/* WARNING: This file was generated by dkct. Changes you make here will be lost if dkct is run again! You should modify the original source and run dkct on it. Original source: dk3chks.ctr */ /* Copyright (C) 2011-2017, Dirk Krause Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above opyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the author nor the names of contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @file dk3chks.c The dk3chks module. */ #line 66 "dk3chks.ctr" #include "dk3all.h" #if DK3_HAVE_OPENSSL_MD5_H #include #endif #if DK3_HAVE_OPENSSL_SHA_H #include #endif #if DK3_HAVE_OPENSSL_RIPEMD_H #include #endif #line 81 "dk3chks.ctr" /** Names of message digest algorithms. Order here must match order of DK3_MD_TYPE_xxx in dk3const.h. */ static dkChar const * const dk3_checksum_type_names[] = { /* 0 */ dkT("MD5"), /* 1 */ dkT("SHA-1"), /* 2 */ dkT("SHA-224"), /* 3 */ dkT("SHA-256"), /* 4 */ dkT("SHA-384"), /* 5 */ dkT("SHA-512"), /* 6 */ dkT("RIPEMD-160"), NULL }; /** String constants. */ static dkChar const * const kw[] = { #if DK3_ON_WINDOWS /* 0 */ dkT("rb"), /* File mode, read binary. */ #else /* 0 */ dkT("r"), /* no difference on non-Windows. */ #endif }; int dk3checksum_get_type_app(dkChar const *n, dk3_app_t *app) { int back = -1; if(n) { back = dk3str_array_index(dk3_checksum_type_names, n, 0); if(back == -1) { if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 127, 128, n); } } else { back++; } } return back; } /** Convert length of binary message digest to length of encoded string. @param l Number of binary bytes to encode. @param cse Message digest encoding. @return Number of text characters produced by encoding. */ static size_t dk3chksum_conv_length(size_t l, int cse) { size_t back = 0; #line 142 "dk3chks.ctr" switch(cse) { case DK3_DATA_ENCODING_HEX: { back = dk3enc_size_bin_to_hex(l); } break; default: { back = dk3enc_size_bin_to_a85(l); } break; } #line 150 "dk3chks.ctr" return back; } /** Get length of binary message digest. @param cst Message digest type. @return Number of binary bytes produced. */ static size_t dk3chksum_min_length(int cst) { size_t back = 0; switch(cst) { case DK3_MD_TYPE_MD5: back = 16; break; case DK3_MD_TYPE_SHA_1: back = 20; break; case DK3_MD_TYPE_SHA_224: back = 28; break; case DK3_MD_TYPE_SHA_256: back = 32; break; case DK3_MD_TYPE_SHA_384: back = 48; break; case DK3_MD_TYPE_SHA_512: back = 64; break; case DK3_MD_TYPE_RIPEMD_160: back = 20; break; } return back; } /** Build binary checksum from file. @param db Destination buffer. @param sz Size of \a db. @param fipo File pointer for read access. @param cst Checksum type. @param app Application structure for diagnostics, may be NULL. @return 1 on success, 0 on error. */ static int dk3checksum_binary(char *db, size_t sz, FILE *fipo, int cst, dk3_app_t *app) { int back = 0; #if DK3_HAVE_OPENSSL_SHA_H SHA_CTX sha_ctx; /* SHA-1 context. */ #if DK3_HAVE_SHA224 || DK3_HAVE_SHA256 SHA256_CTX sha256_ctx; /* SHA-256 context. */ #endif #if DK3_HAVE_SHA384 || DK3_HAVE_SHA512 SHA512_CTX sha512_ctx; /* SHA-512 context. */ #endif #endif #if DK3_HAVE_OPENSSL_MD5_H MD5_CTX md5_ctx; /* MD5 context. */ #endif #if DK3_HAVE_OPENSSL_RIPEMD_H RIPEMD160_CTX ripemd160_ctx; /* RIPEMD-160 context. */ #endif char buffer[4096]; /* Buffer for input. */ size_t rb = 0; /* Number of bytes read. */ switch(cst) { case DK3_MD_TYPE_MD5: { #if DK3_HAVE_OPENSSL_MD5_H MD5_Init(&md5_ctx); while((rb = dk3sf_fread_app(buffer,1,sizeof(buffer),fipo,app)) > 0) { MD5_Update(&md5_ctx, buffer, rb); } MD5_Final((unsigned char *)db, &md5_ctx); back = 1; #else if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 156, 157, dk3_checksum_type_names[0]); } #endif } break; case DK3_MD_TYPE_SHA_1: { #if DK3_HAVE_OPENSSL_SHA_H SHA1_Init(&sha_ctx); while((rb = dk3sf_fread_app(buffer,1,sizeof(buffer),fipo,app)) > 0) { SHA1_Update(&sha_ctx, buffer, rb); } SHA1_Final((unsigned char *)db, &sha_ctx); back = 1; #else if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 156, 157, dk3_checksum_type_names[1]); } #endif } break; case DK3_MD_TYPE_SHA_224: { #if DK3_HAVE_OPENSSL_SHA_H && DK3_HAVE_SHA224 SHA224_Init(&sha256_ctx); while((rb = dk3sf_fread_app(buffer,1,sizeof(buffer),fipo,app)) > 0) { SHA224_Update(&sha256_ctx, buffer, rb); } SHA224_Final((unsigned char *)db, &sha256_ctx); back = 1; #else if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 156, 157, dk3_checksum_type_names[2]); } #endif } break; case DK3_MD_TYPE_SHA_256: { #if DK3_HAVE_OPENSSL_SHA_H && DK3_HAVE_SHA256 SHA256_Init(&sha256_ctx); while((rb = dk3sf_fread_app(buffer,1,sizeof(buffer),fipo,app)) > 0) { SHA256_Update(&sha256_ctx, buffer, rb); } SHA256_Final((unsigned char *)db, &sha256_ctx); back = 1; #else if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 156, 157, dk3_checksum_type_names[3]); } #endif } break; case DK3_MD_TYPE_SHA_384: { #if DK3_HAVE_OPENSSL_SHA_H && DK3_HAVE_SHA384 SHA384_Init(&sha512_ctx); while((rb = dk3sf_fread_app(buffer,1,sizeof(buffer),fipo,app)) > 0) { SHA384_Update(&sha512_ctx, buffer, rb); } SHA384_Final((unsigned char *)db, &sha512_ctx); back = 1; #else if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 156, 157, dk3_checksum_type_names[4]); } #endif } break; case DK3_MD_TYPE_SHA_512: { #if DK3_HAVE_OPENSSL_SHA_H && DK3_HAVE_SHA512 SHA512_Init(&sha512_ctx); while((rb = dk3sf_fread_app(buffer,1,sizeof(buffer),fipo,app)) > 0) { SHA512_Update(&sha512_ctx, buffer, rb); } SHA512_Final((unsigned char *)db, &sha512_ctx); back = 1; #else if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 156, 157, dk3_checksum_type_names[5]); } #endif } break; case DK3_MD_TYPE_RIPEMD_160 : { #if DK3_HAVE_OPENSSL_RIPEMD_H RIPEMD160_Init(&ripemd160_ctx); while((rb = dk3sf_fread_app(buffer,1,sizeof(buffer),fipo,app)) > 0) { RIPEMD160_Update(&ripemd160_ctx, buffer, rb); } RIPEMD160_Final((unsigned char *)db, &ripemd160_ctx); back = 1; #else if(app) { dk3app_log_i3(app, DK3_LL_ERROR, 156, 157, dk3_checksum_type_names[6]); } #endif } break; default: { if(app) { /* ERROR: Unknown message digest type. */ dk3app_log_i1(app, DK3_LL_ERROR, 158); } } break; } return back; } size_t dk3checksum_length(int cst, int cse) { size_t back; back = dk3chksum_conv_length(dk3chksum_min_length(cst), cse); return back; } int dk3checksum_build_app( char *db, size_t sz, dkChar const *fn, int cst, int cse, dk3_app_t *app ) { int back = 0; size_t minlgt = 0; /* Length of binary message digest. */ size_t convlgt = 0; /* Length of digest converted to text. */ size_t i = 0; /* Used to write zeroes. */ dk3_stat_t stb; /* Test for existance. */ char mybuffer[256]; /* ASCII text version of digest. */ FILE *fipo = NULL; /* Input file. */ if(db) { *db = '\0'; } if((db) && (sz) && (fn)) { if((cst > 0) && (cst <= DK3_MD_TYPE_MAX)) { if((cse >= 0) && (cse <= DK3_DATA_ENCODING_MAX)) { minlgt = dk3chksum_min_length(cst); convlgt = dk3chksum_conv_length(minlgt, cse); if(sz > convlgt) { for(i = 0; i < convlgt; i++) { db[i] = '-'; } db[convlgt] = '\0'; if(dk3sf_stat_app(&stb, fn, app)) { if(((stb.ft) & (~(DK3_FT_SYMLINK))) == DK3_FT_REGULAR) { fipo = dk3sf_fopen_app(fn, kw[0], app); if(fipo) { if(dk3checksum_binary(mybuffer,sizeof(mybuffer),fipo, cst,app)) { switch(cse) { case DK3_DATA_ENCODING_HEX: { back = dk3enc_bin_to_hex_app(db,sz,mybuffer,minlgt,app); } break; case DK3_DATA_ENCODING_ASCII85: { back = dk3enc_bin_to_a85_app(db,sz,mybuffer,minlgt,app); } break; case DK3_DATA_ENCODING_REVERSE_ASCII85: { back = dk3enc_bin_to_ra85_app(db,sz,mybuffer,minlgt,app); } break; default: { /* Illegal encoding type! */ dk3app_log_i1(app, DK3_LL_ERROR, 158); } break; } } fclose(fipo); } } else { if(app) { /* ERROR: Checksumming for regular files only .*/ dk3app_log_i1(app, DK3_LL_ERROR, 159); } } } } else { if(app) { /* ERROR: Destination buffer too small */ dk3app_log_i1(app, DK3_LL_ERROR, 38); } } } else { if(app) { /* ERROR: Illegal encoding number. */ dk3app_log_i1(app, DK3_LL_ERROR, 158); } } } else { if(app) { /* ERROR: Illegal digest type. */ dk3app_log_i1(app, DK3_LL_ERROR, 158); } } } return back; } dkChar const * dk3checksum_get_type_name(int tp) { dkChar const *back = NULL; if((tp > 0) && (tp <= DK3_MD_TYPE_MAX)) { back = dk3_checksum_type_names[tp - 1]; } return back; } /* vim: set ai sw=2 : */