/* * Mode of operation: * Each of the *.in files is XER-decoded, then converted into PER, * then decoded back from PER, then encoded into XER again, * and finally compared to the original encoding. */ #undef NDEBUG #include #include #include #include /* for chdir(2) */ #include #include #include #include #include #include #ifndef SRCDIR #define SRCDIR_S ".." #else #define STRINGIFY_MACRO2(x) #x #define STRINGIFY_MACRO(x) STRINGIFY_MACRO2(x) #define SRCDIR_S STRINGIFY_MACRO(SRCDIR) #endif enum expectation { EXP_OK, /* Encoding/decoding must succeed */ EXP_CXER_EXACT, /* Encoding/decoding using CXER must be exact */ EXP_CXER_DIFF, /* Encoding/decoding using CXER must be different */ EXP_BROKEN, /* Decoding must fail */ EXP_DIFFERENT, /* Reconstruction will yield different encoding */ EXP_PER_NOCOMP, /* Not PER compatible */ }; static unsigned char buf[4096]; static size_t buf_offset; static int _buf_writer(const void *buffer, size_t size, void *app_key) { unsigned char *b, *bend; (void)app_key; assert(buf_offset + size < sizeof(buf)); memcpy(buf + buf_offset, buffer, size); b = buf + buf_offset; bend = b + size; #ifdef EMIT_ASN_DEBUG fprintf(stderr, "=> ["); for(; b < bend; b++) { if(*b >= 32 && *b < 127 && *b != '%') fprintf(stderr, "%c", *b); else fprintf(stderr, "%%%02x", *b); } fprintf(stderr, "]:%zd\n", size); #endif buf_offset += size; return 0; } enum enctype { AS_PER, AS_DER, AS_XER, AS_CXER, }; static void save_object_as(PDU_t *st, enum expectation exp, enum enctype how) { asn_enc_rval_t rval; /* Return value */ buf_offset = 0; /* * Save object using specified method. */ switch(how) { case AS_PER: rval = uper_encode(&asn_DEF_PDU, st, _buf_writer, 0); if(exp == EXP_PER_NOCOMP) assert(rval.encoded == -1); else assert(rval.encoded > 0); fprintf(stderr, "SAVED OBJECT IN SIZE %zd\n", buf_offset); return; case AS_DER: rval = der_encode(&asn_DEF_PDU, st, _buf_writer, 0); break; case AS_XER: rval = xer_encode(&asn_DEF_PDU, st, XER_F_BASIC, _buf_writer, 0); break; case AS_CXER: rval = xer_encode(&asn_DEF_PDU, st, XER_F_CANONICAL, _buf_writer, 0); break; } if (rval.encoded == -1) { fprintf(stderr, "Cannot encode %s: %s\n", rval.failed_type->name, strerror(errno)); assert(rval.encoded != -1); return; } fprintf(stderr, "SAVED OBJECT IN SIZE %zd\n", buf_offset); } static PDU_t * load_object_from(const char *fname, enum expectation expectation, unsigned char *fbuf, size_t size, enum enctype how) { asn_dec_rval_t rval; PDU_t *st = 0; size_t csize = 1; if(getenv("INITIAL_CHUNK_SIZE")) csize = atoi(getenv("INITIAL_CHUNK_SIZE")); /* Perform multiple iterations with multiple chunks sizes */ for(; csize < 20; csize += 1) { int fbuf_offset = 0; int fbuf_left = size; int fbuf_chunk = csize; fprintf(stderr, "LOADING OBJECT OF SIZE %zd FROM [%s] as %s," " chunks %zd\n", size, fname, how==AS_PER?"PER":"XER", csize); if(st) asn_DEF_PDU.free_struct(&asn_DEF_PDU, st, 0); st = 0; do { ASN_DEBUG("Decoding bytes %d..%d (left %d)", fbuf_offset, fbuf_chunk < fbuf_left ? fbuf_chunk : fbuf_left, fbuf_left); #ifdef EMIT_ASN_DEBUG if(st) { fprintf(stderr, "=== currently ===\n"); asn_fprint(stderr, &asn_DEF_PDU, st); fprintf(stderr, "=== end ===\n"); } #endif switch(how) { case AS_XER: rval = xer_decode(0, &asn_DEF_PDU, (void **)&st, fbuf + fbuf_offset, fbuf_chunk < fbuf_left ? fbuf_chunk : fbuf_left); break; case AS_PER: rval = uper_decode(0, &asn_DEF_PDU, (void **)&st, fbuf + fbuf_offset, fbuf_chunk < fbuf_left ? fbuf_chunk : fbuf_left, 0, 0); if(rval.code == RC_WMORE) { rval.consumed = 0; /* Not restartable */ ASN_STRUCT_FREE(asn_DEF_PDU, st); st = 0; ASN_DEBUG("-> PER wants more"); } else { ASN_DEBUG("-> PER ret %d/%zd", rval.code, rval.consumed); /* uper_decode() returns _bits_ */ rval.consumed += 7; rval.consumed /= 8; } break; case AS_DER: case AS_CXER: assert(!"Unexpected DER or CXER load request"); } fbuf_offset += rval.consumed; fbuf_left -= rval.consumed; if(rval.code == RC_WMORE) fbuf_chunk += 1; /* Give little more */ else fbuf_chunk = csize; /* Back off */ } while(fbuf_left && rval.code == RC_WMORE); if(expectation != EXP_BROKEN) { assert(rval.code == RC_OK); if(how == AS_PER) { fprintf(stderr, "[left %d, off %d, size %zd]\n", fbuf_left, fbuf_offset, size); assert(fbuf_offset == (ssize_t)size); } else { assert(fbuf_offset - size < 2 || (fbuf_offset + 1 /* "\n" */ == (ssize_t)size && fbuf[size - 1] == '\n') || (fbuf_offset + 2 /* "\r\n" */ == (ssize_t)size && fbuf[size - 2] == '\r' && fbuf[size - 1] == '\n') ); } } else { assert(rval.code != RC_OK); fprintf(stderr, "Failed, but this was expected\n"); asn_DEF_PDU.free_struct(&asn_DEF_PDU, st, 0); st = 0; /* ignore leak for now */ } } if(st) asn_fprint(stderr, &asn_DEF_PDU, st); return st; } static int xer_encoding_equal(void *obufp, size_t osize, void *nbufp, size_t nsize) { char *obuf = obufp; char *nbuf = nbufp; char *oend = obuf + osize; char *nend = nbuf + nsize; if((osize && !nsize) || (!osize && nsize)) return 0; /* not equal apriori */ while(1) { while(obuf < oend && isspace(*obuf)) obuf++; while(nbuf < nend && isspace(*nbuf)) nbuf++; if(obuf == oend || nbuf == nend) { if(obuf == oend && nbuf == nend) break; fprintf(stderr, "%s data in reconstructed encoding\n", (obuf == oend) ? "More" : "Less"); return 0; } if(*obuf != *nbuf) { printf("%c%c != %c%c\n", obuf[0], obuf[1], nbuf[0], nbuf[1]); return 0; } obuf++, nbuf++; } return 1; } static void process_XER_data(const char *fname, enum expectation expectation, unsigned char *fbuf, ssize_t size) { PDU_t *st; st = load_object_from(fname, expectation, fbuf, size, AS_XER); if(!st) return; /* Save and re-load as PER */ save_object_as(st, expectation, AS_PER); if(expectation == EXP_PER_NOCOMP) return; /* Already checked */ st = load_object_from("buffer", expectation, buf, buf_offset, AS_PER); assert(st); save_object_as(st, expectation, (expectation == EXP_CXER_EXACT || expectation == EXP_CXER_DIFF) ? AS_CXER : AS_XER); fprintf(stderr, "=== original ===\n"); fwrite(fbuf, 1, size, stderr); fprintf(stderr, "=== re-encoded ===\n"); fwrite(buf, 1, buf_offset, stderr); fprintf(stderr, "=== end ===\n"); switch(expectation) { case EXP_DIFFERENT: assert(!xer_encoding_equal(fbuf, size, buf, buf_offset)); break; case EXP_BROKEN: assert(!xer_encoding_equal(fbuf, size, buf, buf_offset)); break; case EXP_CXER_EXACT: buf[buf_offset++] = '\n'; assert((ssize_t)size == (ssize_t)buf_offset); assert(memcmp(fbuf, buf, size) == 0); break; case EXP_CXER_DIFF: buf[buf_offset++] = '\n'; assert((ssize_t)size != (ssize_t)buf_offset || memcmp(fbuf, buf, size)); break; case EXP_OK: case EXP_PER_NOCOMP: assert(xer_encoding_equal(fbuf, size, buf, buf_offset)); break; } asn_DEF_PDU.free_struct(&asn_DEF_PDU, st, 0); } /* * Decode the .der files and try to regenerate them. */ static int process(const char *fname) { unsigned char fbuf[4096]; char *ext = strrchr(fname, '.'); enum expectation expectation; int rd; FILE *fp; if(ext == 0 || strcmp(ext, ".in")) return 0; switch(ext[-1]) { case 'B': /* The file is intentionally broken */ expectation = EXP_BROKEN; break; case 'D': /* Reconstructing should yield different data */ expectation = EXP_DIFFERENT; break; case 'E': /* Byte to byte exact reconstruction */ expectation = EXP_CXER_EXACT; break; case 'X': /* Should fail byte-to-byte comparison */ expectation = EXP_CXER_DIFF; break; case 'P': /* Incompatible with PER */ expectation = EXP_PER_NOCOMP; break; default: expectation = EXP_OK; break; } fprintf(stderr, "\nProcessing file [../%s]\n", fname); snprintf((char *)fbuf, sizeof(fbuf), SRCDIR_S "/data-119/%s", fname); fp = fopen((char *)fbuf, "r"); assert(fp); rd = fread(fbuf, 1, sizeof(fbuf), fp); fclose(fp); assert(rd < (ssize_t)sizeof(fbuf)); /* expect small files */ process_XER_data(fname, expectation, fbuf, rd); fprintf(stderr, "Finished [%s]\n", fname); return 1; } int main() { DIR *dir; struct dirent *dent; int processed_files = 0; char *str; /* Process a specific test file */ str = getenv("DATA_119_FILE"); if(str && strncmp(str, "data-119-", 9) == 0) { process(str); return 0; } dir = opendir(SRCDIR_S "/data-119"); assert(dir); /* * Process each file in that directory. */ while((dent = readdir(dir))) { if(strncmp(dent->d_name, "data-119-", 9) == 0) if(process(dent->d_name)) processed_files++; } assert(processed_files); closedir(dir); return 0; }