Aws::String GenerateSummary(time_t now)
    {
        time_t tempEndTime = (activeState == COMPLETE) ? endTime : now;
        time_t tempStartTime = (startTime != 0) ? startTime : now;

        Aws::String temp;
        temp = std::to_string(tempEndTime - tempStartTime).c_str();
        while (temp.length() < 12)
            temp = " " + temp;
        temp += " ms, ";
        switch (finishState)
        {
        case PASSED: temp += "pass: "******"FAILED: "; break;
        case SKIPPED: temp += "SKIPPED: "; break;
        case TIMEDOUT: temp += "TIMED OUT: "; break;
        }
        temp += testName;
        if (testResultMsg.length() > 0)
        {
            temp += " - ";
            temp += testResultMsg;
        }
        return temp;
    }
Exemple #2
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Aws::String AWSAuthV4Signer::GenerateSignature(const AWSCredentials& credentials, const Aws::String& stringToSign, const Aws::String& simpleDate, const Aws::String& regionName) const
{
    AWS_LOGSTREAM_DEBUG(v4LogTag, "Final String to sign: " << stringToSign);

    Aws::StringStream ss;

    //now we do the complicated part of deriving a signing key.
    Aws::String signingKey(SIGNING_KEY);
    signingKey.append(credentials.GetAWSSecretKey());

    //we use digest only for the derivation process.
    auto hashResult = m_HMAC->Calculate(ByteBuffer((unsigned char*)simpleDate.c_str(), simpleDate.length()),
        ByteBuffer((unsigned char*)signingKey.c_str(), signingKey.length()));
    if (!hashResult.IsSuccess())
    {
        AWS_LOGSTREAM_ERROR(v4LogTag, "Failed to hmac (sha256) date string \"" << simpleDate << "\"");
        return "";
    }

    auto kDate = hashResult.GetResult();
    hashResult = m_HMAC->Calculate(ByteBuffer((unsigned char*)regionName.c_str(), regionName.length()), kDate);
    if (!hashResult.IsSuccess())
    {
        AWS_LOGSTREAM_ERROR(v4LogTag, "Failed to hmac (sha256) region string \"" << regionName << "\"");
        return "";
    }

    auto kRegion = hashResult.GetResult();
    hashResult = m_HMAC->Calculate(ByteBuffer((unsigned char*)m_serviceName.c_str(), m_serviceName.length()), kRegion);
    if (!hashResult.IsSuccess())
    {
        AWS_LOGSTREAM_ERROR(v4LogTag, "Failed to hmac (sha256) service string \"" << m_serviceName << "\"");
        return "";
    }

    auto kService = hashResult.GetResult();
    hashResult = m_HMAC->Calculate(ByteBuffer((unsigned char*)AWS4_REQUEST, strlen(AWS4_REQUEST)), kService);
    if (!hashResult.IsSuccess())
    {
        AWS_LOGSTREAM_ERROR(v4LogTag, "Unable to hmac (sha256) request string \"" << AWS4_REQUEST << "\"");
        return "";
    }

    auto kSigning = hashResult.GetResult();
    hashResult = m_HMAC->Calculate(ByteBuffer((unsigned char*)stringToSign.c_str(), stringToSign.length()), kSigning);
    if (!hashResult.IsSuccess())
    {
        AWS_LOGSTREAM_ERROR(v4LogTag, "Unable to hmac (sha256) final string \"" << stringToSign << "\"");
        return "";
    }

    //now we finally sign our request string with our hex encoded derived hash.
    auto finalSigningDigest = hashResult.GetResult();

    auto finalSigningHash = HashingUtils::HexEncode(finalSigningDigest);
    AWS_LOGSTREAM_DEBUG(v4LogTag, "Final computed signing hash: " << finalSigningHash);

    return finalSigningHash;
}
Exemple #3
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void URI::ExtractAndSetPath(const Aws::String& uri)
{
    size_t authorityStart = uri.find(SEPARATOR);

    if (authorityStart == Aws::String::npos)
    {
        authorityStart = 0;
    }
    else
    {
        authorityStart += 3;
    }

    size_t pathEnd = uri.find('?');

    if (pathEnd == Aws::String::npos)
    {
        pathEnd = uri.length();
    }

    Aws::String authorityAndPath = uri.substr(authorityStart, pathEnd - authorityStart);

    size_t pathStart = authorityAndPath.find('/');

    if (pathStart != Aws::String::npos)
    {
        SetPath(authorityAndPath.substr(pathStart, pathEnd - pathStart), false);
    }
    else
    {
        SetPath("/");
    }
}
HashResult Sha256CommonCryptoImpl::Calculate(const Aws::String& str)
{
    ByteBuffer hash(CC_SHA256_DIGEST_LENGTH);
    CC_SHA256(str.c_str(), str.length(), hash.GetUnderlyingData());

    return HashResult(std::move(hash));
}
Exemple #5
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void URI::SetPath(const Aws::String& value, bool shouldEncode)
{
    //we need to url encode the path parts (mainly to take care of spaces that a user might put here)
    if (shouldEncode)
    {
        Aws::Vector<Aws::String> pathParts = StringUtils::Split(value, '/');
        Aws::StringStream ss;

        for (Aws::Vector<Aws::String>::iterator iter = pathParts.begin(); iter != pathParts.end(); ++iter)
        {
            ss << '/' << StringUtils::URLEncode(iter->c_str());
        }

        //if the last character was also a slash, then add that back here.
        if (value[value.length() - 1] == '/')
        {
            ss << '/';
        }

        path = ss.str();
    }
    else
    {
        path = value;
    }
}
            HashResult MD5CommonCryptoImpl::Calculate(const Aws::String& str)
            {
                ByteBuffer hash(CC_MD5_DIGEST_LENGTH);
                CC_MD5(str.c_str(), static_cast<CC_LONG>(str.length()), hash.GetUnderlyingData());

                return HashResult(std::move(hash));
            }
size_t CurlHttpClient::WriteHeader(char* ptr, size_t size, size_t nmemb, void* userdata)
{
    if (ptr)
    {
        AWS_LOGSTREAM_TRACE(CURL_HTTP_CLIENT_TAG, ptr);
        HttpResponse* response = (HttpResponse*) userdata;
        Aws::String headerLine(ptr);
        Aws::Vector<Aws::String> keyValuePair = StringUtils::Split(headerLine, ':');


        if (keyValuePair.size() > 1)
        {
            Aws::String headerName = keyValuePair[0];
            headerName = StringUtils::Trim(headerName.c_str());


            Aws::String headerValue = headerLine.substr(headerName.length() + 1).c_str();
            headerValue = StringUtils::Trim(headerValue.c_str());


            response->AddHeader(headerName, headerValue);
        }
        return size * nmemb;
    }
    return 0;
}
Exemple #8
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        Aws::String Join(char delimiter, const Aws::String& leftSegment, const Aws::String& rightSegment)
        {
            Aws::StringStream ss;

            if (!leftSegment.empty())
            {
                if (leftSegment.back() == delimiter)
                {
                    ss << leftSegment.substr(0, leftSegment.length() - 1);
                }
                else
                {
                    ss << leftSegment;
                }
            }

            ss << delimiter;

            if (!rightSegment.empty())
            {
                if (rightSegment.front() == delimiter)
                {
                    ss << rightSegment.substr(1);
                }
                else
                {
                    ss << rightSegment;
                }
            }

            return ss.str();
        }
void JsonValue::WriteCompact(Aws::OStream& ostream, bool treatAsObject) const
{
    if (treatAsObject && m_value.isNull())
    {
        ostream << "{}";
        return;
    }

    Aws::String compactString = WriteCompact();
    ostream.write(compactString.c_str(), compactString.length());
}
Exemple #10
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 UUID::UUID(const Aws::String& uuidToConvert)
 {
     //GUID has 2 characters per byte + 4 dashes = 36 bytes
     assert(uuidToConvert.length() == UUID_STR_SIZE);
     memset(m_uuid, 0, sizeof(m_uuid));
     Aws::String escapedHexStr(uuidToConvert);
     StringUtils::Replace(escapedHexStr, "-", "");
     assert(escapedHexStr.length() == UUID_BINARY_SIZE * 2);
     ByteBuffer&& rawUuid = HashingUtils::HexDecode(escapedHexStr);
     memcpy(m_uuid, rawUuid.GetUnderlyingData(), rawUuid.GetLength());
 }
TEST_F(QueueOperationTest, TestPermissions)
{
    Aws::String queueUrl = CreateDefaultQueue(PERMISSIONS_QUEUE_NAME);
    ASSERT_TRUE(queueUrl.find(PERMISSIONS_QUEUE_NAME) != Aws::String::npos);

    AddPermissionRequest addPermissionRequest;
    addPermissionRequest.AddAWSAccountIds(m_accountId).AddActions("ReceiveMessage").WithLabel("Test").WithQueueUrl(
            queueUrl);
    AddPermissionOutcome permissionOutcome = sqsClient->AddPermission(addPermissionRequest);
    ASSERT_TRUE(permissionOutcome.IsSuccess());

    GetQueueAttributesRequest queueAttributesRequest;
    queueAttributesRequest.AddAttributeNames(QueueAttributeName::Policy).WithQueueUrl(queueUrl);
    GetQueueAttributesOutcome queueAttributesOutcome = sqsClient->GetQueueAttributes(queueAttributesRequest);
    ASSERT_TRUE(queueAttributesOutcome.IsSuccess());

    Aws::String policyString = queueAttributesOutcome.GetResult().GetAttributes().find(QueueAttributeName::Policy)->second;
    EXPECT_TRUE(policyString.length() > 0);
    JsonValue policy(policyString);
    EXPECT_EQ(addPermissionRequest.GetLabel(), policy.GetArray("Statement")[0].GetString("Sid"));
    EXPECT_EQ(m_accountId, policy.GetArray("Statement")[0].GetObject("Principal").GetString("AWS"));
    EXPECT_EQ("SQS:ReceiveMessage", policy.GetArray("Statement")[0].GetString("Action"));

    RemovePermissionRequest removePermissionRequest;
    removePermissionRequest.WithLabel("Test").WithQueueUrl(queueUrl);
    RemovePermissionOutcome removePermissionOutcome = sqsClient->RemovePermission(removePermissionRequest);
    ASSERT_TRUE(removePermissionOutcome.IsSuccess());

    queueAttributesOutcome = sqsClient->GetQueueAttributes(queueAttributesRequest);
    ASSERT_TRUE(queueAttributesOutcome.IsSuccess());
    policyString = queueAttributesOutcome.GetResult().GetAttributes().find(QueueAttributeName::Policy)->second;
    EXPECT_TRUE(policyString.length() > 0);
    JsonValue emptyPolicy(policyString);
    EXPECT_EQ(0uL, emptyPolicy.GetArray("Statement").GetLength());

    DeleteQueueRequest deleteQueueRequest;
    deleteQueueRequest.WithQueueUrl(queueUrl);

    DeleteQueueOutcome deleteQueueOutcome = sqsClient->DeleteQueue(deleteQueueRequest);
    ASSERT_TRUE(deleteQueueOutcome.IsSuccess());
}
TEST(StringUtilsTest, TestWStringNonAsciiToString)
{
    AWS_BEGIN_MEMORY_TEST(16, 10)

    Aws::WString startString;

    // Toss in a couple ascii characters to start, then go over 127
    const char startVal = 115;
    int addValue = startVal;
    const char incrementVal = 10;
    const char loopCount = 10;
    for (char i = 0; i < loopCount; ++i)
    {
        startString.push_back(static_cast<wchar_t>(addValue));
        addValue += incrementVal;
    }

    Aws::String outString = StringUtils::FromWString(startString.c_str());
    ASSERT_EQ(outString.length(), loopCount);

    for (size_t i = 0; i < outString.length(); ++i)
    {
        char testValue = outString[i];
        ASSERT_EQ(testValue, static_cast<char>(startVal + incrementVal * i));
    }

    // This loop will cross the byte limit
    for (char i = 0; i < loopCount; ++i)
    {
        startString.push_back(static_cast<wchar_t>(addValue));
        addValue += incrementVal;
    }
    // Verify the length, not the values though
    outString = StringUtils::FromWString(startString.c_str());
    ASSERT_EQ(outString.length(), loopCount * 2);

    AWS_END_MEMORY_TEST
}
TEST(UUIDTest, TestPlatformGeneratesUUID)
{
    Aws::Set<Aws::String> generatedUUids;

    for(size_t i = 0u; i < 1000u; ++i)
    {
        UUID uuid = UUID::RandomUUID();
        Aws::String uuidStr = uuid;        
        ASSERT_EQ(36u, uuidStr.length());
        ByteBuffer rawUUID = uuid;
        ASSERT_EQ(16u, rawUUID.GetLength());
        ASSERT_EQ(0x40u, 0x40u & rawUUID[6]);
        ASSERT_EQ(0x80u, 0x80u & rawUUID[8]);

        ASSERT_EQ(generatedUUids.end(), generatedUUids.find(uuidStr));
        generatedUUids.insert(uuidStr);
    }    
}
Exemple #14
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Aws::String URI::URLEncodePath(const Aws::String& path)
{
    Aws::Vector<Aws::String> pathParts = StringUtils::Split(path, '/');
    Aws::StringStream ss;

    for (Aws::Vector<Aws::String>::iterator iter = pathParts.begin(); iter != pathParts.end(); ++iter)
    {
        ss << '/' << StringUtils::URLEncode(iter->c_str());
    }

    //if the last character was also a slash, then add that back here.
    if (path[path.length() - 1] == '/')
    {
        ss << '/';
    }

    return ss.str();
}
            HashResult BCryptHashImpl::Calculate(const Aws::String& str)
            {
                if (!IsValid())
                {
                    return HashResult();
                }

                std::lock_guard<std::mutex> locker(m_algorithmMutex);

                BCryptHashContext context(m_algorithmHandle, m_hashObject, m_hashObjectLength);
                if (!context.IsValid())
                {
                    AWS_LOG_ERROR(logTag, "Error creating hash handle.");
                    return HashResult();
                }

                return HashData(context, (PBYTE)str.c_str(), static_cast<ULONG>(str.length()));
            }
Aws::String FileSystemUtils::GetHomeDirectory()
{
    static const char* HOME_DIR_ENV_VAR = "HOME";

    AWS_LOGSTREAM_TRACE(FILE_SYSTEM_UTILS_LOG_TAG, "Checking " << HOME_DIR_ENV_VAR << " for the home directory.");
 
    const char* homeEnvDir = std::getenv(HOME_DIR_ENV_VAR);
    Aws::String homeDir(homeEnvDir ? homeEnvDir : "");

    AWS_LOGSTREAM_DEBUG(FILE_SYSTEM_UTILS_LOG_TAG, "Environment value for variable " << HOME_DIR_ENV_VAR << " is " << homeDir);

    if(homeDir.empty())
    {
        AWS_LOG_WARN(FILE_SYSTEM_UTILS_LOG_TAG, "Home dir not stored in environment, trying to fetch manually from the OS.");

	passwd pw;
	passwd *p_pw = nullptr;
	char pw_buffer[4096];
	getpwuid_r(getuid(), &pw, pw_buffer, sizeof(pw_buffer), &p_pw);
        if(p_pw && p_pw->pw_dir)
        {
            homeDir = p_pw->pw_dir;
        }
	
        AWS_LOGSTREAM_INFO(FILE_SYSTEM_UTILS_LOG_TAG, "Pulled " << homeDir << " as home directory from the OS.");
    }

    Aws::String retVal = homeDir.size() > 0 ? StringUtils::Trim(homeDir.c_str()) : "";
    if(!retVal.empty())
    {
        if(retVal.at(retVal.length() - 1) != PATH_DELIM)
        {
            AWS_LOGSTREAM_DEBUG(FILE_SYSTEM_UTILS_LOG_TAG, "Home directory is missing the final " << PATH_DELIM << " appending one to normalize");
            retVal += PATH_DELIM;
        }
    }

    AWS_LOGSTREAM_DEBUG(FILE_SYSTEM_UTILS_LOG_TAG, "Final Home Directory is " << retVal);

    return retVal;
}
Exemple #17
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Aws::String GetHomeDirectory()
{
    static const char* HOME_DIR_ENV_VAR = "USERPROFILE";

    AWS_LOGSTREAM_TRACE(FILE_SYSTEM_UTILS_LOG_TAG, "Checking " << HOME_DIR_ENV_VAR << " for the home directory.");
    Aws::String homeDir = Aws::Environment::GetEnv(HOME_DIR_ENV_VAR);
    AWS_LOGSTREAM_DEBUG(FILE_SYSTEM_UTILS_LOG_TAG, "Environment value for variable " << HOME_DIR_ENV_VAR << " is " << homeDir);
    if(homeDir.empty())
    {
        AWS_LOGSTREAM_WARN(FILE_SYSTEM_UTILS_LOG_TAG, "Home dir not stored in environment, trying to fetch manually from the OS.");
        HANDLE hToken;
    
        if (OpenProcessToken(GetCurrentProcess(), TOKEN_READ, &hToken))
        {
            DWORD len = MAX_PATH;
            WCHAR path[MAX_PATH];
            if (GetUserProfileDirectoryW(hToken, path, &len))
            {                
                homeDir = Aws::Utils::StringUtils::FromWString(path);
            }
            CloseHandle(hToken);
        }        

        AWS_LOGSTREAM_INFO(FILE_SYSTEM_UTILS_LOG_TAG, "Pulled " << homeDir << " as home directory from the OS.");
    }

    Aws::String retVal = (homeDir.size() > 0) ? Aws::Utils::StringUtils::Trim(homeDir.c_str()) : "";

    if (!retVal.empty())
    {
        if (retVal.at(retVal.length() - 1) != Aws::FileSystem::PATH_DELIM)
        {
            retVal += Aws::FileSystem::PATH_DELIM;
        }
    }
    
    return retVal;
}
Exemple #18
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void URI::ExtractAndSetAuthority(const Aws::String& uri)
{
    size_t authorityStart = uri.find(SEPARATOR);

    if (authorityStart == Aws::String::npos)
    {
        authorityStart = 0;
    }
    else
    {
        authorityStart += 3;
    }

    size_t posOfEndOfAuthorityPort = uri.find(':', authorityStart);
    size_t posOfEndOfAuthoritySlash = uri.find('/', authorityStart);
    size_t posOfEndOfAuthorityQuery = uri.find('?', authorityStart);
    size_t posEndOfAuthority = std::min({posOfEndOfAuthorityPort, posOfEndOfAuthoritySlash, posOfEndOfAuthorityQuery});
    if (posEndOfAuthority == Aws::String::npos)
    {
        posEndOfAuthority = uri.length();
    }

    SetAuthority(uri.substr(authorityStart, posEndOfAuthority - authorityStart));
}
Aws::String AWSAuthV4Signer::GenerateSignature(const AWSCredentials& credentials, const Aws::String& stringToSign, const Aws::String& simpleDate) const
{
    AWS_LOGSTREAM_DEBUG(v4LogTag, "Final String to sign: " << stringToSign);

    Aws::StringStream ss;

    auto& partialSignature = ComputeLongLivedHash(credentials.GetAWSSecretKey(), simpleDate);
        
    auto hashResult = m_HMAC->Calculate(ByteBuffer((unsigned char*)stringToSign.c_str(), stringToSign.length()), partialSignature);
    if (!hashResult.IsSuccess())
    {
        AWS_LOGSTREAM_ERROR(v4LogTag, "Unable to hmac (sha256) final string \"" << stringToSign << "\"");
        return "";
    }

    //now we finally sign our request string with our hex encoded derived hash.
    auto finalSigningDigest = hashResult.GetResult();

    auto finalSigningHash = HashingUtils::HexEncode(finalSigningDigest);
    AWS_LOGSTREAM_DEBUG(v4LogTag, "Final computed signing hash: " << finalSigningHash);

    return finalSigningHash;
}
bool AWSAuthV4Signer::SignRequest(Aws::Http::HttpRequest& request, bool signBody) const
{
    AWSCredentials credentials = m_credentialsProvider->GetAWSCredentials();

    //don't sign anonymous requests
    if (credentials.GetAWSAccessKeyId().empty() || credentials.GetAWSSecretKey().empty())
    {
        return true;
    }

    if (!credentials.GetSessionToken().empty())
    {
        request.SetAwsSessionToken(credentials.GetSessionToken());
    }

    Aws::String payloadHash(UNSIGNED_PAYLOAD);
    if(signBody || request.GetUri().GetScheme() != Http::Scheme::HTTPS)
    {
        payloadHash.assign(ComputePayloadHash(request));
        if (payloadHash.empty())
        {
            return false;
        }
    }
    else
    {
        AWS_LOGSTREAM_DEBUG(v4LogTag, "Note: Http payloads are not being signed. signPayloads=" << m_signPayloads
                << " http scheme=" << Http::SchemeMapper::ToString(request.GetUri().GetScheme()));
    }

    if(m_includeSha256HashHeader)
    {
        request.SetHeaderValue("x-amz-content-sha256", payloadHash);
    }

    //calculate date header to use in internal signature (this also goes into date header).
    DateTime now = GetSigningTimestamp();
    Aws::String dateHeaderValue = now.ToGmtString(LONG_DATE_FORMAT_STR);
    request.SetHeaderValue(AWS_DATE_HEADER, dateHeaderValue);

    Aws::StringStream headersStream;
    Aws::StringStream signedHeadersStream;

    for (const auto& header : CanonicalizeHeaders(request.GetHeaders()))
    {
        if(ShouldSignHeader(header.first))
        {
            headersStream << header.first.c_str() << ":" << header.second.c_str() << NEWLINE;
            signedHeadersStream << header.first.c_str() << ";";
        }
    }

    Aws::String canonicalHeadersString = headersStream.str();
    AWS_LOGSTREAM_DEBUG(v4LogTag, "Canonical Header String: " << canonicalHeadersString);

    //calculate signed headers parameter
    Aws::String signedHeadersValue = signedHeadersStream.str();
    //remove that last semi-colon
    signedHeadersValue.erase(signedHeadersValue.length() - 1);
    AWS_LOGSTREAM_DEBUG(v4LogTag, "Signed Headers value:" << signedHeadersValue);

    //generate generalized canonicalized request string.
    Aws::String canonicalRequestString = CanonicalizeRequestSigningString(request, m_urlEscapePath);

    //append v4 stuff to the canonical request string.
    canonicalRequestString.append(canonicalHeadersString);
    canonicalRequestString.append(NEWLINE);
    canonicalRequestString.append(signedHeadersValue);
    canonicalRequestString.append(NEWLINE);
    canonicalRequestString.append(payloadHash);

    AWS_LOGSTREAM_DEBUG(v4LogTag, "Canonical Request String: " << canonicalRequestString);

    //now compute sha256 on that request string
    auto hashResult = m_hash->Calculate(canonicalRequestString);
    if (!hashResult.IsSuccess())
    {
        AWS_LOGSTREAM_ERROR(v4LogTag, "Failed to hash (sha256) request string \"" << canonicalRequestString << "\"");
        return false;
    }

    auto sha256Digest = hashResult.GetResult();
    Aws::String cannonicalRequestHash = HashingUtils::HexEncode(sha256Digest);
    Aws::String simpleDate = now.ToGmtString(SIMPLE_DATE_FORMAT_STR);

    Aws::String stringToSign = GenerateStringToSign(dateHeaderValue, simpleDate, cannonicalRequestHash);
    auto finalSignature = GenerateSignature(credentials, stringToSign, simpleDate);

    Aws::StringStream ss;
    ss << AWS_HMAC_SHA256 << " " << CREDENTIAL << EQ << credentials.GetAWSAccessKeyId() << "/" << simpleDate
        << "/" << m_region << "/" << m_serviceName << "/" << AWS4_REQUEST << ", " << SIGNED_HEADERS << EQ
        << signedHeadersValue << ", " << SIGNATURE << EQ << finalSignature;

    auto awsAuthString = ss.str();
    AWS_LOGSTREAM_DEBUG(v4LogTag, "Signing request with: " << awsAuthString);
    request.SetAwsAuthorization(awsAuthString);

    return true;
}