/usr/include/pike8.0/pike/code/ppc32.h is in pike8.0-dev 8.0.164-1build1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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|| This file is part of Pike. For copyright information see COPYRIGHT.
|| Pike is distributed under GPL, LGPL and MPL. See the file COPYING
|| for more information.
*/
#define PPC_INSTR_B_FORM(OPCD,BO,BI,BD,AA,LK) \
add_to_program(((OPCD)<<26)|((BO)<<21)|((BI)<<16)| \
(((BD)&0x3fff)<<2)|((AA)<<1)|(LK))
#define PPC_INSTR_D_FORM(OPCD,S,A,d) \
add_to_program(((OPCD)<<26)|((S)<<21)|((A)<<16)|((d)&0xffff))
#define PPC_INSTR_I_FORM(OPCD,LI,AA,LK) \
add_to_program(((OPCD)<<26)|((LI)&0x03fffffc)|((AA)<<1)|(LK))
#define PPC_INSTR_M_FORM(OPCD,S,A,SH,MB,ME,Rc) \
add_to_program(((OPCD)<<26)|((S)<<21)|((A)<<16)|((SH)<<11)| \
((MB)<<6)|((ME)<<1)|(Rc))
#define PPC_INSTR_XL_FORM(OPCD,BO,BI,CRBB,XO,LK) \
add_to_program(((OPCD)<<26)|((BO)<<21)|((BI)<<16)|((CRBB)<<11)| \
((XO)<<1)|(LK))
#define PPC_INSTR_XFX_FORM(OPCD,S,SPR,XO) \
add_to_program(((OPCD)<<26)|((S)<<21)|((SPR)<<11)|((XO)<<1))
#define BC(BO,BI,BD) PPC_INSTR_B_FORM(16,BO,BI,BD,0,0)
#define CMPLI(crfD,A,UIMM) PPC_INSTR_D_FORM(10,crfD,A,UIMM)
#define ADDIC(D,A,SIMM) PPC_INSTR_D_FORM(12,D,A,SIMM)
#define ADDI(D,A,SIMM) PPC_INSTR_D_FORM(14,D,A,SIMM)
#define ADDIS(D,A,SIMM) PPC_INSTR_D_FORM(15,D,A,SIMM)
#define ORI(A,S,UIMM) PPC_INSTR_D_FORM(24,S,A,UIMM)
#define LWZ(D,A,d) PPC_INSTR_D_FORM(32,D,A,d)
#define STW(S,A,d) PPC_INSTR_D_FORM(36,S,A,d)
#define LHA(D,A,d) PPC_INSTR_D_FORM(42,D,A,d)
#define RLWINM(S,A,SH,MB,ME) PPC_INSTR_M_FORM(21,S,A,SH,MB,ME,0)
#define MFSPR(D,SPR) PPC_INSTR_XFX_FORM(31,D,(((SPR)&0x1f)<<5)|(((SPR)&0x3e0)>>5),339)
#define MTSPR(D,SPR) PPC_INSTR_XFX_FORM(31,D,(((SPR)&0x1f)<<5)|(((SPR)&0x3e0)>>5),467)
#define BCLR(BO,BI) PPC_INSTR_XL_FORM(19,BO,BI,0,16,0)
#define BCLRL(BO,BI) PPC_INSTR_XL_FORM(19,BO,BI,0,16,1)
#define B(LI) PPC_INSTR_I_FORM(18,LI,0,0)
#define BL(LI) PPC_INSTR_I_FORM(18,LI,0,1)
#define BLA(LI) PPC_INSTR_I_FORM(18,LI,1,1)
#define LOW_GET_JUMP() ((INT32)PROG_COUNTER[JUMP_EPILOGUE_SIZE])
#define LOW_SKIPJUMP() (SET_PROG_COUNTER(PROG_COUNTER + JUMP_EPILOGUE_SIZE + 1))
#define SET_REG(REG, X) do { \
INT32 val_ = X; \
INT32 reg_ = REG; \
if ((-32768 <= val_) && (val_ <= 32767)) { \
/* addi reg,0,val */ \
ADDI(reg_, 0, val_); \
} else { \
/* addis reg,0,%hi(val) */ \
ADDIS(reg_, 0, val_ >> 16); \
if (val_ & 0xffff) { \
/* ori reg,reg,%lo(val) */ \
ORI(reg_, reg_, val_); \
} \
} \
} while(0)
#define PPC_SPREG_LR 8
#define PPC_REG_RET 3
#define PPC_REG_ARG1 3
#define PPC_REG_ARG2 4
#define PPC_REG_ARG3 5
#define PPC_REG_PIKE_PC 7
#define PPC_REG_PIKE_MARK_SP 8
#define PPC_REG_PIKE_FP 9
#define PPC_REG_PIKE_SP 10
#define PPC_REG_PIKE_INTERP 29 /* 31 */
extern int ppc32_codegen_state, ppc32_codegen_last_pc;
void ppc32_flush_code_generator_state(void);
#define FLUSH_CODE_GENERATOR_STATE ppc32_flush_code_generator_state
#define PPC_CODEGEN_FP_ISSET 1
#define PPC_CODEGEN_SP_ISSET 2
#define PPC_CODEGEN_SP_NEEDSSTORE 4
#define PPC_CODEGEN_MARK_SP_ISSET 8
#define PPC_CODEGEN_MARK_SP_NEEDSSTORE 16
#define PPC_CODEGEN_PC_ISSET 32
#define LOAD_FP_REG() do { \
if(!(ppc32_codegen_state & PPC_CODEGEN_FP_ISSET)) { \
/* lwz pike_fp,frame_pointer(pike_interpreter) */ \
LWZ(PPC_REG_PIKE_FP, PPC_REG_PIKE_INTERP, \
OFFSETOF(Pike_interpreter_struct, frame_pointer)); \
ppc32_codegen_state |= PPC_CODEGEN_FP_ISSET; \
} \
} while(0)
#define LOAD_SP_REG() do { \
if(!(ppc32_codegen_state & PPC_CODEGEN_SP_ISSET)) { \
/* lwz pike_sp,stack_pointer(pike_interpreter) */ \
LWZ(PPC_REG_PIKE_SP, PPC_REG_PIKE_INTERP, \
OFFSETOF(Pike_interpreter_struct, stack_pointer)); \
ppc32_codegen_state |= PPC_CODEGEN_SP_ISSET; \
} \
} while(0)
#define LOAD_MARK_SP_REG() do { \
if(!(ppc32_codegen_state & PPC_CODEGEN_MARK_SP_ISSET)) { \
/* lwz pike_mark_sp,mark_stack_pointer(pike_interpreter) */ \
LWZ(PPC_REG_PIKE_MARK_SP, PPC_REG_PIKE_INTERP, \
OFFSETOF(Pike_interpreter_struct, mark_stack_pointer)); \
ppc32_codegen_state |= PPC_CODEGEN_MARK_SP_ISSET; \
} \
} while(0)
#define INCR_SP_REG(n) do { \
/* addi pike_sp,pike_sp,n */ \
ADDI(PPC_REG_PIKE_SP, PPC_REG_PIKE_SP, n); \
ppc32_codegen_state |= PPC_CODEGEN_SP_NEEDSSTORE; \
} while(0)
#define INCR_MARK_SP_REG(n) do { \
/* addi pike_mark_sp,pike_mark_sp,n */ \
ADDI(PPC_REG_PIKE_MARK_SP, PPC_REG_PIKE_MARK_SP, n); \
ppc32_codegen_state |= PPC_CODEGEN_MARK_SP_NEEDSSTORE; \
} while(0)
#define UPDATE_PC() do { \
INT32 tmp = PIKE_PC; \
if(ppc32_codegen_state & PPC_CODEGEN_PC_ISSET) { \
INT32 diff = (tmp-ppc32_codegen_last_pc)*sizeof(PIKE_OPCODE_T); \
if (diff) { \
if ((-32768 <= diff) && (diff <= 32767)) { \
/* addi pike_pc,pike_pc,diff */ \
ADDI(PPC_REG_PIKE_PC, PPC_REG_PIKE_PC, diff); \
} else { \
/* addis pike_pc,pike_pc,%hi(diff) */ \
ADDIS(PPC_REG_PIKE_PC, PPC_REG_PIKE_PC, (diff+32768)>>16); \
if ((diff &= 0xffff) > 32767) \
diff -= 65536; \
if (diff) { \
/* addi pike_pc,pike_pc,%lo(diff) */ \
ADDI(PPC_REG_PIKE_PC, PPC_REG_PIKE_PC, diff); \
} \
} \
} \
} else { \
/* bl .+4 */ \
BL(4); \
/* mflr pike_pc */ \
MFSPR(PPC_REG_PIKE_PC, PPC_SPREG_LR); \
/* addi pike_pc,pike_pc,-4 */ \
ADDI(PPC_REG_PIKE_PC, PPC_REG_PIKE_PC, -sizeof(PIKE_OPCODE_T)); \
} \
ppc32_codegen_last_pc = tmp; \
ppc32_codegen_state |= PPC_CODEGEN_PC_ISSET; \
LOAD_FP_REG(); \
/* stw pike_pc,pc(pike_fp) */ \
STW(PPC_REG_PIKE_PC, PPC_REG_PIKE_FP, OFFSETOF(pike_frame, pc)); \
} while(0)
#define ADJUST_PIKE_PC(pc) do { \
ppc32_codegen_last_pc = pc; \
ppc32_codegen_state |= PPC_CODEGEN_PC_ISSET; \
} while (0)
#define ins_pointer(PTR) add_to_program((INT32)(PTR))
#define read_pointer(OFF) (Pike_compiler->new_program->program[(INT32)(OFF)])
#define upd_pointer(OFF,PTR) (Pike_compiler->new_program->program[(INT32)(OFF)] = (INT32)(PTR))
#define ins_align(ALIGN)
#define ins_byte(VAL) add_to_program((INT32)(VAL))
#define ins_data(VAL) add_to_program((INT32)(VAL))
#define read_program_data(PTR, OFF) ((INT32)((PTR)[OFF]))
INT32 ppc32_ins_f_jump(unsigned int a, int backward_jump);
INT32 ppc32_ins_f_jump_with_arg(unsigned int a, unsigned INT32 b, int backward_jump);
INT32 ppc32_ins_f_jump_with_2_args(unsigned int a, unsigned INT32 b, unsigned INT32 c, int backward_jump);
void ppc32_update_f_jump(INT32 offset, INT32 to_offset);
INT32 ppc32_read_f_jump(INT32 offset);
#define INS_F_JUMP ppc32_ins_f_jump
#define INS_F_JUMP_WITH_ARG ppc32_ins_f_jump_with_arg
#define INS_F_JUMP_WITH_TWO_ARGS ppc32_ins_f_jump_with_2_args
#define UPDATE_F_JUMP ppc32_update_f_jump
#define READ_F_JUMP ppc32_read_f_jump
#define READ_INCR_BYTE(PC) (((PC)++)[0])
#if 0
#define RELOCATE_program(P, NEW) do { \
PIKE_OPCODE_T *op_ = NEW; \
struct program *p_ = P; \
size_t rel_ = p_->num_relocations; \
INT32 disp_, delta_ = p_->program - op_; \
while (rel_--) { \
DO_IF_DEBUG( \
if ((op_[p_->relocations[rel_]] & 0xfc000002) != \
0x48000000) { \
Pike_fatal("Bad relocation: %d, off:%d, opcode: 0x%08x\n", \
rel_, p_->relocations[rel_], \
op_[p_->relocations[rel_]]); \
} \
); \
disp_ = op_[p_->relocations[rel_]] & 0x03ffffff; \
if(disp_ & 0x02000000) \
disp_ -= 0x04000000; \
disp_ += delta_ << 2; \
if(disp_ < -33554432 || disp_ > 33554431) \
Pike_fatal("Relocation %d out of range!\n", disp_); \
op_[p_->relocations[rel_]] = 0x48000000 | \
(disp_ & 0x03ffffff); \
} \
} while(0)
#endif
extern void ppc32_flush_instruction_cache(void *addr, size_t len);
#define FLUSH_INSTRUCTION_CACHE ppc32_flush_instruction_cache
#if 0
struct dynamic_buffer_s;
void ppc32_encode_program(struct program *p, struct dynamic_buffer_s *buf);
void ppc32_decode_program(struct program *p);
#define ENCODE_PROGRAM(P, BUF) ppc32_encode_program(P, BUF)
#define DECODE_PROGRAM(P) ppc32_decode_program(p)
#endif
#ifdef PIKE_CPU_REG_PREFIX
#define PPC_REGNAME(n) PIKE_CPU_REG_PREFIX #n
#else
#define PPC_REGNAME(n) #n
#endif
#define CALL_MACHINE_CODE(pc) \
__asm__ __volatile__( " mtctr %0\n" \
" mr "PPC_REGNAME(29)",%1\n" \
" bctr" \
: \
: "r" (pc), "r" (Pike_interpreter_pointer) \
: "ctr", "lr", "cc", "memory", "r29", "r0", \
"r3", "r4", "r5", "r6", "r7", "r8", "r9", \
"r10", "r11", "r12")
#define OPCODE_INLINE_BRANCH
#define OPCODE_RETURN_JUMPADDR
#ifdef OPCODE_RETURN_JUMPADDR
/* Don't need an lvalue in this case. */
#define PROG_COUNTER ((PIKE_OPCODE_T *)__builtin_return_address(0))
#define JUMP_EPILOGUE_SIZE 2
#define JUMP_SET_TO_PC_AT_NEXT(PC) \
((PC) = PROG_COUNTER + JUMP_EPILOGUE_SIZE)
#else /* !OPCODE_RETURN_JUMPADDR */
#ifdef __linux
/* SVR4 ABI */
#define PROG_COUNTER (((PIKE_OPCODE_T **)__builtin_frame_address(1))[1])
#else
/* PowerOpen ABI */
#define PROG_COUNTER (((PIKE_OPCODE_T **)__builtin_frame_address(1))[2])
#endif
#define JUMP_EPILOGUE_SIZE 0
#endif /* !OPCODE_RETURN_JUMPADDR */
#ifdef PIKE_DEBUG
void ppc32_disassemble_code(void *addr, size_t bytes);
#define DISASSEMBLE_CODE(ADDR, BYTES) ppc32_disassemble_code(ADDR, BYTES)
#endif
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