/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 1988 AT&T * All Rights Reserved * * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * Global include file for all sgs SPARC machine dependent macros, constants * and declarations. */ #ifndef _MACHDEP_SPARC_H #define _MACHDEP_SPARC_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #ifdef __cplusplus extern "C" { #endif /* * Elf header information. */ #define M_MACH_32 EM_SPARC #define M_MACH_64 EM_SPARCV9 #ifdef _ELF64 #define M_MACH EM_SPARCV9 #define M_CLASS ELFCLASS64 #else #define M_MACH EM_SPARC #define M_CLASS ELFCLASS32 #endif #define M_MACHPLUS EM_SPARC32PLUS #define M_DATA ELFDATA2MSB #define M_FLAGSPLUS EF_SPARC_32PLUS /* * Page boundary Macros: truncate to previous page boundary and round to * next page boundary (refer to generic macros in ../sgs.h also). */ #define M_PTRUNC(X) ((X) & ~(syspagsz - 1)) #define M_PROUND(X) (((X) + syspagsz - 1) & ~(syspagsz - 1)) /* * Segment boundary macros: truncate to previous segment boundary and round * to next page boundary. */ #ifndef M_SEGSIZE #define M_SEGSIZE ELF_SPARC_MAXPGSZ #endif #define M_STRUNC(X) ((X) & ~(M_SEGSIZE - 1)) #define M_SROUND(X) (((X) + M_SEGSIZE - 1) & ~(M_SEGSIZE - 1)) /* * TLS static segments must be rounded to the following requirements, * due to libthread stack allocation. */ #if defined(_ELF64) #define M_TLSSTATALIGN 0x10 #else #define M_TLSSTATALIGN 0x08 #endif /* * Instruction encodings. */ #define M_SAVESP64 0x9de3bfc0 /* save %sp, -64, %sp */ #define M_CALL 0x40000000 #define M_JMPL 0x81c06000 /* jmpl %g1 + simm13, %g0 */ #define M_SETHIG0 0x01000000 /* sethi %hi(val), %g0 */ #define M_SETHIG1 0x03000000 /* sethi %hi(val), %g1 */ #define M_STO7G1IM 0xde206000 /* st %o7,[%g1 + %lo(val)] */ #define M_SUBFPSPG1 0x8227800e /* sub %fp,%sp,%g1 */ #define M_NOP 0x01000000 /* sethi 0, %o0 (nop) */ #define M_BA_A 0x30800000 /* ba,a */ #define M_BA_A_PT 0x30480000 /* ba,a %icc, */ #define M_MOVO7TOG1 0x8210000f /* mov %o7, %g1 */ #define M_MOVO7TOG5 0x8a10000f /* mov %o7, %g5 */ #define M_MOVI7TOG1 0x8210001f /* mov %i7, %g1 */ #define M_BA_A_XCC 0x30680000 /* ba,a %xcc */ #define M_JMPL_G5G0 0x81c16000 /* jmpl %g5 + 0, %g0 */ #define M_XNOR_G5G1 0x82396000 /* xnor %g5, 0, %g1 */ #define M_BIND_ADJ 4 /* adjustment for end of */ /* elf_rtbndr() address */ /* * Plt and Got information; the first few .got and .plt entries are reserved * PLT[0] jump to dynamic linker * GOT[0] address of _DYNAMIC */ #define M_PLT_INSSIZE 4 /* single plt instruction size */ #define M_GOT_XDYNAMIC 0 /* got index for _DYNAMIC */ #define M_GOT_XNumber 1 /* reserved no. of got entries */ /* * ELF32 bit PLT constants */ #define M32_PLT_ENTSIZE 12 /* 32bit plt entry size in bytes */ /* * ELF64 bit PLT constants */ #define M64_PLT_NEARPLTS 0x8000 /* # of NEAR PLTS we can have */ #define M64_PLT_ENTSIZE 32 /* plt entry size in bytes */ #define M64_PLT_FENTSIZE 24 /* size of far plt is 6 instructions */ /* x 4bytes */ #define M64_PLT_PSIZE 8 /* size of PLTP pointer */ #define M64_PLT_FBLKCNTS 160 /* # of plts in far PLT blocks */ #define M64_PLT_FBLOCKSZ (M64_PLT_FBLKCNTS *\ M64_PLT_ENTSIZE) /* size of far PLT block */ #ifdef _ELF64 #define M_PLT_ENTSIZE M64_PLT_ENTSIZE /* plt entry size in bytes */ #define M_PLT_XNumber 4 /* reserved no. of plt entries */ #define M_PLT_ALIGN 256 /* alignment of .plt section */ #define M_PLT_RESERVSZ (M_PLT_XNumber * \ M_PLT_ENTSIZE) /* first 4 plt's reserved */ #define M_GOT_ENTSIZE 8 /* got entry size in bytes */ #define M_GOT_MAXSMALL 1024 /* maximum no. of small gots */ #else /* Elf32 */ #define M_PLT_ENTSIZE M32_PLT_ENTSIZE /* plt entry size in bytes */ #define M_PLT_XNumber 4 /* reserved no. of plt entries */ #define M_PLT_ALIGN M_WORD_ALIGN /* alignment of .plt section */ #define M_PLT_RESERVSZ (M_PLT_XNumber * \ M_PLT_ENTSIZE) /* first 4 plt's reserved */ #define M_GOT_ENTSIZE 4 /* got entry size in bytes */ #define M_GOT_MAXSMALL 2048 /* maximum no. of small gots */ #endif /* _ELF64 */ /* transition flags for got sizing */ #define M_GOT_LARGE (Sword)(-M_GOT_MAXSMALL - 1) #define M_GOT_SMALL (Sword)(-M_GOT_MAXSMALL - 2) #define M_GOT_MIXED (Sword)(-M_GOT_MAXSMALL - 3) /* * Other machine dependent entities */ #ifdef _ELF64 #define M_SEGM_ALIGN ELF_SPARCV9_MAXPGSZ /* * Put 64-bit programs above 4 gigabytes to help insure correctness, * so any 64-bit programs that truncate pointers will fault now instead of * corrupting itself and dying mysteriously. */ #define M_SEGM_ORIGIN (Addr)0x100000000ULL /* default first segment offset */ #define M_WORD_ALIGN 8 #else #define M_SEGM_ALIGN ELF_SPARC_MAXPGSZ #define M_SEGM_ORIGIN (Addr)0x10000 /* default first segment offset */ #define M_WORD_ALIGN 4 #endif /* * Make common relocation information transparent to the common code */ #define M_REL_DT_TYPE DT_RELA /* .dynamic entry */ #define M_REL_DT_SIZE DT_RELASZ /* .dynamic entry */ #define M_REL_DT_ENT DT_RELAENT /* .dynamic entry */ #define M_REL_DT_COUNT DT_RELACOUNT /* .dynamic entry */ #define M_REL_SHT_TYPE SHT_RELA /* section header type */ #define M_REL_ELF_TYPE ELF_T_RELA /* data buffer type */ /* * Make common relocation types transparent to the common code */ #define M_R_NONE R_SPARC_NONE #define M_R_GLOB_DAT R_SPARC_GLOB_DAT #define M_R_COPY R_SPARC_COPY #define M_R_RELATIVE R_SPARC_RELATIVE #define M_R_JMP_SLOT R_SPARC_JMP_SLOT #define M_R_REGISTER R_SPARC_REGISTER #define M_R_FPTR R_SPARC_NONE #define M_R_NUM R_SPARC_NUM #ifdef _ELF64 #define M_R_ARRAYADDR R_SPARC_64 #define M_R_DTPMOD R_SPARC_TLS_DTPMOD64 #define M_R_DTPOFF R_SPARC_TLS_DTPOFF64 #define M_R_TPOFF R_SPARC_TLS_TPOFF64 #else /* _ELF32 */ #define M_R_ARRAYADDR R_SPARC_32 #define M_R_DTPMOD R_SPARC_TLS_DTPMOD32 #define M_R_DTPOFF R_SPARC_TLS_DTPOFF32 #define M_R_TPOFF R_SPARC_TLS_TPOFF32 #endif /* _ELF64 */ /* * Make register symbols transparent to common code */ #define M_DT_REGISTER DT_SPARC_REGISTER /* * PLTRESERVE is not relevant on sparc */ #define M_DT_PLTRESERVE 0xffffffff /* * Make plt section information transparent to the common code. */ #define M_PLT_SHF_FLAGS (SHF_ALLOC | SHF_WRITE | SHF_EXECINSTR) /* * Make data segment information transparent to the common code. */ #define M_DATASEG_PERM (PF_R | PF_W | PF_X) /* * Define a set of identifies for special sections. These allow the sections * to be ordered within the output file image. These values should be * maintained consistently, where appropriate, in each platform specific header * file. * * o null identifies that this section does not need to be added to the * output image (ie. shared object sections or sections we're going to * recreate (sym tables, string tables, relocations, etc.)). * * o any user defined section will be first in the associated segment. * * o interp and capabilities sections are next, as these are accessed * immediately the first page of the image is mapped. * * o the syminfo, hash, dynsym, dynstr and rel's are grouped together as * these will all be accessed first by ld.so.1 to perform relocations. * * o the got, dynamic, and plt are grouped together as these may also be * accessed first by ld.so.1 to perform relocations, fill in DT_DEBUG * (executables only), and .plt[0]. * * o unknown sections (stabs, comments etc.) go at the end. * * Note that .tlsbss/.bss are given the largest identifiers. This insures that * if any unknown sections become associated to the same segment as the .bss, * the .bss sections are always the last section in the segment. */ #define M_ID_NULL 0x00 #define M_ID_USER 0x01 #define M_ID_INTERP 0x02 /* SHF_ALLOC */ #define M_ID_CAP 0x03 #define M_ID_SYMINFO 0x04 #define M_ID_HASH 0x05 #define M_ID_LDYNSYM 0x06 /* always right before DYNSYM */ #define M_ID_DYNSYM 0x07 #define M_ID_DYNSTR 0x08 #define M_ID_VERSION 0x09 #define M_ID_DYNSORT 0x0a #define M_ID_REL 0x0b #define M_ID_TEXT 0x0c /* SHF_ALLOC + SHF_EXECINSTR */ #define M_ID_DATA 0x0d /* M_ID_USER 0x01 dual entry - listed above */ #define M_ID_GOTDATA 0x02 /* SHF_ALLOC + SHF_WRITE */ #define M_ID_GOT 0x03 #define M_ID_PLT 0x04 #define M_ID_DYNAMIC 0x05 #define M_ID_ARRAY 0x06 #define M_ID_UNKNOWN 0xfc /* just before TLS */ #define M_ID_TLS 0xfd /* just before bss */ #define M_ID_TLSBSS 0xfe #define M_ID_BSS 0xff #define M_ID_SYMTAB_NDX 0x02 /* ! SHF_ALLOC */ #define M_ID_SYMTAB 0x03 #define M_ID_STRTAB 0x04 #define M_ID_DYNSYM_NDX 0x05 #define M_ID_NOTE 0x06 #ifdef __cplusplus } #endif #endif /* _MACHDEP_SPARC_H */