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#include "rakp12.hpp"
#include "comm_module.hpp"
#include "endian.hpp"
#include "guid.hpp"
#include "main.hpp"
#include <openssl/rand.h>
#include <algorithm>
#include <cstring>
#include <iomanip>
#include <phosphor-logging/log.hpp>
#include <user_channel/channel_layer.hpp>
#include <user_channel/user_layer.hpp>
using namespace phosphor::logging;
namespace command
{
std::vector<uint8_t> RAKP12(const std::vector<uint8_t>& inPayload,
const message::Handler& handler)
{
std::vector<uint8_t> outPayload(sizeof(RAKP2response));
auto request = reinterpret_cast<const RAKP1request*>(inPayload.data());
auto response = reinterpret_cast<RAKP2response*>(outPayload.data());
// Session ID zero is reserved for Session Setup
if (endian::from_ipmi(request->managedSystemSessionID) ==
session::SESSION_ZERO)
{
log<level::INFO>("RAKP12: BMC invalid Session ID");
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::INVALID_SESSION_ID);
return outPayload;
}
std::shared_ptr<session::Session> session;
try
{
session =
std::get<session::Manager&>(singletonPool)
.getSession(endian::from_ipmi(request->managedSystemSessionID));
}
catch (std::exception& e)
{
log<level::ERR>("RAKP12 : session not found",
entry("EXCEPTION=%s", e.what()));
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::INVALID_SESSION_ID);
return outPayload;
}
auto rakp1Size =
sizeof(RAKP1request) - (userNameMaxLen - request->user_name_len);
// Validate user name length in the message
if (request->user_name_len > userNameMaxLen ||
inPayload.size() != rakp1Size)
{
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::INVALID_NAME_LENGTH);
return outPayload;
}
session->userName.assign(request->user_name, request->user_name_len);
// Update transaction time
session->updateLastTransactionTime();
auto rcSessionID = endian::to_ipmi(session->getRCSessionID());
auto bmcSessionID = endian::to_ipmi(session->getBMCSessionID());
auto authAlgo = session->getAuthAlgo();
/*
* Generate Key Authentication Code - RAKP 2
*
* 1) Remote Console Session ID - 4 bytes
* 2) Managed System Session ID - 4 bytes
* 3) Remote Console Random Number - 16 bytes
* 4) Managed System Random Number - 16 bytes
* 5) Managed System GUID - 16 bytes
* 6) Requested Privilege Level - 1 byte
* 7) User Name Length Byte - 1 byte (0 for 'null' username)
* 8) User Name - variable (absent for 'null' username)
*/
std::vector<uint8_t> input;
input.resize(sizeof(rcSessionID) + sizeof(bmcSessionID) +
cipher::rakp_auth::REMOTE_CONSOLE_RANDOM_NUMBER_LEN +
cipher::rakp_auth::BMC_RANDOM_NUMBER_LEN + BMC_GUID_LEN +
sizeof(request->req_max_privilege_level) +
sizeof(request->user_name_len) + session->userName.size());
auto iter = input.begin();
// Remote Console Session ID
std::copy_n(reinterpret_cast<uint8_t*>(&rcSessionID), sizeof(rcSessionID),
iter);
std::advance(iter, sizeof(rcSessionID));
// Managed System Session ID
std::copy_n(reinterpret_cast<uint8_t*>(&bmcSessionID), sizeof(bmcSessionID),
iter);
std::advance(iter, sizeof(bmcSessionID));
// Copy the Remote Console Random Number from the RAKP1 request to the
// Authentication Algorithm
std::copy_n(
reinterpret_cast<const uint8_t*>(request->remote_console_random_number),
cipher::rakp_auth::REMOTE_CONSOLE_RANDOM_NUMBER_LEN,
authAlgo->rcRandomNum.begin());
std::copy(authAlgo->rcRandomNum.begin(), authAlgo->rcRandomNum.end(), iter);
std::advance(iter, cipher::rakp_auth::REMOTE_CONSOLE_RANDOM_NUMBER_LEN);
// Generate the Managed System Random Number
if (!RAND_bytes(input.data() + sizeof(rcSessionID) + sizeof(bmcSessionID) +
cipher::rakp_auth::REMOTE_CONSOLE_RANDOM_NUMBER_LEN,
cipher::rakp_auth::BMC_RANDOM_NUMBER_LEN))
{
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::INSUFFICIENT_RESOURCE);
return outPayload;
}
// As stated in Set Session Privilege Level command in IPMI Spec, when
// creating a session through Activate command / RAKP 1 message, it must be
// established with CALLBACK privilege if requested for callback. All other
// sessions are initialy set to USER privilege, regardless of the requested
// maximum privilege.
session->curPrivLevel = session::Privilege::CALLBACK;
if (static_cast<session::Privilege>(request->req_max_privilege_level &
session::reqMaxPrivMask) >
session::Privilege::CALLBACK)
{
session->curPrivLevel = session::Privilege::USER;
}
session->reqMaxPrivLevel =
static_cast<session::Privilege>(request->req_max_privilege_level);
if (request->user_name_len == 0)
{
// Bail out, if user name is not specified.
// Yes, NULL user name is not supported for security reasons.
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::UNAUTH_NAME);
return outPayload;
}
// Perform user name based lookup
std::string userName(request->user_name, request->user_name_len);
std::string passwd;
uint8_t userId = ipmi::ipmiUserGetUserId(userName);
if (userId == ipmi::invalidUserId)
{
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::UNAUTH_NAME);
return outPayload;
}
// check user is enabled before proceeding.
bool userEnabled = false;
ipmi::ipmiUserCheckEnabled(userId, userEnabled);
if (!userEnabled)
{
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::INACTIVE_ROLE);
return outPayload;
}
// Get the user password for RAKP message authenticate
passwd = ipmi::ipmiUserGetPassword(userName);
if (passwd.empty())
{
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::UNAUTH_NAME);
return outPayload;
}
ipmi::PrivAccess userAccess{};
ipmi::ChannelAccess chAccess{};
// TODO Replace with proper calls.
uint8_t chNum = static_cast<uint8_t>(ipmi::EChannelID::chanLan1);
// Get channel based access information
if ((ipmi::ipmiUserGetPrivilegeAccess(userId, chNum, userAccess) !=
IPMI_CC_OK) ||
(ipmi::getChannelAccessData(chNum, chAccess) != IPMI_CC_OK))
{
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::INACTIVE_ROLE);
return outPayload;
}
session->chNum = chNum;
// minimum privilege of Channel / User / session::privilege::USER/CALLBACK /
// has to be used as session current privilege level
uint8_t minPriv = 0;
if (chAccess.privLimit < userAccess.privilege)
{
minPriv = chAccess.privLimit;
}
else
{
minPriv = userAccess.privilege;
}
if (session->curPrivLevel > static_cast<session::Privilege>(minPriv))
{
session->curPrivLevel = static_cast<session::Privilege>(minPriv);
}
// For username / privilege lookup, fail with UNAUTH_NAME, if requested
// max privilege does not match user privilege
if (((request->req_max_privilege_level & userNameOnlyLookupMask) ==
userNamePrivLookup) &&
((request->req_max_privilege_level & session::reqMaxPrivMask) !=
userAccess.privilege))
{
log<level::INFO>(
"Username/Privilege lookup failed for requested privilege");
response->rmcpStatusCode =
static_cast<uint8_t>(RAKP_ReturnCode::UNAUTH_NAME);
return outPayload;
}
std::fill(authAlgo->userKey.data(),
authAlgo->userKey.data() + authAlgo->userKey.size(), 0);
std::copy_n(passwd.c_str(), passwd.size(), authAlgo->userKey.data());
// Copy the Managed System Random Number to the Authentication Algorithm
std::copy_n(iter, cipher::rakp_auth::BMC_RANDOM_NUMBER_LEN,
authAlgo->bmcRandomNum.begin());
std::advance(iter, cipher::rakp_auth::BMC_RANDOM_NUMBER_LEN);
// Managed System GUID
std::copy_n(cache::guid.data(), cache::guid.size(), iter);
std::advance(iter, BMC_GUID_LEN);
// Requested Privilege Level
std::copy_n(&(request->req_max_privilege_level),
sizeof(request->req_max_privilege_level), iter);
std::advance(iter, sizeof(request->req_max_privilege_level));
// User Name Length Byte
std::copy_n(&(request->user_name_len), sizeof(request->user_name_len),
iter);
std::advance(iter, sizeof(request->user_name_len));
std::copy_n(session->userName.data(), session->userName.size(), iter);
// Generate Key Exchange Authentication Code - RAKP2
auto output = authAlgo->generateHMAC(input);
response->messageTag = request->messageTag;
response->rmcpStatusCode = static_cast<uint8_t>(RAKP_ReturnCode::NO_ERROR);
response->reserved = 0;
response->remoteConsoleSessionID = rcSessionID;
// Copy Managed System Random Number to the Response
std::copy(authAlgo->bmcRandomNum.begin(), authAlgo->bmcRandomNum.end(),
response->managed_system_random_number);
// Copy System GUID to the Response
std::copy_n(cache::guid.data(), cache::guid.size(),
response->managed_system_guid);
// Insert the HMAC output into the payload
outPayload.insert(outPayload.end(), output.begin(), output.end());
return outPayload;
}
} // namespace command
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