mirror of https://github.com/ventoy/Ventoy.git
VentoyPlugson: Fix the garbled preview json for unicode characters.
This commit is contained in:
parent
9da5a6ce65
commit
44ff3dd8d4
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@ -45,6 +45,7 @@ build_func() {
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src/Core/ventoy_json.c \
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src/Core/ventoy_log.c \
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src/Core/ventoy_md5.c \
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src/Core/ventoy_utf.c \
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src/Core/ventoy_util.c \
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src/Core/ventoy_util_linux.c \
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src/Web/*.c \
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@ -0,0 +1,367 @@
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/******************************************************************************
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* ventoy_utf.c ---- ventoy utf
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* Copyright (c) 2022, Davipb https://github.com/Davipb/utf8-utf16-converter
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* Copyright (c) 2022, longpanda <admin@ventoy.net>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 3 of the
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* License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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*
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <stdint.h>
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#include <stddef.h>
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#include <ventoy_define.h>
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#include <ventoy_util.h>
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typedef uint8_t utf8_t; // The type of a single UTF-8 character
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typedef uint16_t utf16_t; // The type of a single UTF-16 character
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// The type of a single Unicode codepoint
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typedef uint32_t codepoint_t;
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// The last codepoint of the Basic Multilingual Plane, which is the part of Unicode that
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// UTF-16 can encode without surrogates
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#define BMP_END 0xFFFF
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// The highest valid Unicode codepoint
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#define UNICODE_MAX 0x10FFFF
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// The codepoint that is used to replace invalid encodings
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#define INVALID_CODEPOINT 0xFFFD
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// If a character, masked with GENERIC_SURROGATE_MASK, matches this value, it is a surrogate.
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#define GENERIC_SURROGATE_VALUE 0xD800
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// The mask to apply to a character before testing it against GENERIC_SURROGATE_VALUE
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#define GENERIC_SURROGATE_MASK 0xF800
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// If a character, masked with SURROGATE_MASK, matches this value, it is a high surrogate.
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#define HIGH_SURROGATE_VALUE 0xD800
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// If a character, masked with SURROGATE_MASK, matches this value, it is a low surrogate.
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#define LOW_SURROGATE_VALUE 0xDC00
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// The mask to apply to a character before testing it against HIGH_SURROGATE_VALUE or LOW_SURROGATE_VALUE
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#define SURROGATE_MASK 0xFC00
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// The value that is subtracted from a codepoint before encoding it in a surrogate pair
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#define SURROGATE_CODEPOINT_OFFSET 0x10000
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// A mask that can be applied to a surrogate to extract the codepoint value contained in it
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#define SURROGATE_CODEPOINT_MASK 0x03FF
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// The number of bits of SURROGATE_CODEPOINT_MASK
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#define SURROGATE_CODEPOINT_BITS 10
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// The highest codepoint that can be encoded with 1 byte in UTF-8
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#define UTF8_1_MAX 0x7F
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// The highest codepoint that can be encoded with 2 bytes in UTF-8
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#define UTF8_2_MAX 0x7FF
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// The highest codepoint that can be encoded with 3 bytes in UTF-8
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#define UTF8_3_MAX 0xFFFF
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// The highest codepoint that can be encoded with 4 bytes in UTF-8
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#define UTF8_4_MAX 0x10FFFF
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// If a character, masked with UTF8_CONTINUATION_MASK, matches this value, it is a UTF-8 continuation byte
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#define UTF8_CONTINUATION_VALUE 0x80
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// The mask to a apply to a character before testing it against UTF8_CONTINUATION_VALUE
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#define UTF8_CONTINUATION_MASK 0xC0
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// The number of bits of a codepoint that are contained in a UTF-8 continuation byte
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#define UTF8_CONTINUATION_CODEPOINT_BITS 6
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// Represents a UTF-8 bit pattern that can be set or verified
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typedef struct
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{
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// The mask that should be applied to the character before testing it
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utf8_t mask;
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// The value that the character should be tested against after applying the mask
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utf8_t value;
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} utf8_pattern;
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// The patterns for leading bytes of a UTF-8 codepoint encoding
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// Each pattern represents the leading byte for a character encoded with N UTF-8 bytes,
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// where N is the index + 1
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static const utf8_pattern utf8_leading_bytes[] =
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{
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{ 0x80, 0x00 }, // 0xxxxxxx
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{ 0xE0, 0xC0 }, // 110xxxxx
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{ 0xF0, 0xE0 }, // 1110xxxx
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{ 0xF8, 0xF0 } // 11110xxx
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};
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// The number of elements in utf8_leading_bytes
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#define UTF8_LEADING_BYTES_LEN 4
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// Gets a codepoint from a UTF-16 string
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// utf16: The UTF-16 string
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// len: The length of the UTF-16 string, in UTF-16 characters
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// index:
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// A pointer to the current index on the string.
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// When the function returns, this will be left at the index of the last character
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// that composes the returned codepoint.
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// For surrogate pairs, this means the index will be left at the low surrogate.
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static codepoint_t decode_utf16(utf16_t const* utf16, size_t len, size_t* index)
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{
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utf16_t high = utf16[*index];
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// BMP character
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if ((high & GENERIC_SURROGATE_MASK) != GENERIC_SURROGATE_VALUE)
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return high;
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// Unmatched low surrogate, invalid
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if ((high & SURROGATE_MASK) != HIGH_SURROGATE_VALUE)
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return INVALID_CODEPOINT;
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// String ended with an unmatched high surrogate, invalid
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if (*index == len - 1)
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return INVALID_CODEPOINT;
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utf16_t low = utf16[*index + 1];
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// Unmatched high surrogate, invalid
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if ((low & SURROGATE_MASK) != LOW_SURROGATE_VALUE)
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return INVALID_CODEPOINT;
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// Two correctly matched surrogates, increase index to indicate we've consumed
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// two characters
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(*index)++;
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// The high bits of the codepoint are the value bits of the high surrogate
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// The low bits of the codepoint are the value bits of the low surrogate
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codepoint_t result = high & SURROGATE_CODEPOINT_MASK;
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result <<= SURROGATE_CODEPOINT_BITS;
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result |= low & SURROGATE_CODEPOINT_MASK;
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result += SURROGATE_CODEPOINT_OFFSET;
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// And if all else fails, it's valid
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return result;
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}
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// Calculates the number of UTF-8 characters it would take to encode a codepoint
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// The codepoint won't be checked for validity, that should be done beforehand.
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static int calculate_utf8_len(codepoint_t codepoint)
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{
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// An array with the max values would be more elegant, but a bit too heavy
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// for this common function
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if (codepoint <= UTF8_1_MAX)
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return 1;
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if (codepoint <= UTF8_2_MAX)
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return 2;
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if (codepoint <= UTF8_3_MAX)
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return 3;
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return 4;
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}
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// Encodes a codepoint in a UTF-8 string.
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// The codepoint won't be checked for validity, that should be done beforehand.
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//
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// codepoint: The codepoint to be encoded.
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// utf8: The UTF-8 string
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// len: The length of the UTF-8 string, in UTF-8 characters
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// index: The first empty index on the string.
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//
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// return: The number of characters written to the string.
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static size_t encode_utf8(codepoint_t codepoint, utf8_t* utf8, size_t len, size_t index)
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{
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int size = calculate_utf8_len(codepoint);
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// Not enough space left on the string
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if (index + size > len)
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return 0;
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// Write the continuation bytes in reverse order first
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for (int cont_index = size - 1; cont_index > 0; cont_index--)
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{
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utf8_t cont = codepoint & ~UTF8_CONTINUATION_MASK;
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cont |= UTF8_CONTINUATION_VALUE;
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utf8[index + cont_index] = cont;
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codepoint >>= UTF8_CONTINUATION_CODEPOINT_BITS;
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}
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// Write the leading byte
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utf8_pattern pattern = utf8_leading_bytes[size - 1];
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utf8_t lead = codepoint & ~(pattern.mask);
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lead |= pattern.value;
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utf8[index] = lead;
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return size;
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}
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size_t utf16_to_utf8(utf16_t const* utf16, size_t utf16_len, utf8_t* utf8, size_t utf8_len)
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{
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// The next codepoint that will be written in the UTF-8 string
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// or the size of the required buffer if utf8 is NULL
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size_t utf8_index = 0;
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for (size_t utf16_index = 0; utf16_index < utf16_len; utf16_index++)
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{
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codepoint_t codepoint = decode_utf16(utf16, utf16_len, &utf16_index);
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if (utf8 == NULL)
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utf8_index += calculate_utf8_len(codepoint);
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else
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utf8_index += encode_utf8(codepoint, utf8, utf8_len, utf8_index);
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}
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return utf8_index;
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}
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// Gets a codepoint from a UTF-8 string
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// utf8: The UTF-8 string
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// len: The length of the UTF-8 string, in UTF-8 characters
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// index:
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// A pointer to the current index on the string.
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// When the function returns, this will be left at the index of the last character
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// that composes the returned codepoint.
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// For example, for a 3-byte codepoint, the index will be left at the third character.
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static codepoint_t decode_utf8(utf8_t const* utf8, size_t len, size_t* index)
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{
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utf8_t leading = utf8[*index];
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// The number of bytes that are used to encode the codepoint
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int encoding_len = 0;
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// The pattern of the leading byte
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utf8_pattern leading_pattern;
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// If the leading byte matches the current leading pattern
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int matches = 0;
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do
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{
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encoding_len++;
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leading_pattern = utf8_leading_bytes[encoding_len - 1];
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matches = ((leading & leading_pattern.mask) == leading_pattern.value);
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} while (!matches && encoding_len < UTF8_LEADING_BYTES_LEN);
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// Leading byte doesn't match any known pattern, consider it invalid
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if (!matches)
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return INVALID_CODEPOINT;
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codepoint_t codepoint = leading & ~leading_pattern.mask;
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for (int i = 0; i < encoding_len - 1; i++)
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{
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// String ended before all continuation bytes were found
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// Invalid encoding
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if (*index + 1 >= len)
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return INVALID_CODEPOINT;
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utf8_t continuation = utf8[*index + 1];
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// Number of continuation bytes not the same as advertised on the leading byte
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// Invalid encoding
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if ((continuation & UTF8_CONTINUATION_MASK) != UTF8_CONTINUATION_VALUE)
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return INVALID_CODEPOINT;
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codepoint <<= UTF8_CONTINUATION_CODEPOINT_BITS;
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codepoint |= continuation & ~UTF8_CONTINUATION_MASK;
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(*index)++;
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}
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int proper_len = calculate_utf8_len(codepoint);
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// Overlong encoding: too many bytes were used to encode a short codepoint
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// Invalid encoding
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if (proper_len != encoding_len)
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return INVALID_CODEPOINT;
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// Surrogates are invalid Unicode codepoints, and should only be used in UTF-16
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// Invalid encoding
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if (codepoint < BMP_END && (codepoint & GENERIC_SURROGATE_MASK) == GENERIC_SURROGATE_VALUE)
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return INVALID_CODEPOINT;
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// UTF-8 can encode codepoints larger than the Unicode standard allows
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// Invalid encoding
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if (codepoint > UNICODE_MAX)
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return INVALID_CODEPOINT;
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return codepoint;
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}
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// Calculates the number of UTF-16 characters it would take to encode a codepoint
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// The codepoint won't be checked for validity, that should be done beforehand.
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static int calculate_utf16_len(codepoint_t codepoint)
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{
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if (codepoint <= BMP_END)
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return 1;
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return 2;
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}
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// Encodes a codepoint in a UTF-16 string.
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// The codepoint won't be checked for validity, that should be done beforehand.
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//
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// codepoint: The codepoint to be encoded.
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// utf16: The UTF-16 string
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// len: The length of the UTF-16 string, in UTF-16 characters
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// index: The first empty index on the string.
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//
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// return: The number of characters written to the string.
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static size_t encode_utf16(codepoint_t codepoint, utf16_t* utf16, size_t len, size_t index)
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{
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// Not enough space on the string
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if (index >= len)
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return 0;
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if (codepoint <= BMP_END)
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{
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utf16[index] = codepoint;
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return 1;
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}
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// Not enough space on the string for two surrogates
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if (index + 1 >= len)
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return 0;
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codepoint -= SURROGATE_CODEPOINT_OFFSET;
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utf16_t low = LOW_SURROGATE_VALUE;
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low |= codepoint & SURROGATE_CODEPOINT_MASK;
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codepoint >>= SURROGATE_CODEPOINT_BITS;
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utf16_t high = HIGH_SURROGATE_VALUE;
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high |= codepoint & SURROGATE_CODEPOINT_MASK;
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utf16[index] = high;
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utf16[index + 1] = low;
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return 2;
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}
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size_t utf8_to_utf16(const unsigned char * utf8, size_t utf8_len, unsigned short* utf16, size_t utf16_len)
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{
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// The next codepoint that will be written in the UTF-16 string
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// or the size of the required buffer if utf16 is NULL
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size_t utf16_index = 0;
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for (size_t utf8_index = 0; utf8_index < utf8_len; utf8_index++)
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{
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codepoint_t codepoint = decode_utf8(utf8, utf8_len, &utf8_index);
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if (utf16 == NULL)
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utf16_index += calculate_utf16_len(codepoint);
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else
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utf16_index += encode_utf16(codepoint, utf16, utf16_len, utf16_index);
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}
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return utf16_index;
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}
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@ -22,7 +22,6 @@
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#include <ventoy_define.h>
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#include <ventoy_util.h>
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static int g_tar_filenum = 0;
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static char *g_tar_buffer = NULL;
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static ventoy_file *g_tar_filelist = NULL;
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@ -200,6 +200,7 @@ extern int g_unxz_len;
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void unxz_error(char *x);
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int unxz_flush(void *src, unsigned int size);
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char * ventoy_base64_encode(const char *data, int input_length, int *output_length);
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size_t utf8_to_utf16(const unsigned char * utf8, size_t utf8_len, unsigned short* utf16, size_t utf16_len);
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#endif /* __VENTOY_UTIL_H__ */
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@ -3673,24 +3673,47 @@ static int ventoy_api_injection_del(struct mg_connection *conn, VTOY_JSON *json)
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static int ventoy_api_preview_json(struct mg_connection *conn, VTOY_JSON *json)
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{
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int i = 0;
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int pos = 0;
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int len = 0;
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int encodelen = 0;
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int utf16enclen = 0;
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char *encodebuf = NULL;
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unsigned short *utf16buf = NULL;
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(void)json;
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len = ventoy_data_real_save_all(0);
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encodebuf = ventoy_base64_encode(JSON_SAVE_BUFFER, len, &encodelen);
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encodebuf[encodelen] = 0;
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/* We can not use json directly, because it will be formated in the JS. */
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len = ventoy_data_real_save_all(0);
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utf16buf = (unsigned short *)malloc(2 * len + 16);
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if (!utf16buf)
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{
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goto json;
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}
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utf16enclen = utf8_to_utf16((unsigned char *)JSON_SAVE_BUFFER, len, utf16buf, len + 2);
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encodebuf = (char *)malloc(utf16enclen * 4 + 16);
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if (!encodebuf)
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{
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goto json;
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}
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for (i = 0; i < utf16enclen; i++)
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{
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scnprintf(encodebuf + i * 4, 5, "%04X", utf16buf[i]);
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}
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json:
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VTOY_JSON_FMT_BEGIN(pos, JSON_BUFFER, JSON_BUF_MAX);
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VTOY_JSON_FMT_OBJ_BEGIN();
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VTOY_JSON_FMT_STRN("json", encodebuf);
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VTOY_JSON_FMT_STRN("json", (encodebuf ? encodebuf : ""));
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VTOY_JSON_FMT_OBJ_END();
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VTOY_JSON_FMT_END(pos);
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free(encodebuf);
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CHECK_FREE(encodebuf);
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CHECK_FREE(utf16buf);
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ventoy_json_buffer(conn, JSON_BUFFER, pos);
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return 0;
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@ -3983,6 +4006,11 @@ static int ventoy_parse_control(VTOY_JSON *json, void *p)
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if (node->enDataType == JSON_TYPE_OBJECT)
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{
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child = node->pstChild;
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|
||||
if (child->enDataType != JSON_TYPE_STRING)
|
||||
{
|
||||
continue;
|
||||
}
|
||||
|
||||
if (strcmp(child->pcName, "VTOY_DEFAULT_MENU_MODE") == 0)
|
||||
{
|
||||
|
|
Binary file not shown.
|
@ -99,6 +99,7 @@
|
|||
<ClCompile Include="..\..\..\src\Core\ventoy_json.c" />
|
||||
<ClCompile Include="..\..\..\src\Core\ventoy_log.c" />
|
||||
<ClCompile Include="..\..\..\src\Core\ventoy_md5.c" />
|
||||
<ClCompile Include="..\..\..\src\Core\ventoy_utf.c" />
|
||||
<ClCompile Include="..\..\..\src\Core\ventoy_util.c" />
|
||||
<ClCompile Include="..\..\..\src\Core\ventoy_util_windows.c" />
|
||||
<ClCompile Include="..\..\..\src\Lib\fat_io_lib\fat_access.c" />
|
||||
|
|
|
@ -75,6 +75,9 @@
|
|||
<ClCompile Include="..\..\..\src\main_windows.c">
|
||||
<Filter>源文件</Filter>
|
||||
</ClCompile>
|
||||
<ClCompile Include="..\..\..\src\Core\ventoy_utf.c">
|
||||
<Filter>源文件</Filter>
|
||||
</ClCompile>
|
||||
</ItemGroup>
|
||||
<ItemGroup>
|
||||
<ClInclude Include="..\..\..\src\Core\ventoy_define.h">
|
||||
|
|
|
@ -1 +1 @@
|
|||
20221021 14:42:35
|
||||
20221117 18:12:12
|
|
@ -735,7 +735,7 @@
|
|||
|
||||
</div>
|
||||
<div class="modal-body">
|
||||
<textarea id="pre_json_preview" class="form-control" rows="30" style="font-family:Menlo,Monaco,Consolas,'Courier New',monospace"></textarea>
|
||||
<textarea id="pre_json_preview" class="form-control" rows="30" style="font-family:Menlo,Monaco,Consolas,'Courier New',monospace" spellcheck="false"></textarea>
|
||||
</div>
|
||||
<div class="modal-footer">
|
||||
<button id="PrewForm_lang_2" type="button" class="btn btn-primary btn-flat" data-dismiss="modal">确定</button>
|
||||
|
@ -757,7 +757,7 @@
|
|||
|
||||
<footer class="main-footer">
|
||||
<div class="pull-right hidden-xs">
|
||||
<b id="plugson_build_date">20221021 14:42:35</b>
|
||||
<b id="plugson_build_date">20221117 18:12:12</b>
|
||||
</div>
|
||||
<strong><a href="https://www.ventoy.net" target="_blank">https://www.ventoy.net</a></strong>
|
||||
</footer>
|
||||
|
@ -819,7 +819,7 @@
|
|||
$('#JsonPeviewForm #JsonPreviewForm_lang_1').text(g_vtoy_cur_language.STR_JSON_PREVIEW);
|
||||
$('#JsonPeviewForm #PrewForm_lang_2').text(g_vtoy_cur_language.STR_BTN_OK);
|
||||
|
||||
$('#pre_json_preview').text(atob(data.json));
|
||||
$('#pre_json_preview').text(VtoyUTF16HexToAscii(data.json));
|
||||
$("#JsonPreviewModal").modal();
|
||||
});
|
||||
}
|
||||
|
|
|
@ -1,4 +1,13 @@
|
|||
|
||||
function VtoyUTF16HexToAscii(hex) {
|
||||
var str = "";
|
||||
for (var i = 0; i < hex.length; i += 4) {
|
||||
str += String.fromCharCode(parseInt(hex.substring(i, i + 4), 16));
|
||||
}
|
||||
|
||||
return str;
|
||||
}
|
||||
|
||||
function ventoy_replace_slash(str) {
|
||||
var str1 = str.replace(/\\/g, '/');
|
||||
var str2 = str1.replace(/\/\//g, '/');
|
||||
|
|
|
@ -27,7 +27,7 @@ Most type of OS supported(Windows/WinPE/Linux/Unix/ChromeOS/Vmware/Xen...) <br/>
|
|||
Windows 7, Windows 8, Windows 8.1, Windows 10, Windows 11, Windows Server 2012, Windows Server 2012 R2, Windows Server 2016, Windows Server 2019, Windows Server 2022, WinPE
|
||||
|
||||
**Linux**
|
||||
Debian, Ubuntu, CentOS(6/7/8/9), RHEL(6/7/8/9), Deepin, Fedora, EuroLinux(6/7/8/9), Rocky Linux, AlmaLinux, openEuler, OpenAnolis, SLES, openSUSE, MX Linux, Manjaro, Linux Mint, Endless OS, Elementary OS, Solus, Linx, Zorin, antiX, PClinuxOS, Arch, ArcoLinux, ArchLabs, BlackArch, Obarun, Artix Linux, Puppy Linux, Tails, Slax, Kali, Mageia, Slackware, Q4OS, Archman, Gentoo, Pentoo, NixOS, Kylin, openKylin, Ubuntu Kylin, Lubuntu, Xubuntu, Kubuntu, Ubuntu MATE, Ubuntu Budgie, Ubuntu Studio, Bluestar, OpenMandriva, ExTiX, Netrunner, ALT Linux, Nitrux, Peppermint, KDE neon, Linux Lite, Parrot OS, Qubes, Pop OS, ROSA, Void Linux, Star Linux, EndeavourOS, MakuluLinux, Voyager, Feren, ArchBang, LXLE, Knoppix, Calculate Linux, Clear Linux, Pure OS, Oracle Linux, Trident, Septor, Porteus, Devuan, GoboLinux, 4MLinux, Simplicity Linux, Zeroshell, Android-x86, netboot.xyz, Slitaz, SuperGrub2Disk, Proxmox VE, Kaspersky Rescue, SystemRescueCD, MemTest86, MemTest86+, MiniTool Partition Wizard, Parted Magic, veket, Sabayon, Scientific, alpine, ClearOS, CloneZilla, Berry Linux, Trisquel, Ataraxia Linux, Minimal Linux Live, BackBox Linux, Emmabuntüs, ESET SysRescue Live,Nova Linux, AV Linux, RoboLinux, NuTyX, IPFire, SELKS, ZStack, Enso Linux, Security Onion, Network Security Toolkit, Absolute Linux, TinyCore, Springdale Linux, Frost Linux, Shark Linux, LinuxFX, Snail Linux, Astra Linux, Namib Linux, Resilient Linux, Virage Linux, Blackweb Security OS, R-DriveImage, O-O.DiskImage, Macrium, ToOpPy LINUX, GNU Guix, YunoHost, foxclone, siduction, Adelie Linux, Elive, Pardus, CDlinux, AcademiX, Austrumi, Zenwalk, Anarchy, DuZeru, BigLinux, OpenMediaVault, Ubuntu DP, Exe GNU/Linux, 3CX Phone System, KANOTIX, Grml, Karoshi, PrimTux, ArchStrike, CAELinux, Cucumber, Fatdog, ForLEx, Hanthana, Kwort, MiniNo, Redcore, Runtu, Asianux, Clu Linux Live, Uruk, OB2D, BlueOnyx, Finnix, HamoniKR, Parabola, LinHES, LinuxConsole, BEE free, Untangle, Pearl, Thinstation, TurnKey, tuxtrans, Neptune, HefftorLinux, GeckoLinux, Mabox Linux, Zentyal, Maui, Reborn OS, SereneLinux , SkyWave Linux, Kaisen Linux, Regata OS, TROM-Jaro, DRBL Linux, Chalet OS, Chapeau, Desa OS, BlankOn, OpenMamba, Frugalware, Kibojoe Linux, Revenge OS, Tsurugi Linux, Drauger OS, Hash Linux, gNewSense, Ikki Boot, SteamOS, Hyperbola, VyOS, EasyNAS, SuperGamer, Live Raizo, Swift Linux, RebeccaBlackOS, Daphile, CRUX, Univention, Ufficio Zero, Rescuezilla, Phoenix OS, Garuda Linux, Mll, NethServer, OSGeoLive, Easy OS, Volumio, FreedomBox, paldo, UBOS, Recalbox, batocera, Lakka, LibreELEC, Pardus Topluluk, Pinguy, KolibriOS, Elastix, Arya, Omoikane, Omarine, Endian Firewall, Hamara, Rocks Cluster, MorpheusArch, Redo, Slackel, SME Server, APODIO, Smoothwall, Dragora, Linspire, Secure-K OS, Peach OSI, Photon, Plamo, SuperX, Bicom, Ploplinux, HP SPP, LliureX, Freespire, DietPi, BOSS, Webconverger, Lunar, TENS, Source Mage, RancherOS, T2, Vine, Pisi, blackPanther, mAid, Acronis, Active.Boot, AOMEI, Boot.Repair, CAINE, DaRT, EasyUEFI, R-Drive, PrimeOS, Avira Rescue System, bitdefender, Checkra1n Linux, Lenovo Diagnostics, Clover, Bliss-OS, Lenovo BIOS Update, Arcabit Rescue Disk, MiyoLinux, TeLOS, Kerio Control, RED OS, OpenWrt, MocaccinoOS, EasyStartup, Pyabr, Refracta, Eset SysRescue, Linpack Xtreme, Archcraft, NHVBOOT, pearOS, SeaTools, Easy Recovery Essentional, iKuai, StorageCraft SCRE, ZFSBootMenu, TROMjaro, BunsenLabs, Todo en Uno, ChallengerOS, Nobara, Holo, ......
|
||||
Debian, Ubuntu, CentOS(6/7/8/9), RHEL(6/7/8/9), Deepin, Fedora, Rocky Linux, AlmaLinux, EuroLinux(6/7/8/9), openEuler, OpenAnolis, SLES, openSUSE, MX Linux, Manjaro, Linux Mint, Endless OS, Elementary OS, Solus, Linx, Zorin, antiX, PClinuxOS, Arch, ArcoLinux, ArchLabs, BlackArch, Obarun, Artix Linux, Puppy Linux, Tails, Slax, Kali, Mageia, Slackware, Q4OS, Archman, Gentoo, Pentoo, NixOS, Kylin, openKylin, Ubuntu Kylin, Lubuntu, Xubuntu, Kubuntu, Ubuntu MATE, Ubuntu Budgie, Ubuntu Studio, Bluestar, OpenMandriva, ExTiX, Netrunner, ALT Linux, Nitrux, Peppermint, KDE neon, Linux Lite, Parrot OS, Qubes, Pop OS, ROSA, Void Linux, Star Linux, EndeavourOS, MakuluLinux, Voyager, Feren, ArchBang, LXLE, Knoppix, Calculate Linux, Clear Linux, Pure OS, Oracle Linux, Trident, Septor, Porteus, Devuan, GoboLinux, 4MLinux, Simplicity Linux, Zeroshell, Android-x86, netboot.xyz, Slitaz, SuperGrub2Disk, Proxmox VE, Kaspersky Rescue, SystemRescueCD, MemTest86, MemTest86+, MiniTool Partition Wizard, Parted Magic, veket, Sabayon, Scientific, alpine, ClearOS, CloneZilla, Berry Linux, Trisquel, Ataraxia Linux, Minimal Linux Live, BackBox Linux, Emmabuntüs, ESET SysRescue Live,Nova Linux, AV Linux, RoboLinux, NuTyX, IPFire, SELKS, ZStack, Enso Linux, Security Onion, Network Security Toolkit, Absolute Linux, TinyCore, Springdale Linux, Frost Linux, Shark Linux, LinuxFX, Snail Linux, Astra Linux, Namib Linux, Resilient Linux, Virage Linux, Blackweb Security OS, R-DriveImage, O-O.DiskImage, Macrium, ToOpPy LINUX, GNU Guix, YunoHost, foxclone, siduction, Adelie Linux, Elive, Pardus, CDlinux, AcademiX, Austrumi, Zenwalk, Anarchy, DuZeru, BigLinux, OpenMediaVault, Ubuntu DP, Exe GNU/Linux, 3CX Phone System, KANOTIX, Grml, Karoshi, PrimTux, ArchStrike, CAELinux, Cucumber, Fatdog, ForLEx, Hanthana, Kwort, MiniNo, Redcore, Runtu, Asianux, Clu Linux Live, Uruk, OB2D, BlueOnyx, Finnix, HamoniKR, Parabola, LinHES, LinuxConsole, BEE free, Untangle, Pearl, Thinstation, TurnKey, tuxtrans, Neptune, HefftorLinux, GeckoLinux, Mabox Linux, Zentyal, Maui, Reborn OS, SereneLinux , SkyWave Linux, Kaisen Linux, Regata OS, TROM-Jaro, DRBL Linux, Chalet OS, Chapeau, Desa OS, BlankOn, OpenMamba, Frugalware, Kibojoe Linux, Revenge OS, Tsurugi Linux, Drauger OS, Hash Linux, gNewSense, Ikki Boot, SteamOS, Hyperbola, VyOS, EasyNAS, SuperGamer, Live Raizo, Swift Linux, RebeccaBlackOS, Daphile, CRUX, Univention, Ufficio Zero, Rescuezilla, Phoenix OS, Garuda Linux, Mll, NethServer, OSGeoLive, Easy OS, Volumio, FreedomBox, paldo, UBOS, Recalbox, batocera, Lakka, LibreELEC, Pardus Topluluk, Pinguy, KolibriOS, Elastix, Arya, Omoikane, Omarine, Endian Firewall, Hamara, Rocks Cluster, MorpheusArch, Redo, Slackel, SME Server, APODIO, Smoothwall, Dragora, Linspire, Secure-K OS, Peach OSI, Photon, Plamo, SuperX, Bicom, Ploplinux, HP SPP, LliureX, Freespire, DietPi, BOSS, Webconverger, Lunar, TENS, Source Mage, RancherOS, T2, Vine, Pisi, blackPanther, mAid, Acronis, Active.Boot, AOMEI, Boot.Repair, CAINE, DaRT, EasyUEFI, R-Drive, PrimeOS, Avira Rescue System, bitdefender, Checkra1n Linux, Lenovo Diagnostics, Clover, Bliss-OS, Lenovo BIOS Update, Arcabit Rescue Disk, MiyoLinux, TeLOS, Kerio Control, RED OS, OpenWrt, MocaccinoOS, EasyStartup, Pyabr, Refracta, Eset SysRescue, Linpack Xtreme, Archcraft, NHVBOOT, pearOS, SeaTools, Easy Recovery Essentional, iKuai, StorageCraft SCRE, ZFSBootMenu, TROMjaro, BunsenLabs, Todo en Uno, ChallengerOS, Nobara, Holo, CachyOS, ......
|
||||
|
||||
**Unix**
|
||||
DragonFly FreeBSD pfSense GhostBSD FreeNAS TrueNAS XigmaNAS FuryBSD OPNsense HardenedBSD MidnightBSD ClonOS EmergencyBootKit
|
||||
|
|
Loading…
Reference in New Issue