/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_ISA_DEFS_H #define _SYS_ISA_DEFS_H /* * This header file serves to group a set of well known defines and to * set these for each instruction set architecture. These defines may * be divided into two groups; characteristics of the processor and * implementation choices for Solaris on a processor. * * Processor Characteristics: * * _LITTLE_ENDIAN / _BIG_ENDIAN: * The natural byte order of the processor. A pointer to an int points * to the least/most significant byte of that int. * * _STACK_GROWS_UPWARD / _STACK_GROWS_DOWNWARD: * The processor specific direction of stack growth. A push onto the * stack increases/decreases the stack pointer, so it stores data at * successively higher/lower addresses. (Stackless machines ignored * without regrets). * * _LONG_LONG_HTOL / _LONG_LONG_LTOH: * A pointer to a long long points to the most/least significant long * within that long long. * * _BIT_FIELDS_HTOL / _BIT_FIELDS_LTOH: * The C compiler assigns bit fields from the high/low to the low/high end * of an int (most to least significant vs. least to most significant). * * _IEEE_754: * The processor (or supported implementations of the processor) * supports the ieee-754 floating point standard. No other floating * point standards are supported (or significant). Any other supported * floating point formats are expected to be cased on the ISA processor * symbol. * * _CHAR_IS_UNSIGNED / _CHAR_IS_SIGNED: * The C Compiler implements objects of type `char' as `unsigned' or * `signed' respectively. This is really an implementation choice of * the compiler writer, but it is specified in the ABI and tends to * be uniform across compilers for an instruction set architecture. * Hence, it has the properties of a processor characteristic. * * _CHAR_ALIGNMENT / _SHORT_ALIGNMENT / _INT_ALIGNMENT / _LONG_ALIGNMENT / * _LONG_LONG_ALIGNMENT / _DOUBLE_ALIGNMENT / _LONG_DOUBLE_ALIGNMENT / * _POINTER_ALIGNMENT / _FLOAT_ALIGNMENT: * The ABI defines alignment requirements of each of the primitive * object types. Some, if not all, may be hardware requirements as * well. The values are expressed in "byte-alignment" units. * * _MAX_ALIGNMENT: * The most stringent alignment requirement as specified by the ABI. * Equal to the maximum of all the above _XXX_ALIGNMENT values. * * _ALIGNMENT_REQUIRED: * True or false (1 or 0) whether or not the hardware requires the ABI * alignment. * * _LONG_LONG_ALIGNMENT_32 * The 32-bit ABI supported by a 64-bit kernel may have different * alignment requirements for primitive object types. The value of this * identifier is expressed in "byte-alignment" units. * * _HAVE_CPUID_INSN * This indicates that the architecture supports the 'cpuid' * instruction as defined by Intel. (Intel allows other vendors * to extend the instruction for their own purposes.) * * * Implementation Choices: * * _ILP32 / _LP64: * This specifies the compiler data type implementation as specified in * the relevant ABI. The choice between these is strongly influenced * by the underlying hardware, but is not absolutely tied to it. * Currently only two data type models are supported: * * _ILP32: * Int/Long/Pointer are 32 bits. This is the historical UNIX * and Solaris implementation. Due to its historical standing, * this is the default case. * * _LP64: * Long/Pointer are 64 bits, Int is 32 bits. This is the chosen * implementation for 64-bit ABIs such as SPARC V9. * * _I32LPx: * A compilation environment where 'int' is 32-bit, and * longs and pointers are simply the same size. * * In all cases, Char is 8 bits and Short is 16 bits. * * _SUNOS_VTOC_8 / _SUNOS_VTOC_16 / _SVR4_VTOC_16: * This specifies the form of the disk VTOC (or label): * * _SUNOS_VTOC_8: * This is a VTOC form which is upwardly compatible with the * SunOS 4.x disk label and allows 8 partitions per disk. * * _SUNOS_VTOC_16: * In this format the incore vtoc image matches the ondisk * version. It allows 16 slices per disk, and is not * compatible with the SunOS 4.x disk label. * * Note that these are not the only two VTOC forms possible and * additional forms may be added. One possible form would be the * SVr4 VTOC form. The symbol for that is reserved now, although * it is not implemented. * * _SVR4_VTOC_16: * This VTOC form is compatible with the System V Release 4 * VTOC (as implemented on the SVr4 Intel and 3b ports) with * 16 partitions per disk. * * * _DMA_USES_PHYSADDR / _DMA_USES_VIRTADDR * This describes the type of addresses used by system DMA: * * _DMA_USES_PHYSADDR: * This type of DMA, used in the x86 implementation, * requires physical addresses for DMA buffers. The 24-bit * addresses used by some legacy boards is the source of the * "low-memory" (<16MB) requirement for some devices using DMA. * * _DMA_USES_VIRTADDR: * This method of DMA allows the use of virtual addresses for * DMA transfers. * * _FIRMWARE_NEEDS_FDISK / _NO_FDISK_PRESENT * This indicates the presence/absence of an fdisk table. * * _FIRMWARE_NEEDS_FDISK * The fdisk table is required by system firmware. If present, * it allows a disk to be subdivided into multiple fdisk * partitions, each of which is equivalent to a separate, * virtual disk. This enables the co-existence of multiple * operating systems on a shared hard disk. * * _NO_FDISK_PRESENT * If the fdisk table is absent, it is assumed that the entire * media is allocated for a single operating system. * * _HAVE_TEM_FIRMWARE * Defined if this architecture has the (fallback) option of * using prom_* calls for doing I/O if a suitable kernel driver * is not available to do it. * * _DONT_USE_1275_GENERIC_NAMES * Controls whether or not device tree node names should * comply with the IEEE 1275 "Generic Names" Recommended * Practice. With _DONT_USE_GENERIC_NAMES, device-specific * names identifying the particular device will be used. * * __i386_COMPAT * This indicates whether the i386 ABI is supported as a *non-native* * mode for the platform. When this symbol is defined: * - 32-bit xstat-style system calls are enabled * - 32-bit xmknod-style system calls are enabled * - 32-bit system calls use i386 sizes -and- alignments * * Note that this is NOT defined for the i386 native environment! * * __x86 * This is ONLY a synonym for defined(__i386) || defined(__amd64) * which is useful only insofar as these two architectures share * common attributes. Analogous to __sparc. * * _PSM_MODULES * This indicates whether or not the implementation uses PSM * modules for processor support, reading /etc/mach from inside * the kernel to extract a list. * * _RTC_CONFIG * This indicates whether or not the implementation uses /etc/rtc_config * to configure the real-time clock in the kernel. * * _UNIX_KRTLD * This indicates that the implementation uses a dynamically * linked unix + krtld to form the core kernel image at boot * time, or (in the absence of this symbol) a prelinked kernel image. * * _OBP * This indicates the firmware interface is OBP. */ #ifdef __cplusplus extern "C" { #endif /* * The following set of definitions characterize Solaris on AMD's * 64-bit systems. */ #if defined(__x86_64) || defined(__amd64) #if !defined(__amd64) #define __amd64 /* preferred guard */ #endif #if !defined(__x86) #define __x86 #endif /* * Define the appropriate "processor characteristics" */ #define _LITTLE_ENDIAN #define _STACK_GROWS_DOWNWARD #define _LONG_LONG_LTOH #define _BIT_FIELDS_LTOH #define _IEEE_754 #define _CHAR_IS_SIGNED #define _BOOL_ALIGNMENT 1 #define _CHAR_ALIGNMENT 1 #define _SHORT_ALIGNMENT 2 #define _INT_ALIGNMENT 4 #define _FLOAT_ALIGNMENT 4 #define _FLOAT_COMPLEX_ALIGNMENT 4 #define _LONG_ALIGNMENT 8 #define _LONG_LONG_ALIGNMENT 8 #define _DOUBLE_ALIGNMENT 8 #define _DOUBLE_COMPLEX_ALIGNMENT 8 #define _LONG_DOUBLE_ALIGNMENT 16 #define _LONG_DOUBLE_COMPLEX_ALIGNMENT 16 #define _POINTER_ALIGNMENT 8 #define _MAX_ALIGNMENT 16 #define _ALIGNMENT_REQUIRED 1 /* * Different alignment constraints for the i386 ABI in compatibility mode */ #define _LONG_LONG_ALIGNMENT_32 4 /* * Define the appropriate "implementation choices". */ #if !defined(_LP64) #define _LP64 #endif #if !defined(_I32LPx) && defined(_KERNEL) #define _I32LPx #endif #define _MULTI_DATAMODEL #define _SUNOS_VTOC_16 #define _DMA_USES_PHYSADDR #define _FIRMWARE_NEEDS_FDISK #define __i386_COMPAT #define _PSM_MODULES #define _RTC_CONFIG #define _DONT_USE_1275_GENERIC_NAMES #define _HAVE_CPUID_INSN /* * The feature test macro __i386 is generic for all processors implementing * the Intel 386 instruction set or a superset of it. Specifically, this * includes all members of the 386, 486, and Pentium family of processors. */ #elif defined(__i386) || defined(__i386__) #if !defined(__i386) #define __i386 #endif #if !defined(__x86) #define __x86 #endif /* * Define the appropriate "processor characteristics" */ #define _LITTLE_ENDIAN #define _STACK_GROWS_DOWNWARD #define _LONG_LONG_LTOH #define _BIT_FIELDS_LTOH #define _IEEE_754 #define _CHAR_IS_SIGNED #define _BOOL_ALIGNMENT 1 #define _CHAR_ALIGNMENT 1 #define _SHORT_ALIGNMENT 2 #define _INT_ALIGNMENT 4 #define _FLOAT_ALIGNMENT 4 #define _FLOAT_COMPLEX_ALIGNMENT 4 #define _LONG_ALIGNMENT 4 #define _LONG_LONG_ALIGNMENT 4 #define _DOUBLE_ALIGNMENT 4 #define _DOUBLE_COMPLEX_ALIGNMENT 4 #define _LONG_DOUBLE_ALIGNMENT 4 #define _LONG_DOUBLE_COMPLEX_ALIGNMENT 4 #define _POINTER_ALIGNMENT 4 #define _MAX_ALIGNMENT 4 #define _ALIGNMENT_REQUIRED 0 #define _LONG_LONG_ALIGNMENT_32 _LONG_LONG_ALIGNMENT /* * Define the appropriate "implementation choices". */ #define _ILP32 #if !defined(_I32LPx) && defined(_KERNEL) #define _I32LPx #endif #define _SUNOS_VTOC_16 #define _DMA_USES_PHYSADDR #define _FIRMWARE_NEEDS_FDISK #define _PSM_MODULES #define _RTC_CONFIG #define _DONT_USE_1275_GENERIC_NAMES #define _HAVE_CPUID_INSN /* * The following set of definitions characterize the Solaris on SPARC systems. * * The symbol __sparc indicates any of the SPARC family of processor * architectures. This includes SPARC V7, SPARC V8 and SPARC V9. * * The symbol __sparcv8 indicates the 32-bit SPARC V8 architecture as defined * by Version 8 of the SPARC Architecture Manual. (SPARC V7 is close enough * to SPARC V8 for the former to be subsumed into the latter definition.) * * The symbol __sparcv9 indicates the 64-bit SPARC V9 architecture as defined * by Version 9 of the SPARC Architecture Manual. * * The symbols __sparcv8 and __sparcv9 are mutually exclusive, and are only * relevant when the symbol __sparc is defined. */ /* * XXX Due to the existence of 5110166, "defined(__sparcv9)" needs to be added * to support backwards builds. This workaround should be removed in s10_71. */ #elif defined(__sparc) || defined(__sparcv9) || defined(__sparc__) #if !defined(__sparc) #define __sparc #endif /* * You can be 32-bit or 64-bit, but not both at the same time. */ #if defined(__sparcv8) && defined(__sparcv9) #error "SPARC Versions 8 and 9 are mutually exclusive choices" #endif /* * Existing compilers do not set __sparcv8. Years will transpire before * the compilers can be depended on to set the feature test macro. In * the interim, we'll set it here on the basis of historical behaviour; * if you haven't asked for SPARC V9, then you must've meant SPARC V8. */ #if !defined(__sparcv9) && !defined(__sparcv8) #define __sparcv8 #endif /* * Define the appropriate "processor characteristics" shared between * all Solaris on SPARC systems. */ #define _BIG_ENDIAN #define _STACK_GROWS_DOWNWARD #define _LONG_LONG_HTOL #define _BIT_FIELDS_HTOL #define _IEEE_754 #define _CHAR_IS_SIGNED #define _BOOL_ALIGNMENT 1 #define _CHAR_ALIGNMENT 1 #define _SHORT_ALIGNMENT 2 #define _INT_ALIGNMENT 4 #define _FLOAT_ALIGNMENT 4 #define _FLOAT_COMPLEX_ALIGNMENT 4 #define _LONG_LONG_ALIGNMENT 8 #define _DOUBLE_ALIGNMENT 8 #define _DOUBLE_COMPLEX_ALIGNMENT 8 #define _ALIGNMENT_REQUIRED 1 /* * Define the appropriate "implementation choices" shared between versions. */ #define _SUNOS_VTOC_8 #define _DMA_USES_VIRTADDR #define _NO_FDISK_PRESENT #define _HAVE_TEM_FIRMWARE #define _OBP /* * The following set of definitions characterize the implementation of * 32-bit Solaris on SPARC V8 systems. */ #if defined(__sparcv8) /* * Define the appropriate "processor characteristics" */ #define _LONG_ALIGNMENT 4 #define _LONG_DOUBLE_ALIGNMENT 8 #define _LONG_DOUBLE_COMPLEX_ALIGNMENT 8 #define _POINTER_ALIGNMENT 4 #define _MAX_ALIGNMENT 8 #define _LONG_LONG_ALIGNMENT_32 _LONG_LONG_ALIGNMENT /* * Define the appropriate "implementation choices" */ #define _ILP32 #if !defined(_I32LPx) && defined(_KERNEL) #define _I32LPx #endif /* * The following set of definitions characterize the implementation of * 64-bit Solaris on SPARC V9 systems. */ #elif defined(__sparcv9) /* * Define the appropriate "processor characteristics" */ #define _LONG_ALIGNMENT 8 #define _LONG_DOUBLE_ALIGNMENT 16 #define _LONG_DOUBLE_COMPLEX_ALIGNMENT 16 #define _POINTER_ALIGNMENT 8 #define _MAX_ALIGNMENT 16 #define _LONG_LONG_ALIGNMENT_32 _LONG_LONG_ALIGNMENT /* * Define the appropriate "implementation choices" */ #if !defined(_LP64) #define _LP64 #endif #if !defined(_I32LPx) #define _I32LPx #endif #define _MULTI_DATAMODEL #else #error "unknown SPARC version" #endif /* * #error is strictly ansi-C, but works as well as anything for K&R systems. */ #else #error "ISA not supported" #endif #if defined(_ILP32) && defined(_LP64) #error "Both _ILP32 and _LP64 are defined" #endif #ifdef __cplusplus } #endif #endif /* _SYS_ISA_DEFS_H */