/* * Copyright 2009-2010 10gen, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * This file contains C implementations of some of the functions needed by the * bson module. If possible, these implementations should be used to speed up * BSON encoding and decoding. */ #include "ruby.h" /* Ensure compatibility with early releases of Ruby 1.8.5 */ #ifndef RSTRING_PTR # define RSTRING_PTR(v) RSTRING(v)->ptr #endif #ifndef RSTRING_LEN # define RSTRING_LEN(v) RSTRING(v)->len #endif #ifndef RARRAY_PTR # define RARRAY_PTR(v) RARRAY(v)->ptr #endif #ifndef RARRAY_LEN # define RARRAY_LEN(v) RARRAY(v)->len #endif #if HAVE_RUBY_ST_H #include "ruby/st.h" #endif #if HAVE_ST_H #include "st.h" #endif #if HAVE_RUBY_REGEX_H #include "ruby/regex.h" #endif #if HAVE_REGEX_H #include "regex.h" #endif #include #include #include #include #include "version.h" #include "buffer.h" #include "encoding_helpers.h" #define SAFE_WRITE(buffer, data, size) \ if (buffer_write((buffer), (data), (size)) != 0) \ rb_raise(rb_eNoMemError, "failed to allocate memory in buffer.c") #define SAFE_WRITE_AT_POS(buffer, position, data, size) \ if (buffer_write_at_position((buffer), (position), (data), (size)) != 0) \ rb_raise(rb_eRuntimeError, "invalid write at position in buffer.c") #define MAX_HOSTNAME_LENGTH 256 static ID element_assignment_method; static ID unpack_method; static ID utc_method; static ID lt_operator; static ID gt_operator; static VALUE Binary; static VALUE ObjectID; static VALUE ObjectId; static VALUE DBRef; static VALUE Code; static VALUE MinKey; static VALUE MaxKey; static VALUE Regexp; static VALUE OrderedHash; static VALUE InvalidKeyName; static VALUE InvalidStringEncoding; static VALUE InvalidDocument; static VALUE DigestMD5; static VALUE RB_HASH; #if HAVE_RUBY_ENCODING_H #include "ruby/encoding.h" #define STR_NEW(p,n) \ ({ \ VALUE _str = rb_enc_str_new((p), (n), rb_utf8_encoding()); \ rb_encoding* internal_encoding = rb_default_internal_encoding(); \ if (internal_encoding) { \ _str = rb_str_export_to_enc(_str, internal_encoding); \ } \ _str; \ }) /* MUST call TO_UTF8 before calling write_utf8. */ #define TO_UTF8(string) rb_str_export_to_enc((string), rb_utf8_encoding()) static void write_utf8(buffer_t buffer, VALUE string, char check_null) { result_t status = check_string(RSTRING_PTR(string), RSTRING_LEN(string), 0, check_null); if (status == HAS_NULL) { buffer_free(buffer); rb_raise(InvalidDocument, "Key names / regex patterns must not contain the NULL byte"); } SAFE_WRITE(buffer, RSTRING_PTR(string), RSTRING_LEN(string)); } #else #define STR_NEW(p,n) rb_str_new((p), (n)) /* MUST call TO_UTF8 before calling write_utf8. */ #define TO_UTF8(string) (string) static void write_utf8(buffer_t buffer, VALUE string, char check_null) { result_t status = check_string(RSTRING_PTR(string), RSTRING_LEN(string), 1, check_null); if (status == HAS_NULL) { buffer_free(buffer); rb_raise(InvalidDocument, "Key names / regex patterns must not contain the NULL byte"); } else if (status == NOT_UTF_8) { buffer_free(buffer); rb_raise(InvalidStringEncoding, "String not valid UTF-8"); } SAFE_WRITE(buffer, RSTRING_PTR(string), RSTRING_LEN(string)); } #endif // this sucks. but for some reason these moved around between 1.8 and 1.9 #ifdef ONIGURUMA_H #define IGNORECASE ONIG_OPTION_IGNORECASE #define MULTILINE ONIG_OPTION_MULTILINE #define EXTENDED ONIG_OPTION_EXTEND #else #define IGNORECASE RE_OPTION_IGNORECASE #define MULTILINE RE_OPTION_MULTILINE #define EXTENDED RE_OPTION_EXTENDED #endif /* TODO we ought to check that the malloc or asprintf was successful * and raise an exception if not. */ /* TODO maybe we can use something more portable like vsnprintf instead * of this hack. And share it with the Python extension ;) */ /* If we don't have ASPRINTF, there are two possibilities: * either use _scprintf and _snprintf on for Windows or * use snprintf for solaris. */ #ifndef HAVE_ASPRINTF #ifdef _MSC_VER #define INT2STRING(buffer, i) \ { \ int vslength = _scprintf("%d", i) + 1; \ *buffer = malloc(vslength); \ _snprintf(*buffer, vslength, "%d", i); \ } #else #define INT2STRING(buffer, i) \ { \ int vslength = snprintf(NULL, 0, "%d", i) + 1; \ *buffer = malloc(vslength); \ snprintf(*buffer, vslength, "%d", i); \ } #endif #else #define INT2STRING(buffer, i) asprintf(buffer, "%d", i); #endif #ifndef RREGEXP_SRC #define RREGEXP_SRC(r) rb_str_new(RREGEXP((r))->str, RREGEXP((r))->len) #endif // rubinius compatibility #ifndef RREGEXP_OPTIONS #define RREGEXP_OPTIONS(r) RREGEXP(value)->ptr->options #endif static char zero = 0; static char one = 1; static char hostname_digest[17]; static unsigned int object_id_inc = 0; static int cmp_char(const void* a, const void* b) { return *(char*)a - *(char*)b; } static void write_doc(buffer_t buffer, VALUE hash, VALUE check_keys, VALUE move_id); static int write_element_with_id(VALUE key, VALUE value, VALUE extra); static int write_element_without_id(VALUE key, VALUE value, VALUE extra); static VALUE elements_to_hash(const char* buffer, int max); static VALUE pack_extra(buffer_t buffer, VALUE check_keys) { return rb_ary_new3(2, LL2NUM((long long)buffer), check_keys); } static void write_name_and_type(buffer_t buffer, VALUE name, char type) { SAFE_WRITE(buffer, &type, 1); name = TO_UTF8(name); write_utf8(buffer, name, 1); SAFE_WRITE(buffer, &zero, 1); } static int write_element(VALUE key, VALUE value, VALUE extra, int allow_id) { buffer_t buffer = (buffer_t)NUM2LL(rb_ary_entry(extra, 0)); VALUE check_keys = rb_ary_entry(extra, 1); if (TYPE(key) == T_SYMBOL) { // TODO better way to do this... ? key = rb_str_new2(rb_id2name(SYM2ID(key))); } if (TYPE(key) != T_STRING) { buffer_free(buffer); rb_raise(rb_eTypeError, "keys must be strings or symbols"); } if (allow_id == 0 && strcmp("_id", RSTRING_PTR(key)) == 0) { return ST_CONTINUE; } if (check_keys == Qtrue) { int i; if (RSTRING_LEN(key) > 0 && RSTRING_PTR(key)[0] == '$') { buffer_free(buffer); rb_raise(InvalidKeyName, "key must not start with '$'"); } for (i = 0; i < RSTRING_LEN(key); i++) { if (RSTRING_PTR(key)[i] == '.') { buffer_free(buffer); rb_raise(InvalidKeyName, "key must not contain '.'"); } } } switch(TYPE(value)) { case T_BIGNUM: { if (rb_funcall(value, gt_operator, 1, LL2NUM(9223372036854775807LL)) == Qtrue || rb_funcall(value, lt_operator, 1, LL2NUM(-9223372036854775808ULL)) == Qtrue) { buffer_free(buffer); rb_raise(rb_eRangeError, "MongoDB can only handle 8-byte ints"); } } // NOTE: falls through to T_FIXNUM code case T_FIXNUM: { long long ll_value; ll_value = NUM2LL(value); if (ll_value > 2147483647L || ll_value < -2147483648L) { write_name_and_type(buffer, key, 0x12); SAFE_WRITE(buffer, (char*)&ll_value, 8); } else { int int_value; write_name_and_type(buffer, key, 0x10); int_value = ll_value; SAFE_WRITE(buffer, (char*)&int_value, 4); } break; } case T_TRUE: { write_name_and_type(buffer, key, 0x08); SAFE_WRITE(buffer, &one, 1); break; } case T_FALSE: { write_name_and_type(buffer, key, 0x08); SAFE_WRITE(buffer, &zero, 1); break; } case T_FLOAT: { double d = NUM2DBL(value); write_name_and_type(buffer, key, 0x01); SAFE_WRITE(buffer, (char*)&d, 8); break; } case T_NIL: { write_name_and_type(buffer, key, 0x0A); break; } case T_HASH: { write_name_and_type(buffer, key, 0x03); write_doc(buffer, value, check_keys, Qfalse); break; } case T_ARRAY: { buffer_position length_location, start_position, obj_length; int items, i; VALUE* values; write_name_and_type(buffer, key, 0x04); start_position = buffer_get_position(buffer); // save space for length length_location = buffer_save_space(buffer, 4); if (length_location == -1) { rb_raise(rb_eNoMemError, "failed to allocate memory in buffer.c"); } items = RARRAY_LEN(value); values = RARRAY_PTR(value); for(i = 0; i < items; i++) { char* name; VALUE key; INT2STRING(&name, i); key = rb_str_new2(name); write_element_with_id(key, values[i], pack_extra(buffer, check_keys)); free(name); } // write null byte and fill in length SAFE_WRITE(buffer, &zero, 1); obj_length = buffer_get_position(buffer) - start_position; SAFE_WRITE_AT_POS(buffer, length_location, (const char*)&obj_length, 4); break; } case T_STRING: { if (strcmp(rb_obj_classname(value), "BSON::Code") == 0) { buffer_position length_location, start_position, total_length; int length; write_name_and_type(buffer, key, 0x0F); start_position = buffer_get_position(buffer); length_location = buffer_save_space(buffer, 4); if (length_location == -1) { rb_raise(rb_eNoMemError, "failed to allocate memory in buffer.c"); } length = RSTRING_LEN(value) + 1; SAFE_WRITE(buffer, (char*)&length, 4); SAFE_WRITE(buffer, RSTRING_PTR(value), length - 1); SAFE_WRITE(buffer, &zero, 1); write_doc(buffer, rb_funcall(value, rb_intern("scope"), 0), Qfalse, Qfalse); total_length = buffer_get_position(buffer) - start_position; SAFE_WRITE_AT_POS(buffer, length_location, (const char*)&total_length, 4); break; } else { int length; write_name_and_type(buffer, key, 0x02); value = TO_UTF8(value); length = RSTRING_LEN(value) + 1; SAFE_WRITE(buffer, (char*)&length, 4); write_utf8(buffer, value, 0); SAFE_WRITE(buffer, &zero, 1); break; } } case T_SYMBOL: { const char* str_value = rb_id2name(SYM2ID(value)); int length = strlen(str_value) + 1; write_name_and_type(buffer, key, 0x0E); SAFE_WRITE(buffer, (char*)&length, 4); SAFE_WRITE(buffer, str_value, length); break; } case T_OBJECT: { // TODO there has to be a better way to do these checks... const char* cls = rb_obj_classname(value); if (strcmp(cls, "BSON::Binary") == 0 || strcmp(cls, "ByteBuffer") == 0) { const char subtype = strcmp(cls, "ByteBuffer") ? (const char)FIX2INT(rb_funcall(value, rb_intern("subtype"), 0)) : 2; VALUE string_data = rb_funcall(value, rb_intern("to_s"), 0); int length = RSTRING_LEN(string_data); write_name_and_type(buffer, key, 0x05); if (subtype == 2) { const int other_length = length + 4; SAFE_WRITE(buffer, (const char*)&other_length, 4); SAFE_WRITE(buffer, &subtype, 1); } SAFE_WRITE(buffer, (const char*)&length, 4); if (subtype != 2) { SAFE_WRITE(buffer, &subtype, 1); } SAFE_WRITE(buffer, RSTRING_PTR(string_data), length); break; } if ((strcmp(cls, "BSON::ObjectId") == 0) || (strcmp(cls, "BSON::ObjectID") == 0)) { VALUE as_array = rb_funcall(value, rb_intern("to_a"), 0); int i; write_name_and_type(buffer, key, 0x07); for (i = 0; i < 12; i++) { char byte = (char)FIX2INT(RARRAY_PTR(as_array)[i]); SAFE_WRITE(buffer, &byte, 1); } break; } if (strcmp(cls, "BSON::DBRef") == 0) { buffer_position length_location, start_position, obj_length; VALUE ns, oid; write_name_and_type(buffer, key, 0x03); start_position = buffer_get_position(buffer); // save space for length length_location = buffer_save_space(buffer, 4); if (length_location == -1) { rb_raise(rb_eNoMemError, "failed to allocate memory in buffer.c"); } ns = rb_funcall(value, rb_intern("namespace"), 0); write_element_with_id(rb_str_new2("$ref"), ns, pack_extra(buffer, Qfalse)); oid = rb_funcall(value, rb_intern("object_id"), 0); write_element_with_id(rb_str_new2("$id"), oid, pack_extra(buffer, Qfalse)); // write null byte and fill in length SAFE_WRITE(buffer, &zero, 1); obj_length = buffer_get_position(buffer) - start_position; SAFE_WRITE_AT_POS(buffer, length_location, (const char*)&obj_length, 4); break; } if (strcmp(cls, "BSON::MaxKey") == 0) { write_name_and_type(buffer, key, 0x7f); break; } if (strcmp(cls, "BSON::MinKey") == 0) { write_name_and_type(buffer, key, 0xff); break; } if (strcmp(cls, "DateTime") == 0 || strcmp(cls, "Date") == 0 || strcmp(cls, "ActiveSupport::TimeWithZone") == 0) { buffer_free(buffer); rb_raise(InvalidDocument, "%s is not currently supported; use a UTC Time instance instead.", cls); break; } if(strcmp(cls, "Complex") == 0 || strcmp(cls, "Rational") == 0 || strcmp(cls, "BigDecimal") == 0) { buffer_free(buffer); rb_raise(InvalidDocument, "Cannot serialize the Numeric type %s as BSON; only Bignum, Fixnum, and Float are supported.", cls); break; } buffer_free(buffer); rb_raise(InvalidDocument, "Cannot serialize an object of class %s into BSON.", cls); break; } case T_DATA: { const char* cls = rb_obj_classname(value); if (strcmp(cls, "Time") == 0) { double t = NUM2DBL(rb_funcall(value, rb_intern("to_f"), 0)); long long time_since_epoch = (long long)round(t * 1000); write_name_and_type(buffer, key, 0x09); SAFE_WRITE(buffer, (const char*)&time_since_epoch, 8); break; } if(strcmp(cls, "BigDecimal") == 0) { buffer_free(buffer); rb_raise(InvalidDocument, "Cannot serialize the Numeric type %s as BSON; only Bignum, Fixnum, and Float are supported.", cls); break; } buffer_free(buffer); rb_raise(InvalidDocument, "Cannot serialize an object of class %s into BSON.", cls); break; } case T_REGEXP: { VALUE pattern = RREGEXP_SRC(value); long flags = RREGEXP_OPTIONS(value); VALUE has_extra; write_name_and_type(buffer, key, 0x0B); pattern = TO_UTF8(pattern); write_utf8(buffer, pattern, 1); SAFE_WRITE(buffer, &zero, 1); if (flags & IGNORECASE) { char ignorecase = 'i'; SAFE_WRITE(buffer, &ignorecase, 1); } if (flags & MULTILINE) { char multiline = 'm'; SAFE_WRITE(buffer, &multiline, 1); } if (flags & EXTENDED) { char extended = 'x'; SAFE_WRITE(buffer, &extended, 1); } has_extra = rb_funcall(value, rb_intern("respond_to?"), 1, rb_str_new2("extra_options_str")); if (TYPE(has_extra) == T_TRUE) { VALUE extra = rb_funcall(value, rb_intern("extra_options_str"), 0); buffer_position old_position = buffer_get_position(buffer); SAFE_WRITE(buffer, RSTRING_PTR(extra), RSTRING_LEN(extra)); qsort(buffer_get_buffer(buffer) + old_position, RSTRING_LEN(extra), sizeof(char), cmp_char); } SAFE_WRITE(buffer, &zero, 1); break; } default: { const char* cls = rb_obj_classname(value); buffer_free(buffer); rb_raise(InvalidDocument, "Cannot serialize an object of class %s (type %d) into BSON.", cls, TYPE(value)); break; } } return ST_CONTINUE; } static int write_element_without_id(VALUE key, VALUE value, VALUE extra) { return write_element(key, value, extra, 0); } static int write_element_with_id(VALUE key, VALUE value, VALUE extra) { return write_element(key, value, extra, 1); } static void write_doc(buffer_t buffer, VALUE hash, VALUE check_keys, VALUE move_id) { buffer_position start_position = buffer_get_position(buffer); buffer_position length_location = buffer_save_space(buffer, 4); buffer_position length; int allow_id; int (*write_function)(VALUE, VALUE, VALUE) = NULL; VALUE id_str = rb_str_new2("_id"); VALUE id_sym = ID2SYM(rb_intern("_id")); if (length_location == -1) { rb_raise(rb_eNoMemError, "failed to allocate memory in buffer.c"); } // write '_id' first if move_id is true. then don't allow an id to be written. if(move_id == Qtrue) { allow_id = 0; if (rb_funcall(hash, rb_intern("has_key?"), 1, id_str) == Qtrue) { VALUE id = rb_hash_aref(hash, id_str); write_element_with_id(id_str, id, pack_extra(buffer, check_keys)); } else if (rb_funcall(hash, rb_intern("has_key?"), 1, id_sym) == Qtrue) { VALUE id = rb_hash_aref(hash, id_sym); write_element_with_id(id_sym, id, pack_extra(buffer, check_keys)); } } else { allow_id = 1; // Ensure that hash doesn't contain both '_id' and :_id if ((rb_obj_classname(hash), "Hash") == 0) { if ((rb_funcall(hash, rb_intern("has_key?"), 1, id_str) == Qtrue) && (rb_funcall(hash, rb_intern("has_key?"), 1, id_sym) == Qtrue)) { VALUE oid_sym = rb_hash_delete(hash, id_sym); rb_funcall(hash, rb_intern("[]="), 2, id_str, oid_sym); } } } if(allow_id == 1) { write_function = write_element_with_id; } else { write_function = write_element_without_id; } // we have to check for an OrderedHash and handle that specially if (strcmp(rb_obj_classname(hash), "BSON::OrderedHash") == 0) { VALUE keys = rb_funcall(hash, rb_intern("keys"), 0); int i; for(i = 0; i < RARRAY_LEN(keys); i++) { VALUE key = RARRAY_PTR(keys)[i]; VALUE value = rb_hash_aref(hash, key); write_function(key, value, pack_extra(buffer, check_keys)); } } else if (rb_obj_is_kind_of(hash, RB_HASH) == Qtrue) { rb_hash_foreach(hash, write_function, pack_extra(buffer, check_keys)); } else { buffer_free(buffer); char* cls = rb_obj_classname(hash); rb_raise(InvalidDocument, "BSON.serialize takes a Hash but got a %s", cls); } // write null byte and fill in length SAFE_WRITE(buffer, &zero, 1); length = buffer_get_position(buffer) - start_position; // make sure that length doesn't exceed 4MB if (length > 4 * 1024 * 1024) { buffer_free(buffer); rb_raise(InvalidDocument, "Document too large: BSON documents are limited to 4MB."); return; } SAFE_WRITE_AT_POS(buffer, length_location, (const char*)&length, 4); } static VALUE method_serialize(VALUE self, VALUE doc, VALUE check_keys, VALUE move_id) { VALUE result; buffer_t buffer = buffer_new(); if (buffer == NULL) { rb_raise(rb_eNoMemError, "failed to allocate memory in buffer.c"); } write_doc(buffer, doc, check_keys, move_id); result = rb_str_new(buffer_get_buffer(buffer), buffer_get_position(buffer)); if (buffer_free(buffer) != 0) { rb_raise(rb_eRuntimeError, "failed to free buffer"); } return result; } static VALUE get_value(const char* buffer, int* position, int type) { VALUE value; switch (type) { case -1: { value = rb_class_new_instance(0, NULL, MinKey); break; } case 1: { double d; memcpy(&d, buffer + *position, 8); value = rb_float_new(d); *position += 8; break; } case 2: case 13: { int value_length; value_length = *(int*)(buffer + *position) - 1; *position += 4; value = STR_NEW(buffer + *position, value_length); *position += value_length + 1; break; } case 3: { int size; memcpy(&size, buffer + *position, 4); if (strcmp(buffer + *position + 5, "$ref") == 0) { // DBRef int offset = *position + 10; VALUE argv[2]; int collection_length = *(int*)(buffer + offset) - 1; char id_type; offset += 4; argv[0] = STR_NEW(buffer + offset, collection_length); offset += collection_length + 1; id_type = buffer[offset]; offset += 5; argv[1] = get_value(buffer, &offset, (int)id_type); value = rb_class_new_instance(2, argv, DBRef); } else { value = elements_to_hash(buffer + *position + 4, size - 5); } *position += size; break; } case 4: { int size, end; memcpy(&size, buffer + *position, 4); end = *position + size - 1; *position += 4; value = rb_ary_new(); while (*position < end) { int type = (int)buffer[(*position)++]; int key_size = strlen(buffer + *position); VALUE to_append; *position += key_size + 1; // just skip the key, they're in order. to_append = get_value(buffer, position, type); rb_ary_push(value, to_append); } (*position)++; break; } case 5: { int length, subtype; VALUE data, st; VALUE argv[2]; memcpy(&length, buffer + *position, 4); subtype = (unsigned char)buffer[*position + 4]; if (subtype == 2) { data = rb_str_new(buffer + *position + 9, length - 4); } else { data = rb_str_new(buffer + *position + 5, length); } st = INT2FIX(subtype); argv[0] = data; argv[1] = st; value = rb_class_new_instance(2, argv, Binary); *position += length + 5; break; } case 6: { value = Qnil; break; } case 7: { VALUE str = rb_str_new(buffer + *position, 12); VALUE oid = rb_funcall(str, unpack_method, 1, rb_str_new2("C*")); value = rb_class_new_instance(1, &oid, ObjectId); *position += 12; break; } case 8: { value = buffer[(*position)++] ? Qtrue : Qfalse; break; } case 9: { long long millis; memcpy(&millis, buffer + *position, 8); value = rb_time_new(millis / 1000, (millis % 1000) * 1000); value = rb_funcall(value, utc_method, 0); *position += 8; break; } case 10: { value = Qnil; break; } case 11: { int pattern_length = strlen(buffer + *position); VALUE pattern = STR_NEW(buffer + *position, pattern_length); int flags_length, flags = 0, i = 0; VALUE argv[3]; *position += pattern_length + 1; flags_length = strlen(buffer + *position); for (i = 0; i < flags_length; i++) { char flag = buffer[*position + i]; if (flag == 'i') { flags |= IGNORECASE; } else if (flag == 'm') { flags |= MULTILINE; } else if (flag == 'x') { flags |= EXTENDED; } } argv[0] = pattern; argv[1] = INT2FIX(flags); value = rb_class_new_instance(2, argv, Regexp); *position += flags_length + 1; break; } case 12: { int collection_length; VALUE collection, str, oid, id, argv[2]; collection_length = *(int*)(buffer + *position) - 1; *position += 4; collection = STR_NEW(buffer + *position, collection_length); *position += collection_length + 1; str = rb_str_new(buffer + *position, 12); oid = rb_funcall(str, unpack_method, 1, rb_str_new2("C*")); id = rb_class_new_instance(1, &oid, ObjectId); *position += 12; argv[0] = collection; argv[1] = id; value = rb_class_new_instance(2, argv, DBRef); break; } case 14: { int value_length; memcpy(&value_length, buffer + *position, 4); value = ID2SYM(rb_intern(buffer + *position + 4)); *position += value_length + 4; break; } case 15: { int code_length, scope_size; VALUE code, scope, argv[2]; *position += 4; code_length = *(int*)(buffer + *position) - 1; *position += 4; code = STR_NEW(buffer + *position, code_length); *position += code_length + 1; memcpy(&scope_size, buffer + *position, 4); scope = elements_to_hash(buffer + *position + 4, scope_size - 5); *position += scope_size; argv[0] = code; argv[1] = scope; value = rb_class_new_instance(2, argv, Code); break; } case 16: { int i; memcpy(&i, buffer + *position, 4); value = LL2NUM(i); *position += 4; break; } case 17: { int i; int j; memcpy(&i, buffer + *position, 4); memcpy(&j, buffer + *position + 4, 4); value = rb_ary_new3(2, LL2NUM(i), LL2NUM(j)); *position += 8; break; } case 18: { long long ll; memcpy(&ll, buffer + *position, 8); value = LL2NUM(ll); *position += 8; break; } case 127: { value = rb_class_new_instance(0, NULL, MaxKey); break; } default: { rb_raise(rb_eTypeError, "no c decoder for this type yet (%d)", type); break; } } return value; } static VALUE elements_to_hash(const char* buffer, int max) { VALUE hash = rb_class_new_instance(0, NULL, OrderedHash); int position = 0; while (position < max) { int type = (int)buffer[position++]; int name_length = strlen(buffer + position); VALUE name = STR_NEW(buffer + position, name_length); VALUE value; position += name_length + 1; value = get_value(buffer, &position, type); rb_funcall(hash, element_assignment_method, 2, name, value); } return hash; } static VALUE method_deserialize(VALUE self, VALUE bson) { const char* buffer = RSTRING_PTR(bson); int remaining = RSTRING_LEN(bson); // NOTE we just swallow the size and end byte here buffer += 4; remaining -= 5; return elements_to_hash(buffer, remaining); } static VALUE fast_pack(VALUE self) { VALUE res; long i; char c; res = rb_str_buf_new(0); for (i = 0; i < RARRAY_LEN(self); i++) { c = FIX2LONG(RARRAY_PTR(self)[i]); rb_str_buf_cat(res, &c, sizeof(char)); } return res; } static VALUE objectid_generate(VALUE self) { VALUE oid; unsigned char oid_bytes[12]; unsigned long t, inc; unsigned short pid; int i; t = htonl(time(NULL)); MEMCPY(&oid_bytes, &t, unsigned char, 4); MEMCPY(&oid_bytes[4], hostname_digest, unsigned char, 3); pid = htons(getpid()); MEMCPY(&oid_bytes[7], &pid, unsigned char, 2); /* No need to synchronize modification of this counter between threads; * MRI global interpreter lock guarantees serializaility. * * Compiler should optimize out impossible branch. */ if (sizeof(unsigned int) == 4) { object_id_inc++; } else { object_id_inc = (object_id_inc + 1) % 0xFFFFFF; } inc = htonl(object_id_inc); MEMCPY(&oid_bytes[9], ((unsigned char*)&inc + 1), unsigned char, 3); oid = rb_ary_new2(12); for(i = 0; i < 12; i++) { rb_ary_store(oid, i, INT2FIX((unsigned int)oid_bytes[i])); } return oid; } void Init_cbson() { VALUE bson, CBson, Digest, ext_version, digest; static char hostname[MAX_HOSTNAME_LENGTH]; element_assignment_method = rb_intern("[]="); unpack_method = rb_intern("unpack"); utc_method = rb_intern("utc"); lt_operator = rb_intern("<"); gt_operator = rb_intern(">"); bson = rb_const_get(rb_cObject, rb_intern("BSON")); rb_require("bson/types/binary"); Binary = rb_const_get(bson, rb_intern("Binary")); rb_require("bson/types/objectid"); ObjectID = rb_const_get(bson, rb_intern("ObjectID")); rb_require("bson/types/object_id"); ObjectId = rb_const_get(bson, rb_intern("ObjectId")); rb_require("bson/types/dbref"); DBRef = rb_const_get(bson, rb_intern("DBRef")); rb_require("bson/types/code"); Code = rb_const_get(bson, rb_intern("Code")); rb_require("bson/types/min_max_keys"); MinKey = rb_const_get(bson, rb_intern("MinKey")); MaxKey = rb_const_get(bson, rb_intern("MaxKey")); Regexp = rb_const_get(rb_cObject, rb_intern("Regexp")); rb_require("bson/exceptions"); InvalidKeyName = rb_const_get(bson, rb_intern("InvalidKeyName")); InvalidStringEncoding = rb_const_get(bson, rb_intern("InvalidStringEncoding")); InvalidDocument = rb_const_get(bson, rb_intern("InvalidDocument")); rb_require("bson/ordered_hash"); OrderedHash = rb_const_get(bson, rb_intern("OrderedHash")); RB_HASH = rb_const_get(bson, rb_intern("Hash")); CBson = rb_define_module("CBson"); ext_version = rb_str_new2(VERSION); rb_define_const(CBson, "VERSION", ext_version); rb_define_module_function(CBson, "serialize", method_serialize, 3); rb_define_module_function(CBson, "deserialize", method_deserialize, 1); rb_require("digest/md5"); Digest = rb_const_get(rb_cObject, rb_intern("Digest")); DigestMD5 = rb_const_get(Digest, rb_intern("MD5")); rb_define_method(ObjectID, "generate", objectid_generate, 0); rb_define_method(ObjectId, "generate", objectid_generate, 0); rb_define_method(rb_cArray, "fast_pack", fast_pack, 0); if (gethostname(hostname, MAX_HOSTNAME_LENGTH) != 0) { rb_raise(rb_eRuntimeError, "failed to get hostname"); } digest = rb_funcall(DigestMD5, rb_intern("digest"), 1, rb_str_new2(hostname)); memcpy(hostname_digest, RSTRING_PTR(digest), 16); hostname_digest[16] = '\0'; }