/*
Copyright © 2012-17 Miranda NG team
Copyright © 2009 Jim Porter
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include "stdafx.h"
#include "twitter.h"
#include "utility.h"
OAuthParameters mir_twitter::BuildSignedOAuthParameters(
const OAuthParameters& requestParameters,
const std::wstring& url,
const std::wstring& httpMethod,
const OAuthParameters *postData,
const std::wstring& consumerKey,
const std::wstring& consumerSecret,
const std::wstring& requestToken = L"",
const std::wstring& requestTokenSecret = L"",
const std::wstring& pin = L"")
{
wstring timestamp = OAuthCreateTimestamp();
wstring nonce = OAuthCreateNonce();
// create oauth requestParameters
OAuthParameters oauthParameters;
oauthParameters[L"oauth_timestamp"] = timestamp;
oauthParameters[L"oauth_nonce"] = nonce;
oauthParameters[L"oauth_version"] = L"1.0";
oauthParameters[L"oauth_signature_method"] = L"HMAC-SHA1";
oauthParameters[L"oauth_consumer_key"] = consumerKey;
// add the request token if found
if (!requestToken.empty()) {
oauthParameters[L"oauth_token"] = requestToken; /*debugLogW("requestToken not empty: %s", requestToken);*/
}
// add the authorization pin if found
if (!pin.empty()) {
oauthParameters[L"oauth_verifier"] = pin;
}
// create a parameter list containing both oauth and original parameters
// this will be used to create the parameter signature
OAuthParameters allParameters = requestParameters;
if (Compare(httpMethod, L"POST", false) && postData) {
//debugLogA("in post section of buildOAuthParams");
allParameters.insert(postData->begin(), postData->end());
}
allParameters.insert(oauthParameters.begin(), oauthParameters.end());
// prepare a signature base, a carefully formatted string containing
// all of the necessary information needed to generate a valid signature
wstring normalUrl = OAuthNormalizeUrl(url);
//debugLogW("normalURL is %s", normalUrl);
wstring normalizedParameters = OAuthNormalizeRequestParameters(allParameters);
//debugLogW("normalisedparams is %s", normalizedParameters);
wstring signatureBase = OAuthConcatenateRequestElements(httpMethod, normalUrl, normalizedParameters);
//debugLogW("sigBase is %s", signatureBase);
// obtain a signature and add it to header requestParameters
wstring signature = OAuthCreateSignature(signatureBase, consumerSecret, requestTokenSecret);
//debugLogW("**BuildSignedOAuthParameters - sig is %s", signature);
oauthParameters[L"oauth_signature"] = signature;
return oauthParameters;
}
wstring mir_twitter::UrlGetQuery(const wstring& url)
{
wstring query;
/*
URL_COMPONENTS components = {sizeof(URL_COMPONENTS)};
wchar_t buf[1024*4] = {};
components.lpszExtraInfo = buf;
components.dwExtraInfoLength = _countof(buf);
BOOL crackUrlOk = InternetCrackUrl(url.c_str(), url.size(), 0, &components);
_ASSERTE(crackUrlOk);
if(crackUrlOk)
{*/
map brokenURL = CrackURL(url);
query = brokenURL[L"extraInfo"];
//debugLogW("inside crack, url is %s", url);
wstring::size_type q = query.find_first_of(L'?');
if (q != wstring::npos) {
query = query.substr(q + 1);
}
wstring::size_type h = query.find_first_of(L'#');
if (h != wstring::npos) {
query = query.substr(0, h);
}
//}
return query;
}
// OAuthWebRequest used for all OAuth related queries
//
// consumerKey and consumerSecret - must be provided for every call, they identify the application
// oauthToken and oauthTokenSecret - need to be provided for every call, except for the first token request before authorizing
// pin - only used during authorization, when the user enters the PIN they received from the twitter website
wstring mir_twitter::OAuthWebRequestSubmit(
const wstring& url,
const wstring& httpMethod,
const OAuthParameters *postData,
const wstring& consumerKey,
const wstring& consumerSecret,
const wstring& oauthToken,
const wstring& oauthTokenSecret,
const wstring& pin
)
{
//debugLogW("URL is %s", url);
wstring query = UrlGetQuery(url);
//debugLogW("query is %s", query);
OAuthParameters originalParameters = ParseQueryString(query);
OAuthParameters oauthSignedParameters = BuildSignedOAuthParameters(
originalParameters,
url,
httpMethod, postData,
consumerKey, consumerSecret,
oauthToken, oauthTokenSecret,
pin);
return OAuthWebRequestSubmit(oauthSignedParameters, url);
}
wstring mir_twitter::OAuthWebRequestSubmit(const OAuthParameters ¶meters, const wstring&)
{
//debugLogW("OAuthWebRequestSubmit(%s)", url);
//wstring oauthHeader = L"Authorization: OAuth ";
wstring oauthHeader = L"OAuth ";
for (OAuthParameters::const_iterator it = parameters.begin();
it != parameters.end();
++it) {
//debugLogW("%s = ", it->first);
//debugLogW("%s", it->second);
//debugLogA("---------");
if (it != parameters.begin()) {
oauthHeader += L",";
}
wstring pair;
pair += it->first + L"=\"" + it->second + L"\"";
oauthHeader += pair;
}
//debugLogW("oauthheader is %s", oauthHeader);
return oauthHeader;
}
// parameters must already be URL encoded before calling BuildQueryString
std::wstring mir_twitter::BuildQueryString(const OAuthParameters ¶meters)
{
wstring query;
//debugLogA("do we ever get here?");
for (OAuthParameters::const_iterator it = parameters.begin();
it != parameters.end();
++it) {
//debugLogA("aww como ONNNNNN");
//debugLogA("%s = %s", it->first.c_str(), it->second.c_str());
//debugLogW("in buildqueryString bit, first is %s", it->first);
if (it != parameters.begin()) {
query += L"&";
}
wstring pair;
pair += it->first + L"=" + it->second + L"";
query += pair;
}
return query;
}
wstring mir_twitter::OAuthConcatenateRequestElements(const wstring& httpMethod, wstring url, const wstring& parameters)
{
wstring escapedUrl = UrlEncode(url);
//debugLogW("before OAUTHConcat, params are %s", parameters);
wstring escapedParameters = UrlEncode(parameters);
//debugLogA(")))))))))))))))))))))))))))))))))))))))))))))))");
//debugLogW("after url encode, its %s", escapedParameters);
wstring ret = httpMethod + L"&" + escapedUrl + L"&" + escapedParameters;
return ret;
}
/* CrackURL.. just basically pulls apart a url into a map of wstrings:
* scheme, domain, port, path, extraInfo, explicitPort
* explicitPort will be 0 or 1, 0 if there was no actual port in the url,
* and 1 if it was explicitely specified.
* eg "http://twitter.com/blah.htm" will give:
* http, twitter.com, 80, blah.htm, "", 0
* "https://twitter.com:989/blah.htm?boom" will give:
* https, twitter.com, 989, blah.htm?boom, ?boom, 1
*/
map mir_twitter::CrackURL(wstring url)
{
wstring scheme1, domain1, port1, path1, extraInfo, explicitPort;
vector urlToks, urlToks2, extraInfoToks;
Split(url, urlToks, L':', false);
//debugLogW("**CRACK - URL to split is %s", url);
scheme1 = urlToks[0];
//debugLogW("**CRACK - scheme is %s", scheme1);
if (urlToks.size() == 2) { // if there is only 1 ":" in the url
if (Compare(scheme1, L"http", false)) {
port1 = L"80";
}
else {
port1 = L"443";
}
//debugLogW("**CRACK::2 - port is %s", port1);
Split(urlToks[1], urlToks2, L'/', false);
domain1 = urlToks2[0];
//debugLogW("**CRACK::2 - domain is %s", domain1);
explicitPort = L"0";
}
else if (urlToks.size() == 3) { // if there are 2 ":"s in the URL, ie a port is explicitly set
domain1 = urlToks[1].substr(2, urlToks[1].size());
//debugLogW("**CRACK::3 - domain is %s", domain1);
Split(urlToks[2], urlToks2, L'/', false);
port1 = urlToks2[0];
//debugLogW("**CRACK::3 - port is %s", port1);
explicitPort = L"1";
}
else ppro_->debugLogW(L"**CRACK - not a proper URL? doesn't have a colon. URL is %s", url);
for (size_t i = 1; i < urlToks2.size(); ++i) {
if (i > 1) {
path1 += L"/";
}
path1 += urlToks2[i];
}
//debugLogW("**CRACK - path is %s", path1);
wstring::size_type foundHash = path1.find(L"#");
wstring::size_type foundQ = path1.find(L"?");
if ((foundHash != wstring::npos) || (foundQ != wstring::npos)) { // if we've found a # or a ?...
if (foundHash == wstring::npos) { // if we didn't find a #, we must have found a ?
extraInfo = path1.substr(foundQ);
}
else if (foundQ == wstring::npos) { // if we didn't find a ?, we must have found a #
extraInfo = path1.substr(foundHash);
}
else { // we found both a # and a ?, whichever came first we grab the sub string from there
if (foundQ < foundHash) {
extraInfo = path1.substr(foundQ);
}
else {
extraInfo = path1.substr(foundHash);
}
}
}
else { // we have no # or ? in the path...
extraInfo = L"";
}
//debugLogW("**CRACK - extraInfo is %s", extraInfo);
map result;
result[L"scheme"] = scheme1;
result[L"domain"] = domain1;
result[L"port"] = port1;
result[L"path"] = path1;
result[L"extraInfo"] = extraInfo;
result[L"explicitPort"] = explicitPort;
return result;
}
wstring mir_twitter::OAuthNormalizeUrl(const wstring& url)
{
wstring normalUrl = url;
map brokenURL = CrackURL(url);
wchar_t port[10] = {};
// The port number must only be included if it is non-standard
if (Compare(brokenURL[L"scheme"], L"http", false) && !(Compare(brokenURL[L"port"], L"80", false)) ||
(Compare(brokenURL[L"scheme"], L"https", false) && !(Compare(brokenURL[L"port"], L"443", false))))
{
mir_snwprintf(port, _countof(port), L":%s", brokenURL[L"port"]);
}
// InternetCrackUrl includes ? and # elements in the path,
// which we need to strip off
wstring pathOnly = brokenURL[L"path"];
wstring::size_type q = pathOnly.find_first_of(L"#?");
if (q != wstring::npos)
pathOnly = pathOnly.substr(0, q);
return brokenURL[L"scheme"] + L"://" + brokenURL[L"domain"] + port + L"/" + pathOnly;
}
wstring mir_twitter::OAuthNormalizeRequestParameters(const OAuthParameters& requestParameters)
{
list sorted;
for (OAuthParameters::const_iterator it = requestParameters.begin();
it != requestParameters.end();
++it) {
wstring param = it->first + L"=" + it->second;
sorted.push_back(param);
}
sorted.sort();
wstring params;
for (list::iterator it = sorted.begin(); it != sorted.end(); ++it) {
if (params.size() > 0)
params += L"&";
params += *it;
}
return params;
}
OAuthParameters mir_twitter::ParseQueryString(const wstring& url)
{
OAuthParameters ret;
vector queryParams;
Split(url, queryParams, L'&', false);
for (size_t i = 0; i < queryParams.size(); ++i) {
vector paramElements;
Split(queryParams[i], paramElements, L'=', true);
_ASSERTE(paramElements.size() == 2);
if (paramElements.size() == 2)
ret[paramElements[0]] = paramElements[1];
}
return ret;
}
wstring mir_twitter::OAuthCreateNonce()
{
wchar_t ALPHANUMERIC[] = L"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";
wstring nonce;
for (int i = 0; i <= 16; ++i)
nonce += ALPHANUMERIC[rand() % (_countof(ALPHANUMERIC) - 1)]; // don't count null terminator in array
return nonce;
}
wstring mir_twitter::OAuthCreateTimestamp()
{
__time64_t utcNow;
_time64(&utcNow);
_ASSERTE(utcNow != -1);
wchar_t buf[100] = {};
mir_snwprintf(buf, _countof(buf), L"%I64u", utcNow);
return buf;
}
wstring mir_twitter::OAuthCreateSignature(const wstring& signatureBase, const wstring& consumerSecret, const wstring& requestTokenSecret)
{
// URL encode key elements
wstring escapedConsumerSecret = UrlEncode(consumerSecret);
wstring escapedTokenSecret = UrlEncode(requestTokenSecret);
wstring key = escapedConsumerSecret + L"&" + escapedTokenSecret;
string keyBytes = WideToUTF8(key);
BYTE digest[MIR_SHA1_HASH_SIZE];
string data = WideToUTF8(signatureBase);
mir_hmac_sha1(digest, (PBYTE)keyBytes.c_str(), keyBytes.size(), (PBYTE)data.c_str(), data.size());
ptrA encoded(mir_base64_encode(digest, sizeof(digest)));
return UrlEncode((wchar_t*)_A2T(encoded));
}