pkg://libopenafs-dev_1.2.3final2-6_alpha.deb:1506560/
usr/
include/
afs/stds.h
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/*
* Copyright 2000, International Business Machines Corporation and others.
* All Rights Reserved.
*
* This software has been released under the terms of the IBM Public
* License. For details, see the LICENSE file in the top-level source
* directory or online at http://www.openafs.org/dl/license10.html
*/
#ifndef TRANSARC_AFS_CONFIG_STDS_H
#define TRANSARC_AFS_CONFIG_STDS_H 1
#include <afs/param.h>
#include <sys/types.h>
#define IN /* indicates a parameter is read in */
#define OUT /* indicates a parameter is sent out (a ptr) */
#define INOUT /* indicates a parameter is read in and sent out (a ptr) */
#ifndef MACRO_BEGIN
#define MACRO_BEGIN do {
#endif
#ifndef MACRO_END
#define MACRO_END } while (0)
#endif
typedef void *opaque;
#ifndef _ATT4
#if defined(__HIGHC__)
/*
* keep HC from complaining about the use of "old-style" function definitions
* with prototypes
*/
pragma Off(Prototype_override_warnings);
#endif /* defined(__HIGHC__) */
#endif
/* Now some types to enhance portability. Always use these on the wire or when
* laying out shared structures on disk. */
/* Imagine that this worked...
#if (sizeof(long) != 4) || (sizeof(short) != 2)
#error We require size of long and pointers to be equal
#endif */
typedef short afs_int16;
typedef unsigned short afs_uint16;
#ifdef AFS_64BIT_ENV
typedef int afs_int32;
typedef unsigned int afs_uint32;
typedef long long afs_int64;
typedef unsigned long long afs_uint64;
#define ZeroInt64(a) (a) = 0
#define AssignInt64(a, b) *(a) = (b)
#define AddInt64(a,b,c) *(c) = (a) + (b)
#define SubtractInt64(a,b,c) *(c) = (a) - (b)
#define CompareInt64(a,b) (a) - (b)
#define NonZeroInt64(a) (a)
#define Int64ToInt32(a) (a) & 0xFFFFFFFFL
#define FillInt64(t,h,l) (t) = (h); (t) <<= 32; (t) |= (l);
#define SplitInt64(t,h,l) (h) = (t) >> 32; (l) = (t) & 0xFFFFFFFF;
#else /* AFS_64BIT_ENV */
typedef long afs_int32;
typedef unsigned long afs_uint32;
struct Int64 {
afs_int32 high;
afs_uint32 low;
};
typedef struct Int64 afs_int64;
struct u_Int64 {
afs_uint32 high;
afs_uint32 low;
};
typedef struct u_Int64 afs_uint64;
#define ZeroInt64(a) (a).high = (a).low = 0
#define AssignInt64(a, b) (b)->high = (a).high; (b)->low = (a).low
#define NonZeroInt64(a) (a).low || (a).high
#define Int64ToInt32(a) (a).low
#define FillInt64(t,h,l) (t).high = (h); (t).low = (l);
#define SplitInt64(t,h,l) (h) = (t).high; (l) = (t).low;
#endif /* AFS_64BIT_ENV */
/* AFS_64BIT_CLIENT should presently be set only for AFS_64BIT_ENV systems */
#ifdef AFS_64BIT_CLIENT
typedef afs_int64 afs_size_t;
typedef afs_uint64 afs_offs_t;
#else /* AFS_64BIT_CLIENT */
typedef afs_int32 afs_size_t;
typedef afs_uint32 afs_offs_t;
#endif /* AFS_64BIT_CLIENT */
/* you still have to include <netinet/in.h> to make these work */
#define hton32 htonl
#define hton16 htons
#define ntoh32 ntohl
#define ntoh16 ntohs
/* Since there is going to be considerable use of 64 bit integers we provide
* some assistence in this matter. The hyper type is supposed to be compatible
* with the afsHyper type: the same macros will work on both. */
#if defined(AFS_64BIT_ENV) && 0
typedef unsigned long afs_hyper_t;
#define hcmp(a,b) ((a) < (b) ? -1 : ((a) > (b) ? 1 : 0))
#define hsame(a,b) ((a) == (b))
#define hiszero(a) ((a) == 0)
#define hfitsin32(a) ((a) & 0xffffffff00000000) == 0)
#define hset(a,b) ((a) = (b))
#define hzero(a) ((a) = 0)
#define hones(a) ((a) = ~((unsigned long)0))
#define hget32(i,a) ((i) = (unsigned int)(a))
#define hget64(hi,lo,a) ((lo) = ((unsigned int)(a)), (hi) = ((a) & (0xffffffff00000000)))
#define hset32(a,i) ((a) = ((unsigned int)(i)))
#define hset64(a,hi,lo) ((a) = (((hi) << 32) | (lo)))
#define hgetlo(a) ((a) & 0xffffffff)
#define hgethi(a) (((unsigned int)(a)) >> 32)
#define hadd(a,b) ((a) += (b))
/* XXX */
#define hadd32(a,b) ((a) += (b))
#define hshlft(a,n) ((a)<<(n))
#else /* AFS_64BIT_ENV */
typedef struct afs_hyper_t { /* unsigned 64 bit integers */
unsigned int high;
unsigned int low;
} afs_hyper_t;
#define hcmp(a,b) ((a).high<(b).high? -1 : ((a).high > (b).high? 1 : \
((a).low <(b).low? -1 : ((a).low > (b).low? 1 : 0))))
#define hsame(a,b) ((a).low == (b).low && (a).high == (b).high)
#define hiszero(a) ((a).low == 0 && (a).high == 0)
#define hfitsin32(a) ((a).high == 0)
#define hset(a,b) ((a) = (b))
#define hzero(a) ((a).low = 0, (a).high = 0)
#define hones(a) ((a).low = 0xffffffff, (a).high = 0xffffffff)
#define hget32(i,a) ((i) = (a).low)
#define hget64(hi,lo,a) ((lo) = (a).low, (hi) = (a).high)
#define hset32(a,i) ((a).high = 0, (a).low = (i))
#define hset64(a,hi,lo) ((a).high = (hi), (a).low = (lo))
#define hgetlo(a) ((a).low)
#define hgethi(a) ((a).high)
#define hshlft(a,n) \
{ /*Shift Left n bits*/ \
int s = sizeof((a).low) * 8; /*#bits*/ \
if ((n) <= 0) { /*No shift*/ \
} else if ((n) >= 2*s) { /*Shift off all bits*/ \
(a).high = (a).low = 0; \
} else if ((n) < s) { /*Part of low shifted into high*/ \
(a).high = ((a).high<<(n)) | (((a).low>>(s-(n))) & (1<<(n))-1); \
(a).low = (a).low << (n); \
} else if ((n) >= s) { /*All of low shifted into high plus some*/ \
(a).high = (a).low << ((n)-s); \
(a).low=0; \
} \
}
/* The algorithm here is to check for two cases that cause a carry. If the top
* two bits are different then if the sum has the top bit off then there must
* have been a carry. If the top bits are both one then there is always a
* carry. We assume 32 bit ints and twos complement arithmetic. */
#define SIGN 0x80000000
#define hadd32(a,i) \
(((((a).low ^ (int)(i)) & SIGN) \
? (((((a).low + (int)(i)) & SIGN) == 0) && (a).high++) \
: (((a).low & (int)(i) & SIGN) && (a).high++)), \
(a).low += (int)(i))
#define hadd(a,b) (hadd32(a,(b).low), (a).high += (b).high)
#endif /* AFS_64BIT_ENV */
#ifndef KERNEL
#ifndef AFS_NT40_ENV
#define max(a, b) ((a) < (b) ? (b) : (a))
#define min(a, b) ((a) > (b) ? (b) : (a))
#endif
/*#define abs(x) ((x) >= 0 ? (x) : -(x))*/
#endif
#if defined(AFS_LINUX20_ENV) && defined(KERNEL)
/* This is here instead of osi_machdep.h so fcrypt.c can pick it up. */
#include "../h/string.h"
#if 0
#define bcopy(F, T, C) memcpy((T), (F), (C))
#endif
#endif
/* minumum length of string to pass to int_to_base64 */
typedef char b64_string_t[8];
#if defined(AFS_HPUX_ENV) || defined(AFS_USR_HPUX_ENV) || (defined(AFS_SUN_ENV) && !defined(AFS_SUN5_ENV))
char *int_to_base64();
int base64_to_int();
#else
char *int_to_base64(b64_string_t s, int a);
int base64_to_int(char *s);
#endif
/*
* The afsUUID data type is built in to RX
*/
struct afsUUID {
afs_uint32 time_low;
afs_uint16 time_mid;
afs_uint16 time_hi_and_version;
char clock_seq_hi_and_reserved;
char clock_seq_low;
char node[6];
};
typedef struct afsUUID afsUUID;
extern int xdr_afsUUID();
#endif /* TRANSARC_CONFIG_AFS_STDS_H */
