/* -*- mode: C; c-file-style: "gnu" -*- */ /* dbus-marshal.c Marshalling routines * * Copyright (C) 2002 CodeFactory AB * * Licensed under the Academic Free License version 1.2 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include "dbus-marshal.h" #include "dbus-internals.h" #include /* from ORBit */ static void swap_bytes (unsigned char *data, unsigned int len) { unsigned char *p1 = data; unsigned char *p2 = data + len - 1; while (p1 < p2) { unsigned char tmp = *p1; *p1 = *p2; *p2 = tmp; --p2; ++p1; } } /** * @defgroup DBusMarshal marshaling and unmarshaling * @ingroup DBusInternals * @brief functions to marshal/unmarshal data from the wire * * Types and functions related to converting primitive data types from * wire format to native machine format, and vice versa. * * @{ */ /** * Unpacks a 32 bit unsigned integer from a data pointer * * @param byte_order The byte order to use * @param data the data pointer * @returns the integer */ dbus_uint32_t _dbus_unpack_uint32 (int byte_order, const unsigned char *data) { _dbus_assert (_DBUS_ALIGN_ADDRESS (data, 4) == data); if (byte_order == DBUS_LITTLE_ENDIAN) return DBUS_UINT32_FROM_LE (*(dbus_uint32_t*)data); else return DBUS_UINT32_FROM_BE (*(dbus_uint32_t*)data); } /** * Unpacks a 32 bit signed integer from a data pointer * * @param byte_order The byte order to use * @param data the data pointer * @returns the integer */ dbus_int32_t _dbus_unpack_int32 (int byte_order, const unsigned char *data) { _dbus_assert (_DBUS_ALIGN_ADDRESS (data, 4) == data); if (byte_order == DBUS_LITTLE_ENDIAN) return DBUS_INT32_FROM_LE (*(dbus_int32_t*)data); else return DBUS_INT32_FROM_BE (*(dbus_int32_t*)data); } /** * Packs a 32 bit unsigned integer into a data pointer. * * @param value the value * @param byte_order the byte order to use * @param data the data pointer */ void _dbus_pack_uint32 (dbus_uint32_t value, int byte_order, unsigned char *data) { _dbus_assert (_DBUS_ALIGN_ADDRESS (data, 4) == data); if ((byte_order) == DBUS_LITTLE_ENDIAN) *((dbus_uint32_t*)(data)) = DBUS_UINT32_TO_LE (value); else *((dbus_uint32_t*)(data)) = DBUS_UINT32_TO_BE (value); } /** * Packs a 32 bit signed integer into a data pointer. * * @param value the value * @param byte_order the byte order to use * @param data the data pointer */ void _dbus_pack_int32 (dbus_int32_t value, int byte_order, unsigned char *data) { _dbus_assert (_DBUS_ALIGN_ADDRESS (data, 4) == data); if ((byte_order) == DBUS_LITTLE_ENDIAN) *((dbus_int32_t*)(data)) = DBUS_INT32_TO_LE (value); else *((dbus_int32_t*)(data)) = DBUS_INT32_TO_BE (value); } /** * Marshals a double value. * * @param str the string to append the marshalled value to * @param byte_order the byte order to use * @param value the value * @returns #TRUE on success */ dbus_bool_t _dbus_marshal_double (DBusString *str, int byte_order, double value) { _dbus_assert (sizeof (double) == 8); if (!_dbus_string_set_length (str, _DBUS_ALIGN_VALUE (_dbus_string_get_length (str), sizeof (double)))) return FALSE; if (byte_order != DBUS_COMPILER_BYTE_ORDER) swap_bytes ((unsigned char *)&value, sizeof (double)); return _dbus_string_append_len (str, (const char *)&value, sizeof (double)); } /** * Marshals a 32 bit signed integer value. * * @param str the string to append the marshalled value to * @param byte_order the byte order to use * @param value the value * @returns #TRUE on success */ dbus_bool_t _dbus_marshal_int32 (DBusString *str, int byte_order, dbus_int32_t value) { if (!_dbus_string_set_length (str, _DBUS_ALIGN_VALUE (_dbus_string_get_length (str), sizeof (dbus_int32_t)))) return FALSE; if (byte_order != DBUS_COMPILER_BYTE_ORDER) swap_bytes ((unsigned char *)&value, sizeof (dbus_int32_t)); return _dbus_string_append_len (str, (const char *)&value, sizeof (dbus_int32_t)); } /** * Marshals a 32 bit unsigned integer value. * * @param str the string to append the marshalled value to * @param byte_order the byte order to use * @param value the value * @returns #TRUE on success */ dbus_bool_t _dbus_marshal_uint32 (DBusString *str, int byte_order, dbus_uint32_t value) { if (!_dbus_string_set_length (str, _DBUS_ALIGN_VALUE (_dbus_string_get_length (str), sizeof (dbus_uint32_t)))) return FALSE; if (byte_order != DBUS_COMPILER_BYTE_ORDER) swap_bytes ((unsigned char *)&value, sizeof (dbus_uint32_t)); return _dbus_string_append_len (str, (const char *)&value, sizeof (dbus_uint32_t)); } /** * Marshals a UTF-8 string * * @param str the string to append the marshalled value to * @param byte_order the byte order to use * @param value the string * @returns #TRUE on success */ dbus_bool_t _dbus_marshal_string (DBusString *str, int byte_order, const char *value) { int len, old_string_len; old_string_len = _dbus_string_get_length (str); len = strlen (value); if (!_dbus_marshal_uint32 (str, byte_order, len)) { /* Restore the previous length */ _dbus_string_set_length (str, old_string_len); return FALSE; } return _dbus_string_append_len (str, value, len + 1); } /** * Marshals a byte array * * @param str the string to append the marshalled value to * @param byte_order the byte order to use * @param value the byte array * @param len the length of the byte array * @returns #TRUE on success */ dbus_bool_t _dbus_marshal_byte_array (DBusString *str, int byte_order, const unsigned char *value, int len) { int old_string_len; old_string_len = _dbus_string_get_length (str); if (!_dbus_marshal_uint32 (str, byte_order, len)) { /* Restore the previous length */ _dbus_string_set_length (str, old_string_len); return FALSE; } return _dbus_string_append_len (str, value, len); } /** * Demarshals a double. * * @param str the string containing the data * @param byte_order the byte order * @param pos the position in the string * @param new_pos the new position of the string * @returns the demarshaled double. */ double _dbus_demarshal_double (DBusString *str, int byte_order, int pos, int *new_pos) { double retval; const char *buffer; pos = _DBUS_ALIGN_VALUE (pos, sizeof (double)); _dbus_string_get_const_data_len (str, &buffer, pos, sizeof (double)); retval = *(double *)buffer; if (byte_order != DBUS_COMPILER_BYTE_ORDER) swap_bytes ((unsigned char *)&retval, sizeof (double)); if (new_pos) *new_pos = pos + sizeof (double); return retval; } /** * Demarshals a 32 bit signed integer. * * @param str the string containing the data * @param byte_order the byte order * @param pos the position in the string * @param new_pos the new position of the string * @returns the demarshaled integer. */ dbus_int32_t _dbus_demarshal_int32 (DBusString *str, int byte_order, int pos, int *new_pos) { const char *buffer; pos = _DBUS_ALIGN_VALUE (pos, sizeof (dbus_int32_t)); _dbus_string_get_const_data_len (str, &buffer, pos, sizeof (dbus_int32_t)); if (new_pos) *new_pos = pos + sizeof (dbus_int32_t); return _dbus_unpack_int32 (byte_order, buffer); } /** * Demarshals a 32 bit unsigned integer. * * @param str the string containing the data * @param byte_order the byte order * @param pos the position in the string * @param new_pos the new position of the string * @returns the demarshaled integer. */ dbus_uint32_t _dbus_demarshal_uint32 (DBusString *str, int byte_order, int pos, int *new_pos) { const char *buffer; pos = _DBUS_ALIGN_VALUE (pos, sizeof (dbus_uint32_t)); _dbus_string_get_const_data_len (str, &buffer, pos, sizeof (dbus_uint32_t)); if (new_pos) *new_pos = pos + sizeof (dbus_uint32_t); return _dbus_unpack_uint32 (byte_order, buffer); } /** * Demarshals an UTF-8 string. * * @todo Should we check the string to make sure * that it's valid UTF-8, and maybe "fix" the string * if it's broken? * * @todo Should probably demarshal to a DBusString, * having memcpy() in here is Evil(tm). * * @param str the string containing the data * @param byte_order the byte order * @param pos the position in the string * @param new_pos the new position of the string * @returns the demarshaled string. */ char * _dbus_demarshal_string (DBusString *str, int byte_order, int pos, int *new_pos) { int len; char *retval; const char *data; len = _dbus_demarshal_uint32 (str, byte_order, pos, &pos); retval = dbus_malloc (len + 1); if (!retval) return NULL; _dbus_string_get_const_data_len (str, &data, pos, len); if (!data) return NULL; memcpy (retval, data, len + 1); if (new_pos) *new_pos = pos + len + 1; return retval; } /** * Demarshals a byte array. * * @todo Should probably demarshal to a DBusString, * having memcpy() in here is Evil(tm). * * @param str the string containing the data * @param byte_order the byte order * @param pos the position in the string * @param new_pos the new position of the string * @param array_len length of the demarshaled data * @returns the demarshaled data. */ unsigned char * _dbus_demarshal_byte_array (DBusString *str, int byte_order, int pos, int *new_pos, int *array_len) { int len; unsigned char *retval; const char *data; len = _dbus_demarshal_uint32 (str, byte_order, pos, &pos); retval = dbus_malloc (len); if (!retval) return NULL; _dbus_string_get_const_data_len (str, &data, pos, len); if (!data) return NULL; memcpy (retval, data, len); if (new_pos) *new_pos = pos + len; if (array_len) *array_len = len; return retval; } /** * Returns the position right after the end position * end position of a field * * @todo warns on invalid type in a message, but * probably the whole message needs to be dumped, * or we might even drop the connection due * to bad protocol. Needs better error handling. * Possible security issue. * * @param str a string * @param byte_order the byte order to use * @param pos the pos where the field starts * @param end_pos pointer where the position right * after the end position will follow * @returns TRUE if more data exists after the field */ dbus_bool_t _dbus_marshal_get_field_end_pos (DBusString *str, int byte_order, int pos, int *end_pos) { const char *data; if (pos >= _dbus_string_get_length (str)) return FALSE; _dbus_string_get_const_data_len (str, &data, pos, 1); switch (*data) { case DBUS_TYPE_INVALID: return FALSE; break; case DBUS_TYPE_INT32: *end_pos = _DBUS_ALIGN_VALUE (pos + 1, sizeof (dbus_int32_t)) + sizeof (dbus_int32_t); break; case DBUS_TYPE_UINT32: *end_pos = _DBUS_ALIGN_VALUE (pos + 1, sizeof (dbus_uint32_t)) + sizeof (dbus_uint32_t); break; case DBUS_TYPE_DOUBLE: *end_pos = _DBUS_ALIGN_VALUE (pos + 1, sizeof (double)) + sizeof (double); break; case DBUS_TYPE_STRING: { int len, new_pos; /* Demarshal the length */ len = _dbus_demarshal_uint32 (str, byte_order, pos + 1, &new_pos); *end_pos = new_pos + len + 1; break; } case DBUS_TYPE_BYTE_ARRAY: { int len, new_pos; /* Demarshal the length */ len = _dbus_demarshal_uint32 (str, byte_order, pos + 1, &new_pos); *end_pos = new_pos + len; break; } default: _dbus_warn ("Unknown message field type %d\n", *data); return FALSE; } if (*end_pos >= _dbus_string_get_length (str)) return FALSE; return TRUE; } /** * If in verbose mode, print a block of binary data. * * @todo right now it prints even if not in verbose mode * * @param data the data * @param len the length of the data */ void _dbus_verbose_bytes (const unsigned char *data, int len) { int i; const unsigned char *aligned; /* Print blanks on first row if appropriate */ aligned = _DBUS_ALIGN_ADDRESS (data, 4); if (aligned > data) aligned -= 4; _dbus_assert (aligned <= data); if (aligned != data) { _dbus_verbose ("%5d\t%p: ", - (data - aligned), aligned); while (aligned != data) { _dbus_verbose (" "); ++aligned; } } /* now print the bytes */ i = 0; while (i < len) { if (_DBUS_ALIGN_ADDRESS (&data[i], 4) == &data[i]) { _dbus_verbose ("%5d\t%p: ", i, &data[i]); } if (data[i] >= 32 && data[i] <= 126) _dbus_verbose (" '%c' ", data[i]); else _dbus_verbose ("0x%s%x ", data[i] <= 0xf ? "0" : "", data[i]); ++i; if (_DBUS_ALIGN_ADDRESS (&data[i], 4) == &data[i]) { if (i > 3) _dbus_verbose ("big: %d little: %d", _dbus_unpack_uint32 (DBUS_BIG_ENDIAN, &data[i-4]), _dbus_unpack_uint32 (DBUS_LITTLE_ENDIAN, &data[i-4])); _dbus_verbose ("\n"); } } _dbus_verbose ("\n"); } /** * Dump the given part of the string to verbose log. * * @param str the string * @param start the start of range to dump * @param len length of range */ void _dbus_verbose_bytes_of_string (const DBusString *str, int start, int len) { const char *d; _dbus_string_get_const_data_len (str, &d, start, len); _dbus_verbose_bytes (d, len); } /** @} */ #ifdef DBUS_BUILD_TESTS #include "dbus-test.h" #include dbus_bool_t _dbus_marshal_test (void) { DBusString str; char *tmp1, *tmp2; int pos = 0; if (!_dbus_string_init (&str, _DBUS_INT_MAX)) _dbus_assert_not_reached ("failed to init string"); /* Marshal doubles */ if (!_dbus_marshal_double (&str, DBUS_BIG_ENDIAN, 3.14)) _dbus_assert_not_reached ("could not marshal double value"); _dbus_assert (_dbus_demarshal_double (&str, DBUS_BIG_ENDIAN, pos, &pos) == 3.14); if (!_dbus_marshal_double (&str, DBUS_LITTLE_ENDIAN, 3.14)) _dbus_assert_not_reached ("could not marshal double value"); _dbus_assert (_dbus_demarshal_double (&str, DBUS_LITTLE_ENDIAN, pos, &pos) == 3.14); /* Marshal signed integers */ if (!_dbus_marshal_int32 (&str, DBUS_BIG_ENDIAN, -12345678)) _dbus_assert_not_reached ("could not marshal signed integer value"); _dbus_assert (_dbus_demarshal_int32 (&str, DBUS_BIG_ENDIAN, pos, &pos) == -12345678); if (!_dbus_marshal_int32 (&str, DBUS_LITTLE_ENDIAN, -12345678)) _dbus_assert_not_reached ("could not marshal signed integer value"); _dbus_assert (_dbus_demarshal_int32 (&str, DBUS_LITTLE_ENDIAN, pos, &pos) == -12345678); /* Marshal unsigned integers */ if (!_dbus_marshal_uint32 (&str, DBUS_BIG_ENDIAN, 0x12345678)) _dbus_assert_not_reached ("could not marshal signed integer value"); _dbus_assert (_dbus_demarshal_uint32 (&str, DBUS_BIG_ENDIAN, pos, &pos) == 0x12345678); if (!_dbus_marshal_uint32 (&str, DBUS_LITTLE_ENDIAN, 0x12345678)) _dbus_assert_not_reached ("could not marshal signed integer value"); _dbus_assert (_dbus_demarshal_uint32 (&str, DBUS_LITTLE_ENDIAN, pos, &pos) == 0x12345678); /* Marshal strings */ tmp1 = "This is the dbus test string"; if (!_dbus_marshal_string (&str, DBUS_BIG_ENDIAN, tmp1)) _dbus_assert_not_reached ("could not marshal string"); tmp2 = _dbus_demarshal_string (&str, DBUS_BIG_ENDIAN, pos, &pos); _dbus_assert (strcmp (tmp1, tmp2) == 0); dbus_free (tmp2); tmp1 = "This is the dbus test string"; if (!_dbus_marshal_string (&str, DBUS_LITTLE_ENDIAN, tmp1)) _dbus_assert_not_reached ("could not marshal string"); tmp2 = _dbus_demarshal_string (&str, DBUS_LITTLE_ENDIAN, pos, &pos); _dbus_assert (strcmp (tmp1, tmp2) == 0); dbus_free (tmp2); _dbus_string_free (&str); return TRUE; } #endif /* DBUS_BUILD_TESTS */