/* * vis.h * Copyright (C) 2003 David S. Miller <davem@redhat.com> * * This file is part of mpeg2dec, a free MPEG-2 video stream decoder. * See http://libmpeg2.sourceforge.net/ for updates. * * mpeg2dec is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * mpeg2dec is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* You may be asking why I hard-code the instruction opcodes and don't * use the normal VIS assembler mnenomics for the VIS instructions. * * The reason is that Sun, in their infinite wisdom, decided that a binary * using a VIS instruction will cause it to be marked (in the ELF headers) * as doing so, and this prevents the OS from loading such binaries if the * current cpu doesn't have VIS. There is no way to easily override this * behavior of the assembler that I am aware of. * * This totally defeats what libmpeg2 is trying to do which is allow a * single binary to be created, and then detect the availability of VIS * at runtime. * * I'm not saying that tainting the binary by default is bad, rather I'm * saying that not providing a way to override this easily unnecessarily * ties people's hands. * * Thus, we do the opcode encoding by hand and output 32-bit words in * the assembler to keep the binary from becoming tainted. */ #define vis_opc_base ((0x1 << 31) | (0x36 << 19)) #define vis_opf(X) ((X) << 5) #define vis_sreg(X) (X) #define vis_dreg(X) (((X)&0x1f)|((X)>>5)) #define vis_rs1_s(X) (vis_sreg(X) << 14) #define vis_rs1_d(X) (vis_dreg(X) << 14) #define vis_rs2_s(X) (vis_sreg(X) << 0) #define vis_rs2_d(X) (vis_dreg(X) << 0) #define vis_rd_s(X) (vis_sreg(X) << 25) #define vis_rd_d(X) (vis_dreg(X) << 25) #define vis_ss2s(opf,rs1,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs1_s(rs1) | \ vis_rs2_s(rs2) | \ vis_rd_s(rd))) #define vis_dd2d(opf,rs1,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs1_d(rs1) | \ vis_rs2_d(rs2) | \ vis_rd_d(rd))) #define vis_ss2d(opf,rs1,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs1_s(rs1) | \ vis_rs2_s(rs2) | \ vis_rd_d(rd))) #define vis_sd2d(opf,rs1,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs1_s(rs1) | \ vis_rs2_d(rs2) | \ vis_rd_d(rd))) #define vis_d2s(opf,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs2_d(rs2) | \ vis_rd_s(rd))) #define vis_s2d(opf,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs2_s(rs2) | \ vis_rd_d(rd))) #define vis_d12d(opf,rs1,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs1_d(rs1) | \ vis_rd_d(rd))) #define vis_d22d(opf,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs2_d(rs2) | \ vis_rd_d(rd))) #define vis_s12s(opf,rs1,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs1_s(rs1) | \ vis_rd_s(rd))) #define vis_s22s(opf,rs2,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rs2_s(rs2) | \ vis_rd_s(rd))) #define vis_s(opf,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rd_s(rd))) #define vis_d(opf,rd) \ __asm__ __volatile__ (".word %0" \ : : "i" (vis_opc_base | vis_opf(opf) | \ vis_rd_d(rd))) #define vis_r2m(op,rd,mem) \ __asm__ __volatile__ (#op "\t%%f" #rd ", [%0]" : : "r" (&(mem)) ) #define vis_r2m_2(op,rd,mem1,mem2) \ __asm__ __volatile__ (#op "\t%%f" #rd ", [%0 + %1]" : : "r" (mem1), "r" (mem2) ) #define vis_m2r(op,mem,rd) \ __asm__ __volatile__ (#op "\t[%0], %%f" #rd : : "r" (&(mem)) ) #define vis_m2r_2(op,mem1,mem2,rd) \ __asm__ __volatile__ (#op "\t[%0 + %1], %%f" #rd : : "r" (mem1), "r" (mem2) ) static inline void vis_set_gsr(unsigned int _val) { register unsigned int val asm("g1"); val = _val; __asm__ __volatile__(".word 0xa7804000" : : "r" (val)); } #define VIS_GSR_ALIGNADDR_MASK 0x0000007 #define VIS_GSR_ALIGNADDR_SHIFT 0 #define VIS_GSR_SCALEFACT_MASK 0x0000078 #define VIS_GSR_SCALEFACT_SHIFT 3 #define vis_ld32(mem,rs1) vis_m2r(ld, mem, rs1) #define vis_ld32_2(mem1,mem2,rs1) vis_m2r_2(ld, mem1, mem2, rs1) #define vis_st32(rs1,mem) vis_r2m(st, rs1, mem) #define vis_st32_2(rs1,mem1,mem2) vis_r2m_2(st, rs1, mem1, mem2) #define vis_ld64(mem,rs1) vis_m2r(ldd, mem, rs1) #define vis_ld64_2(mem1,mem2,rs1) vis_m2r_2(ldd, mem1, mem2, rs1) #define vis_st64(rs1,mem) vis_r2m(std, rs1, mem) #define vis_st64_2(rs1,mem1,mem2) vis_r2m_2(std, rs1, mem1, mem2) #define vis_ldblk(mem, rd) \ do { register void *__mem asm("g1"); \ __mem = &(mem); \ __asm__ __volatile__(".word 0xc1985e00 | %1" \ : \ : "r" (__mem), \ "i" (vis_rd_d(rd)) \ : "memory"); \ } while (0) #define vis_stblk(rd, mem) \ do { register void *__mem asm("g1"); \ __mem = &(mem); \ __asm__ __volatile__(".word 0xc1b85e00 | %1" \ : \ : "r" (__mem), \ "i" (vis_rd_d(rd)) \ : "memory"); \ } while (0) #define vis_membar_storestore() \ __asm__ __volatile__(".word 0x8143e008" : : : "memory") #define vis_membar_sync() \ __asm__ __volatile__(".word 0x8143e040" : : : "memory") /* 16 and 32 bit partitioned addition and subtraction. The normal * versions perform 4 16-bit or 2 32-bit additions or subtractions. * The 's' versions perform 2 16-bit or 2 32-bit additions or * subtractions. */ #define vis_padd16(rs1,rs2,rd) vis_dd2d(0x50, rs1, rs2, rd) #define vis_padd16s(rs1,rs2,rd) vis_ss2s(0x51, rs1, rs2, rd) #define vis_padd32(rs1,rs2,rd) vis_dd2d(0x52, rs1, rs2, rd) #define vis_padd32s(rs1,rs2,rd) vis_ss2s(0x53, rs1, rs2, rd) #define vis_psub16(rs1,rs2,rd) vis_dd2d(0x54, rs1, rs2, rd) #define vis_psub16s(rs1,rs2,rd) vis_ss2s(0x55, rs1, rs2, rd) #define vis_psub32(rs1,rs2,rd) vis_dd2d(0x56, rs1, rs2, rd) #define vis_psub32s(rs1,rs2,rd) vis_ss2s(0x57, rs1, rs2, rd) /* Pixel formatting instructions. */ #define vis_pack16(rs2,rd) vis_d2s( 0x3b, rs2, rd) #define vis_pack32(rs1,rs2,rd) vis_dd2d(0x3a, rs1, rs2, rd) #define vis_packfix(rs2,rd) vis_d2s( 0x3d, rs2, rd) #define vis_expand(rs2,rd) vis_s2d( 0x4d, rs2, rd) #define vis_pmerge(rs1,rs2,rd) vis_ss2d(0x4b, rs1, rs2, rd) /* Partitioned multiply instructions. */ #define vis_mul8x16(rs1,rs2,rd) vis_sd2d(0x31, rs1, rs2, rd) #define vis_mul8x16au(rs1,rs2,rd) vis_ss2d(0x33, rs1, rs2, rd) #define vis_mul8x16al(rs1,rs2,rd) vis_ss2d(0x35, rs1, rs2, rd) #define vis_mul8sux16(rs1,rs2,rd) vis_dd2d(0x36, rs1, rs2, rd) #define vis_mul8ulx16(rs1,rs2,rd) vis_dd2d(0x37, rs1, rs2, rd) #define vis_muld8sux16(rs1,rs2,rd) vis_ss2d(0x38, rs1, rs2, rd) #define vis_muld8ulx16(rs1,rs2,rd) vis_ss2d(0x39, rs1, rs2, rd) /* Alignment instructions. */ static inline void *vis_alignaddr(void *_ptr) { register void *ptr asm("g1"); ptr = _ptr; __asm__ __volatile__(".word %2" : "=&r" (ptr) : "0" (ptr), "i" (vis_opc_base | vis_opf(0x18) | vis_rs1_s(1) | vis_rs2_s(0) | vis_rd_s(1))); return ptr; } static inline void vis_alignaddr_g0(void *_ptr) { register void *ptr asm("g1"); ptr = _ptr; __asm__ __volatile__(".word %2" : "=&r" (ptr) : "0" (ptr), "i" (vis_opc_base | vis_opf(0x18) | vis_rs1_s(1) | vis_rs2_s(0) | vis_rd_s(0))); } static inline void *vis_alignaddrl(void *_ptr) { register void *ptr asm("g1"); ptr = _ptr; __asm__ __volatile__(".word %2" : "=&r" (ptr) : "0" (ptr), "i" (vis_opc_base | vis_opf(0x19) | vis_rs1_s(1) | vis_rs2_s(0) | vis_rd_s(1))); return ptr; } static inline void vis_alignaddrl_g0(void *_ptr) { register void *ptr asm("g1"); ptr = _ptr; __asm__ __volatile__(".word %2" : "=&r" (ptr) : "0" (ptr), "i" (vis_opc_base | vis_opf(0x19) | vis_rs1_s(1) | vis_rs2_s(0) | vis_rd_s(0))); } #define vis_faligndata(rs1,rs2,rd) vis_dd2d(0x48, rs1, rs2, rd) /* Logical operate instructions. */ #define vis_fzero(rd) vis_d( 0x60, rd) #define vis_fzeros(rd) vis_s( 0x61, rd) #define vis_fone(rd) vis_d( 0x7e, rd) #define vis_fones(rd) vis_s( 0x7f, rd) #define vis_src1(rs1,rd) vis_d12d(0x74, rs1, rd) #define vis_src1s(rs1,rd) vis_s12s(0x75, rs1, rd) #define vis_src2(rs2,rd) vis_d22d(0x78, rs2, rd) #define vis_src2s(rs2,rd) vis_s22s(0x79, rs2, rd) #define vis_not1(rs1,rd) vis_d12d(0x6a, rs1, rd) #define vis_not1s(rs1,rd) vis_s12s(0x6b, rs1, rd) #define vis_not2(rs2,rd) vis_d22d(0x66, rs2, rd) #define vis_not2s(rs2,rd) vis_s22s(0x67, rs2, rd) #define vis_or(rs1,rs2,rd) vis_dd2d(0x7c, rs1, rs2, rd) #define vis_ors(rs1,rs2,rd) vis_ss2s(0x7d, rs1, rs2, rd) #define vis_nor(rs1,rs2,rd) vis_dd2d(0x62, rs1, rs2, rd) #define vis_nors(rs1,rs2,rd) vis_ss2s(0x63, rs1, rs2, rd) #define vis_and(rs1,rs2,rd) vis_dd2d(0x70, rs1, rs2, rd) #define vis_ands(rs1,rs2,rd) vis_ss2s(0x71, rs1, rs2, rd) #define vis_nand(rs1,rs2,rd) vis_dd2d(0x6e, rs1, rs2, rd) #define vis_nands(rs1,rs2,rd) vis_ss2s(0x6f, rs1, rs2, rd) #define vis_xor(rs1,rs2,rd) vis_dd2d(0x6c, rs1, rs2, rd) #define vis_xors(rs1,rs2,rd) vis_ss2s(0x6d, rs1, rs2, rd) #define vis_xnor(rs1,rs2,rd) vis_dd2d(0x72, rs1, rs2, rd) #define vis_xnors(rs1,rs2,rd) vis_ss2s(0x73, rs1, rs2, rd) #define vis_ornot1(rs1,rs2,rd) vis_dd2d(0x7a, rs1, rs2, rd) #define vis_ornot1s(rs1,rs2,rd) vis_ss2s(0x7b, rs1, rs2, rd) #define vis_ornot2(rs1,rs2,rd) vis_dd2d(0x76, rs1, rs2, rd) #define vis_ornot2s(rs1,rs2,rd) vis_ss2s(0x77, rs1, rs2, rd) #define vis_andnot1(rs1,rs2,rd) vis_dd2d(0x68, rs1, rs2, rd) #define vis_andnot1s(rs1,rs2,rd) vis_ss2s(0x69, rs1, rs2, rd) #define vis_andnot2(rs1,rs2,rd) vis_dd2d(0x64, rs1, rs2, rd) #define vis_andnot2s(rs1,rs2,rd) vis_ss2s(0x65, rs1, rs2, rd) /* Pixel component distance. */ #define vis_pdist(rs1,rs2,rd) vis_dd2d(0x3e, rs1, rs2, rd)