YourWishes/jerryscript
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Add support for URI encoding / decoding.

Browse Source 
JerryScript-DCO-1.0-Signed-off-by: Zoltan Herczeg zherczeg@inf.u-szeged.hu
This commit is contained in:
Zoltan Herczeg
2015-06-17 06:25:49 -07:00
committed by Peter Gal
parent 53156771dc
commit 6027906f96
2 changed files with 616 additions and 8 deletions
Download Patch File Download Diff File Expand all files Collapse all files
jerry-core/ecma/builtin-objects/ecma-builtin-global.cpp
+505 -8
View File
@@ -1,4 +1,5 @@
/* Copyright 2014-2015 Samsung Electronics Co., Ltd.
* Copyright 2015 University of Szeged
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
@@ -17,6 +18,7 @@
#include "ecma-builtins.h"
#include "ecma-conversion.h"
#include "ecma-eval.h"
#include "ecma-exceptions.h"
#include "ecma-gc.h"
#include "ecma-globals.h"
#include "ecma-helpers.h"
@@ -480,6 +482,336 @@ ecma_builtin_global_object_is_finite (ecma_value_t this_arg __attr_unused___, /*
return ret_value;
} /* ecma_builtin_global_object_is_finite */
/**
* Helper function to check whether a character is in a character bitset.
*
* @return true if the character is in the character bitset.
*/
static bool
ecma_builtin_global_object_character_is_in (uint32_t character, /**< character */
uint8_t *bitset) /**< character set */
{
JERRY_ASSERT (character < 128);
return (bitset[character >> 3] & (1 << (character & 0x7))) != 0;
} /* ecma_builtin_global_object_character_is_in */
/*
* Unescaped URI characters bitset:
* One bit for each character between 0 - 127.
* Bit is set if the character is in the unescaped URI set.
*/
static uint8_t unescaped_uri_set[16] =
{
0x0, 0x0, 0x0, 0x0, 0xda, 0xff, 0xff, 0xaf,
0xff, 0xff, 0xff, 0x87, 0xfe, 0xff, 0xff, 0x47
};
/*
* Unescaped URI component characters bitset:
* One bit for each character between 0 - 127.
* Bit is set if the character is in the unescaped component URI set.
*/
static uint8_t unescaped_uri_component_set[16] =
{
0x0, 0x0, 0x0, 0x0, 0x82, 0x67, 0xff, 0x3,
0xfe, 0xff, 0xff, 0x87, 0xfe, 0xff, 0xff, 0x47
};
#define ECMA_BUILTIN_HEX_TO_BYTE_ERROR 0x100
/**
* Helper function to decode a hexadecimal byte from a string.
*
* @return the decoded byte value
* It returns with ECMA_BUILTIN_HEX_TO_BYTE_ERROR if a parse error is occured.
*/
static uint32_t
ecma_builtin_global_object_hex_to_byte (ecma_char_t *source_p) /**< source string */
{
uint32_t decoded_byte = 0;
/*
* Zero terminated string, so length check is not needed.
*/
if (*source_p != '%')
{
return ECMA_BUILTIN_HEX_TO_BYTE_ERROR;
}
for (int i = 0; i < 2; i++)
{
source_p++;
decoded_byte <<= 4;
if (*source_p >= '0' && *source_p <= '9')
{
decoded_byte |= (uint32_t) (*source_p - '0');
}
else if (*source_p >= 'a' && *source_p <= 'f')
{
decoded_byte |= (uint32_t) (*source_p - ('a' - 10));
}
else if (*source_p >= 'A' && *source_p <= 'F')
{
decoded_byte |= (uint32_t) (*source_p - ('A' - 10));
}
else
{
return ECMA_BUILTIN_HEX_TO_BYTE_ERROR;
}
}
return decoded_byte;
} /* ecma_builtin_global_object_hex_to_byte */
/**
* Helper function to decode URI.
*
* @return completion value
* Returned value must be freed with ecma_free_completion_value.
*/
static ecma_completion_value_t
ecma_builtin_global_object_decode_uri_helper (ecma_value_t uri __attr_unused___, /**< uri argument */
uint8_t *reserved_uri_bitset) /**< reserved characters bitset */
{
ecma_completion_value_t ret_value = ecma_make_empty_completion_value ();
ECMA_TRY_CATCH (string,
ecma_op_to_string (uri),
ret_value);
JERRY_ASSERT (ecma_is_value_string (string));
ecma_string_t *input_string_p = ecma_get_string_from_value (string);
uint32_t input_length = (uint32_t) ecma_string_get_length (input_string_p);
MEM_DEFINE_LOCAL_ARRAY (input_start_p,
input_length + 1,
ecma_char_t);
ecma_string_to_zt_string (input_string_p,
input_start_p,
(ssize_t) (input_length + 1) * (ssize_t) sizeof (ecma_char_t));
ecma_char_t *input_char_p = input_start_p;
ecma_char_t *input_end_p = input_start_p + input_length;
uint32_t output_length = 1;
/*
* The URI decoding has two major phases: first we validate the input,
* and compute the length of the output, then we decode the input.
*/
while (input_char_p < input_end_p)
{
/* Input validation. */
if (*input_char_p != '%')
{
output_length++;
input_char_p++;
continue;
}
uint32_t decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p);
if (decoded_byte == ECMA_BUILTIN_HEX_TO_BYTE_ERROR)
{
ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI));
break;
}
input_char_p += 3;
if (decoded_byte <= 0x7f)
{
/*
* We don't decode those bytes, which are part of reserved_uri_bitset
* but not part of unescaped_uri_component_set.
*/
if (ecma_builtin_global_object_character_is_in (decoded_byte, reserved_uri_bitset)
&& !ecma_builtin_global_object_character_is_in (decoded_byte, unescaped_uri_component_set))
{
output_length += 3;
}
else
{
output_length++;
}
}
else if (decoded_byte < 0xc0 || decoded_byte >= 0xf8)
{
/*
* Invalid UTF-8 starting bytes:
* 10xx xxxx - UTF continuation byte
* 1111 1xxx - maximum length is 4 bytes
*/
ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI));
break;
}
else
{
uint32_t count;
uint32_t min;
uint32_t character;
if (decoded_byte < 0xe0)
{
count = 1;
min = 0x80;
character = decoded_byte & 0x1f;
}
else if (decoded_byte < 0xf0)
{
count = 2;
min = 0x800;
character = decoded_byte & 0x0f;
}
else
{
count = 3;
min = 0x1000;
character = decoded_byte & 0x07;
}
do
{
decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p);
if (decoded_byte == ECMA_BUILTIN_HEX_TO_BYTE_ERROR
|| (decoded_byte & 0xc0) != 0x80)
{
break;
}
character = (character << 6) + (decoded_byte & 0x3f);
input_char_p += 3;
}
while (--count > 0);
if (count != 0
/*
* Explanation of the character < min check: according to
* the UTF standard, each character must be encoded
* with the minimum amount of bytes. We need to reject
* those characters, which does not satisfy this condition.
*/
|| character < min
/*
* Not allowed character ranges.
*/
|| character > 0x10ffff
|| (character >= 0xd800 && character <= 0xdfff))
{
ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI));
break;
}
output_length += (character <= 0xffff) ? 1 : 2;
}
}
if (ecma_is_completion_value_empty (ret_value))
{
MEM_DEFINE_LOCAL_ARRAY (output_start_p,
output_length,
ecma_char_t);
input_char_p = input_start_p;
ecma_char_t *output_char_p = output_start_p;
while (input_char_p < input_end_p)
{
/* Input decode. */
if (*input_char_p != '%')
{
*output_char_p = *input_char_p;
output_char_p++;
input_char_p++;
continue;
}
uint32_t decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p);
input_char_p += 3;
if (decoded_byte <= 0x7f)
{
if (ecma_builtin_global_object_character_is_in (decoded_byte, reserved_uri_bitset)
&& !ecma_builtin_global_object_character_is_in (decoded_byte, unescaped_uri_component_set))
{
*output_char_p = '%';
output_char_p++;
input_char_p -= 2;
}
else
{
*output_char_p = (ecma_char_t) decoded_byte;
output_char_p++;
}
}
else
{
uint32_t count;
uint32_t character;
/* The validator already checked this before. */
JERRY_ASSERT (decoded_byte >= 0xc0 && decoded_byte < 0xf8);
if (decoded_byte < 0xe0)
{
count = 1;
character = decoded_byte & 0x1f;
}
else if (decoded_byte < 0xf0)
{
count = 2;
character = decoded_byte & 0x0f;
}
else
{
count = 3;
character = decoded_byte & 0x07;
}
do
{
decoded_byte = ecma_builtin_global_object_hex_to_byte (input_char_p);
JERRY_ASSERT (decoded_byte != ECMA_BUILTIN_HEX_TO_BYTE_ERROR
&& (decoded_byte & 0xc0) == 0x80);
character = (character << 6) + (decoded_byte & 0x3f);
input_char_p += 3;
}
while (--count > 0);
if (character < 0x10000)
{
*output_char_p = (ecma_char_t) character;
output_char_p++;
}
else
{
character -= 0x10000;
*output_char_p = (ecma_char_t) (0xd800 | (character & 0x3ff));
output_char_p++;
*output_char_p = (ecma_char_t) (0xdc00 | (character >> 10));
output_char_p++;
}
}
}
*output_char_p = '\0';
JERRY_ASSERT (output_start_p + output_length == output_char_p + 1);
ecma_string_t *output_string_p = ecma_new_ecma_string (output_start_p);
ret_value = ecma_make_normal_completion_value (ecma_make_string_value (output_string_p));
MEM_FINALIZE_LOCAL_ARRAY (output_start_p);
}
MEM_FINALIZE_LOCAL_ARRAY (input_start_p);
ECMA_FINALIZE (string);
return ret_value;
} /* ecma_builtin_global_object_decode_uri_helper */
/**
* The Global object's 'decodeURI' routine
*
@@ -490,10 +822,10 @@ ecma_builtin_global_object_is_finite (ecma_value_t this_arg __attr_unused___, /*
* Returned value must be freed with ecma_free_completion_value.
*/
static ecma_completion_value_t
ecma_builtin_global_object_decode_uri (ecma_value_t this_arg, /**< this argument */
ecma_builtin_global_object_decode_uri (ecma_value_t this_arg __attr_unused___, /**< this argument */
ecma_value_t encoded_uri) /**< routine's first argument */
{
ECMA_BUILTIN_CP_UNIMPLEMENTED (this_arg, encoded_uri);
return ecma_builtin_global_object_decode_uri_helper (encoded_uri, unescaped_uri_set);
} /* ecma_builtin_global_object_decode_uri */
/**
@@ -506,13 +838,178 @@ ecma_builtin_global_object_decode_uri (ecma_value_t this_arg, /**< this argument
* Returned value must be freed with ecma_free_completion_value.
*/
static ecma_completion_value_t
ecma_builtin_global_object_decode_uri_component (ecma_value_t this_arg, /**< this argument */
ecma_builtin_global_object_decode_uri_component (ecma_value_t this_arg __attr_unused___, /**< this argument */
ecma_value_t encoded_uri_component) /**< routine's
* first argument */
{
ECMA_BUILTIN_CP_UNIMPLEMENTED (this_arg, encoded_uri_component);
return ecma_builtin_global_object_decode_uri_helper (encoded_uri_component, unescaped_uri_component_set);
} /* ecma_builtin_global_object_decode_uri_component */
/**
* Helper function to encode byte as hexadecimal values.
*/
static void
ecma_builtin_global_object_byte_to_hex (ecma_char_t *dest_p, /**< destination pointer */
uint32_t byte) /**< value */
{
JERRY_ASSERT (byte < 256);
dest_p[0] = '%';
ecma_char_t hex_digit = (ecma_char_t) (byte >> 4);
dest_p[1] = (ecma_char_t) ((hex_digit > 9) ? (hex_digit + ('A' - 10)) : (hex_digit + '0'));
hex_digit = (ecma_char_t) (byte & 0xf);
dest_p[2] = (ecma_char_t) ((hex_digit > 9) ? (hex_digit + ('A' - 10)) : (hex_digit + '0'));
} /* ecma_builtin_global_object_byte_to_hex */
/**
* Helper function to encode URI.
*
* @return completion value
* Returned value must be freed with ecma_free_completion_value.
*/
static ecma_completion_value_t
ecma_builtin_global_object_encode_uri_helper (ecma_value_t uri, /**< uri argument */
uint8_t* unescaped_uri_bitset) /**< unescaped bitset */
{
ecma_completion_value_t ret_value = ecma_make_empty_completion_value ();
ECMA_TRY_CATCH (string,
ecma_op_to_string (uri),
ret_value);
JERRY_ASSERT (ecma_is_value_string (string));
ecma_string_t *input_string_p = ecma_get_string_from_value (string);
uint32_t input_length = (uint32_t) ecma_string_get_length (input_string_p);
MEM_DEFINE_LOCAL_ARRAY (input_start_p,
input_length + 1,
ecma_char_t);
ecma_string_to_zt_string (input_string_p,
input_start_p,
(ssize_t) (input_length + 1) * (ssize_t) sizeof (ecma_char_t));
/*
* The URI encoding has two major phases: first we validate the input,
* and compute the length of the output, then we encode the input.
*/
ecma_char_t *input_char_p = input_start_p;
uint32_t output_length = 1;
for (uint32_t i = 0; i < input_length; i++)
{
/* Input validation. */
uint32_t character = *input_char_p++;
if (character <= 0x7f)
{
if (ecma_builtin_global_object_character_is_in (character, unescaped_uri_bitset))
{
output_length++;
}
else
{
output_length += 3;
}
}
else if (character <= 0x7ff)
{
output_length += 6;
}
else if (character <= 0xffff)
{
if (character >= 0xd800 && character <= 0xdfff)
{
ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI));
break;
}
else
{
output_length += 9;
}
}
else if (character <= 0x10ffff)
{
output_length += 12;
}
else
{
ret_value = ecma_make_throw_obj_completion_value (ecma_new_standard_error (ECMA_ERROR_URI));
break;
}
}
if (ecma_is_completion_value_empty (ret_value))
{
MEM_DEFINE_LOCAL_ARRAY (output_start_p,
output_length,
ecma_char_t);
input_char_p = input_start_p;
ecma_char_t *output_char_p = output_start_p;
for (uint32_t i = 0; i < input_length; i++)
{
/* Input decode. */
uint32_t character = *input_char_p++;
if (character <= 0x7f)
{
if (ecma_builtin_global_object_character_is_in (character, unescaped_uri_bitset))
{
*output_char_p++ = (ecma_char_t) character;
}
else
{
ecma_builtin_global_object_byte_to_hex (output_char_p, character);
output_char_p += 3;
}
}
else if (character <= 0x7ff)
{
ecma_builtin_global_object_byte_to_hex (output_char_p, 0xc0 | (character >> 6));
output_char_p += 3;
ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | (character & 0x3f));
output_char_p += 3;
}
else if (character <= 0xffff)
{
ecma_builtin_global_object_byte_to_hex (output_char_p, 0xe0 | (character >> 12));
output_char_p += 3;
ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | ((character >> 6) & 0x3f));
output_char_p += 3;
ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | (character & 0x3f));
output_char_p += 3;
}
else
{
ecma_builtin_global_object_byte_to_hex (output_char_p, 0xf0 | (character >> 18));
output_char_p += 3;
ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | ((character >> 12) & 0x3f));
output_char_p += 3;
ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | ((character >> 6) & 0x3f));
output_char_p += 3;
ecma_builtin_global_object_byte_to_hex (output_char_p, 0x80 | (character & 0x3f));
output_char_p += 3;
}
}
*output_char_p = '\0';
JERRY_ASSERT (output_start_p + output_length == output_char_p + 1);
ecma_string_t *output_string_p = ecma_new_ecma_string (output_start_p);
ret_value = ecma_make_normal_completion_value (ecma_make_string_value (output_string_p));
MEM_FINALIZE_LOCAL_ARRAY (output_start_p);
}
MEM_FINALIZE_LOCAL_ARRAY (input_start_p);
ECMA_FINALIZE (string);
return ret_value;
} /* ecma_builtin_global_object_encode_uri_helper */
/**
* The Global object's 'encodeURI' routine
*
@@ -523,10 +1020,10 @@ ecma_builtin_global_object_decode_uri_component (ecma_value_t this_arg, /**< thi
* Returned value must be freed with ecma_free_completion_value.
*/
static ecma_completion_value_t
ecma_builtin_global_object_encode_uri (ecma_value_t this_arg, /**< this argument */
ecma_builtin_global_object_encode_uri (ecma_value_t this_arg __attr_unused___, /**< this argument */
ecma_value_t uri) /**< routine's first argument */
{
ECMA_BUILTIN_CP_UNIMPLEMENTED (this_arg, uri);
return ecma_builtin_global_object_encode_uri_helper (uri, unescaped_uri_set);
} /* ecma_builtin_global_object_encode_uri */
/**
@@ -539,10 +1036,10 @@ ecma_builtin_global_object_encode_uri (ecma_value_t this_arg, /**< this argument
* Returned value must be freed with ecma_free_completion_value.
*/
static ecma_completion_value_t
ecma_builtin_global_object_encode_uri_component (ecma_value_t this_arg, /**< this argument */
ecma_builtin_global_object_encode_uri_component (ecma_value_t this_arg __attr_unused___, /**< this argument */
ecma_value_t uri_component) /**< routine's first argument */
{
ECMA_BUILTIN_CP_UNIMPLEMENTED (this_arg, uri_component);
return ecma_builtin_global_object_encode_uri_helper (uri_component, unescaped_uri_component_set);
} /* ecma_builtin_global_object_encode_uri_component */
/**