/* ucl_init.c -- initialization of the UCL library This file is part of the UCL data compression library. Copyright (C) 1996-2002 Markus Franz Xaver Johannes Oberhumer All Rights Reserved. The UCL library 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. The UCL library 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 the UCL library; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Markus F.X.J. Oberhumer http://www.oberhumer.com/opensource/ucl/ */ #include "ucl_conf.h" #include "ucl_util.h" #include #if 0 # define IS_SIGNED(type) (((type) (1ul << (8 * sizeof(type) - 1))) < 0) # define IS_UNSIGNED(type) (((type) (1ul << (8 * sizeof(type) - 1))) > 0) #else # define IS_SIGNED(type) (((type) (-1)) < ((type) 0)) # define IS_UNSIGNED(type) (((type) (-1)) > ((type) 0)) #endif /*********************************************************************** // Runtime check of the assumptions about the size of builtin types, // memory model, byte order and other low-level constructs. // // We are really paranoid here - UCL should either fail (or crash) // at startup or not at all. // // Because of inlining much of these functions evaluates to nothing. ************************************************************************/ static ucl_bool schedule_insns_bug(void); /* avoid inlining */ static ucl_bool strength_reduce_bug(int *); /* avoid inlining */ #if 0 || defined(UCL_DEBUG) static ucl_bool __ucl_assert_fail(const char *s, unsigned line) { #if defined(__palmos__) printf("UCL assertion failed in line %u: '%s'\n",line,s); #else fprintf(stderr,"UCL assertion failed in line %u: '%s'\n",line,s); #endif return 0; } # define __ucl_assert(x) ((x) ? 1 : __ucl_assert_fail(#x,__LINE__)) #else # define __ucl_assert(x) ((x) ? 1 : 0) #endif /*********************************************************************** // The next two functions should get completely optimized out of existance. // Some assertions are redundant - but included for clarity. ************************************************************************/ static ucl_bool basic_integral_check(void) { ucl_bool r = 1; ucl_bool sanity; /* paranoia */ r &= __ucl_assert(CHAR_BIT == 8); r &= __ucl_assert(sizeof(char) == 1); r &= __ucl_assert(sizeof(short) >= 2); r &= __ucl_assert(sizeof(long) >= 4); r &= __ucl_assert(sizeof(int) >= sizeof(short)); r &= __ucl_assert(sizeof(long) >= sizeof(int)); r &= __ucl_assert(sizeof(ucl_uint32) >= 4); r &= __ucl_assert(sizeof(ucl_uint32) >= sizeof(unsigned)); #if defined(__UCL_STRICT_16BIT) r &= __ucl_assert(sizeof(ucl_uint) == 2); #else r &= __ucl_assert(sizeof(ucl_uint) >= 4); r &= __ucl_assert(sizeof(ucl_uint) >= sizeof(unsigned)); #endif #if defined(SIZEOF_UNSIGNED) r &= __ucl_assert(SIZEOF_UNSIGNED == sizeof(unsigned)); #endif #if defined(SIZEOF_UNSIGNED_LONG) r &= __ucl_assert(SIZEOF_UNSIGNED_LONG == sizeof(unsigned long)); #endif #if defined(SIZEOF_UNSIGNED_SHORT) r &= __ucl_assert(SIZEOF_UNSIGNED_SHORT == sizeof(unsigned short)); #endif #if !defined(__UCL_IN_MINIUCL) #if defined(SIZEOF_SIZE_T) r &= __ucl_assert(SIZEOF_SIZE_T == sizeof(size_t)); #endif #endif /* assert the signedness of our integral types */ sanity = IS_UNSIGNED(unsigned short) && IS_UNSIGNED(unsigned) && IS_UNSIGNED(unsigned long) && IS_SIGNED(short) && IS_SIGNED(int) && IS_SIGNED(long); if (sanity) { r &= __ucl_assert(IS_UNSIGNED(ucl_uint32)); r &= __ucl_assert(IS_UNSIGNED(ucl_uint)); r &= __ucl_assert(IS_SIGNED(ucl_int32)); r &= __ucl_assert(IS_SIGNED(ucl_int)); r &= __ucl_assert(INT_MAX == UCL_STYPE_MAX(sizeof(int))); r &= __ucl_assert(UINT_MAX == UCL_UTYPE_MAX(sizeof(unsigned))); r &= __ucl_assert(LONG_MAX == UCL_STYPE_MAX(sizeof(long))); r &= __ucl_assert(ULONG_MAX == UCL_UTYPE_MAX(sizeof(unsigned long))); r &= __ucl_assert(SHRT_MAX == UCL_STYPE_MAX(sizeof(short))); r &= __ucl_assert(USHRT_MAX == UCL_UTYPE_MAX(sizeof(unsigned short))); r &= __ucl_assert(UCL_UINT32_MAX == UCL_UTYPE_MAX(sizeof(ucl_uint32))); r &= __ucl_assert(UCL_UINT_MAX == UCL_UTYPE_MAX(sizeof(ucl_uint))); #if !defined(__UCL_IN_MINIUCL) r &= __ucl_assert(SIZE_T_MAX == UCL_UTYPE_MAX(sizeof(size_t))); #endif } return r; } static ucl_bool basic_ptr_check(void) { ucl_bool r = 1; ucl_bool sanity; r &= __ucl_assert(sizeof(char *) >= sizeof(int)); r &= __ucl_assert(sizeof(ucl_byte *) >= sizeof(char *)); r &= __ucl_assert(sizeof(ucl_voidp) == sizeof(ucl_byte *)); r &= __ucl_assert(sizeof(ucl_voidp) == sizeof(ucl_voidpp)); r &= __ucl_assert(sizeof(ucl_voidp) == sizeof(ucl_bytepp)); r &= __ucl_assert(sizeof(ucl_voidp) >= sizeof(ucl_uint)); r &= __ucl_assert(sizeof(ucl_ptr_t) == sizeof(ucl_voidp)); r &= __ucl_assert(sizeof(ucl_ptr_t) >= sizeof(ucl_uint)); r &= __ucl_assert(sizeof(ucl_ptrdiff_t) >= 4); r &= __ucl_assert(sizeof(ucl_ptrdiff_t) >= sizeof(ptrdiff_t)); #if defined(SIZEOF_CHAR_P) r &= __ucl_assert(SIZEOF_CHAR_P == sizeof(char *)); #endif #if defined(SIZEOF_PTRDIFF_T) r &= __ucl_assert(SIZEOF_PTRDIFF_T == sizeof(ptrdiff_t)); #endif /* assert the signedness of our integral types */ sanity = IS_UNSIGNED(unsigned short) && IS_UNSIGNED(unsigned) && IS_UNSIGNED(unsigned long) && IS_SIGNED(short) && IS_SIGNED(int) && IS_SIGNED(long); if (sanity) { r &= __ucl_assert(IS_UNSIGNED(ucl_ptr_t)); r &= __ucl_assert(IS_SIGNED(ucl_ptrdiff_t)); r &= __ucl_assert(IS_SIGNED(ucl_sptr_t)); } return r; } /*********************************************************************** // ************************************************************************/ static ucl_bool ptr_check(void) { ucl_bool r = 1; int i; char _wrkmem[10 * sizeof(ucl_byte *) + sizeof(ucl_align_t)]; ucl_bytep wrkmem; ucl_bytepp dict; unsigned char x[4 * sizeof(ucl_align_t)]; long d; ucl_align_t a; ucl_align_t u; for (i = 0; i < (int) sizeof(x); i++) x[i] = UCL_BYTE(i); wrkmem = UCL_PTR_ALIGN_UP((ucl_byte *)_wrkmem,sizeof(ucl_align_t)); #if 0 dict = (ucl_bytepp) wrkmem; #else /* Avoid a compiler warning on architectures that * do not allow unaligned access. */ u.a_ucl_bytep = wrkmem; dict = u.a_ucl_bytepp; #endif d = (long) ((const ucl_bytep) dict - (const ucl_bytep) _wrkmem); r &= __ucl_assert(d >= 0); r &= __ucl_assert(d < (long) sizeof(ucl_align_t)); memset(&a,0xff,sizeof(a)); r &= __ucl_assert(a.a_ushort == USHRT_MAX); r &= __ucl_assert(a.a_uint == UINT_MAX); r &= __ucl_assert(a.a_ulong == ULONG_MAX); r &= __ucl_assert(a.a_ucl_uint == UCL_UINT_MAX); /* sanity check of the memory model */ if (r == 1) { for (i = 0; i < 8; i++) r &= __ucl_assert((const ucl_voidp) (&dict[i]) == (const ucl_voidp) (&wrkmem[i * sizeof(ucl_byte *)])); } /* check BZERO8_PTR and that NULL == 0 */ memset(&a,0,sizeof(a)); r &= __ucl_assert(a.a_char_p == NULL); r &= __ucl_assert(a.a_ucl_bytep == NULL); r &= __ucl_assert(NULL == (void*)0); if (r == 1) { for (i = 0; i < 10; i++) dict[i] = wrkmem; BZERO8_PTR(dict+1,sizeof(dict[0]),8); r &= __ucl_assert(dict[0] == wrkmem); for (i = 1; i < 9; i++) r &= __ucl_assert(dict[i] == NULL); r &= __ucl_assert(dict[9] == wrkmem); } /* check that the pointer constructs work as expected */ if (r == 1) { unsigned k = 1; const unsigned n = (unsigned) sizeof(ucl_uint32); ucl_byte *p0; ucl_byte *p1; k += __ucl_align_gap(&x[k],n); p0 = (ucl_bytep) &x[k]; #if defined(PTR_LINEAR) r &= __ucl_assert((PTR_LINEAR(p0) & (n-1)) == 0); #else r &= __ucl_assert(n == 4); r &= __ucl_assert(PTR_ALIGNED_4(p0)); #endif r &= __ucl_assert(k >= 1); p1 = (ucl_bytep) &x[1]; r &= __ucl_assert(PTR_GE(p0,p1)); r &= __ucl_assert(k < 1+n); p1 = (ucl_bytep) &x[1+n]; r &= __ucl_assert(PTR_LT(p0,p1)); /* now check that aligned memory access doesn't core dump */ if (r == 1) { ucl_uint32 v0, v1; #if 0 v0 = * (ucl_uint32 *) &x[k]; v1 = * (ucl_uint32 *) &x[k+n]; #else /* Avoid compiler warnings on architectures that * do not allow unaligned access. */ u.a_uchar_p = &x[k]; v0 = *u.a_ucl_uint32_p; u.a_uchar_p = &x[k+n]; v1 = *u.a_ucl_uint32_p; #endif r &= __ucl_assert(v0 > 0); r &= __ucl_assert(v1 > 0); } } return r; } /*********************************************************************** // ************************************************************************/ UCL_PUBLIC(int) _ucl_config_check(void) { ucl_bool r = 1; int i; union { ucl_uint32 a; unsigned short b; ucl_uint32 aa[4]; unsigned char x[4*sizeof(ucl_align_t)]; } u; #if 0 /* paranoia - the following is guaranteed by definition anyway */ r &= __ucl_assert((const void *)&u == (const void *)&u.a); r &= __ucl_assert((const void *)&u == (const void *)&u.b); r &= __ucl_assert((const void *)&u == (const void *)&u.x[0]); r &= __ucl_assert((const void *)&u == (const void *)&u.aa[0]); #endif r &= basic_integral_check(); r &= basic_ptr_check(); if (r != 1) return UCL_E_ERROR; u.a = 0; u.b = 0; for (i = 0; i < (int) sizeof(u.x); i++) u.x[i] = UCL_BYTE(i); #if 0 /* check if the compiler correctly casts signed to unsigned */ r &= __ucl_assert( (int) (unsigned char) ((char) -1) == 255); #endif /* check UCL_BYTE_ORDER */ #if defined(UCL_BYTE_ORDER) if (r == 1) { # if (UCL_BYTE_ORDER == UCL_LITTLE_ENDIAN) ucl_uint32 a = (ucl_uint32) (u.a & UCL_UINT32_C(0xffffffff)); unsigned short b = (unsigned short) (u.b & 0xffff); r &= __ucl_assert(a == UCL_UINT32_C(0x03020100)); r &= __ucl_assert(b == 0x0100); # elif (UCL_BYTE_ORDER == UCL_BIG_ENDIAN) ucl_uint32 a = u.a >> (8 * sizeof(u.a) - 32); unsigned short b = u.b >> (8 * sizeof(u.b) - 16); r &= __ucl_assert(a == UCL_UINT32_C(0x00010203)); r &= __ucl_assert(b == 0x0001); # else # error "invalid UCL_BYTE_ORDER" # endif } #endif /* check that unaligned memory access works as expected */ #if defined(UCL_UNALIGNED_OK_2) r &= __ucl_assert(sizeof(short) == 2); if (r == 1) { unsigned short b[4]; for (i = 0; i < 4; i++) b[i] = * (const unsigned short *) &u.x[i]; # if (UCL_BYTE_ORDER == UCL_LITTLE_ENDIAN) r &= __ucl_assert(b[0] == 0x0100); r &= __ucl_assert(b[1] == 0x0201); r &= __ucl_assert(b[2] == 0x0302); r &= __ucl_assert(b[3] == 0x0403); # elif (UCL_BYTE_ORDER == UCL_BIG_ENDIAN) r &= __ucl_assert(b[0] == 0x0001); r &= __ucl_assert(b[1] == 0x0102); r &= __ucl_assert(b[2] == 0x0203); r &= __ucl_assert(b[3] == 0x0304); # endif } #endif #if defined(UCL_UNALIGNED_OK_4) r &= __ucl_assert(sizeof(ucl_uint32) == 4); if (r == 1) { ucl_uint32 a[4]; for (i = 0; i < 4; i++) a[i] = * (const ucl_uint32 *) &u.x[i]; # if (UCL_BYTE_ORDER == UCL_LITTLE_ENDIAN) r &= __ucl_assert(a[0] == UCL_UINT32_C(0x03020100)); r &= __ucl_assert(a[1] == UCL_UINT32_C(0x04030201)); r &= __ucl_assert(a[2] == UCL_UINT32_C(0x05040302)); r &= __ucl_assert(a[3] == UCL_UINT32_C(0x06050403)); # elif (UCL_BYTE_ORDER == UCL_BIG_ENDIAN) r &= __ucl_assert(a[0] == UCL_UINT32_C(0x00010203)); r &= __ucl_assert(a[1] == UCL_UINT32_C(0x01020304)); r &= __ucl_assert(a[2] == UCL_UINT32_C(0x02030405)); r &= __ucl_assert(a[3] == UCL_UINT32_C(0x03040506)); # endif } #endif #if defined(UCL_ALIGNED_OK_4) r &= __ucl_assert(sizeof(ucl_uint32) == 4); #endif /* check the ucl_adler32() function */ if (r == 1) { ucl_uint32 adler; adler = ucl_adler32(0, NULL, 0); adler = ucl_adler32(adler, ucl_copyright(), 186); r &= __ucl_assert(adler == UCL_UINT32_C(0x47fb39fc)); } /* check for the gcc schedule-insns optimization bug */ if (r == 1) { r &= __ucl_assert(!schedule_insns_bug()); } /* check for the gcc strength-reduce optimization bug */ if (r == 1) { static int x[3]; static unsigned xn = 3; register unsigned j; for (j = 0; j < xn; j++) x[j] = (int)j - 3; r &= __ucl_assert(!strength_reduce_bug(x)); } /* now for the low-level pointer checks */ if (r == 1) { r &= ptr_check(); } return r == 1 ? UCL_E_OK : UCL_E_ERROR; } static ucl_bool schedule_insns_bug(void) { #if defined(__UCL_CHECKER) /* for some reason checker complains about uninitialized memory access */ return 0; #else const int clone[] = {1, 2, 0}; const int *q; q = clone; return (*q) ? 0 : 1; #endif } static ucl_bool strength_reduce_bug(int *x) { return x[0] != -3 || x[1] != -2 || x[2] != -1; } /*********************************************************************** // ************************************************************************/ int __ucl_init_done = 0; UCL_PUBLIC(int) __ucl_init2(ucl_uint32 v, int s1, int s2, int s3, int s4, int s5, int s6, int s7, int s8, int s9) { int r; __ucl_init_done = 1; if (v == 0) return UCL_E_ERROR; r = (s1 == -1 || s1 == (int) sizeof(short)) && (s2 == -1 || s2 == (int) sizeof(int)) && (s3 == -1 || s3 == (int) sizeof(long)) && (s4 == -1 || s4 == (int) sizeof(ucl_uint32)) && (s5 == -1 || s5 == (int) sizeof(ucl_uint)) && (s6 == -1 || s6 > 0) && (s7 == -1 || s7 == (int) sizeof(char *)) && (s8 == -1 || s8 == (int) sizeof(ucl_voidp)) && (s9 == -1 || s9 == (int) sizeof(ucl_compress_t)); if (!r) return UCL_E_ERROR; r = _ucl_config_check(); if (r != UCL_E_OK) return r; return r; } /* vi:ts=4:et */