/** * FreeRDP: A Remote Desktop Protocol Client * ASN.1 Packed Encoding Rules (BER) * * Copyright 2011 Marc-Andre Moreau * * 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. */ #include "per.h" /** * Read PER length. * @param s stream * @param length length * @return */ boolean per_read_length(STREAM* s, uint16* length) { uint8 byte; stream_read_uint8(s, byte); if (byte & 0x80) { byte &= ~(0x80); *length = (byte << 8); stream_read_uint8(s, byte); *length += byte; } else { *length = byte; } return True; } /** * Write PER length. * @param s stream * @param length length */ void per_write_length(STREAM* s, int length) { if (length > 0x7F) stream_write_uint16_be(s, (length | 0x8000)); else stream_write_uint8(s, length); } /** * Read PER choice. * @param s stream * @param choice choice * @return */ boolean per_read_choice(STREAM* s, uint8* choice) { stream_read_uint8(s, *choice); return True; } /** * Write PER CHOICE. * @param s stream * @param choice index of chosen field */ void per_write_choice(STREAM* s, uint8 choice) { stream_write_uint8(s, choice); } /** * Read PER selection. * @param s stream * @param selection selection * @return */ boolean per_read_selection(STREAM* s, uint8* selection) { stream_read_uint8(s, *selection); return True; } /** * Write PER selection for OPTIONAL fields. * @param s stream * @param selection bit map of selected fields */ void per_write_selection(STREAM* s, uint8 selection) { stream_write_uint8(s, selection); } /** * Read PER number of sets. * @param s stream * @param number number of sets * @return */ boolean per_read_number_of_sets(STREAM* s, uint8* number) { stream_read_uint8(s, *number); return True; } /** * Write PER number of sets for SET OF. * @param s stream * @param number number of sets */ void per_write_number_of_sets(STREAM* s, uint8 number) { stream_write_uint8(s, number); } /** * Read PER padding with zeros. * @param s stream * @param length */ boolean per_read_padding(STREAM* s, int length) { stream_seek(s, length); return True; } /** * Write PER padding with zeros. * @param s stream * @param length */ void per_write_padding(STREAM* s, int length) { int i; for (i = 0; i < length; i++) stream_write_uint8(s, 0); } /** * Read PER INTEGER. * @param s stream * @param integer integer * @return */ boolean per_read_integer(STREAM* s, uint32* integer) { uint16 length; per_read_length(s, &length); if (length == 1) stream_read_uint8(s, *integer); else if (length == 2) stream_read_uint16_be(s, *integer); else return False; return True; } /** * Write PER INTEGER. * @param s stream * @param integer integer */ void per_write_integer(STREAM* s, uint32 integer) { if (integer <= 0xFF) { per_write_length(s, 1); stream_write_uint8(s, integer); } else if (integer <= 0xFFFF) { per_write_length(s, 2); stream_write_uint16_be(s, integer); } else if (integer <= 0xFFFFFFFF) { per_write_length(s, 4); stream_write_uint32_be(s, integer); } } /** * Read PER INTEGER (uint16). * @param s stream * @param integer integer * @param min minimum value * @return */ boolean per_read_integer16(STREAM* s, uint16* integer, uint16 min) { stream_read_uint16_be(s, *integer); if (*integer + min > 0xFFFF) return False; *integer += min; return True; } /** * Write PER INTEGER (uint16). * @param s stream * @param integer integer * @param min minimum value */ void per_write_integer16(STREAM* s, uint16 integer, uint16 min) { stream_write_uint16_be(s, integer - min); } /** * Read PER ENUMERATED. * @param s stream * @param enumerated enumerated * @param count enumeration count * @return */ boolean per_read_enumerated(STREAM* s, uint8* enumerated, uint8 count) { stream_read_uint8(s, *enumerated); /* check that enumerated value falls within expected range */ if (*enumerated + 1 > count) return False; return True; } /** * Read PER OBJECT_IDENTIFIER (OID). * @param s stream * @param oid object identifier (OID) * @return */ boolean per_read_object_identifier(STREAM* s, uint8 oid[6]) { uint8 t12; uint16 length; uint8 a_oid[6]; per_read_length(s, &length); /* length */ if (length != 5) return False; stream_read_uint8(s, t12); /* first two tuples */ a_oid[0] = (t12 >> 4); a_oid[1] = (t12 & 0x0F); stream_read_uint8(s, a_oid[2]); /* tuple 3 */ stream_read_uint8(s, a_oid[3]); /* tuple 4 */ stream_read_uint8(s, a_oid[4]); /* tuple 5 */ stream_read_uint8(s, a_oid[5]); /* tuple 6 */ if ((a_oid[0] == oid[0]) && (a_oid[1] == oid[1]) && (a_oid[2] == oid[2]) && (a_oid[3] == oid[3]) && (a_oid[4] == oid[4]) && (a_oid[5] == oid[5])) { return True; } else { return False; } } /** * Write PER OBJECT_IDENTIFIER (OID) * @param s stream * @param oid object identifier (oid) */ void per_write_object_identifier(STREAM* s, uint8 oid[6]) { uint8 t12 = (oid[0] << 4) & (oid[1] & 0x0F); stream_write_uint8(s, 5); /* length */ stream_write_uint8(s, t12); /* first two tuples */ stream_write_uint8(s, oid[2]); /* tuple 3 */ stream_write_uint8(s, oid[3]); /* tuple 4 */ stream_write_uint8(s, oid[4]); /* tuple 5 */ stream_write_uint8(s, oid[5]); /* tuple 6 */ } /** * Write PER string. * @param s stream * @param str string * @param length string length */ void per_write_string(STREAM* s, uint8* str, int length) { int i; for (i = 0; i < length; i++) stream_write_uint8(s, str[i]); } /** * Read PER OCTET_STRING. * @param s stream * @param oct_str octet string * @param length string length * @param min minimum length * @return */ boolean per_read_octet_string(STREAM* s, uint8* oct_str, int length, int min) { int i; uint16 mlength; uint8* a_oct_str; per_read_length(s, &mlength); if (mlength + min != length) return False; a_oct_str = s->p; stream_seek(s, length); for (i = 0; i < length; i++) { if (a_oct_str[i] != oct_str[i]) return False; } return True; } /** * Write PER OCTET_STRING * @param s stream * @param oct_str octet string * @param length string length * @param min minimum string length */ void per_write_octet_string(STREAM* s, uint8* oct_str, int length, int min) { int i; int mlength; mlength = (length - min >= 0) ? length - min : min; per_write_length(s, mlength); for (i = 0; i < length; i++) stream_write_uint8(s, oct_str[i]); } /** * Read PER NumericString. * @param s stream * @param num_str numeric string * @param length string length * @param min minimum string length */ boolean per_read_numeric_string(STREAM* s, int min) { int i; int length; uint16 mlength; per_read_length(s, &mlength); length = mlength + min; for (i = 0; i < length; i += 2) { stream_seek(s, 1); } return True; } /** * Write PER NumericString. * @param s stream * @param num_str numeric string * @param length string length * @param min minimum string length */ void per_write_numeric_string(STREAM* s, uint8* num_str, int length, int min) { int i; int mlength; uint8 num, c1, c2; mlength = (length - min >= 0) ? length - min : min; per_write_length(s, mlength); for (i = 0; i < length; i += 2) { c1 = num_str[i]; c2 = ((i + 1) < length) ? num_str[i + 1] : 0x30; c1 = (c1 - 0x30) % 10; c2 = (c2 - 0x30) % 10; num = (c1 << 4) | c2; stream_write_uint8(s, num); /* string */ } }