, def, ___, ___) /* sign extension */ \ _(ZEXT, d1, def, ___, ___) /* zero extension */ \ _(TRUNC, d1, def, ___, ___) /* truncates to int type */ \ _(BITCAST, d1, def, ___, ___) /* binary representation */ \ _(INT2FP, d1, def, ___, ___) /* int to float conversion */ \ _(FP2INT, d1, def, ___, ___) /* float to int conversion */ \ _(FP2FP, d1, def, ___, ___) /* float to float conversion */ \ \ /* overflow-check */ \ _(ADD_OV, d2C, def, def, ___) /* addition */ \ _(SUB_OV, d2, def, def, ___) /* subtraction */ \ _(MUL_OV, d2C, def, def, ___) /* multiplication */ \ _(OVERFLOW, d1, def, ___, ___) /* overflow check add/sub/mul */ \ \ /* bitwise and shift ops */ \ _(NOT, d1, def, ___, ___) /* bitwise NOT */ \ _(OR, d2C, def, def, ___) /* bitwise OR */ \ _(AND, d2C, def, def, ___) /* bitwise AND */ \ _(XOR, d2C, def, def, ___) /* bitwise XOR */ \ _(SHL, d2, def, def, ___) /* logic shift left */ \ _(SHR, d2, def, def, ___) /* logic shift right */ \ _(SAR, d2, def, def, ___) /* arithmetic shift right */ \ _(ROL, d2, def, def, ___) /* rotate left */ \ _(ROR, d2, def, def, ___) /* rotate right */ \ _(BSWAP, d1, def, ___, ___) /* byte swap */ \ \ /* branch-less conditional ops */ \ _(MIN, d2C, def, def, ___) /* min(op1, op2) */ \ _(MAX, d2C, def, def, ___) /* max(op1, op2) */ \ _(COND, d3, def, def, def) /* op1 ? op2 : op3 */ \ \ /* data-flow and miscellaneous ops */ \ _(PHI, dP, reg, def, def) /* SSA Phi function */ \ _(COPY, d1X1, def, opt, ___) /* COPY (last foldable op) */ \ _(PI, d2, reg, def, ___) /* e-SSA Pi constraint ??? */ \ /* (USE, RENAME) */ \ \ /* data ops */ \ _(PARAM, r1X2, reg, str, num) /* incoming parameter proj. */ \ _(VAR, r1X1, reg, str, ___) /* local variable */ \ _(FUNC_ADDR, r0, ___, ___, ___) /* constant func ref */ \ _(FUNC, r0, ___, ___, ___) /* constant func ref */ \ _(STR, r0, ___, ___, ___) /* constant str ref */ \ \ /* call ops */ \ _(CALL, xN, src, def, def) /* CALL(src, func, args...) */ \ _(TAILCALL, xN, src, def, def) /* CALL+RETURN */ \ \ /* memory reference and load/store ops */ \ _(ALLOCA, a2, src, def, ___) /* alloca(def) */ \ _(VADDR, d1, var, ___, ___) /* load address of local var */ \ _(VLOAD, l2, src, var, ___) /* load value of local var */ \ _(VSTORE, s3, src, var, def) /* store value to local var */ \ _(RLOAD, l1X1, src, num, ___) /* load value from register */ \ _(RSTORE, l2X1, src, def, num) /* store value into register */ \ _(LOAD, l2, src, ref, ___) /* load from memory */ \ _(STORE, s3, src, ref, def) /* store to memory */ \ _(TLS, l1X2, src, num, num) /* thread local variable */ \ _(TRAP, x1, src, ___, ___) /* DebugBreak */ \ /* memory reference ops (A, H, U, S, TMP, STR, NEW, X, V) ??? */ \ \ /* control-flow nodes */ \ _(START, S0X2, ret, ent, ___) /* function start */ \ _(RETURN, T2X1, src, def, ret) /* function return */ \ _(UNREACHABLE, T2X1, src, def, ret) /* unreachable (tailcall, etc) */ \ _(BEGIN, S1, src, ___, ___) /* block start */ \ _(END, E1, src, ___, ___) /* block end */ \ _(IF, E2, src, def, ___) /* conditional control split */ \ _(IF_TRUE, S1X1, src, prb, ___) /* IF TRUE proj. */ \ _(IF_FALSE, S1X1, src, prb, ___) /* IF FALSE proj. */ \ _(SWITCH, E2, src, def, ___) /* multi-way control split */ \ _(CASE_VAL, S2X1, src, def, prb) /* switch proj. */ \ _(CASE_DEFAULT, S1X1, src, prb, ___) /* switch proj. */ \ _(MERGE, SN, src, src, src) /* control merge */ \ _(LOOP_BEGIN, SN, src, src, src) /* loop start */ \ _(LOOP_END, E1X1, src, beg, ___) /* loop end */ \ _(IJMP, T2X1, src, def, ret) /* computed goto */ \ _(ENTRY, S0X2, num, ent, ___) /* code entry (op3 keeps addr) */ \ \ /* guards (floating or not) ??? */ \ _(GUARD, c3, src, def, def) /* IF without second successor */ \ _(GUARD_NOT , c3, src, def, def) /* IF without second successor */ \ \ /* tracing JIT helpers */ \ _(EXITCALL, x2, src, def, ___) /* save all CPU registers */ \ _(EXITGROUP, c1X2, src, num, num) /* code to push exit number */ \ _(SNAPSHOT, xN, src, def, def) /* CALL(src, args...) */ \ #define IR_OP_ENUM(name, flags, op1, op2, op3) IR_ ## name, typedef enum _ir_op { IR_OPS(IR_OP_ENUM) #ifdef IR_PHP IR_PHP_OPS(IR_OP_ENUM) #endif IR_LAST_OP } ir_op; /* IR Opcode and Type Union */ #define IR_OPT_OP_MASK 0x00ff #define IR_OPT_TYPE_MASK 0xff00 #define IR_OPT_TYPE_SHIFT 8 #define IR_OPT(op, type) ((uint16_t)(op) | ((uint16_t)(type) << IR_OPT_TYPE_SHIFT)) #define IR_OPT_TYPE(opt) (((opt) & IR_OPT_TYPE_MASK) >> IR_OPT_TYPE_SHIFT) /* IR References */ typedef int32_t ir_ref; #define IR_IS_CONST_REF(ref) ((ref) < 0) #define IR_UNUSED 0 #define IR_NULL (-1) #define IR_FALSE (-2) #define IR_TRUE (-3) #define IR_LAST_FOLDABLE_OP IR_COPY /* IR Constant Value */ typedef union _ir_val { double d; uint64_t u64; int64_t i64; #ifdef IR_64 uintptr_t addr; #endif IR_STRUCT_LOHI( union { uint32_t u32; int32_t i32; float f; #ifndef IR_64 uintptr_t addr; #endif IR_STRUCT_LOHI( union { uint16_t u16; int16_t i16; IR_STRUCT_LOHI( union { uint8_t u8; int8_t i8; bool b; char c; }, uint8_t u8_hi ); }, uint16_t u16_hi ); }, uint32_t u32_hi ); } ir_val; /* IR constant flags */ #define IR_CONST_EMIT (1<<0) #define IR_CONST_FASTCALL_FUNC (1<<1) /* IR Instruction */ typedef struct _ir_insn { IR_STRUCT_LOHI( union { IR_STRUCT_LOHI( union { IR_STRUCT_LOHI( uint8_t op, uint8_t type; ); uint16_t opt; }, union { uint16_t inputs_count; /* number of input control edges for MERGE, CALL, TAILCALL */ uint16_t prev_insn_offset; /* 16-bit backward offset from current instruction for CSE */ uint16_t const_flags; /* flag to emit constant in rodat section */ } ); uint32_t optx; ir_ref ops[1]; }, union { ir_ref op1; ir_ref prev_const; } ); union { IR_STRUCT_LOHI( ir_ref op2, ir_ref op3 ); ir_val val; }; } ir_insn; /* IR Hash Tables API (private) */ typedef struct _ir_hashtab ir_hashtab; /* IR String Tables API (implementation in ir_strtab.c) */ typedef struct _ir_strtab { void *data; uint32_t mask; uint32_t size; uint32_t count; uint32_t pos; char *buf; uint32_t buf_size; uint32_t buf_top; } ir_strtab; #define ir_strtab_count(strtab) (strtab)->count typedef void (*ir_strtab_apply_t)(const char *str, uint32_t len, ir_ref val); void ir_strtab_init(ir_strtab *strtab, uint32_t count, uint32_t buf_size); ir_ref ir_strtab_lookup(ir_strtab *strtab, const char *str, uint32_t len, ir_ref val); ir_ref ir_strtab_find(ir_strtab *strtab, const char *str, uint32_t len); ir_ref ir_strtab_update(ir_strtab *strtab, const char *str, uint32_t len, ir_ref val); const char *ir_strtab_str(ir_strtab *strtab, ir_ref idx); void ir_strtab_apply(ir_strtab *strtab, ir_strtab_apply_t func); void ir_strtab_free(ir_strtab *strtab); /* IR Context Flags */ #define IR_FUNCTION (1<<0) #define IR_FASTCALL_FUNC (1<<1) #define IR_SKIP_PROLOGUE (1<<2) #define IR_USE_FRAME_POINTER (1<<3) #define IR_PREALLOCATED_STACK (1<<4) #define IR_HAS_ALLOCA (1<<5) #define IR_HAS_CALLS (1<<6) #define IR_NO_STACK_COMBINE (1<<7) #define IR_IRREDUCIBLE_CFG (1<<8) #define IR_OPT_FOLDING (1<<16) #define IR_OPT_CFG (1<<17) /* merge BBs, by remove END->BEGIN nodes during CFG construction */ #define IR_OPT_CODEGEN (1<<18) #define IR_OPT_IN_SCCP (1<<19) #define IR_LINEAR (1<<20) #define IR_GEN_NATIVE (1<<21) #define IR_GEN_C (1<<22) /* x86 related */ #define IR_AVX (1<<24) /* debug relted */ #ifdef IR_DEBUG # define IR_DEBUG_SCCP (1<<27) # define IR_DEBUG_GCM (1<<28) # define IR_DEBUG_SCHEDULE (1<<29) # define IR_DEBUG_RA (1<<30) #endif typedef struct _ir_use_list ir_use_list; typedef struct _ir_block ir_block; typedef struct _ir_live_interval ir_live_interval; typedef int8_t ir_regs[4]; typedef struct _ir_ctx { ir_insn *ir_base; /* two directional array - instructions grow down, constants grow up */ ir_ref insns_count; ir_ref insns_limit; ir_ref consts_count; ir_ref consts_limit; uint32_t flags; ir_ref fold_cse_limit; ir_insn fold_insn; ir_hashtab *binding; ir_use_list *use_lists; /* def->use lists for each instruction */ ir_ref *use_edges; uint32_t use_edges_count; uint32_t cfg_blocks_count; uint32_t cfg_edges_count; ir_block *cfg_blocks; /* list of Basic Blocks (starts from 1) */ uint32_t *cfg_edges; uint32_t *cfg_map; /* map of instructions to Basic Block number */ uint32_t *rules; uint32_t *vregs; uint32_t vregs_count; int32_t spill_base; /* base register for special spill area (e.g. PHP VM frame pointer) */ int32_t fixed_stack_red_zone; int32_t fixed_stack_frame_size; uint64_t fixed_regset; uint64_t fixed_save_regset; ir_live_interval **live_intervals; ir_regs *regs; uint32_t *prev_insn_len; void *data; uint32_t rodata_offset; uint32_t jmp_table_offset; void *code_buffer; size_t code_buffer_size; ir_strtab strtab; ir_ref prev_insn_chain[IR_LAST_FOLDABLE_OP + 1]; ir_ref prev_const_chain[IR_LAST_TYPE]; } ir_ctx; /* Basic IR Construction API (implementation in ir.c) */ void ir_init(ir_ctx *ctx, ir_ref consts_limit, ir_ref insns_limit); void ir_free(ir_ctx *ctx); void ir_truncate(ir_ctx *ctx); ir_ref ir_const(ir_ctx *ctx, ir_val val, uint8_t type); ir_ref ir_const_i8(ir_ctx *ctx, int8_t c); ir_ref ir_const_i16(ir_ctx *ctx, int16_t c); ir_ref ir_const_i32(ir_ctx *ctx, int32_t c); ir_ref ir_const_i64(ir_ctx *ctx, int64_t c); ir_ref ir_const_u8(ir_ctx *ctx, uint8_t c); ir_ref ir_const_u16(ir_ctx *ctx, uint16_t c); ir_ref ir_const_u32(ir_ctx *ctx, uint32_t c); ir_ref ir_const_u64(ir_ctx *ctx, uint64_t c); ir_ref ir_const_bool(ir_ctx *ctx, bool c); ir_ref ir_const_char(ir_ctx *ctx, char c); ir_ref ir_const_float(ir_ctx *ctx, float c); ir_ref ir_const_double(ir_ctx *ctx, double c); ir_ref ir_const_addr(ir_ctx *ctx, uintptr_t c); ir_ref ir_const_func_addr(ir_ctx *ctx, uintptr_t c, uint16_t flags); ir_ref ir_const_func(ir_ctx *ctx, ir_ref str, uint16_t flags); ir_ref ir_const_str(ir_ctx *ctx, ir_ref str); void ir_print_const(ir_ctx *ctx, ir_insn *insn, FILE *f); ir_ref ir_str(ir_ctx *ctx, const char *s); ir_ref ir_strl(ir_ctx *ctx, const char *s, size_t len); const char *ir_get_str(ir_ctx *ctx, ir_ref idx); ir_ref ir_emit(ir_ctx *ctx, uint32_t opt, ir_ref op1, ir_ref op2, ir_ref op3); ir_ref ir_emit0(ir_ctx *ctx, uint32_t opt); ir_ref ir_emit1(ir_ctx *ctx, uint32_t opt, ir_ref op1); ir_ref ir_emit2(ir_ctx *ctx, uint32_t opt, ir_ref op1, ir_ref op2); ir_ref ir_emit3(ir_ctx *ctx, uint32_t opt, ir_ref op1, ir_ref op2, ir_ref op3); void ir_set_op1(ir_ctx *ctx, ir_ref ref, ir_ref val); void ir_set_op2(ir_ctx *ctx, ir_ref ref, ir_ref val); void ir_set_op3(ir_ctx *ctx, ir_ref ref, ir_ref val); ir_ref ir_emit_N(ir_ctx *ctx, uint32_t opt, uint32_t count); void ir_set_op(ir_ctx *ctx, ir_ref ref, uint32_t n, ir_ref val); ir_ref ir_fold(ir_ctx *ctx, uint32_t opt, ir_ref op1, ir_ref op2, ir_ref op3); ir_ref ir_fold0(ir_ctx *ctx, uint32_t opt); ir_ref ir_fold1(ir_ctx *ctx, uint32_t opt, ir_ref op1); ir_ref ir_fold2(ir_ctx *ctx, uint32_t opt, ir_ref op1, ir_ref op2); ir_ref ir_fold3(ir_ctx *ctx, uint32_t opt, ir_ref op1, ir_ref op2, ir_ref op3); ir_ref ir_param(ir_ctx *ctx, ir_type type, ir_ref region, const char *name, int pos); ir_ref ir_var(ir_ctx *ctx, ir_type type, ir_ref region, const char *name); ir_ref ir_bind(ir_ctx *ctx, ir_ref var, ir_ref def); /* Def -> Use lists */ void ir_build_def_use_lists(ir_ctx *ctx); /* CFG - Control Flow Graph (implementation in ir_cfg.c) */ int ir_build_cfg(ir_ctx *ctx); int ir_build_dominators_tree(ir_ctx *ctx); int ir_find_loops(ir_ctx *ctx); int ir_schedule_blocks(ir_ctx *ctx); /* SCCP - Sparse Conditional Constant Propagation (implementation in ir_sccp.c) */ int ir_sccp(ir_ctx *ctx); /* GCM - Global Code Motion and scheduling (implementation in ir_gcm.c) */ int ir_gcm(ir_ctx *ctx); int ir_schedule(ir_ctx *ctx); /* Liveness & Register Allocation (implementation in ir_ra.c) */ int ir_assign_virtual_registers(ir_ctx *ctx); int ir_compute_live_ranges(ir_ctx *ctx); int ir_coalesce(ir_ctx *ctx); int ir_compute_dessa_moves(ir_ctx *ctx); int ir_reg_alloc(ir_ctx *ctx); int ir_regs_number(void); bool ir_reg_is_int(int32_t reg); const char *ir_reg_name(int8_t reg, ir_type type); /* Target CPU instruction selection and code geneartion (see ir_x86.c) */ int ir_match(ir_ctx *ctx); void *ir_emit_code(ir_ctx *ctx, size_t *size); /* Target CPU disassembler (implementation in ir_disasm.c) */ int ir_disasm_init(void); void ir_disasm_free(void); void ir_disasm_add_symbol(const char *name, uint64_t addr, uint64_t size); int ir_disasm(const char *name, const void *start, size_t size, bool asm_addr, ir_ctx *ctx, FILE *f); /* Linux perf interface (implementation in ir_perf.c) */ void ir_perf_jitdump_open(void); void ir_perf_jitdump_close(void); void ir_perf_jitdump_register(const char *name, const void *start, size_t size); void ir_perf_map_register(const char *name, const void *start, size_t size); /* GDB JIT interface (implementation in ir_gdb.c) */ int ir_gdb_register(const char *name, const void *start, size_t size, uint32_t sp_offset, uint32_t sp_adjustment); void ir_gdb_unregister_all(void); bool ir_gdb_present(void); /* IR load API (implementation in ir_load.c) */ void ir_loader_init(void); void ir_loader_free(void); int ir_load(ir_ctx *ctx, FILE *f); /* IR save API (implementation in ir_save.c) */ void ir_save(ir_ctx *ctx, FILE *f); /* IR debug dump API (implementation in ir_dump.c) */ void ir_dump(ir_ctx *ctx, FILE *f); void ir_dump_dot(ir_ctx *ctx, FILE *f); void ir_dump_use_lists(ir_ctx *ctx, FILE *f); void ir_dump_cfg(ir_ctx *ctx, FILE *f); void ir_dump_cfg_map(ir_ctx *ctx, FILE *f); void ir_dump_live_ranges(ir_ctx *ctx, FILE *f); /* IR to C conversion (implementation in ir_emit_c.c) */ int ir_emit_c(ir_ctx *ctx, FILE *f); /* IR verification API (implementation in ir_check.c) */ bool ir_check(ir_ctx *ctx); void ir_consistency_check(void); /* Code patching (implementation in ir_patch.c) */ int ir_patch(const void *code, size_t size, uint32_t jmp_table_size, const void *from_addr, const void *to_addr); /* IR Memmory Allocation */ #ifndef ir_mem_malloc # define ir_mem_malloc malloc #endif #ifndef ir_mem_calloc # define ir_mem_calloc calloc #endif #ifndef ir_mem_realloc # define ir_mem_realloc realloc #endif #ifndef ir_mem_free # define ir_mem_free free #endif #ifndef ir_mem_pmalloc # define ir_mem_pmalloc malloc #endif #ifndef ir_mem_pcalloc # define ir_mem_pcalloc calloc #endif #ifndef ir_mem_prealloc # define ir_mem_prealloc realloc #endif #ifndef ir_mem_pfree # define ir_mem_pfree free #endif void *ir_mem_mmap(size_t size); int ir_mem_unmap(void *ptr, size_t size); int ir_mem_protect(void *ptr, size_t size); int ir_mem_unprotect(void *ptr, size_t size); int ir_mem_flush(void *ptr, size_t size); #endif /* IR_H */