/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1996-2009 AT&T Intellectual Property * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * Glenn Fowler * * * ***********************************************************************/ #pragma prototyped /* * Glenn Fowler * AT&T Research * * man this is sum library */ static const char id[] = "\n@(#)$Id: sumlib (AT&T Research) 2009-09-28 $\0\n"; #define _SUM_PRIVATE_ \ struct Method_s* method; \ uintmax_t total_count; \ uintmax_t total_size; \ uintmax_t size; #include #include #include #include #define SCALE(n,m) (((n)+(m)-1)/(m)) typedef struct Method_s { const char* match; const char* description; const char* options; Sum_t* (*open)(const struct Method_s*, const char*); int (*init)(Sum_t*); int (*block)(Sum_t*, const void*, size_t); int (*data)(Sum_t*, Sumdata_t*); int (*print)(Sum_t*, Sfio_t*, int, size_t); int (*done)(Sum_t*); int scale; } Method_t; typedef struct Map_s { const char* match; const char* description; const char* map; } Map_t; /* * 16 and 32 bit common code */ #define _INTEGRAL_PRIVATE_ \ uint32_t sum; \ uint32_t total_sum; typedef struct Integral_s { _SUM_PUBLIC_ _SUM_PRIVATE_ _INTEGRAL_PRIVATE_ } Integral_t; static Sum_t* long_open(const Method_t* method, const char* name) { Integral_t* p; if (p = newof(0, Integral_t, 1, 0)) { p->method = (Method_t*)method; p->name = name; } return (Sum_t*)p; } static int long_init(Sum_t* p) { ((Integral_t*)p)->sum = 0; return 0; } static int long_done(Sum_t* p) { register Integral_t* x = (Integral_t*)p; x->total_sum ^= (x->sum &= 0xffffffff); return 0; } static int short_done(Sum_t* p) { register Integral_t* x = (Integral_t*)p; x->total_sum ^= (x->sum &= 0xffff); return 0; } static int long_print(Sum_t* p, Sfio_t* sp, register int flags, size_t scale) { register Integral_t* x = (Integral_t*)p; register uint32_t c; register uintmax_t z; register size_t n; c = (flags & SUM_TOTAL) ? x->total_sum : x->sum; sfprintf(sp, "%.*I*u", (flags & SUM_LEGACY) ? 5 : 1, sizeof(c), c); if (flags & SUM_SIZE) { z = (flags & SUM_TOTAL) ? x->total_size : x->size; if ((flags & SUM_SCALE) && ((n = scale) || (n = x->method->scale))) z = SCALE(z, n); sfprintf(sp, " %*I*u", (flags & SUM_LEGACY) ? 6 : 0, sizeof(z), z); } if (flags & SUM_TOTAL) sfprintf(sp, " %*I*u", (flags & SUM_LEGACY) ? 6 : 0, sizeof(x->total_count), x->total_count); return 0; } static int long_data(Sum_t* p, Sumdata_t* data) { register Integral_t* x = (Integral_t*)p; data->size = sizeof(data->num); data->num = x->sum; data->buf = 0; return 0; } #include "FEATURE/sum" #include "sum-att.c" #include "sum-ast4.c" #include "sum-bsd.c" #include "sum-crc.c" #include "sum-prng.c" #if _LIB_md && _lib_MD5Init && _hdr_md5 && _lib_SHA2Init && _hdr_sha2 #include "sum-lmd.c" #else #include "sum-md5.c" #include "sum-sha1.c" #include "sum-sha2.c" #endif /* * now the library interface */ #undef METHOD /* solaris ! */ #define METHOD(x) x##_match,x##_description,x##_options,x##_open,x##_init,x##_block,x##_data,x##_print,x##_done,x##_scale static const Method_t methods[] = { METHOD(att), METHOD(ast4), METHOD(bsd), METHOD(crc), METHOD(prng), #ifdef md4_description METHOD(md4), #endif #ifdef md5_description METHOD(md5), #endif #ifdef sha1_description METHOD(sha1), #endif #ifdef sha256_description METHOD(sha256), #endif #ifdef sha384_description METHOD(sha384), #endif #ifdef sha512_description METHOD(sha512), #endif }; static const Map_t maps[] = { { "posix|cksum|std|standard", "The posix 1003.2-1992 32 bit crc checksum. This is the" " default \bcksum\b(1) method.", "crc-0x04c11db7-rotate-done-size" }, { "zip", "The \bzip\b(1) crc.", "crc-0xedb88320-init-done" }, { "fddi", "The FDDI crc.", "crc-0xedb88320-size=0xcc55cc55" }, { "fnv|fnv1", "The Fowler-Noll-Vo 32 bit PRNG hash with non-zero" " initializer (FNV-1).", "prng-0x01000193-init=0x811c9dc5" }, { "ast|strsum", "The \bast\b \bstrsum\b(3) PRNG hash.", "prng-0x63c63cd9-add=0x9c39c33d" }, }; /* * simple alternation prefix match */ static int match(register const char* s, register const char* p) { register const char* b = s; for (;;) { do { if (*p == '|' || *p == 0) return 1; } while (*s++ == *p++); for (;;) { switch (*p++) { case 0: return 0; case '|': break; default: continue; } break; } s = b; } return 0; } /* * open sum method name */ Sum_t* sumopen(register const char* name) { register int n; char pat[256]; if (!name || !name[0] || name[0] == '-' && !name[1]) name = "default"; for (n = 0; n < elementsof(maps); n++) if (match(name, maps[n].match)) { name = maps[n].map; break; } for (n = 0; n < elementsof(methods); n++) if (match(name, methods[n].match)) return (*methods[n].open)(&methods[n], name); return 0; } /* * initialize for a new run of blocks */ int suminit(Sum_t* p) { p->size = 0; return (*p->method->init)(p); } /* * compute the running sum on buf */ int sumblock(Sum_t* p, const void* buf, size_t siz) { p->size += siz; return (*p->method->block)(p, buf, siz); } /* * done with this run of blocks */ int sumdone(Sum_t* p) { p->total_count++; p->total_size += p->size; return (*p->method->done)(p); } /* * print the sum [size] on sp */ int sumprint(Sum_t* p, Sfio_t* sp, int flags, size_t scale) { return (*p->method->print)(p, sp, flags, scale); } /* * return the current sum (internal) data */ int sumdata(Sum_t* p, Sumdata_t* d) { return (*p->method->data)(p, d); } /* * close an open sum handle */ int sumclose(Sum_t* p) { free(p); return 0; } /* * print the checksum method optget(3) usage on sp and return the length */ int sumusage(Sfio_t* sp) { register int i; register int n; for (i = n = 0; i < elementsof(methods); i++) { n += sfprintf(sp, "[+%s?%s]", methods[i].match, methods[i].description); if (methods[i].options) n += sfprintf(sp, "{\n%s\n}", methods[i].options); } for (i = 0; i < elementsof(maps); i++) n += sfprintf(sp, "[+%s?%s Shorthand for \b%s\b.]", maps[i].match, maps[i].description, maps[i].map); return n; }