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423 lines (344 loc) · 14.1 KB
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/*
+----------------------------------------------------------------------+
| Copyright (c) The PHP Group |
+----------------------------------------------------------------------+
| This source file is subject to version 3.01 of the PHP license, |
| that is bundled with this package in the file LICENSE, and is |
| available through the world-wide-web at the following url: |
| https://www.php.net/license/3_01.txt |
| If you did not receive a copy of the PHP license and are unable to |
| obtain it through the world-wide-web, please send a note to |
| license@php.net so we can mail you a copy immediately. |
+----------------------------------------------------------------------+
| Authors: Máté Kocsis <kocsismate@php.net> |
+----------------------------------------------------------------------+
*/
#include "php.h"
#include "php_uriparser.h"
#include "php_uri_common.h"
#include "Zend/zend_smart_str.h"
#include "Zend/zend_exceptions.h"
static void uriparser_free_uri(void *uri);
static void throw_invalid_uri_exception(void);
static void *uriparser_malloc(UriMemoryManager *memory_manager, size_t size)
{
return emalloc(size);
}
static void *uriparser_calloc(UriMemoryManager *memory_manager, size_t nmemb, size_t size)
{
return ecalloc(nmemb, size);
}
static void *uriparser_realloc(UriMemoryManager *memory_manager, void *ptr, size_t size)
{
return erealloc(ptr, size);
}
static void *uriparser_reallocarray(UriMemoryManager *memory_manager, void *ptr, size_t nmemb, size_t size)
{
return safe_erealloc(ptr, nmemb, size, 0);
}
static void uriparser_free(UriMemoryManager *memory_manager, void *ptr)
{
efree(ptr);
}
static const UriMemoryManager uriparser_mm = {
.malloc = uriparser_malloc,
.calloc = uriparser_calloc,
.realloc = uriparser_realloc,
.reallocarray = uriparser_reallocarray,
.free = uriparser_free,
.userData = NULL,
};
/* The library expects a pointer to a non-const UriMemoryManager, but does
* not actually modify it (and neither does our implementation). Use a
* const struct with a non-const pointer for convenience. */
static UriMemoryManager* const mm = (UriMemoryManager*)&uriparser_mm;
static inline size_t get_text_range_length(const UriTextRangeA *range)
{
return range->afterLast - range->first;
}
ZEND_ATTRIBUTE_NONNULL static void uriparser_copy_uri(UriUriA *new_uriparser_uri, const UriUriA *uriparser_uri)
{
int result = uriCopyUriMmA(new_uriparser_uri, uriparser_uri, mm);
ZEND_ASSERT(result == URI_SUCCESS);
}
ZEND_ATTRIBUTE_NONNULL static UriUriA *get_normalized_uri(uriparser_uris_t *uriparser_uris) {
if (!uriparser_uris->normalized_uri_initialized) {
uriparser_copy_uri(&uriparser_uris->normalized_uri, &uriparser_uris->uri);
int result = uriNormalizeSyntaxExMmA(&uriparser_uris->normalized_uri, (unsigned int)-1, mm);
ZEND_ASSERT(result == URI_SUCCESS);
uriparser_uris->normalized_uri_initialized = true;
}
return &uriparser_uris->normalized_uri;
}
ZEND_ATTRIBUTE_NONNULL static UriUriA *uriparser_read_uri(uriparser_uris_t *uriparser_uris, uri_component_read_mode_t read_mode)
{
switch (read_mode) {
case URI_COMPONENT_READ_RAW:
return &uriparser_uris->uri;
case URI_COMPONENT_READ_NORMALIZED_ASCII:
ZEND_FALLTHROUGH;
case URI_COMPONENT_READ_NORMALIZED_UNICODE:
return get_normalized_uri(uriparser_uris);
EMPTY_SWITCH_DEFAULT_CASE()
}
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_scheme(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->scheme.first != NULL && uriparser_uri->scheme.afterLast != NULL) {
zend_string *str = zend_string_init(uriparser_uri->scheme.first, get_text_range_length(&uriparser_uri->scheme), false);
ZVAL_NEW_STR(retval, str);
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL zend_result uriparser_read_userinfo(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->userInfo.first != NULL && uriparser_uri->userInfo.afterLast != NULL) {
ZVAL_STRINGL(retval, uriparser_uri->userInfo.first, get_text_range_length(&uriparser_uri->userInfo));
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_username(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->userInfo.first != NULL && uriparser_uri->userInfo.afterLast != NULL) {
size_t length = get_text_range_length(&uriparser_uri->userInfo);
const char *c = memchr(uriparser_uri->userInfo.first, ':', length);
if (c == NULL && length > 0) {
ZVAL_STRINGL(retval, uriparser_uri->userInfo.first, length);
} else if (c != NULL && c - uriparser_uri->userInfo.first > 0) {
ZVAL_STRINGL(retval, uriparser_uri->userInfo.first, c - uriparser_uri->userInfo.first);
} else {
ZVAL_NULL(retval);
}
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_password(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->userInfo.first != NULL && uriparser_uri->userInfo.afterLast != NULL) {
const char *c = memchr(uriparser_uri->userInfo.first, ':', get_text_range_length(&uriparser_uri->userInfo));
if (c != NULL && uriparser_uri->userInfo.afterLast - c - 1 > 0) {
ZVAL_STRINGL(retval, c + 1, uriparser_uri->userInfo.afterLast - c - 1);
} else {
ZVAL_NULL(retval);
}
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_host(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->hostText.first != NULL && uriparser_uri->hostText.afterLast != NULL && get_text_range_length(&uriparser_uri->hostText) > 0) {
if (uriparser_uri->hostData.ip6 != NULL || uriparser_uri->hostData.ipFuture.first != NULL) {
/* the textual representation of the host is always accessible in the .hostText field no matter what the host is */
smart_str host_str = {0};
smart_str_appendc(&host_str, '[');
smart_str_appendl(&host_str, uriparser_uri->hostText.first, get_text_range_length(&uriparser_uri->hostText));
smart_str_appendc(&host_str, ']');
ZVAL_NEW_STR(retval, smart_str_extract(&host_str));
} else {
ZVAL_STRINGL(retval, uriparser_uri->hostText.first, get_text_range_length(&uriparser_uri->hostText));
}
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL static size_t str_to_int(const char *str, size_t len)
{
size_t result = 0;
for (size_t i = 0; i < len; ++i) {
result = result * 10 + (str[i] - '0');
}
return result;
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_port(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->portText.first != NULL && uriparser_uri->portText.afterLast != NULL) {
ZVAL_LONG(retval, str_to_int(uriparser_uri->portText.first, get_text_range_length(&uriparser_uri->portText)));
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_path(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->pathHead != NULL) {
smart_str str = {0};
if (uriparser_uri->absolutePath || uriHasHostA(uriparser_uri)) {
smart_str_appendc(&str, '/');
}
for (const UriPathSegmentA *p = uriparser_uri->pathHead; p; p = p->next) {
smart_str_appendl(&str, p->text.first, get_text_range_length(&p->text));
if (p->next) {
smart_str_appendc(&str, '/');
}
}
ZVAL_NEW_STR(retval, smart_str_extract(&str));
} else if (uriparser_uri->absolutePath) {
ZVAL_CHAR(retval, '/');
} else {
ZVAL_EMPTY_STRING(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_query(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->query.first != NULL && uriparser_uri->query.afterLast != NULL) {
ZVAL_STRINGL(retval, uriparser_uri->query.first, get_text_range_length(&uriparser_uri->query));
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
ZEND_ATTRIBUTE_NONNULL static zend_result uriparser_read_fragment(const uri_internal_t *internal_uri, uri_component_read_mode_t read_mode, zval *retval)
{
UriUriA *uriparser_uri = uriparser_read_uri(internal_uri->uri, read_mode);
ZEND_ASSERT(uriparser_uri != NULL);
if (uriparser_uri->fragment.first != NULL && uriparser_uri->fragment.afterLast != NULL) {
ZVAL_STRINGL(retval, uriparser_uri->fragment.first, get_text_range_length(&uriparser_uri->fragment));
} else {
ZVAL_NULL(retval);
}
return SUCCESS;
}
PHP_MINIT_FUNCTION(uri_uriparser)
{
if (uri_handler_register(&uriparser_uri_handler) == FAILURE) {
return FAILURE;
}
return SUCCESS;
}
static uriparser_uris_t *uriparser_create_uris(void)
{
uriparser_uris_t *uriparser_uris = ecalloc(1, sizeof(*uriparser_uris));
uriparser_uris->normalized_uri_initialized = false;
return uriparser_uris;
}
static void throw_invalid_uri_exception(void)
{
zend_throw_exception(uri_invalid_uri_exception_ce, "The specified URI is malformed", 0);
}
#define PARSE_URI(dest_uri, uri_str, uriparser_uris, silent) \
do { \
if (ZSTR_LEN(uri_str) == 0 || \
uriParseSingleUriExMmA(dest_uri, ZSTR_VAL(uri_str), ZSTR_VAL(uri_str) + ZSTR_LEN(uri_str), NULL, mm) != URI_SUCCESS \
) { \
efree(uriparser_uris); \
if (!silent) { \
throw_invalid_uri_exception(); \
} \
return NULL; \
} \
} while (0)
void *uriparser_parse_uri_ex(const zend_string *uri_str, const uriparser_uris_t *uriparser_base_urls, bool silent)
{
uriparser_uris_t *uriparser_uris = uriparser_create_uris();
if (uriparser_base_urls == NULL) {
PARSE_URI(&uriparser_uris->uri, uri_str, uriparser_uris, silent);
uriMakeOwnerMmA(&uriparser_uris->uri, mm);
} else {
UriUriA uri;
PARSE_URI(&uri, uri_str, uriparser_uris, silent);
if (uriAddBaseUriExMmA(&uriparser_uris->uri, &uri, &uriparser_base_urls->uri, URI_RESOLVE_STRICTLY, mm) != URI_SUCCESS) {
efree(uriparser_uris);
uriFreeUriMembersMmA(&uri, mm);
if (!silent) {
throw_invalid_uri_exception();
}
return NULL;
}
uriMakeOwnerMmA(&uriparser_uris->uri, mm);
uriFreeUriMembersMmA(&uri, mm);
}
return uriparser_uris;
}
void *uriparser_parse_uri(const zend_string *uri_str, const void *base_url, zval *errors, bool silent)
{
return uriparser_parse_uri_ex(uri_str, base_url, silent);
}
/* TODO make the clone handler accept a flag to distinguish between clone() calls and withers.
* When calling a wither successfully, the normalized URI is surely invalidated, therefore
* it doesn't make sense to copy it. In case of failure, an exception is thrown, and the URI object
* is discarded altogether. */
ZEND_ATTRIBUTE_NONNULL static void *uriparser_clone_uri(void *uri)
{
uriparser_uris_t *uriparser_uris = uri;
uriparser_uris_t *new_uriparser_uris = uriparser_create_uris();
uriparser_copy_uri(&new_uriparser_uris->uri, &uriparser_uris->uri);
if (uriparser_uris->normalized_uri_initialized) {
uriparser_copy_uri(&new_uriparser_uris->normalized_uri, &uriparser_uris->normalized_uri);
new_uriparser_uris->normalized_uri_initialized = true;
}
return new_uriparser_uris;
}
ZEND_ATTRIBUTE_NONNULL static zend_string *uriparser_uri_to_string(void *uri, uri_recomposition_mode_t recomposition_mode, bool exclude_fragment)
{
uriparser_uris_t *uriparser_uris = uri;
UriUriA *uriparser_uri;
if (recomposition_mode == URI_RECOMPOSITION_RAW_ASCII || recomposition_mode == URI_RECOMPOSITION_RAW_UNICODE) {
uriparser_uri = &uriparser_uris->uri;
} else {
uriparser_uri = get_normalized_uri(uriparser_uris);
}
int charsRequired = 0;
int result = uriToStringCharsRequiredA(uriparser_uri, &charsRequired);
ZEND_ASSERT(result == URI_SUCCESS);
charsRequired++;
zend_string *uri_string = zend_string_alloc(charsRequired - 1, false);
result = uriToStringA(ZSTR_VAL(uri_string), uriparser_uri, charsRequired, NULL);
ZEND_ASSERT(result == URI_SUCCESS);
if (exclude_fragment) {
const char *pos = zend_memrchr(ZSTR_VAL(uri_string), '#', ZSTR_LEN(uri_string));
if (pos != NULL) {
uri_string = zend_string_truncate(uri_string, (pos - ZSTR_VAL(uri_string)), false);
}
}
return uri_string;
}
ZEND_ATTRIBUTE_NONNULL static void uriparser_free_uri(void *uri)
{
uriparser_uris_t *uriparser_uris = uri;
uriFreeUriMembersMmA(&uriparser_uris->uri, mm);
uriFreeUriMembersMmA(&uriparser_uris->normalized_uri, mm);
efree(uriparser_uris);
}
const uri_handler_t uriparser_uri_handler = {
.name = URI_PARSER_RFC3986,
.parse_uri = uriparser_parse_uri,
.clone_uri = uriparser_clone_uri,
.uri_to_string = uriparser_uri_to_string,
.free_uri = uriparser_free_uri,
{
.scheme = {.read_func = uriparser_read_scheme, .write_func = NULL},
.username = {.read_func = uriparser_read_username, .write_func = NULL},
.password = {.read_func = uriparser_read_password, .write_func = NULL},
.host = {.read_func = uriparser_read_host, .write_func = NULL},
.port = {.read_func = uriparser_read_port, .write_func = NULL},
.path = {.read_func = uriparser_read_path, .write_func = NULL},
.query = {.read_func = uriparser_read_query, .write_func = NULL},
.fragment = {.read_func = uriparser_read_fragment, .write_func = NULL},
}
};