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/**
* @file Uri.cpp
*
* This module contains the implementation of the Uri::Uri class.
*
* © 2018 by Richard Walters
*/
#include "CharacterSet.hpp"
#include "NormalizeCaseInsensitiveString.hpp"
#include "PercentEncodedCharacterDecoder.hpp"
#include <algorithm>
#include <functional>
#include <inttypes.h>
#include <memory>
#include <string>
#include <Uri/Uri.hpp>
#include <vector>
namespace {
/**
* This is the character set containing just the alphabetic characters
* from the ASCII character set.
*/
const Uri::CharacterSet ALPHA{
Uri::CharacterSet('a', 'z'),
Uri::CharacterSet('A', 'Z')
};
/**
* This is the character set containing just numbers.
*/
const Uri::CharacterSet DIGIT('0', '9');
/**
* This is the character set containing just the characters allowed
* in a hexadecimal digit.
*/
const Uri::CharacterSet HEXDIG{
Uri::CharacterSet('0', '9'),
Uri::CharacterSet('A', 'F'),
Uri::CharacterSet('a', 'f')
};
/**
* This is the character set corresponds to the "unreserved" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986).
*/
const Uri::CharacterSet UNRESERVED{
ALPHA,
DIGIT,
'-', '.', '_', '~'
};
/**
* This is the character set corresponds to the "sub-delims" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986).
*/
const Uri::CharacterSet SUB_DELIMS{
'!', '$', '&', '\'', '(', ')',
'*', '+', ',', ';', '='
};
/**
* This is the character set corresponds to the second part
* of the "scheme" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986).
*/
const Uri::CharacterSet SCHEME_NOT_FIRST{
ALPHA,
DIGIT,
'+', '-', '.',
};
/**
* This is the character set corresponds to the "pchar" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986),
* leaving out "pct-encoded".
*/
const Uri::CharacterSet PCHAR_NOT_PCT_ENCODED{
UNRESERVED,
SUB_DELIMS,
':', '@'
};
/**
* This is the character set corresponds to the "query" syntax
* and the "fragment" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986),
* leaving out "pct-encoded".
*/
const Uri::CharacterSet QUERY_OR_FRAGMENT_NOT_PCT_ENCODED{
PCHAR_NOT_PCT_ENCODED,
'/', '?'
};
/**
* This is the character set corresponds to the "userinfo" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986),
* leaving out "pct-encoded".
*/
const Uri::CharacterSet USER_INFO_NOT_PCT_ENCODED{
UNRESERVED,
SUB_DELIMS,
':',
};
/**
* This is the character set corresponds to the "reg-name" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986),
* leaving out "pct-encoded".
*/
const Uri::CharacterSet REG_NAME_NOT_PCT_ENCODED{
UNRESERVED,
SUB_DELIMS
};
/**
* This is the character set corresponds to the last part of
* the "IPvFuture" syntax
* specified in RFC 3986 (https://tools.ietf.org/html/rfc3986).
*/
const Uri::CharacterSet IPV_FUTURE_LAST_PART{
UNRESERVED,
SUB_DELIMS,
':'
};
/**
* This function parses the given string as an unsigned 16-bit
* integer, detecting invalid characters, overflow, etc.
*
* @param[in] numberString
* This is the string containing the number to parse.
*
* @param[out] number
* This is where to store the number parsed.
*
* @return
* An indication of whether or not the number was parsed
* successfully is returned.
*/
bool ParseUint16(
const std::string& numberString,
uint16_t& number
) {
uint32_t numberIn32Bits = 0;
for (auto c: numberString) {
if (
(c < '0')
|| (c > '9')
) {
return false;
}
numberIn32Bits *= 10;
numberIn32Bits += (uint16_t)(c - '0');
if (
(numberIn32Bits & ~((1 << 16) - 1)) != 0
) {
return false;
}
}
number = (uint16_t)numberIn32Bits;
return true;
}
/**
* This function takes a given "stillPassing" strategy
* and invokes it on the sequence of characters in the given
* string, to check if the string passes or not.
*
* @param[in] candidate
* This is the string to test.
*
* @param[in] stillPassing
* This is the strategy to invoke in order to test the string.
*
* @return
* An indication of whether or not the given candidate string
* passes the test is returned.
*/
bool FailsMatch(
const std::string& candidate,
std::function< bool(char, bool) > stillPassing
) {
for (const auto c: candidate) {
if (!stillPassing(c, false)) {
return true;
}
}
return !stillPassing(' ', true);
}
/**
* This function returns a strategy function that
* may be used with the FailsMatch function to test a scheme
* to make sure it is legal according to the standard.
*
* @return
* A strategy function that may be used with the
* FailsMatch function to test a scheme to make sure
* it is legal according to the standard is returned.
*/
std::function< bool(char, bool) > LegalSchemeCheckStrategy() {
auto isFirstCharacter = std::make_shared< bool >(true);
return [isFirstCharacter](char c, bool end){
if (end) {
return !*isFirstCharacter;
} else {
bool check;
if (*isFirstCharacter) {
check = ALPHA.Contains(c);
} else {
check = SCHEME_NOT_FIRST.Contains(c);
}
*isFirstCharacter = false;
return check;
}
};
}
/**
* This method checks and decodes the given URI element.
* What we are calling a "URI element" is any part of the URI
* which is a sequence of characters that:
* - may be percent-encoded
* - if not percent-encoded, are in a restricted set of characters
*
* @param[in,out] element
* On input, this is the element to check and decode.
* On output, this is the decoded element.
*
* @param[in] allowedCharacters
* This is the set of characters that do not need to
* be percent-encoded.
*
* @return
* An indication of whether or not the element
* passed all checks and was decoded successfully is returned.
*/
bool DecodeElement(
std::string& element,
const Uri::CharacterSet& allowedCharacters
) {
const auto originalSegment = std::move(element);
element.clear();
bool decodingPec = false;
Uri::PercentEncodedCharacterDecoder pecDecoder;
for (const auto c: originalSegment) {
if (decodingPec) {
if (!pecDecoder.NextEncodedCharacter(c)) {
return false;
}
if (pecDecoder.Done()) {
decodingPec = false;
element.push_back((char)pecDecoder.GetDecodedCharacter());
}
} else if (c == '%') {
decodingPec = true;
pecDecoder = Uri::PercentEncodedCharacterDecoder();
} else {
if (allowedCharacters.Contains(c)) {
element.push_back(c);
} else {
return false;
}
}
}
return true;
}
/**
* This method checks and decodes the given query or fragment.
*
* @param[in,out] queryOrFragment
* On input, this is the query or fragment to check and decode.
* On output, this is the decoded query or fragment.
*
* @return
* An indication of whether or not the query or fragment
* passed all checks and was decoded successfully is returned.
*/
bool DecodeQueryOrFragment(std::string& queryOrFragment) {
return DecodeElement(
queryOrFragment,
QUERY_OR_FRAGMENT_NOT_PCT_ENCODED
);
}
}
namespace Uri {
/**
* This contains the private properties of a Uri instance.
*/
struct Uri::Impl {
// Properties
/**
* This is the "scheme" element of the URI.
*/
std::string scheme;
/**
* This is the "UserInfo" element of the URI.
*/
std::string userInfo;
/**
* This is the "host" element of the URI.
*/
std::string host;
/**
* This flag indicates whether or not the
* URI includes a port number.
*/
bool hasPort = false;
/**
* This is the port number element of the URI.
*/
uint16_t port = 0;
/**
* This is the "path" element of the URI,
* as a sequence of segments.
*/
std::vector< std::string > path;
/**
* This is the "query" element of the URI,
* if it has one.
*/
std::string query;
/**
* This is the "fragment" element of the URI,
* if it has one.
*/
std::string fragment;
// Methods
/**
* This method builds the internal path element sequence
* by parsing it from the given path string.
*
* @param[in] pathString
* This is the string containing the whole path of the URI.
*
* @return
* An indication if the path was parsed correctly or not
* is returned.
*/
bool ParsePath(std::string pathString) {
path.clear();
if (pathString == "/") {
// Special case of a path that is empty but needs a single
// empty-string element to indicate that it is absolute.
path.push_back("");
pathString.clear();
} else if (!pathString.empty()) {
for(;;) {
auto pathDelimiter = pathString.find('/');
if (pathDelimiter == std::string::npos) {
path.push_back(pathString);
pathString.clear();
break;
} else {
path.emplace_back(
pathString.begin(),
pathString.begin() + pathDelimiter
);
pathString = pathString.substr(pathDelimiter + 1);
}
}
}
for (auto& segment: path) {
if (!DecodeElement(segment, PCHAR_NOT_PCT_ENCODED)) {
return false;
}
}
return true;
}
/**
* This method parses the elements that make up the authority
* composite part of the URI, by parsing it from the given string.
*
* @param[in] authorityString
* This is the string containing the whole authority part
* of the URI.
*
* @return
* An indication if the path was parsed correctly or not
* is returned.
*/
bool ParseAuthority(const std::string& authorityString) {
/**
* These are the various states for the state machine implemented
* below to correctly split up and validate the URI substring
* containing the host and potentially a port number as well.
*/
enum class HostParsingState {
FIRST_CHARACTER,
NOT_IP_LITERAL,
PERCENT_ENCODED_CHARACTER,
IP_LITERAL,
IPV6_ADDRESS,
IPV_FUTURE_NUMBER,
IPV_FUTURE_BODY,
GARBAGE_CHECK,
PORT,
};
// Next, check if there is a UserInfo, and if so, extract it.
const auto userInfoDelimiter = authorityString.find('@');
std::string hostPortString;
userInfo.clear();
if (userInfoDelimiter == std::string::npos) {
hostPortString = authorityString;
} else {
userInfo = authorityString.substr(0, userInfoDelimiter);
if (!DecodeElement(userInfo, USER_INFO_NOT_PCT_ENCODED)) {
return false;
}
hostPortString = authorityString.substr(userInfoDelimiter + 1);
}
// Next, parsing host and port from authority and path.
std::string portString;
HostParsingState hostParsingState = HostParsingState::FIRST_CHARACTER;
int decodedCharacter = 0;
host.clear();
PercentEncodedCharacterDecoder pecDecoder;
bool hostIsRegName = false;
for (const auto c: hostPortString) {
switch(hostParsingState) {
case HostParsingState::FIRST_CHARACTER: {
if (c == '[') {
host.push_back(c);
hostParsingState = HostParsingState::IP_LITERAL;
break;
} else {
hostParsingState = HostParsingState::NOT_IP_LITERAL;
hostIsRegName = true;
}
}
case HostParsingState::NOT_IP_LITERAL: {
if (c == '%') {
pecDecoder = PercentEncodedCharacterDecoder();
hostParsingState = HostParsingState::PERCENT_ENCODED_CHARACTER;
} else if (c == ':') {
hostParsingState = HostParsingState::PORT;
} else {
if (REG_NAME_NOT_PCT_ENCODED.Contains(c)) {
host.push_back(c);
} else {
return false;
}
}
} break;
case HostParsingState::PERCENT_ENCODED_CHARACTER: {
if (!pecDecoder.NextEncodedCharacter(c)) {
return false;
}
if (pecDecoder.Done()) {
hostParsingState = HostParsingState::NOT_IP_LITERAL;
host.push_back((char)pecDecoder.GetDecodedCharacter());
}
} break;
case HostParsingState::IP_LITERAL: {
if (c == 'v') {
host.push_back(c);
hostParsingState = HostParsingState::IPV_FUTURE_NUMBER;
break;
} else {
hostParsingState = HostParsingState::IPV6_ADDRESS;
}
}
case HostParsingState::IPV6_ADDRESS: {
// TODO: research this offline first
// before attempting to code it
host.push_back(c);
if (c == ']') {
hostParsingState = HostParsingState::GARBAGE_CHECK;
}
} break;
case HostParsingState::IPV_FUTURE_NUMBER: {
if (c == '.') {
hostParsingState = HostParsingState::IPV_FUTURE_BODY;
} else if (!HEXDIG.Contains(c)) {
return false;
}
host.push_back(c);
} break;
case HostParsingState::IPV_FUTURE_BODY: {
host.push_back(c);
if (c == ']') {
hostParsingState = HostParsingState::GARBAGE_CHECK;
} else if (!IPV_FUTURE_LAST_PART.Contains(c)) {
return false;
}
} break;
case HostParsingState::GARBAGE_CHECK: {
// illegal to have anything else, unless it's a colon,
// in which case it's a port delimiter
if (c == ':') {
hostParsingState = HostParsingState::PORT;
} else {
return false;
}
} break;
case HostParsingState::PORT: {
portString.push_back(c);
} break;
}
}
if (hostIsRegName) {
host = NormalizeCaseInsensitiveString(host);
}
if (portString.empty()) {
hasPort = false;
} else {
if (!ParseUint16(portString, port)) {
return false;
}
hasPort = true;
}
return true;
}
/**
* This method takes an unparsed URI string and separates out
* the scheme (if any) and parses it, returning the remainder
* of the unparsed URI string.
*
* @param[in] authorityAndPathString
* This is the the part of an unparsed URI consisting
* of the authority (if any) followed by the path.
*
* @param[out] pathString
* This is where to store the the path
* part of the input string.
*
* @return
* An indication of whether or not the given input string
* was successfully parsed is returned.
*/
bool ParseScheme(
const std::string& uriString,
std::string& rest
) {
// Limit our search so we don't scan into the authority
// or path elements, because these may have the colon
// character as well, which we might misinterpret
// as the scheme delimiter.
auto authorityOrPathDelimiterStart = uriString.find('/');
if (authorityOrPathDelimiterStart == std::string::npos) {
authorityOrPathDelimiterStart = uriString.length();
}
const auto schemeEnd = uriString.substr(0, authorityOrPathDelimiterStart).find(':');
if (schemeEnd == std::string::npos) {
scheme.clear();
rest = uriString;
} else {
scheme = uriString.substr(0, schemeEnd);
bool isFirstCharacter = true;
if (
FailsMatch(
scheme,
LegalSchemeCheckStrategy()
)
) {
return false;
}
scheme = NormalizeCaseInsensitiveString(scheme);
rest = uriString.substr(schemeEnd + 1);
}
}
/**
* This method takes the part of an unparsed URI consisting
* of the authority (if any) followed by the path, and divides
* it into the authority and path parts, storing any authority
* information in the internal state, and returning the path
* part of the input string.
*
* @param[in] authorityAndPathString
* This is the the part of an unparsed URI consisting
* of the authority (if any) followed by the path.
*
* @param[out] pathString
* This is where to store the the path
* part of the input string.
*
* @return
* An indication of whether or not the given input string
* was successfully parsed is returned.
*/
bool SplitAuthorityFromPathAndParseIt(
std::string authorityAndPathString,
std::string& pathString
) {
// Split authority from path. If there is an authority, parse it.
if (authorityAndPathString.substr(0, 2) == "//") {
// Strip off authority marker.
authorityAndPathString = authorityAndPathString.substr(2);
// First separate the authority from the path.
auto authorityEnd = authorityAndPathString.find('/');
if (authorityEnd == std::string::npos) {
authorityEnd = authorityAndPathString.length();
}
pathString = authorityAndPathString.substr(authorityEnd);
auto authorityString = authorityAndPathString.substr(0, authorityEnd);
// Parse the elements inside the authority string.
if (!ParseAuthority(authorityString)) {
return false;
}
} else {
userInfo.clear();
host.clear();
hasPort = false;
pathString = authorityAndPathString;
}
}
/**
* This method handles the special case of the URI having an
* authority but having an empty path. In this case it sets
* the path as "/".
*/
void SetDefaultPathIfAuthorityPresentAndPathEmpty() {
if (
!host.empty()
&& path.empty()
) {
path.push_back("");
}
}
/**
* This method takes the part of a URI string that has just
* the query element with its delimiter, and breaks off
* and decodes the query.
*
* @param[in] queryWithDelimiter
* This is the part of a URI string that has just
* the query element with its delimiter.
*
* @return
* An indication of whether or not the method succeeded
* is returned.
*/
bool ParseQuery(const std::string& queryWithDelimiter) {
if (queryWithDelimiter.empty()) {
query.clear();
} else {
query = queryWithDelimiter.substr(1);
}
return DecodeQueryOrFragment(query);
}
/**
* This method takes the part of a URI string that has just
* the query and/or fragment elements, and breaks off
* and decodes the fragment part, returning the rest,
* which will be either empty or have the query with the
* query delimiter still attached.
*
* @param[in] queryAndOrFragment
* This is the part of a URI string that has just
* the query and/or fragment elements.
*
* @param[out] rest
* This is where to store the rest of the input string
* after removing any fragment and fragment delimiter.
*
* @return
* An indication of whether or not the method succeeded
* is returned.
*/
bool ParseFragment(
const std::string& queryAndOrFragment,
std::string& rest
) {
const auto fragmentDelimiter = queryAndOrFragment.find('#');
if (fragmentDelimiter == std::string::npos) {
fragment.clear();
rest = queryAndOrFragment;
} else {
fragment = queryAndOrFragment.substr(fragmentDelimiter + 1);
rest = queryAndOrFragment.substr(0, fragmentDelimiter);
}
return DecodeQueryOrFragment(fragment);
}
/**
* This method applies the "remove_dot_segments" routine talked about
* in RFC 3986 (https://tools.ietf.org/html/rfc3986) to the path
* segments of the URI, in order to normalize the path
* (apply and remove "." and ".." segments).
*/
void NormalizePath() {
auto oldPath = std::move(path);
path.clear();
bool isAbsolute = (
!oldPath.empty()
&& oldPath[0].empty()
);
bool atDirectoryLevel = false;
for (const auto segment: oldPath) {
if (segment == ".") {
atDirectoryLevel = true;
} else if (segment == "..") {
if (!path.empty()) {
if (
!isAbsolute
|| (path.size() > 1)
) {
path.pop_back();
}
}
atDirectoryLevel = true;
} else {
if (
!atDirectoryLevel
|| !segment.empty()
) {
path.push_back(segment);
}
atDirectoryLevel = segment.empty();
}
}
if (
atDirectoryLevel
&& (
!path.empty()
&& !path.back().empty()
)
) {
path.push_back("");
}
}
/**
* This method replaces the URI's scheme with that of
* another URI.
*
* @param[in] other
* This is the other URI from which to copy the scheme.
*/
void CopyScheme(const Uri& other) {
scheme = other.impl_->scheme;
}
/**
* This method replaces the URI's authority with that of
* another URI.
*
* @param[in] other
* This is the other URI from which to copy the authority.
*/
void CopyAuthority(const Uri& other) {
host = other.impl_->host;
userInfo = other.impl_->userInfo;
hasPort = other.impl_->hasPort;
port = other.impl_->port;
}
/**
* This method replaces the URI's path with that of
* another URI.
*
* @param[in] other
* This is the other URI from which to copy the path.
*/
void CopyPath(const Uri& other) {
path = other.impl_->path;
}
/**
* This method replaces the URI's path with that of
* the normalized form of another URI.
*
* @param[in] other
* This is the other URI from which to copy
* the normalized path.
*/
void CopyAndNormalizePath(const Uri& other) {
CopyPath(other);
NormalizePath();
}
/**
* This method replaces the URI's query with that of
* another URI.
*
* @param[in] other
* This is the other URI from which to copy the query.
*/
void CopyQuery(const Uri& other) {
query = other.impl_->query;
}
/**
* This method replaces the URI's fragment with that of
* another URI.
*
* @param[in] other
* This is the other URI from which to copy the query.
*/
void CopyFragment(const Uri& other) {
fragment = other.impl_->fragment;
}
/**
* This method returns an indication of whether or not the
* path of the URI is an absolute path, meaning it begins
* with a forward slash ('/') character.
*
* @return
* An indication of whether or not the path of the URI
* is an absolute path, meaning it begins
* with a forward slash ('/') character is returned.
*/
bool IsPathAbsolute() const {
return (
!path.empty()
&& (path[0] == "")
);
}
};
Uri::~Uri() = default;
Uri::Uri(Uri&&) = default;
Uri& Uri::operator=(Uri&&) = default;
Uri::Uri()
: impl_(new Impl)
{
}
bool Uri::operator==(const Uri& other) const {
return (
(impl_->scheme == other.impl_->scheme)
&& (impl_->userInfo == other.impl_->userInfo)
&& (impl_->host == other.impl_->host)
&& (
(!impl_->hasPort && !other.impl_->hasPort)
|| (
(impl_->hasPort && other.impl_->hasPort)
&& (impl_->port == other.impl_->port)
)
)
&& (impl_->path == other.impl_->path)
&& (impl_->query == other.impl_->query)
&& (impl_->fragment == other.impl_->fragment)
);
}
bool Uri::operator!=(const Uri& other) const {
return !(*this == other);
}
bool Uri::ParseFromString(const std::string& uriString) {
std::string rest;
if (!impl_->ParseScheme(uriString, rest)) {
return false;
}
const auto pathEnd = rest.find_first_of("?#");
const auto authorityAndPathString = rest.substr(0, pathEnd);
const auto queryAndOrFragment = rest.substr(authorityAndPathString.length());
std::string pathString;
if (!impl_->SplitAuthorityFromPathAndParseIt(authorityAndPathString, pathString)) {
return false;
}
if (!impl_->ParsePath(pathString)) {
return false;
}
impl_->SetDefaultPathIfAuthorityPresentAndPathEmpty();
if (!impl_->ParseFragment(queryAndOrFragment, rest)) {
return false;
}
return impl_->ParseQuery(rest);
}
std::string Uri::GetScheme() const {
return impl_->scheme;
}
std::string Uri::GetUserInfo() const {
return impl_->userInfo;
}
std::string Uri::GetHost() const {
return impl_->host;
}
std::vector< std::string > Uri::GetPath() const {
return impl_->path;
}
bool Uri::HasPort() const {
return impl_->hasPort;
}
uint16_t Uri::GetPort() const {
return impl_->port;
}
bool Uri::IsRelativeReference() const {
return impl_->scheme.empty();
}
bool Uri::ContainsRelativePath() const {
return !impl_->IsPathAbsolute();
}
std::string Uri::GetQuery() const {
return impl_->query;
}
std::string Uri::GetFragment() const {
return impl_->fragment;
}
void Uri::NormalizePath() {
impl_->NormalizePath();
}
Uri Uri::Resolve(const Uri& relativeReference) const {
// Resolve the reference by following the algorithm
// from section 5.2.2 in
// RFC 3986 (https://tools.ietf.org/html/rfc3986).
Uri target;
if (!relativeReference.impl_->scheme.empty()) {
target.impl_->CopyScheme(relativeReference);
target.impl_->CopyAuthority(relativeReference);
target.impl_->CopyAndNormalizePath(relativeReference);
target.impl_->CopyQuery(relativeReference);
} else {
if (!relativeReference.impl_->host.empty()) {
target.impl_->CopyAuthority(relativeReference);
target.impl_->CopyAndNormalizePath(relativeReference);
target.impl_->CopyQuery(relativeReference);
} else {
if (relativeReference.impl_->path.empty()) {
target.impl_->path = impl_->path;
if (!relativeReference.impl_->query.empty()) {
target.impl_->CopyQuery(relativeReference);
} else {
target.impl_->CopyQuery(*this);
}
} else {
// RFC describes this as:
// "if (R.path starts-with "/") then"
if (relativeReference.impl_->IsPathAbsolute()) {
target.impl_->CopyAndNormalizePath(relativeReference);
} else {
// RFC describes this as:
// "T.path = merge(Base.path, R.path);"
target.impl_->CopyPath(*this);
if (target.impl_->path.size() > 1) {
target.impl_->path.pop_back();
}
std::copy(
relativeReference.impl_->path.begin(),
relativeReference.impl_->path.end(),
std::back_inserter(target.impl_->path)
);
target.NormalizePath();
}
target.impl_->CopyQuery(relativeReference);
}
target.impl_->CopyAuthority(*this);
}
target.impl_->CopyScheme(*this);
}
target.impl_->CopyFragment(relativeReference);
return target;
}
}
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