src/cpu/ppc/vm/assembler_ppc.inline.hpp

rev 13439 : Martin's 8185979: PPC64: Implement SHA2 intrinsic

*** 923,933 ****
  inline void Assembler::vncipher(    VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VNCIPHER_OPCODE     | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vncipherlast(VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VNCIPHERLAST_OPCODE | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vsbox(       VectorRegister d, VectorRegister a)                   { emit_int32( VSBOX_OPCODE        | vrt(d) | vra(a)         ); }
  
  // SHA (introduced with Power 8)
! // Not yet implemented.
  
  // Vector Binary Polynomial Multiplication (introduced with Power 8)
  inline void Assembler::vpmsumb(  VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPMSUMB_OPCODE | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vpmsumd(  VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPMSUMD_OPCODE | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vpmsumh(  VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPMSUMH_OPCODE | vrt(d) | vra(a) | vrb(b)); }
--- 923,934 ----
  inline void Assembler::vncipher(    VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VNCIPHER_OPCODE     | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vncipherlast(VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VNCIPHERLAST_OPCODE | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vsbox(       VectorRegister d, VectorRegister a)                   { emit_int32( VSBOX_OPCODE        | vrt(d) | vra(a)         ); }
  
  // SHA (introduced with Power 8)
! inline void Assembler::vshasigmad(VectorRegister d, VectorRegister a, bool st, int six) { emit_int32( VSHASIGMAD_OPCODE | vrt(d) | vra(a) | vst(st) | vsix(six)); }
! inline void Assembler::vshasigmaw(VectorRegister d, VectorRegister a, bool st, int six) { emit_int32( VSHASIGMAW_OPCODE | vrt(d) | vra(a) | vst(st) | vsix(six)); }
  
  // Vector Binary Polynomial Multiplication (introduced with Power 8)
  inline void Assembler::vpmsumb(  VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPMSUMB_OPCODE | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vpmsumd(  VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPMSUMD_OPCODE | vrt(d) | vra(a) | vrb(b)); }
  inline void Assembler::vpmsumh(  VectorRegister d, VectorRegister a, VectorRegister b) { emit_int32( VPMSUMH_OPCODE | vrt(d) | vra(a) | vrb(b)); }
*** 1032,1041 ****
--- 1033,1050 ----
  inline void Assembler::stvx(  VectorRegister d, Register s2) { emit_int32( STVX_OPCODE   | vrt(d) | rb(s2)); }
  inline void Assembler::stvxl( VectorRegister d, Register s2) { emit_int32( STVXL_OPCODE  | vrt(d) | rb(s2)); }
  inline void Assembler::lvsl(  VectorRegister d, Register s2) { emit_int32( LVSL_OPCODE   | vrt(d) | rb(s2)); }
  inline void Assembler::lvsr(  VectorRegister d, Register s2) { emit_int32( LVSR_OPCODE   | vrt(d) | rb(s2)); }
  
+ inline void Assembler::vec_perm(VectorRegister first_dest, VectorRegister second, VectorRegister perm) {
+ #if defined(VM_LITTLE_ENDIAN)
+   vperm(first_dest, second, first_dest, perm);
+ #else
+   vperm(first_dest, first_dest, second, perm);
+ #endif
+ }
+ 
  inline void Assembler::load_const(Register d, void* x, Register tmp) {
     load_const(d, (long)x, tmp);
  }
  
  // Load a 64 bit constant encoded by a `Label'. This works for bound