/* * Copyright © 2010 Codethink Limited * * SPDX-License-Identifier: LGPL-2.1-or-later * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, see . * * Author: Ryan Lortie */ #include #include /* * The string info map is an efficient data structure designed to be * used with a small set of items. It is used by GSettings schemas for * three purposes: * * 1) Implement with a list of valid strings * * 2) Implement by mapping one string to another * * 3) Implement enumerated types by mapping strings to integer values * (and back). * * The map is made out of an array of uint32s. Each entry in the array * is an integer value, followed by a specially formatted string value: * * The string starts with the byte 0xff or 0xfe, followed by the * content of the string, followed by a nul byte, followed by * additional nul bytes for padding, followed by a 0xff byte. * * Padding is added so that the entire formatted string takes up a * multiple of 4 bytes, and not less than 8 bytes. The requirement * for a string to take up 8 bytes is so that the scanner doesn't lose * synch and mistake a string for an integer value. * * The first byte of the formatted string depends on if the integer is * an enum value (0xff) or an alias (0xfe). If it is an alias then the * number refers to the word offset within the info map at which the * integer corresponding to the "target" value is stored. * * For example, consider the case of the string info map representing an * enumerated type of 'foo' (value 1) and 'bar' (value 2) and 'baz' * (alias for 'bar'). Note that string info maps are always little * endian. * * x01 x00 x00 x00 xff 'f' 'o' 'o' x00 x00 x00 xff x02 x00 x00 x00 * xff 'b' 'a' 'r' x00 x00 x00 xff x03 x00 x00 x00 xfe 'b' 'a' 'z' * x00 x00 x00 xff * * * The operations that someone may want to perform with the map: * * - look up if a string is valid (and not an alias) * - look up the integer value for a enum 'nick' * - look up the integer value for the target of an alias * - look up an alias and convert it to its target string * - look up the enum nick for a given value * * In order to look up if a string is valid, it is padded on either side * (as described) and scanned for in the array. For example, you might * look for "foo": * * xff 'f' 'o' 'o' x00 x00 x00 xff * * In order to look up the integer value for a nick, the string is padded * on either side and scanned for in the array, as above. Instead of * merely succeeding, we look at the integer value to the left of the * match. This is the enum value. * * In order to look up an alias and convert it to its target enum value, * the string is padded on either side (as described, with 0xfe) and * scanned for. For example, you might look for "baz": * * xfe 'b' 'a' 'z' x00 x00 x00 xff * * The integer immediately preceding the match then contains the offset * of the integer value of the target. In our example, that's '3'. * This index is dereferenced to find the enum value of '2'. * * To convert the alias to its target string, 5 bytes just need to be * added past the start of the integer value to find the start of the * string. * * To look up the enum nick for a given value, the value is searched for * in the array. To ensure that the value isn't matching the inside of a * string, we must check that it is either the first item in the array or * immediately preceded by the byte 0xff. It must also be immediately * followed by the byte 0xff. * * Because strings always take up a minimum of 2 words, because 0xff or * 0xfe never appear inside of a utf-8 string and because no two integer * values ever appear in sequence, the only way we can have the * sequence: * * xff __ __ __ __ xff (or 0xfe) * * is in the event of an integer nested between two strings. * * For implementation simplicity/efficiency, strings may not be more * than 65 characters in length (ie: 17 32bit words after padding). * * In the event that we are doing (ie: not an enum type) then * the value of each choice is set to zero and ignored. */ #define STRINFO_MAX_WORDS 17 G_GNUC_UNUSED static guint strinfo_string_to_words (const gchar *string, guint32 *words, gboolean alias) { guint n_words; gsize size; size = strlen (string); n_words = MAX (2, (size + 6) >> 2); if (n_words > STRINFO_MAX_WORDS) return FALSE; words[0] = GUINT32_TO_LE (alias ? 0xfe : 0xff); words[n_words - 1] = GUINT32_TO_BE (0xff); memcpy (((gchar *) words) + 1, string, size + 1); return n_words; } G_GNUC_UNUSED static gint strinfo_scan (const guint32 *strinfo, guint length, const guint32 *words, guint n_words) { guint i = 0; if (length < n_words) return -1; while (i <= length - n_words) { guint j = 0; for (j = 0; j < n_words; j++) if (strinfo[i + j] != words[j]) break; if (j == n_words) return i; /* match */ /* skip at least one word, continue */ i += j ? j : 1; } return -1; } G_GNUC_UNUSED static gint strinfo_find_string (const guint32 *strinfo, guint length, const gchar *string, gboolean alias) { guint32 words[STRINFO_MAX_WORDS]; guint n_words; if (length == 0) return -1; n_words = strinfo_string_to_words (string, words, alias); return strinfo_scan (strinfo + 1, length - 1, words, n_words); } G_GNUC_UNUSED static gint strinfo_find_integer (const guint32 *strinfo, guint length, guint32 value) { guint i; for (i = 0; i < length; i++) if (strinfo[i] == GUINT32_TO_LE (value)) { const guchar *charinfo = (const guchar *) &strinfo[i]; /* make sure it has 0xff on either side */ if ((i == 0 || charinfo[-1] == 0xff) && charinfo[4] == 0xff) return i; } return -1; } G_GNUC_UNUSED static gboolean strinfo_is_string_valid (const guint32 *strinfo, guint length, const gchar *string) { return strinfo_find_string (strinfo, length, string, FALSE) != -1; } G_GNUC_UNUSED static gboolean strinfo_enum_from_string (const guint32 *strinfo, guint length, const gchar *string, guint *result) { gint index; index = strinfo_find_string (strinfo, length, string, FALSE); if (index < 0) return FALSE; *result = GUINT32_FROM_LE (strinfo[index]); return TRUE; } G_GNUC_UNUSED static const gchar * strinfo_string_from_enum (const guint32 *strinfo, guint length, guint value) { gint index; index = strinfo_find_integer (strinfo, length, value); if (index < 0) return NULL; return 1 + (const gchar *) &strinfo[index + 1]; } G_GNUC_UNUSED static const gchar * strinfo_string_from_alias (const guint32 *strinfo, guint length, const gchar *alias) { gint index; index = strinfo_find_string (strinfo, length, alias, TRUE); if (index < 0) return NULL; return 1 + (const gchar *) &strinfo[GUINT32_TO_LE (strinfo[index]) + 1]; } G_GNUC_UNUSED static GVariant * strinfo_enumerate (const guint32 *strinfo, guint length) { GVariantBuilder builder; const gchar *ptr, *end; ptr = (gpointer) strinfo; end = ptr + 4 * length; ptr += 4; g_variant_builder_init_static (&builder, G_VARIANT_TYPE_STRING_ARRAY); while (ptr < end) { /* don't include aliases */ if (*ptr == '\xff') g_variant_builder_add (&builder, "s", ptr + 1); /* find the end of this string */ ptr = memchr (ptr, '\xff', end - ptr); g_assert (ptr != NULL); /* skip over the int to the next string */ ptr += 5; } return g_variant_builder_end (&builder); } G_GNUC_UNUSED static void strinfo_builder_append_item (GString *builder, const gchar *string, guint value) { guint32 words[STRINFO_MAX_WORDS]; guint n_words; value = GUINT32_TO_LE (value); n_words = strinfo_string_to_words (string, words, FALSE); g_string_append_len (builder, (void *) &value, sizeof value); g_string_append_len (builder, (void *) words, 4 * n_words); } G_GNUC_UNUSED static gboolean strinfo_builder_append_alias (GString *builder, const gchar *alias, const gchar *target) { guint32 words[STRINFO_MAX_WORDS]; guint n_words; guint value; gint index; index = strinfo_find_string ((const guint32 *) builder->str, builder->len / 4, target, FALSE); if (index == -1) return FALSE; value = GUINT32_TO_LE (index); n_words = strinfo_string_to_words (alias, words, TRUE); g_string_append_len (builder, (void *) &value, sizeof value); g_string_append_len (builder, (void *) words, 4 * n_words); return TRUE; } G_GNUC_UNUSED static gboolean strinfo_builder_contains (GString *builder, const gchar *string) { return strinfo_find_string ((const guint32 *) builder->str, builder->len / 4, string, FALSE) != -1 || strinfo_find_string ((const guint32 *) builder->str, builder->len / 4, string, TRUE) != -1; } G_GNUC_UNUSED static gboolean strinfo_builder_contains_value (GString *builder, guint value) { return strinfo_string_from_enum ((const guint32 *) builder->str, builder->len / 4, value) != NULL; }