1e7d23d0eSVijay Khemka /* 2e7d23d0eSVijay Khemka * Copyright (c) 2018 Intel Corporation. 3e7d23d0eSVijay Khemka * Copyright (c) 2018-present Facebook. 4e7d23d0eSVijay Khemka * 5e7d23d0eSVijay Khemka * Licensed under the Apache License, Version 2.0 (the "License"); 6e7d23d0eSVijay Khemka * you may not use this file except in compliance with the License. 7e7d23d0eSVijay Khemka * You may obtain a copy of the License at 8e7d23d0eSVijay Khemka * 9e7d23d0eSVijay Khemka * http://www.apache.org/licenses/LICENSE-2.0 10e7d23d0eSVijay Khemka * 11e7d23d0eSVijay Khemka * Unless required by applicable law or agreed to in writing, software 12e7d23d0eSVijay Khemka * distributed under the License is distributed on an "AS IS" BASIS, 13e7d23d0eSVijay Khemka * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14e7d23d0eSVijay Khemka * See the License for the specific language governing permissions and 15e7d23d0eSVijay Khemka * limitations under the License. 16e7d23d0eSVijay Khemka */ 17e7d23d0eSVijay Khemka 18e7d23d0eSVijay Khemka #include "xyz/openbmc_project/Common/error.hpp" 19e7d23d0eSVijay Khemka #include <ipmid/api.h> 20e7d23d0eSVijay Khemka 211d4a0697SVijay Khemka #include <nlohmann/json.hpp> 22e7d23d0eSVijay Khemka #include <array> 23e7d23d0eSVijay Khemka #include <commandutils.hpp> 24e7d23d0eSVijay Khemka #include <cstring> 25e7d23d0eSVijay Khemka #include <iostream> 261d4a0697SVijay Khemka #include <iomanip> 271d4a0697SVijay Khemka #include <sstream> 281d4a0697SVijay Khemka #include <fstream> 29e7d23d0eSVijay Khemka #include <oemcommands.hpp> 301b6fae3fSVijay Khemka #include <ipmid/utils.hpp> 31e7d23d0eSVijay Khemka #include <phosphor-logging/log.hpp> 32e7d23d0eSVijay Khemka #include <sdbusplus/bus.hpp> 33e7d23d0eSVijay Khemka #include <string> 34e7d23d0eSVijay Khemka #include <vector> 35e7d23d0eSVijay Khemka 36e7d23d0eSVijay Khemka #define SIZE_IANA_ID 3 37e7d23d0eSVijay Khemka 38e7d23d0eSVijay Khemka namespace ipmi 39e7d23d0eSVijay Khemka { 40a7231893SVijay Khemka 41a7231893SVijay Khemka using namespace phosphor::logging; 42a7231893SVijay Khemka 43e7d23d0eSVijay Khemka static void registerOEMFunctions() __attribute__((constructor)); 44e7d23d0eSVijay Khemka sdbusplus::bus::bus dbus(ipmid_get_sd_bus_connection()); // from ipmid/api.h 45e7d23d0eSVijay Khemka static constexpr size_t maxFRUStringLength = 0x3F; 46e7d23d0eSVijay Khemka 47*cc0d6d92SVijay Khemka int plat_udbg_get_post_desc(uint8_t, uint8_t *, uint8_t, uint8_t *, uint8_t *, 48*cc0d6d92SVijay Khemka uint8_t *); 49e7d23d0eSVijay Khemka ipmi_ret_t plat_udbg_get_frame_data(uint8_t, uint8_t, uint8_t *, uint8_t *, 50e7d23d0eSVijay Khemka uint8_t *); 51e7d23d0eSVijay Khemka ipmi_ret_t plat_udbg_control_panel(uint8_t, uint8_t, uint8_t, uint8_t *, 52e7d23d0eSVijay Khemka uint8_t *); 531b6fae3fSVijay Khemka namespace variant_ns = sdbusplus::message::variant_ns; 54feaa9811SVijay Khemka nlohmann::json oemData __attribute__((init_priority(101))); 551b6fae3fSVijay Khemka 561b6fae3fSVijay Khemka enum class LanParam : uint8_t 571b6fae3fSVijay Khemka { 581b6fae3fSVijay Khemka INPROGRESS = 0, 591b6fae3fSVijay Khemka AUTHSUPPORT = 1, 601b6fae3fSVijay Khemka AUTHENABLES = 2, 611b6fae3fSVijay Khemka IP = 3, 621b6fae3fSVijay Khemka IPSRC = 4, 631b6fae3fSVijay Khemka MAC = 5, 641b6fae3fSVijay Khemka SUBNET = 6, 651b6fae3fSVijay Khemka GATEWAY = 12, 661b6fae3fSVijay Khemka VLAN = 20, 671b6fae3fSVijay Khemka CIPHER_SUITE_COUNT = 22, 681b6fae3fSVijay Khemka CIPHER_SUITE_ENTRIES = 23, 691b6fae3fSVijay Khemka IPV6 = 59, 701b6fae3fSVijay Khemka }; 711b6fae3fSVijay Khemka 72a7231893SVijay Khemka namespace network 73a7231893SVijay Khemka { 74a7231893SVijay Khemka 75a7231893SVijay Khemka constexpr auto ROOT = "/xyz/openbmc_project/network"; 76a7231893SVijay Khemka constexpr auto SERVICE = "xyz.openbmc_project.Network"; 77a7231893SVijay Khemka constexpr auto IPV4_TYPE = "ipv4"; 78a7231893SVijay Khemka constexpr auto IPV6_TYPE = "ipv6"; 79a7231893SVijay Khemka constexpr auto IPV4_PREFIX = "169.254"; 80a7231893SVijay Khemka constexpr auto IPV6_PREFIX = "fe80"; 81a7231893SVijay Khemka constexpr auto IP_INTERFACE = "xyz.openbmc_project.Network.IP"; 82a7231893SVijay Khemka constexpr auto MAC_INTERFACE = "xyz.openbmc_project.Network.MACAddress"; 83a7231893SVijay Khemka 84a7231893SVijay Khemka bool isLinkLocalIP(const std::string &address) 85a7231893SVijay Khemka { 86a7231893SVijay Khemka return address.find(IPV4_PREFIX) == 0 || address.find(IPV6_PREFIX) == 0; 87a7231893SVijay Khemka } 88a7231893SVijay Khemka 89a7231893SVijay Khemka DbusObjectInfo getIPObject(sdbusplus::bus::bus &bus, 90a7231893SVijay Khemka const std::string &interface, 91a7231893SVijay Khemka const std::string &serviceRoot, 92a7231893SVijay Khemka const std::string &match) 93a7231893SVijay Khemka { 94a7231893SVijay Khemka auto objectTree = getAllDbusObjects(bus, serviceRoot, interface, match); 95a7231893SVijay Khemka 96a7231893SVijay Khemka if (objectTree.empty()) 97a7231893SVijay Khemka { 98a7231893SVijay Khemka log<level::ERR>("No Object has implemented the IP interface", 99a7231893SVijay Khemka entry("INTERFACE=%s", interface.c_str())); 100a7231893SVijay Khemka } 101a7231893SVijay Khemka 102a7231893SVijay Khemka DbusObjectInfo objectInfo; 103a7231893SVijay Khemka 104a7231893SVijay Khemka for (auto &object : objectTree) 105a7231893SVijay Khemka { 106a7231893SVijay Khemka auto variant = 107a7231893SVijay Khemka ipmi::getDbusProperty(bus, object.second.begin()->first, 108a7231893SVijay Khemka object.first, IP_INTERFACE, "Address"); 109a7231893SVijay Khemka 110a7231893SVijay Khemka objectInfo = std::make_pair(object.first, object.second.begin()->first); 111a7231893SVijay Khemka 112a7231893SVijay Khemka // if LinkLocalIP found look for Non-LinkLocalIP 113a7231893SVijay Khemka if (isLinkLocalIP(std::get<std::string>(variant))) 114a7231893SVijay Khemka { 115a7231893SVijay Khemka continue; 116a7231893SVijay Khemka } 117a7231893SVijay Khemka else 118a7231893SVijay Khemka { 119a7231893SVijay Khemka break; 120a7231893SVijay Khemka } 121a7231893SVijay Khemka } 122a7231893SVijay Khemka return objectInfo; 123a7231893SVijay Khemka } 124a7231893SVijay Khemka 125a7231893SVijay Khemka } // namespace network 126a7231893SVijay Khemka 1271d4a0697SVijay Khemka //---------------------------------------------------------------------- 1281d4a0697SVijay Khemka // Helper functions for storing oem data 1291d4a0697SVijay Khemka //---------------------------------------------------------------------- 1301d4a0697SVijay Khemka 1311d4a0697SVijay Khemka void flushOemData() 1321d4a0697SVijay Khemka { 1331d4a0697SVijay Khemka std::ofstream file(JSON_OEM_DATA_FILE); 1341d4a0697SVijay Khemka file << oemData; 135feaa9811SVijay Khemka file.close(); 1361d4a0697SVijay Khemka return; 1371d4a0697SVijay Khemka } 1381d4a0697SVijay Khemka 1391d4a0697SVijay Khemka std::string bytesToStr(uint8_t *byte, int len) 1401d4a0697SVijay Khemka { 1411d4a0697SVijay Khemka std::stringstream ss; 1421d4a0697SVijay Khemka int i; 1431d4a0697SVijay Khemka 1441d4a0697SVijay Khemka ss << std::hex; 1451d4a0697SVijay Khemka for (i = 0; i < len; i++) 1461d4a0697SVijay Khemka { 1471d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)byte[i]; 1481d4a0697SVijay Khemka } 1491d4a0697SVijay Khemka 1501d4a0697SVijay Khemka return ss.str(); 1511d4a0697SVijay Khemka } 1521d4a0697SVijay Khemka 1531d4a0697SVijay Khemka int strToBytes(std::string &str, uint8_t *data) 1541d4a0697SVijay Khemka { 1551d4a0697SVijay Khemka std::string sstr; 1561d4a0697SVijay Khemka int i; 1571d4a0697SVijay Khemka 1581d4a0697SVijay Khemka for (i = 0; i < (str.length()) / 2; i++) 1591d4a0697SVijay Khemka { 1601d4a0697SVijay Khemka sstr = str.substr(i * 2, 2); 1611d4a0697SVijay Khemka data[i] = (uint8_t)std::strtol(sstr.c_str(), NULL, 16); 1621d4a0697SVijay Khemka } 1631d4a0697SVijay Khemka return i; 1641d4a0697SVijay Khemka } 1651d4a0697SVijay Khemka 1661b6fae3fSVijay Khemka ipmi_ret_t getNetworkData(uint8_t lan_param, char *data) 1671b6fae3fSVijay Khemka { 1681b6fae3fSVijay Khemka ipmi_ret_t rc = IPMI_CC_OK; 1691b6fae3fSVijay Khemka sdbusplus::bus::bus bus(ipmid_get_sd_bus_connection()); 1701b6fae3fSVijay Khemka 1711b6fae3fSVijay Khemka const std::string ethdevice = "eth0"; 1721b6fae3fSVijay Khemka 1731b6fae3fSVijay Khemka switch (static_cast<LanParam>(lan_param)) 1741b6fae3fSVijay Khemka { 1751b6fae3fSVijay Khemka case LanParam::IP: 1761b6fae3fSVijay Khemka { 177a7231893SVijay Khemka auto ethIP = ethdevice + "/" + ipmi::network::IPV4_TYPE; 1781b6fae3fSVijay Khemka std::string ipaddress; 179a7231893SVijay Khemka auto ipObjectInfo = ipmi::network::getIPObject( 1801b6fae3fSVijay Khemka bus, ipmi::network::IP_INTERFACE, ipmi::network::ROOT, ethIP); 1811b6fae3fSVijay Khemka 1821b6fae3fSVijay Khemka auto properties = ipmi::getAllDbusProperties( 1831b6fae3fSVijay Khemka bus, ipObjectInfo.second, ipObjectInfo.first, 1841b6fae3fSVijay Khemka ipmi::network::IP_INTERFACE); 1851b6fae3fSVijay Khemka 1861b6fae3fSVijay Khemka ipaddress = variant_ns::get<std::string>(properties["Address"]); 1871b6fae3fSVijay Khemka 1881b6fae3fSVijay Khemka std::strcpy(data, ipaddress.c_str()); 1891b6fae3fSVijay Khemka } 1901b6fae3fSVijay Khemka break; 1911b6fae3fSVijay Khemka 1921b6fae3fSVijay Khemka case LanParam::IPV6: 1931b6fae3fSVijay Khemka { 194a7231893SVijay Khemka auto ethIP = ethdevice + "/" + ipmi::network::IPV6_TYPE; 1951b6fae3fSVijay Khemka std::string ipaddress; 196a7231893SVijay Khemka auto ipObjectInfo = ipmi::network::getIPObject( 1971b6fae3fSVijay Khemka bus, ipmi::network::IP_INTERFACE, ipmi::network::ROOT, ethIP); 1981b6fae3fSVijay Khemka 1991b6fae3fSVijay Khemka auto properties = ipmi::getAllDbusProperties( 2001b6fae3fSVijay Khemka bus, ipObjectInfo.second, ipObjectInfo.first, 2011b6fae3fSVijay Khemka ipmi::network::IP_INTERFACE); 2021b6fae3fSVijay Khemka 2031b6fae3fSVijay Khemka ipaddress = variant_ns::get<std::string>(properties["Address"]); 2041b6fae3fSVijay Khemka 2051b6fae3fSVijay Khemka std::strcpy(data, ipaddress.c_str()); 2061b6fae3fSVijay Khemka } 2071b6fae3fSVijay Khemka break; 2081b6fae3fSVijay Khemka 2091b6fae3fSVijay Khemka case LanParam::MAC: 2101b6fae3fSVijay Khemka { 2111b6fae3fSVijay Khemka std::string macAddress; 2121b6fae3fSVijay Khemka auto macObjectInfo = 2131b6fae3fSVijay Khemka ipmi::getDbusObject(bus, ipmi::network::MAC_INTERFACE, 2141b6fae3fSVijay Khemka ipmi::network::ROOT, ethdevice); 2151b6fae3fSVijay Khemka 2161b6fae3fSVijay Khemka auto variant = ipmi::getDbusProperty( 2171b6fae3fSVijay Khemka bus, macObjectInfo.second, macObjectInfo.first, 2181b6fae3fSVijay Khemka ipmi::network::MAC_INTERFACE, "MACAddress"); 2191b6fae3fSVijay Khemka 2201b6fae3fSVijay Khemka macAddress = variant_ns::get<std::string>(variant); 2211b6fae3fSVijay Khemka 2221b6fae3fSVijay Khemka sscanf(macAddress.c_str(), ipmi::network::MAC_ADDRESS_FORMAT, 2231b6fae3fSVijay Khemka (data), (data + 1), (data + 2), (data + 3), (data + 4), 2241b6fae3fSVijay Khemka (data + 5)); 2251b6fae3fSVijay Khemka std::strcpy(data, macAddress.c_str()); 2261b6fae3fSVijay Khemka } 2271b6fae3fSVijay Khemka break; 2281b6fae3fSVijay Khemka 2291b6fae3fSVijay Khemka default: 2301b6fae3fSVijay Khemka rc = IPMI_CC_PARM_OUT_OF_RANGE; 2311b6fae3fSVijay Khemka } 2321b6fae3fSVijay Khemka return rc; 2331b6fae3fSVijay Khemka } 234e7d23d0eSVijay Khemka 235e7d23d0eSVijay Khemka // return code: 0 successful 236e7d23d0eSVijay Khemka int8_t getFruData(std::string &data, std::string &name) 237e7d23d0eSVijay Khemka { 238e7d23d0eSVijay Khemka std::string objpath = "/xyz/openbmc_project/FruDevice"; 239e7d23d0eSVijay Khemka std::string intf = "xyz.openbmc_project.FruDeviceManager"; 240e7d23d0eSVijay Khemka std::string service = getService(dbus, intf, objpath); 241e7d23d0eSVijay Khemka ObjectValueTree valueTree = getManagedObjects(dbus, service, "/"); 242e7d23d0eSVijay Khemka if (valueTree.empty()) 243e7d23d0eSVijay Khemka { 244e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 245e7d23d0eSVijay Khemka "No object implements interface", 246e7d23d0eSVijay Khemka phosphor::logging::entry("INTF=%s", intf.c_str())); 247e7d23d0eSVijay Khemka return -1; 248e7d23d0eSVijay Khemka } 249e7d23d0eSVijay Khemka 250e7d23d0eSVijay Khemka for (const auto &item : valueTree) 251e7d23d0eSVijay Khemka { 252e7d23d0eSVijay Khemka auto interface = item.second.find("xyz.openbmc_project.FruDevice"); 253e7d23d0eSVijay Khemka if (interface == item.second.end()) 254e7d23d0eSVijay Khemka { 255e7d23d0eSVijay Khemka continue; 256e7d23d0eSVijay Khemka } 257e7d23d0eSVijay Khemka 258e7d23d0eSVijay Khemka auto property = interface->second.find(name.c_str()); 259e7d23d0eSVijay Khemka if (property == interface->second.end()) 260e7d23d0eSVijay Khemka { 261e7d23d0eSVijay Khemka continue; 262e7d23d0eSVijay Khemka } 263e7d23d0eSVijay Khemka 264e7d23d0eSVijay Khemka try 265e7d23d0eSVijay Khemka { 266e7d23d0eSVijay Khemka Value variant = property->second; 267e7d23d0eSVijay Khemka std::string &result = 268e7d23d0eSVijay Khemka sdbusplus::message::variant_ns::get<std::string>(variant); 269e7d23d0eSVijay Khemka if (result.size() > maxFRUStringLength) 270e7d23d0eSVijay Khemka { 271e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 272e7d23d0eSVijay Khemka "FRU serial number exceed maximum length"); 273e7d23d0eSVijay Khemka return -1; 274e7d23d0eSVijay Khemka } 275e7d23d0eSVijay Khemka data = result; 276e7d23d0eSVijay Khemka return 0; 277e7d23d0eSVijay Khemka } 278e7d23d0eSVijay Khemka catch (sdbusplus::message::variant_ns::bad_variant_access &e) 279e7d23d0eSVijay Khemka { 280e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>(e.what()); 281e7d23d0eSVijay Khemka return -1; 282e7d23d0eSVijay Khemka } 283e7d23d0eSVijay Khemka } 284e7d23d0eSVijay Khemka return -1; 285e7d23d0eSVijay Khemka } 286e7d23d0eSVijay Khemka 287e7d23d0eSVijay Khemka typedef struct 288e7d23d0eSVijay Khemka { 289e7d23d0eSVijay Khemka uint8_t cur_power_state; 290e7d23d0eSVijay Khemka uint8_t last_power_event; 291e7d23d0eSVijay Khemka uint8_t misc_power_state; 292e7d23d0eSVijay Khemka uint8_t front_panel_button_cap_status; 293e7d23d0eSVijay Khemka } ipmi_get_chassis_status_t; 294e7d23d0eSVijay Khemka 295e7d23d0eSVijay Khemka // Todo: Needs to update this as per power policy when integrated 296e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 297e7d23d0eSVijay Khemka // Get Chassis Status commands 298e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 299e7d23d0eSVijay Khemka ipmi_ret_t ipmiGetChassisStatus(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 300e7d23d0eSVijay Khemka ipmi_request_t request, 301e7d23d0eSVijay Khemka ipmi_response_t response, 302e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 303e7d23d0eSVijay Khemka ipmi_context_t context) 304e7d23d0eSVijay Khemka { 305e7d23d0eSVijay Khemka ipmi_get_chassis_status_t chassis_status; 306e7d23d0eSVijay Khemka uint8_t s = 2; 307e7d23d0eSVijay Khemka 308e7d23d0eSVijay Khemka *data_len = 4; 309e7d23d0eSVijay Khemka 310e7d23d0eSVijay Khemka // Current Power State 311e7d23d0eSVijay Khemka // [7] reserved 312e7d23d0eSVijay Khemka // [6..5] power restore policy 313e7d23d0eSVijay Khemka // 00b = chassis stays powered off after AC/mains returns 314e7d23d0eSVijay Khemka // 01b = after AC returns, power is restored to the state that was 315e7d23d0eSVijay Khemka // in effect when AC/mains was lost. 316e7d23d0eSVijay Khemka // 10b = chassis always powers up after AC/mains returns 317e7d23d0eSVijay Khemka // 11b = unknow 318e7d23d0eSVijay Khemka // Set to 00b, by observing the hardware behavior. 319e7d23d0eSVijay Khemka // Do we need to define a dbus property to identify the restore 320e7d23d0eSVijay Khemka // policy? 321e7d23d0eSVijay Khemka 322e7d23d0eSVijay Khemka // [4] power control fault 323e7d23d0eSVijay Khemka // 1b = controller attempted to turn system power on or off, but 324e7d23d0eSVijay Khemka // system did not enter desired state. 325e7d23d0eSVijay Khemka // Set to 0b, since We don't support it.. 326e7d23d0eSVijay Khemka 327e7d23d0eSVijay Khemka // [3] power fault 328e7d23d0eSVijay Khemka // 1b = fault detected in main power subsystem. 329e7d23d0eSVijay Khemka // set to 0b. for we don't support it. 330e7d23d0eSVijay Khemka 331e7d23d0eSVijay Khemka // [2] 1b = interlock (chassis is presently shut down because a chassis 332e7d23d0eSVijay Khemka // panel interlock switch is active). (IPMI 1.5) 333e7d23d0eSVijay Khemka // set to 0b, for we don't support it. 334e7d23d0eSVijay Khemka 335e7d23d0eSVijay Khemka // [1] power overload 336e7d23d0eSVijay Khemka // 1b = system shutdown because of power overload condition. 337e7d23d0eSVijay Khemka // set to 0b, for we don't support it. 338e7d23d0eSVijay Khemka 339e7d23d0eSVijay Khemka // [0] power is on 340e7d23d0eSVijay Khemka // 1b = system power is on 341e7d23d0eSVijay Khemka // 0b = system power is off(soft-off S4/S5, or mechanical off) 342e7d23d0eSVijay Khemka 343e7d23d0eSVijay Khemka chassis_status.cur_power_state = ((s & 0x3) << 5) | (1 & 0x1); 344e7d23d0eSVijay Khemka 345e7d23d0eSVijay Khemka // Last Power Event 346e7d23d0eSVijay Khemka // [7..5] – reserved 347e7d23d0eSVijay Khemka // [4] – 1b = last ‘Power is on’ state was entered via IPMI command 348e7d23d0eSVijay Khemka // [3] – 1b = last power down caused by power fault 349e7d23d0eSVijay Khemka // [2] – 1b = last power down caused by a power interlock being activated 350e7d23d0eSVijay Khemka // [1] – 1b = last power down caused by a Power overload 351e7d23d0eSVijay Khemka // [0] – 1b = AC failed 352e7d23d0eSVijay Khemka // set to 0x0, for we don't support these fields. 353e7d23d0eSVijay Khemka 354e7d23d0eSVijay Khemka chassis_status.last_power_event = 0; 355e7d23d0eSVijay Khemka 356e7d23d0eSVijay Khemka // Misc. Chassis State 357e7d23d0eSVijay Khemka // [7] – reserved 358e7d23d0eSVijay Khemka // [6] – 1b = Chassis Identify command and state info supported (Optional) 359e7d23d0eSVijay Khemka // 0b = Chassis Identify command support unspecified via this command. 360e7d23d0eSVijay Khemka // (The Get Command Support command , if implemented, would still 361e7d23d0eSVijay Khemka // indicate support for the Chassis Identify command) 362e7d23d0eSVijay Khemka // [5..4] – Chassis Identify State. Mandatory when bit[6] =1b, reserved 363e7d23d0eSVijay Khemka // (return 364e7d23d0eSVijay Khemka // as 00b) otherwise. Returns the present chassis identify state. 365e7d23d0eSVijay Khemka // Refer to the Chassis Identify command for more info. 366e7d23d0eSVijay Khemka // 00b = chassis identify state = Off 367e7d23d0eSVijay Khemka // 01b = chassis identify state = Temporary(timed) On 368e7d23d0eSVijay Khemka // 10b = chassis identify state = Indefinite On 369e7d23d0eSVijay Khemka // 11b = reserved 370e7d23d0eSVijay Khemka // [3] – 1b = Cooling/fan fault detected 371e7d23d0eSVijay Khemka // [2] – 1b = Drive Fault 372e7d23d0eSVijay Khemka // [1] – 1b = Front Panel Lockout active (power off and reset via chassis 373e7d23d0eSVijay Khemka // push-buttons disabled.) 374e7d23d0eSVijay Khemka // [0] – 1b = Chassis Intrusion active 375e7d23d0eSVijay Khemka // set to 0, for we don't support them. 376e7d23d0eSVijay Khemka chassis_status.misc_power_state = 0x40; 377e7d23d0eSVijay Khemka 378e7d23d0eSVijay Khemka // Front Panel Button Capabilities and disable/enable status(Optional) 379e7d23d0eSVijay Khemka // set to 0, for we don't support them. 380e7d23d0eSVijay Khemka chassis_status.front_panel_button_cap_status = 0; 381e7d23d0eSVijay Khemka 382e7d23d0eSVijay Khemka // Pack the actual response 383e7d23d0eSVijay Khemka std::memcpy(response, &chassis_status, *data_len); 384e7d23d0eSVijay Khemka 385e7d23d0eSVijay Khemka return IPMI_CC_OK; 386e7d23d0eSVijay Khemka } 387e7d23d0eSVijay Khemka 388e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 389e7d23d0eSVijay Khemka // Get Debug Frame Info 390e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 391e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemDbgGetFrameInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 392e7d23d0eSVijay Khemka ipmi_request_t request, 393e7d23d0eSVijay Khemka ipmi_response_t response, 394e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 395e7d23d0eSVijay Khemka ipmi_context_t context) 396e7d23d0eSVijay Khemka { 397e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 398e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 399e7d23d0eSVijay Khemka uint8_t num_frames = 3; 400e7d23d0eSVijay Khemka 401e7d23d0eSVijay Khemka std::memcpy(res, req, SIZE_IANA_ID); // IANA ID 402e7d23d0eSVijay Khemka res[SIZE_IANA_ID] = num_frames; 403e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + 1; 404e7d23d0eSVijay Khemka 405e7d23d0eSVijay Khemka return IPMI_CC_OK; 406e7d23d0eSVijay Khemka } 407e7d23d0eSVijay Khemka 408e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 409e7d23d0eSVijay Khemka // Get Debug Updated Frames 410e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 411e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemDbgGetUpdFrames(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 412e7d23d0eSVijay Khemka ipmi_request_t request, 413e7d23d0eSVijay Khemka ipmi_response_t response, 414e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 415e7d23d0eSVijay Khemka ipmi_context_t context) 416e7d23d0eSVijay Khemka { 417e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 418e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 419e7d23d0eSVijay Khemka uint8_t num_updates = 3; 420e7d23d0eSVijay Khemka *data_len = 4; 421e7d23d0eSVijay Khemka 422e7d23d0eSVijay Khemka std::memcpy(res, req, SIZE_IANA_ID); // IANA ID 423e7d23d0eSVijay Khemka res[SIZE_IANA_ID] = num_updates; 424e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + num_updates + 1; 425e7d23d0eSVijay Khemka res[SIZE_IANA_ID + 1] = 1; // info page update 426e7d23d0eSVijay Khemka res[SIZE_IANA_ID + 2] = 2; // cri sel update 427e7d23d0eSVijay Khemka res[SIZE_IANA_ID + 3] = 3; // cri sensor update 428e7d23d0eSVijay Khemka 429e7d23d0eSVijay Khemka return IPMI_CC_OK; 430e7d23d0eSVijay Khemka } 431e7d23d0eSVijay Khemka 432e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 433e7d23d0eSVijay Khemka // Get Debug POST Description 434e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 435e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemDbgGetPostDesc(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 436e7d23d0eSVijay Khemka ipmi_request_t request, 437e7d23d0eSVijay Khemka ipmi_response_t response, 438e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 439e7d23d0eSVijay Khemka ipmi_context_t context) 440e7d23d0eSVijay Khemka { 441e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 442e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 443e7d23d0eSVijay Khemka uint8_t index = 0; 444e7d23d0eSVijay Khemka uint8_t next = 0; 445e7d23d0eSVijay Khemka uint8_t end = 0; 446e7d23d0eSVijay Khemka uint8_t phase = 0; 447*cc0d6d92SVijay Khemka uint8_t descLen = 0; 448e7d23d0eSVijay Khemka int ret; 449e7d23d0eSVijay Khemka 450e7d23d0eSVijay Khemka index = req[3]; 451e7d23d0eSVijay Khemka phase = req[4]; 452e7d23d0eSVijay Khemka 453*cc0d6d92SVijay Khemka ret = plat_udbg_get_post_desc(index, &next, phase, &end, &descLen, &res[8]); 454e7d23d0eSVijay Khemka if (ret) 455e7d23d0eSVijay Khemka { 456e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 457e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID; 458e7d23d0eSVijay Khemka return IPMI_CC_UNSPECIFIED_ERROR; 459e7d23d0eSVijay Khemka } 460e7d23d0eSVijay Khemka 461e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 462e7d23d0eSVijay Khemka res[3] = index; 463e7d23d0eSVijay Khemka res[4] = next; 464e7d23d0eSVijay Khemka res[5] = phase; 465e7d23d0eSVijay Khemka res[6] = end; 466*cc0d6d92SVijay Khemka res[7] = descLen; 467*cc0d6d92SVijay Khemka *data_len = SIZE_IANA_ID + 5 + descLen; 468e7d23d0eSVijay Khemka 469e7d23d0eSVijay Khemka return IPMI_CC_OK; 470e7d23d0eSVijay Khemka } 471e7d23d0eSVijay Khemka 472e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 473e7d23d0eSVijay Khemka // Get Debug GPIO Description 474e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 475e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemDbgGetGpioDesc(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 476e7d23d0eSVijay Khemka ipmi_request_t request, 477e7d23d0eSVijay Khemka ipmi_response_t response, 478e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 479e7d23d0eSVijay Khemka ipmi_context_t context) 480e7d23d0eSVijay Khemka { 481e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 482e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 483e7d23d0eSVijay Khemka 484e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>( 485e7d23d0eSVijay Khemka "Get GPIO Description Event"); 486e7d23d0eSVijay Khemka 487e7d23d0eSVijay Khemka std::memcpy(res, req, SIZE_IANA_ID + 1); // IANA ID 488e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + 1; 489e7d23d0eSVijay Khemka 490e7d23d0eSVijay Khemka return IPMI_CC_OK; 491e7d23d0eSVijay Khemka } 492e7d23d0eSVijay Khemka 493e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 494e7d23d0eSVijay Khemka // Get Debug Frame Data 495e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 496e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemDbgGetFrameData(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 497e7d23d0eSVijay Khemka ipmi_request_t request, 498e7d23d0eSVijay Khemka ipmi_response_t response, 499e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 500e7d23d0eSVijay Khemka ipmi_context_t context) 501e7d23d0eSVijay Khemka { 502e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 503e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 504e7d23d0eSVijay Khemka uint8_t frame; 505e7d23d0eSVijay Khemka uint8_t page; 506e7d23d0eSVijay Khemka uint8_t next; 507e7d23d0eSVijay Khemka uint8_t count; 508e7d23d0eSVijay Khemka int ret; 509e7d23d0eSVijay Khemka 510e7d23d0eSVijay Khemka frame = req[3]; 511e7d23d0eSVijay Khemka page = req[4]; 512e7d23d0eSVijay Khemka int fr = frame; 513e7d23d0eSVijay Khemka int pg = page; 514e7d23d0eSVijay Khemka 515e7d23d0eSVijay Khemka ret = plat_udbg_get_frame_data(frame, page, &next, &count, &res[7]); 516e7d23d0eSVijay Khemka if (ret) 517e7d23d0eSVijay Khemka { 518e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 519e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID; 520e7d23d0eSVijay Khemka return IPMI_CC_UNSPECIFIED_ERROR; 521e7d23d0eSVijay Khemka } 522e7d23d0eSVijay Khemka 523e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 524e7d23d0eSVijay Khemka res[3] = frame; 525e7d23d0eSVijay Khemka res[4] = page; 526e7d23d0eSVijay Khemka res[5] = next; 527e7d23d0eSVijay Khemka res[6] = count; 528e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + 4 + count; 529e7d23d0eSVijay Khemka 530e7d23d0eSVijay Khemka return IPMI_CC_OK; 531e7d23d0eSVijay Khemka } 532e7d23d0eSVijay Khemka 533e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 534e7d23d0eSVijay Khemka // Get Debug Control Panel 535e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 536e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemDbgGetCtrlPanel(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 537e7d23d0eSVijay Khemka ipmi_request_t request, 538e7d23d0eSVijay Khemka ipmi_response_t response, 539e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 540e7d23d0eSVijay Khemka ipmi_context_t context) 541e7d23d0eSVijay Khemka { 542e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 543e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 544e7d23d0eSVijay Khemka 545e7d23d0eSVijay Khemka uint8_t panel; 546e7d23d0eSVijay Khemka uint8_t operation; 547e7d23d0eSVijay Khemka uint8_t item; 548e7d23d0eSVijay Khemka uint8_t count; 549e7d23d0eSVijay Khemka ipmi_ret_t ret; 550e7d23d0eSVijay Khemka 551e7d23d0eSVijay Khemka panel = req[3]; 552e7d23d0eSVijay Khemka operation = req[4]; 553e7d23d0eSVijay Khemka item = req[5]; 554e7d23d0eSVijay Khemka 555e7d23d0eSVijay Khemka ret = plat_udbg_control_panel(panel, operation, item, &count, &res[3]); 556e7d23d0eSVijay Khemka 557e7d23d0eSVijay Khemka std::memcpy(res, req, SIZE_IANA_ID); // IANA ID 558e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + count; 559e7d23d0eSVijay Khemka 560e7d23d0eSVijay Khemka return ret; 561e7d23d0eSVijay Khemka } 562e7d23d0eSVijay Khemka 563e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 564e7d23d0eSVijay Khemka // Set Dimm Info (CMD_OEM_SET_DIMM_INFO) 565e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 566e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemSetDimmInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 567e7d23d0eSVijay Khemka ipmi_request_t request, ipmi_response_t response, 568e7d23d0eSVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 569e7d23d0eSVijay Khemka { 570e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 5711d4a0697SVijay Khemka 5721d4a0697SVijay Khemka uint8_t index = req[0]; 5731d4a0697SVijay Khemka uint8_t type = req[1]; 5741d4a0697SVijay Khemka uint16_t speed; 5751d4a0697SVijay Khemka uint32_t size; 5761d4a0697SVijay Khemka 5771d4a0697SVijay Khemka memcpy(&speed, &req[2], 2); 5781d4a0697SVijay Khemka memcpy(&size, &req[4], 4); 5791d4a0697SVijay Khemka 5801d4a0697SVijay Khemka std::stringstream ss; 5811d4a0697SVijay Khemka ss << std::hex; 5821d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)index; 5831d4a0697SVijay Khemka 5841d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_INDEX] = index; 5851d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_TYPE] = type; 5861d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_SPEED] = speed; 5871d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_SIZE] = size; 5881d4a0697SVijay Khemka 5891d4a0697SVijay Khemka flushOemData(); 5901d4a0697SVijay Khemka 5911d4a0697SVijay Khemka *data_len = 0; 5921d4a0697SVijay Khemka 5931d4a0697SVijay Khemka return IPMI_CC_OK; 5941d4a0697SVijay Khemka } 5951d4a0697SVijay Khemka 5961d4a0697SVijay Khemka //---------------------------------------------------------------------- 5971d4a0697SVijay Khemka // Get Board ID (CMD_OEM_GET_BOARD_ID) 5981d4a0697SVijay Khemka //---------------------------------------------------------------------- 5991d4a0697SVijay Khemka ipmi_ret_t ipmiOemGetBoardID(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 6001d4a0697SVijay Khemka ipmi_request_t request, ipmi_response_t response, 6011d4a0697SVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 6021d4a0697SVijay Khemka { 6031d4a0697SVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 604e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 605e7d23d0eSVijay Khemka 6061d4a0697SVijay Khemka /* TODO: Needs to implement this after GPIO implementation */ 607e7d23d0eSVijay Khemka *data_len = 0; 608e7d23d0eSVijay Khemka 609e7d23d0eSVijay Khemka return IPMI_CC_OK; 610e7d23d0eSVijay Khemka } 611e7d23d0eSVijay Khemka 612e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 6131d4a0697SVijay Khemka // Set Boot Order (CMD_OEM_SET_BOOT_ORDER) 6141d4a0697SVijay Khemka //---------------------------------------------------------------------- 6151d4a0697SVijay Khemka ipmi_ret_t ipmiOemSetBootOrder(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 6161d4a0697SVijay Khemka ipmi_request_t request, ipmi_response_t response, 6171d4a0697SVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 6181d4a0697SVijay Khemka { 6191d4a0697SVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 6201d4a0697SVijay Khemka uint8_t len = *data_len; 6211d4a0697SVijay Khemka uint8_t mode = req[0]; 6221d4a0697SVijay Khemka nlohmann::json bootMode; 6231d4a0697SVijay Khemka int i; 6241d4a0697SVijay Khemka 6251d4a0697SVijay Khemka *data_len = 0; 6261d4a0697SVijay Khemka 6271d4a0697SVijay Khemka if (len != SIZE_BOOT_ORDER) 6281d4a0697SVijay Khemka { 6291d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 6301d4a0697SVijay Khemka "Invalid Boot order length received"); 6311d4a0697SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 6321d4a0697SVijay Khemka } 6331d4a0697SVijay Khemka 6341d4a0697SVijay Khemka bootMode["UEFI"] = (mode & BOOT_MODE_UEFI ? true : false); 6351d4a0697SVijay Khemka bootMode["CMOS_CLR"] = (mode & BOOT_MODE_CMOS_CLR ? true : false); 6361d4a0697SVijay Khemka bootMode["FORCE_BOOT"] = (mode & BOOT_MODE_FORCE_BOOT ? true : false); 6371d4a0697SVijay Khemka bootMode["BOOT_FLAG"] = (mode & BOOT_MODE_BOOT_FLAG ? true : false); 6381d4a0697SVijay Khemka 6391d4a0697SVijay Khemka oemData[KEY_BOOT_ORDER][KEY_BOOT_MODE] = bootMode; 6401d4a0697SVijay Khemka 6411d4a0697SVijay Khemka /* Initialize boot sequence array */ 6421d4a0697SVijay Khemka oemData[KEY_BOOT_ORDER][KEY_BOOT_SEQ] = {}; 6431d4a0697SVijay Khemka for (i = 1; i < SIZE_BOOT_ORDER; i++) 6441d4a0697SVijay Khemka oemData[KEY_BOOT_ORDER][KEY_BOOT_SEQ][i - 1] = bootSeq[req[i]]; 6451d4a0697SVijay Khemka 6461d4a0697SVijay Khemka flushOemData(); 6471d4a0697SVijay Khemka 6481d4a0697SVijay Khemka return IPMI_CC_OK; 6491d4a0697SVijay Khemka } 6501d4a0697SVijay Khemka 6511d4a0697SVijay Khemka //---------------------------------------------------------------------- 652e7d23d0eSVijay Khemka // Get Boot Order (CMD_OEM_GET_BOOT_ORDER) 653e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 654e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemGetBootOrder(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 655e7d23d0eSVijay Khemka ipmi_request_t request, ipmi_response_t response, 656e7d23d0eSVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 657e7d23d0eSVijay Khemka { 658e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 6591d4a0697SVijay Khemka nlohmann::json bootMode = oemData[KEY_BOOT_ORDER][KEY_BOOT_MODE]; 6601d4a0697SVijay Khemka uint8_t mode = 0; 6611d4a0697SVijay Khemka int i; 662e7d23d0eSVijay Khemka 6631d4a0697SVijay Khemka *data_len = SIZE_BOOT_ORDER; 6641d4a0697SVijay Khemka 6651d4a0697SVijay Khemka if (bootMode["UEFI"]) 6661d4a0697SVijay Khemka mode |= BOOT_MODE_UEFI; 6671d4a0697SVijay Khemka if (bootMode["CMOS_CLR"]) 6681d4a0697SVijay Khemka mode |= BOOT_MODE_CMOS_CLR; 6691d4a0697SVijay Khemka if (bootMode["BOOT_FLAG"]) 6701d4a0697SVijay Khemka mode |= BOOT_MODE_BOOT_FLAG; 6711d4a0697SVijay Khemka 6721d4a0697SVijay Khemka res[0] = mode; 6731d4a0697SVijay Khemka 6741d4a0697SVijay Khemka for (i = 1; i < SIZE_BOOT_ORDER; i++) 6751d4a0697SVijay Khemka res[i] = bootMap[oemData[KEY_BOOT_ORDER][KEY_BOOT_SEQ][i - 1]]; 676e7d23d0eSVijay Khemka 677e7d23d0eSVijay Khemka return IPMI_CC_OK; 678e7d23d0eSVijay Khemka } 679e7d23d0eSVijay Khemka 680e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 681e7d23d0eSVijay Khemka // Set Machine Config Info (CMD_OEM_SET_MACHINE_CONFIG_INFO) 682e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 683e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemSetMachineCfgInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 684e7d23d0eSVijay Khemka ipmi_request_t request, 685e7d23d0eSVijay Khemka ipmi_response_t response, 686e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 687e7d23d0eSVijay Khemka ipmi_context_t context) 688e7d23d0eSVijay Khemka { 6891d4a0697SVijay Khemka machineConfigInfo_t *req = reinterpret_cast<machineConfigInfo_t *>(request); 6901d4a0697SVijay Khemka uint8_t len = *data_len; 691e7d23d0eSVijay Khemka 692e7d23d0eSVijay Khemka *data_len = 0; 693e7d23d0eSVijay Khemka 6941d4a0697SVijay Khemka if (len < sizeof(machineConfigInfo_t)) 6951d4a0697SVijay Khemka { 6961d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 6971d4a0697SVijay Khemka "Invalid machine configuration length received"); 6981d4a0697SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 6991d4a0697SVijay Khemka } 7001d4a0697SVijay Khemka 7011d4a0697SVijay Khemka if (req->chassis_type >= sizeof(chassisType) / sizeof(uint8_t *)) 7021d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_CHAS_TYPE] = "UNKNOWN"; 7031d4a0697SVijay Khemka else 7041d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_CHAS_TYPE] = 7051d4a0697SVijay Khemka chassisType[req->chassis_type]; 7061d4a0697SVijay Khemka 7071d4a0697SVijay Khemka if (req->mb_type >= sizeof(mbType) / sizeof(uint8_t *)) 7081d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_MB_TYPE] = "UNKNOWN"; 7091d4a0697SVijay Khemka else 7101d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_MB_TYPE] = mbType[req->mb_type]; 7111d4a0697SVijay Khemka 7121d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PROC_CNT] = req->proc_cnt; 7131d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_MEM_CNT] = req->mem_cnt; 7141d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_HDD35_CNT] = req->hdd35_cnt; 7151d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_HDD25_CNT] = req->hdd25_cnt; 7161d4a0697SVijay Khemka 7171d4a0697SVijay Khemka if (req->riser_type >= sizeof(riserType) / sizeof(uint8_t *)) 7181d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_RSR_TYPE] = "UNKNOWN"; 7191d4a0697SVijay Khemka else 7201d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_RSR_TYPE] = riserType[req->riser_type]; 7211d4a0697SVijay Khemka 7221d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC] = {}; 7231d4a0697SVijay Khemka int i = 0; 7241d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_0) 7251d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT1"; 7261d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_1) 7271d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT2"; 7281d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_2) 7291d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT3"; 7301d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_3) 7311d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT4"; 7321d4a0697SVijay Khemka 7331d4a0697SVijay Khemka if (req->slot1_pcie_type >= sizeof(pcieType) / sizeof(uint8_t *)) 7341d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT1_TYPE] = "UNKNOWN"; 7351d4a0697SVijay Khemka else 7361d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT1_TYPE] = 7371d4a0697SVijay Khemka pcieType[req->slot1_pcie_type]; 7381d4a0697SVijay Khemka 7391d4a0697SVijay Khemka if (req->slot2_pcie_type >= sizeof(pcieType) / sizeof(uint8_t *)) 7401d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT2_TYPE] = "UNKNOWN"; 7411d4a0697SVijay Khemka else 7421d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT2_TYPE] = 7431d4a0697SVijay Khemka pcieType[req->slot2_pcie_type]; 7441d4a0697SVijay Khemka 7451d4a0697SVijay Khemka if (req->slot3_pcie_type >= sizeof(pcieType) / sizeof(uint8_t *)) 7461d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT3_TYPE] = "UNKNOWN"; 7471d4a0697SVijay Khemka else 7481d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT3_TYPE] = 7491d4a0697SVijay Khemka pcieType[req->slot3_pcie_type]; 7501d4a0697SVijay Khemka 7511d4a0697SVijay Khemka if (req->slot4_pcie_type >= sizeof(pcieType) / sizeof(uint8_t *)) 7521d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT4_TYPE] = "UNKNOWN"; 7531d4a0697SVijay Khemka else 7541d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT4_TYPE] = 7551d4a0697SVijay Khemka pcieType[req->slot4_pcie_type]; 7561d4a0697SVijay Khemka 7571d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_AEP_CNT] = req->aep_mem_cnt; 7581d4a0697SVijay Khemka 7591d4a0697SVijay Khemka flushOemData(); 7601d4a0697SVijay Khemka 761e7d23d0eSVijay Khemka return IPMI_CC_OK; 762e7d23d0eSVijay Khemka } 763e7d23d0eSVijay Khemka 764e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 765e7d23d0eSVijay Khemka // Set POST start (CMD_OEM_SET_POST_START) 766e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 767e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemSetPostStart(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 768e7d23d0eSVijay Khemka ipmi_request_t request, ipmi_response_t response, 769e7d23d0eSVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 770e7d23d0eSVijay Khemka { 771e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>("POST Start Event"); 772e7d23d0eSVijay Khemka 7731d4a0697SVijay Khemka /* Do nothing, return success */ 774e7d23d0eSVijay Khemka *data_len = 0; 775e7d23d0eSVijay Khemka return IPMI_CC_OK; 776e7d23d0eSVijay Khemka } 777e7d23d0eSVijay Khemka 778e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 779e7d23d0eSVijay Khemka // Set POST End (CMD_OEM_SET_POST_END) 780e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 781e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemSetPostEnd(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 782e7d23d0eSVijay Khemka ipmi_request_t request, ipmi_response_t response, 783e7d23d0eSVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 784e7d23d0eSVijay Khemka { 7851d4a0697SVijay Khemka struct timespec ts; 786e7d23d0eSVijay Khemka 787e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>("POST End Event"); 788e7d23d0eSVijay Khemka 789e7d23d0eSVijay Khemka *data_len = 0; 7901d4a0697SVijay Khemka 7911d4a0697SVijay Khemka // Timestamp post end time. 7921d4a0697SVijay Khemka clock_gettime(CLOCK_REALTIME, &ts); 7931d4a0697SVijay Khemka oemData[KEY_TS_SLED] = ts.tv_sec; 7941d4a0697SVijay Khemka flushOemData(); 7951d4a0697SVijay Khemka 7961d4a0697SVijay Khemka // Sync time with system 7971d4a0697SVijay Khemka // TODO: Add code for syncing time 7981d4a0697SVijay Khemka 7991d4a0697SVijay Khemka return IPMI_CC_OK; 8001d4a0697SVijay Khemka } 8011d4a0697SVijay Khemka 8021d4a0697SVijay Khemka //---------------------------------------------------------------------- 8031d4a0697SVijay Khemka // Set PPIN Info (CMD_OEM_SET_PPIN_INFO) 8041d4a0697SVijay Khemka //---------------------------------------------------------------------- 8051d4a0697SVijay Khemka // Inform BMC about PPIN data of 8 bytes for each CPU 8061d4a0697SVijay Khemka // 8071d4a0697SVijay Khemka // Request: 8081d4a0697SVijay Khemka // Byte 1:8 – CPU0 PPIN data 8091d4a0697SVijay Khemka // Optional: 8101d4a0697SVijay Khemka // Byte 9:16 – CPU1 PPIN data 8111d4a0697SVijay Khemka // 8121d4a0697SVijay Khemka // Response: 8131d4a0697SVijay Khemka // Byte 1 – Completion Code 8141d4a0697SVijay Khemka ipmi_ret_t ipmiOemSetPPINInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 8151d4a0697SVijay Khemka ipmi_request_t request, ipmi_response_t response, 8161d4a0697SVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 8171d4a0697SVijay Khemka { 8181d4a0697SVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 8191d4a0697SVijay Khemka std::string ppinStr; 8201d4a0697SVijay Khemka int len; 8211d4a0697SVijay Khemka 8221d4a0697SVijay Khemka if (*data_len > SIZE_CPU_PPIN * 2) 8231d4a0697SVijay Khemka len = SIZE_CPU_PPIN * 2; 8241d4a0697SVijay Khemka else 8251d4a0697SVijay Khemka len = *data_len; 8261d4a0697SVijay Khemka *data_len = 0; 8271d4a0697SVijay Khemka 8281d4a0697SVijay Khemka ppinStr = bytesToStr(req, len); 8291d4a0697SVijay Khemka oemData[KEY_PPIN_INFO] = ppinStr.c_str(); 8301d4a0697SVijay Khemka flushOemData(); 8311d4a0697SVijay Khemka 8321d4a0697SVijay Khemka return IPMI_CC_OK; 8331d4a0697SVijay Khemka } 8341d4a0697SVijay Khemka 8351d4a0697SVijay Khemka //---------------------------------------------------------------------- 8361d4a0697SVijay Khemka // Set ADR Trigger (CMD_OEM_SET_ADR_TRIGGER) 8371d4a0697SVijay Khemka //---------------------------------------------------------------------- 8381d4a0697SVijay Khemka ipmi_ret_t ipmiOemSetAdrTrigger(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 8391d4a0697SVijay Khemka ipmi_request_t request, 8401d4a0697SVijay Khemka ipmi_response_t response, 8411d4a0697SVijay Khemka ipmi_data_len_t data_len, 8421d4a0697SVijay Khemka ipmi_context_t context) 8431d4a0697SVijay Khemka { 8441d4a0697SVijay Khemka /* Do nothing, return success */ 8451d4a0697SVijay Khemka *data_len = 0; 846e7d23d0eSVijay Khemka return IPMI_CC_OK; 847e7d23d0eSVijay Khemka } 848e7d23d0eSVijay Khemka 849e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 850e7d23d0eSVijay Khemka // Set Bios Flash Info (CMD_OEM_SET_BIOS_FLASH_INFO) 851e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 852e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemSetBiosFlashInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 853e7d23d0eSVijay Khemka ipmi_request_t request, 854e7d23d0eSVijay Khemka ipmi_response_t response, 855e7d23d0eSVijay Khemka ipmi_data_len_t data_len, 856e7d23d0eSVijay Khemka ipmi_context_t context) 857e7d23d0eSVijay Khemka { 8581d4a0697SVijay Khemka /* Do nothing, return success */ 859e7d23d0eSVijay Khemka *data_len = 0; 860e7d23d0eSVijay Khemka return IPMI_CC_OK; 861e7d23d0eSVijay Khemka } 862e7d23d0eSVijay Khemka 863e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 864e7d23d0eSVijay Khemka // Set PPR (CMD_OEM_SET_PPR) 865e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 866e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemSetPpr(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 867e7d23d0eSVijay Khemka ipmi_request_t request, ipmi_response_t response, 868e7d23d0eSVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 869e7d23d0eSVijay Khemka { 870e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 8711d4a0697SVijay Khemka uint8_t pprCnt, pprAct, pprIndex; 8721d4a0697SVijay Khemka uint8_t selParam = req[0]; 8731d4a0697SVijay Khemka uint8_t len = *data_len; 8741d4a0697SVijay Khemka std::stringstream ss; 8751d4a0697SVijay Khemka std::string str; 876e7d23d0eSVijay Khemka 877e7d23d0eSVijay Khemka *data_len = 0; 8781d4a0697SVijay Khemka 8791d4a0697SVijay Khemka switch (selParam) 8801d4a0697SVijay Khemka { 8811d4a0697SVijay Khemka case PPR_ACTION: 8821d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ROW_COUNT) == 8831d4a0697SVijay Khemka oemData[KEY_PPR].end()) 8841d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 8851d4a0697SVijay Khemka 8861d4a0697SVijay Khemka pprCnt = oemData[KEY_PPR][KEY_PPR_ROW_COUNT]; 8871d4a0697SVijay Khemka if (pprCnt == 0) 8881d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 8891d4a0697SVijay Khemka 8901d4a0697SVijay Khemka pprAct = req[1]; 8911d4a0697SVijay Khemka /* Check if ppr is enabled or disabled */ 8921d4a0697SVijay Khemka if (!(pprAct & 0x80)) 8931d4a0697SVijay Khemka pprAct = 0; 8941d4a0697SVijay Khemka 8951d4a0697SVijay Khemka oemData[KEY_PPR][KEY_PPR_ACTION] = pprAct; 8961d4a0697SVijay Khemka break; 8971d4a0697SVijay Khemka case PPR_ROW_COUNT: 8981d4a0697SVijay Khemka if (req[1] > 100) 8991d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 9001d4a0697SVijay Khemka 9011d4a0697SVijay Khemka oemData[KEY_PPR][KEY_PPR_ROW_COUNT] = req[1]; 9021d4a0697SVijay Khemka break; 9031d4a0697SVijay Khemka case PPR_ROW_ADDR: 9041d4a0697SVijay Khemka pprIndex = req[1]; 9051d4a0697SVijay Khemka if (pprIndex > 100) 9061d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 9071d4a0697SVijay Khemka 9081d4a0697SVijay Khemka if (len < PPR_ROW_ADDR_LEN + 1) 9091d4a0697SVijay Khemka { 9101d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 9111d4a0697SVijay Khemka "Invalid PPR Row Address length received"); 9121d4a0697SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 9131d4a0697SVijay Khemka } 9141d4a0697SVijay Khemka 9151d4a0697SVijay Khemka ss << std::hex; 9161d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 9171d4a0697SVijay Khemka 9181d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_INDEX] = pprIndex; 9191d4a0697SVijay Khemka 9201d4a0697SVijay Khemka str = bytesToStr(&req[1], PPR_ROW_ADDR_LEN); 9211d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_ROW_ADDR] = str.c_str(); 9221d4a0697SVijay Khemka break; 9231d4a0697SVijay Khemka case PPR_HISTORY_DATA: 9241d4a0697SVijay Khemka pprIndex = req[1]; 9251d4a0697SVijay Khemka if (pprIndex > 100) 9261d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 9271d4a0697SVijay Khemka 9281d4a0697SVijay Khemka if (len < PPR_HST_DATA_LEN + 1) 9291d4a0697SVijay Khemka { 9301d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 9311d4a0697SVijay Khemka "Invalid PPR history data length received"); 9321d4a0697SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 9331d4a0697SVijay Khemka } 9341d4a0697SVijay Khemka 9351d4a0697SVijay Khemka ss << std::hex; 9361d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 9371d4a0697SVijay Khemka 9381d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_INDEX] = pprIndex; 9391d4a0697SVijay Khemka 9401d4a0697SVijay Khemka str = bytesToStr(&req[1], PPR_HST_DATA_LEN); 9411d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_HST_DATA] = str.c_str(); 9421d4a0697SVijay Khemka break; 9431d4a0697SVijay Khemka default: 9441d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 9451d4a0697SVijay Khemka break; 9461d4a0697SVijay Khemka } 9471d4a0697SVijay Khemka 9481d4a0697SVijay Khemka flushOemData(); 9491d4a0697SVijay Khemka 950e7d23d0eSVijay Khemka return IPMI_CC_OK; 951e7d23d0eSVijay Khemka } 952e7d23d0eSVijay Khemka 953e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 954e7d23d0eSVijay Khemka // Get PPR (CMD_OEM_GET_PPR) 955e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 956e7d23d0eSVijay Khemka ipmi_ret_t ipmiOemGetPpr(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 957e7d23d0eSVijay Khemka ipmi_request_t request, ipmi_response_t response, 958e7d23d0eSVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 959e7d23d0eSVijay Khemka { 960e7d23d0eSVijay Khemka uint8_t *req = reinterpret_cast<uint8_t *>(request); 961e7d23d0eSVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 9621d4a0697SVijay Khemka uint8_t pprCnt, pprIndex; 9631d4a0697SVijay Khemka uint8_t selParam = req[0]; 9641d4a0697SVijay Khemka std::stringstream ss; 9651d4a0697SVijay Khemka std::string str; 966e7d23d0eSVijay Khemka 9671d4a0697SVijay Khemka /* Any failure will return zero length data */ 9681d4a0697SVijay Khemka *data_len = 0; 9691d4a0697SVijay Khemka 9701d4a0697SVijay Khemka switch (selParam) 9711d4a0697SVijay Khemka { 9721d4a0697SVijay Khemka case PPR_ACTION: 9731d4a0697SVijay Khemka res[0] = 0; 974e7d23d0eSVijay Khemka *data_len = 1; 975e7d23d0eSVijay Khemka 9761d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ROW_COUNT) != 9771d4a0697SVijay Khemka oemData[KEY_PPR].end()) 9781d4a0697SVijay Khemka { 9791d4a0697SVijay Khemka pprCnt = oemData[KEY_PPR][KEY_PPR_ROW_COUNT]; 9801d4a0697SVijay Khemka if (pprCnt != 0) 9811d4a0697SVijay Khemka { 9821d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ACTION) != 9831d4a0697SVijay Khemka oemData[KEY_PPR].end()) 9841d4a0697SVijay Khemka { 9851d4a0697SVijay Khemka res[0] = oemData[KEY_PPR][KEY_PPR_ACTION]; 9861d4a0697SVijay Khemka } 9871d4a0697SVijay Khemka } 9881d4a0697SVijay Khemka } 9891d4a0697SVijay Khemka break; 9901d4a0697SVijay Khemka case PPR_ROW_COUNT: 9911d4a0697SVijay Khemka res[0] = 0; 9921d4a0697SVijay Khemka *data_len = 1; 9931d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ROW_COUNT) != 9941d4a0697SVijay Khemka oemData[KEY_PPR].end()) 9951d4a0697SVijay Khemka res[0] = oemData[KEY_PPR][KEY_PPR_ROW_COUNT]; 9961d4a0697SVijay Khemka break; 9971d4a0697SVijay Khemka case PPR_ROW_ADDR: 9981d4a0697SVijay Khemka pprIndex = req[1]; 9991d4a0697SVijay Khemka if (pprIndex > 100) 10001d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10011d4a0697SVijay Khemka 10021d4a0697SVijay Khemka ss << std::hex; 10031d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 10041d4a0697SVijay Khemka 10051d4a0697SVijay Khemka if (oemData[KEY_PPR].find(ss.str()) == oemData[KEY_PPR].end()) 10061d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10071d4a0697SVijay Khemka 10081d4a0697SVijay Khemka if (oemData[KEY_PPR][ss.str()].find(KEY_PPR_ROW_ADDR) == 10091d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()].end()) 10101d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10111d4a0697SVijay Khemka 10121d4a0697SVijay Khemka str = oemData[KEY_PPR][ss.str()][KEY_PPR_ROW_ADDR]; 10131d4a0697SVijay Khemka *data_len = strToBytes(str, res); 10141d4a0697SVijay Khemka break; 10151d4a0697SVijay Khemka case PPR_HISTORY_DATA: 10161d4a0697SVijay Khemka pprIndex = req[1]; 10171d4a0697SVijay Khemka if (pprIndex > 100) 10181d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10191d4a0697SVijay Khemka 10201d4a0697SVijay Khemka ss << std::hex; 10211d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 10221d4a0697SVijay Khemka 10231d4a0697SVijay Khemka if (oemData[KEY_PPR].find(ss.str()) == oemData[KEY_PPR].end()) 10241d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10251d4a0697SVijay Khemka 10261d4a0697SVijay Khemka if (oemData[KEY_PPR][ss.str()].find(KEY_PPR_HST_DATA) == 10271d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()].end()) 10281d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10291d4a0697SVijay Khemka 10301d4a0697SVijay Khemka str = oemData[KEY_PPR][ss.str()][KEY_PPR_HST_DATA]; 10311d4a0697SVijay Khemka *data_len = strToBytes(str, res); 10321d4a0697SVijay Khemka break; 10331d4a0697SVijay Khemka default: 10341d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10351d4a0697SVijay Khemka break; 10361d4a0697SVijay Khemka } 10371d4a0697SVijay Khemka 10381d4a0697SVijay Khemka return IPMI_CC_OK; 10391d4a0697SVijay Khemka } 10401d4a0697SVijay Khemka 10411d4a0697SVijay Khemka /* FB OEM QC Commands */ 10421d4a0697SVijay Khemka 10431d4a0697SVijay Khemka //---------------------------------------------------------------------- 10441d4a0697SVijay Khemka // Set Proc Info (CMD_OEM_Q_SET_PROC_INFO) 10451d4a0697SVijay Khemka //---------------------------------------------------------------------- 10461d4a0697SVijay Khemka //"Request: 10471d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZ h, LSB first 10481d4a0697SVijay Khemka // Byte 4 – Processor Index, 0 base 10491d4a0697SVijay Khemka // Byte 5 – Parameter Selector 10501d4a0697SVijay Khemka // Byte 6..N – Configuration parameter data (see below for Parameters 10511d4a0697SVijay Khemka // of Processor Information) 10521d4a0697SVijay Khemka // Response: 10531d4a0697SVijay Khemka // Byte 1 – Completion code 10541d4a0697SVijay Khemka // 10551d4a0697SVijay Khemka // Parameter#1: (Processor Product Name) 10561d4a0697SVijay Khemka // 10571d4a0697SVijay Khemka // Byte 1..48 –Product name(ASCII code) 10581d4a0697SVijay Khemka // Ex. Intel(R) Xeon(R) CPU E5-2685 v3 @ 2.60GHz 10591d4a0697SVijay Khemka // 10601d4a0697SVijay Khemka // Param#2: Processor Basic Information 10611d4a0697SVijay Khemka // Byte 1 – Core Number 10621d4a0697SVijay Khemka // Byte 2 – Thread Number (LSB) 10631d4a0697SVijay Khemka // Byte 3 – Thread Number (MSB) 10641d4a0697SVijay Khemka // Byte 4 – Processor frequency in MHz (LSB) 10651d4a0697SVijay Khemka // Byte 5 – Processor frequency in MHz (MSB) 10661d4a0697SVijay Khemka // Byte 6..7 – Revision 10671d4a0697SVijay Khemka // 10681d4a0697SVijay Khemka ipmi_ret_t ipmiOemQSetProcInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 10691d4a0697SVijay Khemka ipmi_request_t request, ipmi_response_t response, 10701d4a0697SVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 10711d4a0697SVijay Khemka { 10721d4a0697SVijay Khemka qProcInfo_t *req = reinterpret_cast<qProcInfo_t *>(request); 10731d4a0697SVijay Khemka uint8_t numParam = sizeof(cpuInfoKey) / sizeof(uint8_t *); 10741d4a0697SVijay Khemka std::stringstream ss; 10751d4a0697SVijay Khemka std::string str; 10761d4a0697SVijay Khemka uint8_t len = *data_len; 10771d4a0697SVijay Khemka 10781d4a0697SVijay Khemka *data_len = 0; 10791d4a0697SVijay Khemka 10801d4a0697SVijay Khemka /* check for requested data params */ 10811d4a0697SVijay Khemka if (len < 5 || req->paramSel < 1 || req->paramSel >= numParam) 10821d4a0697SVijay Khemka { 10831d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 10841d4a0697SVijay Khemka "Invalid parameter received"); 10851d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 10861d4a0697SVijay Khemka } 10871d4a0697SVijay Khemka 10881d4a0697SVijay Khemka len = len - 5; // Get Actual data length 10891d4a0697SVijay Khemka 10901d4a0697SVijay Khemka ss << std::hex; 10911d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->procIndex; 10921d4a0697SVijay Khemka oemData[KEY_Q_PROC_INFO][ss.str()][KEY_PROC_INDEX] = req->procIndex; 10931d4a0697SVijay Khemka 10941d4a0697SVijay Khemka str = bytesToStr(req->data, len); 10951d4a0697SVijay Khemka oemData[KEY_Q_PROC_INFO][ss.str()][cpuInfoKey[req->paramSel]] = str.c_str(); 10961d4a0697SVijay Khemka flushOemData(); 10971d4a0697SVijay Khemka 10981d4a0697SVijay Khemka return IPMI_CC_OK; 10991d4a0697SVijay Khemka } 11001d4a0697SVijay Khemka 11011d4a0697SVijay Khemka //---------------------------------------------------------------------- 11021d4a0697SVijay Khemka // Get Proc Info (CMD_OEM_Q_GET_PROC_INFO) 11031d4a0697SVijay Khemka //---------------------------------------------------------------------- 11041d4a0697SVijay Khemka // Request: 11051d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZ h, LSB first 11061d4a0697SVijay Khemka // Byte 4 – Processor Index, 0 base 11071d4a0697SVijay Khemka // Byte 5 – Parameter Selector 11081d4a0697SVijay Khemka // Response: 11091d4a0697SVijay Khemka // Byte 1 – Completion code 11101d4a0697SVijay Khemka // Byte 2..N – Configuration Parameter Data (see below for Parameters 11111d4a0697SVijay Khemka // of Processor Information) 11121d4a0697SVijay Khemka // 11131d4a0697SVijay Khemka // Parameter#1: (Processor Product Name) 11141d4a0697SVijay Khemka // 11151d4a0697SVijay Khemka // Byte 1..48 –Product name(ASCII code) 11161d4a0697SVijay Khemka // Ex. Intel(R) Xeon(R) CPU E5-2685 v3 @ 2.60GHz 11171d4a0697SVijay Khemka // 11181d4a0697SVijay Khemka // Param#2: Processor Basic Information 11191d4a0697SVijay Khemka // Byte 1 – Core Number 11201d4a0697SVijay Khemka // Byte 2 – Thread Number (LSB) 11211d4a0697SVijay Khemka // Byte 3 – Thread Number (MSB) 11221d4a0697SVijay Khemka // Byte 4 – Processor frequency in MHz (LSB) 11231d4a0697SVijay Khemka // Byte 5 – Processor frequency in MHz (MSB) 11241d4a0697SVijay Khemka // Byte 6..7 – Revision 11251d4a0697SVijay Khemka // 11261d4a0697SVijay Khemka ipmi_ret_t ipmiOemQGetProcInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 11271d4a0697SVijay Khemka ipmi_request_t request, ipmi_response_t response, 11281d4a0697SVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 11291d4a0697SVijay Khemka { 11301d4a0697SVijay Khemka qProcInfo_t *req = reinterpret_cast<qProcInfo_t *>(request); 11311d4a0697SVijay Khemka uint8_t numParam = sizeof(cpuInfoKey) / sizeof(uint8_t *); 11321d4a0697SVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 11331d4a0697SVijay Khemka std::stringstream ss; 11341d4a0697SVijay Khemka std::string str; 11351d4a0697SVijay Khemka 11361d4a0697SVijay Khemka *data_len = 0; 11371d4a0697SVijay Khemka 11381d4a0697SVijay Khemka /* check for requested data params */ 11391d4a0697SVijay Khemka if (req->paramSel < 1 || req->paramSel >= numParam) 11401d4a0697SVijay Khemka { 11411d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 11421d4a0697SVijay Khemka "Invalid parameter received"); 11431d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 11441d4a0697SVijay Khemka } 11451d4a0697SVijay Khemka 11461d4a0697SVijay Khemka ss << std::hex; 11471d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->procIndex; 11481d4a0697SVijay Khemka 11491d4a0697SVijay Khemka if (oemData[KEY_Q_PROC_INFO].find(ss.str()) == 11501d4a0697SVijay Khemka oemData[KEY_Q_PROC_INFO].end()) 11511d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 11521d4a0697SVijay Khemka 11531d4a0697SVijay Khemka if (oemData[KEY_Q_PROC_INFO][ss.str()].find(cpuInfoKey[req->paramSel]) == 11541d4a0697SVijay Khemka oemData[KEY_Q_PROC_INFO][ss.str()].end()) 11551d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 11561d4a0697SVijay Khemka 11571d4a0697SVijay Khemka str = oemData[KEY_Q_PROC_INFO][ss.str()][cpuInfoKey[req->paramSel]]; 11581d4a0697SVijay Khemka *data_len = strToBytes(str, res); 11591d4a0697SVijay Khemka 11601d4a0697SVijay Khemka return IPMI_CC_OK; 11611d4a0697SVijay Khemka } 11621d4a0697SVijay Khemka 11631d4a0697SVijay Khemka //---------------------------------------------------------------------- 11641d4a0697SVijay Khemka // Set Dimm Info (CMD_OEM_Q_SET_DIMM_INFO) 11651d4a0697SVijay Khemka //---------------------------------------------------------------------- 11661d4a0697SVijay Khemka // Request: 11671d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZh, LSB first 11681d4a0697SVijay Khemka // Byte 4 – DIMM Index, 0 base 11691d4a0697SVijay Khemka // Byte 5 – Parameter Selector 11701d4a0697SVijay Khemka // Byte 6..N – Configuration parameter data (see below for Parameters 11711d4a0697SVijay Khemka // of DIMM Information) 11721d4a0697SVijay Khemka // Response: 11731d4a0697SVijay Khemka // Byte 1 – Completion code 11741d4a0697SVijay Khemka // 11751d4a0697SVijay Khemka // Param#1 (DIMM Location): 11761d4a0697SVijay Khemka // Byte 1 – DIMM Present 11771d4a0697SVijay Khemka // Byte 1 – DIMM Present 11781d4a0697SVijay Khemka // 01h – Present 11791d4a0697SVijay Khemka // FFh – Not Present 11801d4a0697SVijay Khemka // Byte 2 – Node Number, 0 base 11811d4a0697SVijay Khemka // Byte 3 – Channel Number , 0 base 11821d4a0697SVijay Khemka // Byte 4 – DIMM Number , 0 base 11831d4a0697SVijay Khemka // 11841d4a0697SVijay Khemka // Param#2 (DIMM Type): 11851d4a0697SVijay Khemka // Byte 1 – DIMM Type 11861d4a0697SVijay Khemka // Bit [7:6] 11871d4a0697SVijay Khemka // For DDR3 11881d4a0697SVijay Khemka // 00 – Normal Voltage (1.5V) 11891d4a0697SVijay Khemka // 01 – Ultra Low Voltage (1.25V) 11901d4a0697SVijay Khemka // 10 – Low Voltage (1.35V) 11911d4a0697SVijay Khemka // 11 – Reserved 11921d4a0697SVijay Khemka // For DDR4 11931d4a0697SVijay Khemka // 00 – Reserved 11941d4a0697SVijay Khemka // 01 – Reserved 11951d4a0697SVijay Khemka // 10 – Reserved 11961d4a0697SVijay Khemka // 11 – Normal Voltage (1.2V) 11971d4a0697SVijay Khemka // Bit [5:0] 11981d4a0697SVijay Khemka // 0x00 – SDRAM 11991d4a0697SVijay Khemka // 0x01 – DDR-1 RAM 12001d4a0697SVijay Khemka // 0x02 – Rambus 12011d4a0697SVijay Khemka // 0x03 – DDR-2 RAM 12021d4a0697SVijay Khemka // 0x04 – FBDIMM 12031d4a0697SVijay Khemka // 0x05 – DDR-3 RAM 12041d4a0697SVijay Khemka // 0x06 – DDR-4 RAM 12051d4a0697SVijay Khemka // 12061d4a0697SVijay Khemka // Param#3 (DIMM Speed): 12071d4a0697SVijay Khemka // Byte 1..2 – DIMM speed in MHz, LSB 12081d4a0697SVijay Khemka // Byte 3..6 – DIMM size in Mbytes, LSB 12091d4a0697SVijay Khemka // 12101d4a0697SVijay Khemka // Param#4 (Module Part Number): 12111d4a0697SVijay Khemka // Byte 1..20 –Module Part Number (JEDEC Standard No. 21-C) 12121d4a0697SVijay Khemka // 12131d4a0697SVijay Khemka // Param#5 (Module Serial Number): 12141d4a0697SVijay Khemka // Byte 1..4 –Module Serial Number (JEDEC Standard No. 21-C) 12151d4a0697SVijay Khemka // 12161d4a0697SVijay Khemka // Param#6 (Module Manufacturer ID): 12171d4a0697SVijay Khemka // Byte 1 - Module Manufacturer ID, LSB 12181d4a0697SVijay Khemka // Byte 2 - Module Manufacturer ID, MSB 12191d4a0697SVijay Khemka // 12201d4a0697SVijay Khemka ipmi_ret_t ipmiOemQSetDimmInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 12211d4a0697SVijay Khemka ipmi_request_t request, ipmi_response_t response, 12221d4a0697SVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 12231d4a0697SVijay Khemka { 12241d4a0697SVijay Khemka qDimmInfo_t *req = reinterpret_cast<qDimmInfo_t *>(request); 12251d4a0697SVijay Khemka uint8_t numParam = sizeof(dimmInfoKey) / sizeof(uint8_t *); 12261d4a0697SVijay Khemka std::stringstream ss; 12271d4a0697SVijay Khemka std::string str; 12281d4a0697SVijay Khemka uint8_t len = *data_len; 12291d4a0697SVijay Khemka 12301d4a0697SVijay Khemka *data_len = 0; 12311d4a0697SVijay Khemka 12321d4a0697SVijay Khemka /* check for requested data params */ 12331d4a0697SVijay Khemka if (len < 5 || req->paramSel < 1 || req->paramSel >= numParam) 12341d4a0697SVijay Khemka { 12351d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 12361d4a0697SVijay Khemka "Invalid parameter received"); 12371d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 12381d4a0697SVijay Khemka } 12391d4a0697SVijay Khemka 12401d4a0697SVijay Khemka len = len - 5; // Get Actual data length 12411d4a0697SVijay Khemka 12421d4a0697SVijay Khemka ss << std::hex; 12431d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->dimmIndex; 12441d4a0697SVijay Khemka oemData[KEY_Q_DIMM_INFO][ss.str()][KEY_DIMM_INDEX] = req->dimmIndex; 12451d4a0697SVijay Khemka 12461d4a0697SVijay Khemka str = bytesToStr(req->data, len); 12471d4a0697SVijay Khemka oemData[KEY_Q_DIMM_INFO][ss.str()][dimmInfoKey[req->paramSel]] = 12481d4a0697SVijay Khemka str.c_str(); 12491d4a0697SVijay Khemka flushOemData(); 12501d4a0697SVijay Khemka 12511d4a0697SVijay Khemka return IPMI_CC_OK; 12521d4a0697SVijay Khemka } 12531d4a0697SVijay Khemka 12541d4a0697SVijay Khemka //---------------------------------------------------------------------- 12551d4a0697SVijay Khemka // Get Dimm Info (CMD_OEM_Q_GET_DIMM_INFO) 12561d4a0697SVijay Khemka //---------------------------------------------------------------------- 12571d4a0697SVijay Khemka // Request: 12581d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZh, LSB first 12591d4a0697SVijay Khemka // Byte 4 – DIMM Index, 0 base 12601d4a0697SVijay Khemka // Byte 5 – Parameter Selector 12611d4a0697SVijay Khemka // Byte 6..N – Configuration parameter data (see below for Parameters 12621d4a0697SVijay Khemka // of DIMM Information) 12631d4a0697SVijay Khemka // Response: 12641d4a0697SVijay Khemka // Byte 1 – Completion code 12651d4a0697SVijay Khemka // Byte 2..N – Configuration Parameter Data (see Table_1213h Parameters 12661d4a0697SVijay Khemka // of DIMM Information) 12671d4a0697SVijay Khemka // 12681d4a0697SVijay Khemka // Param#1 (DIMM Location): 12691d4a0697SVijay Khemka // Byte 1 – DIMM Present 12701d4a0697SVijay Khemka // Byte 1 – DIMM Present 12711d4a0697SVijay Khemka // 01h – Present 12721d4a0697SVijay Khemka // FFh – Not Present 12731d4a0697SVijay Khemka // Byte 2 – Node Number, 0 base 12741d4a0697SVijay Khemka // Byte 3 – Channel Number , 0 base 12751d4a0697SVijay Khemka // Byte 4 – DIMM Number , 0 base 12761d4a0697SVijay Khemka // 12771d4a0697SVijay Khemka // Param#2 (DIMM Type): 12781d4a0697SVijay Khemka // Byte 1 – DIMM Type 12791d4a0697SVijay Khemka // Bit [7:6] 12801d4a0697SVijay Khemka // For DDR3 12811d4a0697SVijay Khemka // 00 – Normal Voltage (1.5V) 12821d4a0697SVijay Khemka // 01 – Ultra Low Voltage (1.25V) 12831d4a0697SVijay Khemka // 10 – Low Voltage (1.35V) 12841d4a0697SVijay Khemka // 11 – Reserved 12851d4a0697SVijay Khemka // For DDR4 12861d4a0697SVijay Khemka // 00 – Reserved 12871d4a0697SVijay Khemka // 01 – Reserved 12881d4a0697SVijay Khemka // 10 – Reserved 12891d4a0697SVijay Khemka // 11 – Normal Voltage (1.2V) 12901d4a0697SVijay Khemka // Bit [5:0] 12911d4a0697SVijay Khemka // 0x00 – SDRAM 12921d4a0697SVijay Khemka // 0x01 – DDR-1 RAM 12931d4a0697SVijay Khemka // 0x02 – Rambus 12941d4a0697SVijay Khemka // 0x03 – DDR-2 RAM 12951d4a0697SVijay Khemka // 0x04 – FBDIMM 12961d4a0697SVijay Khemka // 0x05 – DDR-3 RAM 12971d4a0697SVijay Khemka // 0x06 – DDR-4 RAM 12981d4a0697SVijay Khemka // 12991d4a0697SVijay Khemka // Param#3 (DIMM Speed): 13001d4a0697SVijay Khemka // Byte 1..2 – DIMM speed in MHz, LSB 13011d4a0697SVijay Khemka // Byte 3..6 – DIMM size in Mbytes, LSB 13021d4a0697SVijay Khemka // 13031d4a0697SVijay Khemka // Param#4 (Module Part Number): 13041d4a0697SVijay Khemka // Byte 1..20 –Module Part Number (JEDEC Standard No. 21-C) 13051d4a0697SVijay Khemka // 13061d4a0697SVijay Khemka // Param#5 (Module Serial Number): 13071d4a0697SVijay Khemka // Byte 1..4 –Module Serial Number (JEDEC Standard No. 21-C) 13081d4a0697SVijay Khemka // 13091d4a0697SVijay Khemka // Param#6 (Module Manufacturer ID): 13101d4a0697SVijay Khemka // Byte 1 - Module Manufacturer ID, LSB 13111d4a0697SVijay Khemka // Byte 2 - Module Manufacturer ID, MSB 13121d4a0697SVijay Khemka // 13131d4a0697SVijay Khemka ipmi_ret_t ipmiOemQGetDimmInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 13141d4a0697SVijay Khemka ipmi_request_t request, ipmi_response_t response, 13151d4a0697SVijay Khemka ipmi_data_len_t data_len, ipmi_context_t context) 13161d4a0697SVijay Khemka { 13171d4a0697SVijay Khemka qDimmInfo_t *req = reinterpret_cast<qDimmInfo_t *>(request); 13181d4a0697SVijay Khemka uint8_t numParam = sizeof(dimmInfoKey) / sizeof(uint8_t *); 13191d4a0697SVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 13201d4a0697SVijay Khemka std::stringstream ss; 13211d4a0697SVijay Khemka std::string str; 13221d4a0697SVijay Khemka 13231d4a0697SVijay Khemka *data_len = 0; 13241d4a0697SVijay Khemka 13251d4a0697SVijay Khemka /* check for requested data params */ 13261d4a0697SVijay Khemka if (req->paramSel < 1 || req->paramSel >= numParam) 13271d4a0697SVijay Khemka { 13281d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 13291d4a0697SVijay Khemka "Invalid parameter received"); 13301d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 13311d4a0697SVijay Khemka } 13321d4a0697SVijay Khemka 13331d4a0697SVijay Khemka ss << std::hex; 13341d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->dimmIndex; 13351d4a0697SVijay Khemka 13361d4a0697SVijay Khemka if (oemData[KEY_Q_DIMM_INFO].find(ss.str()) == 13371d4a0697SVijay Khemka oemData[KEY_Q_DIMM_INFO].end()) 13381d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 13391d4a0697SVijay Khemka 13401d4a0697SVijay Khemka if (oemData[KEY_Q_DIMM_INFO][ss.str()].find(dimmInfoKey[req->paramSel]) == 13411d4a0697SVijay Khemka oemData[KEY_Q_DIMM_INFO][ss.str()].end()) 13421d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 13431d4a0697SVijay Khemka 13441d4a0697SVijay Khemka str = oemData[KEY_Q_DIMM_INFO][ss.str()][dimmInfoKey[req->paramSel]]; 13451d4a0697SVijay Khemka *data_len = strToBytes(str, res); 13461d4a0697SVijay Khemka 13471d4a0697SVijay Khemka return IPMI_CC_OK; 13481d4a0697SVijay Khemka } 13491d4a0697SVijay Khemka 13501d4a0697SVijay Khemka //---------------------------------------------------------------------- 13511d4a0697SVijay Khemka // Set Drive Info (CMD_OEM_Q_SET_DRIVE_INFO) 13521d4a0697SVijay Khemka //---------------------------------------------------------------------- 13531d4a0697SVijay Khemka // BIOS issue this command to provide HDD information to BMC. 13541d4a0697SVijay Khemka // 13551d4a0697SVijay Khemka // BIOS just can get information by standard ATA / SMART command for 13561d4a0697SVijay Khemka // OB SATA controller. 13571d4a0697SVijay Khemka // BIOS can get 13581d4a0697SVijay Khemka // 1. Serial Number 13591d4a0697SVijay Khemka // 2. Model Name 13601d4a0697SVijay Khemka // 3. HDD FW Version 13611d4a0697SVijay Khemka // 4. HDD Capacity 13621d4a0697SVijay Khemka // 5. HDD WWN 13631d4a0697SVijay Khemka // 13641d4a0697SVijay Khemka // Use Get HDD info Param #5 to know the MAX HDD info index. 13651d4a0697SVijay Khemka // 13661d4a0697SVijay Khemka // Request: 13671d4a0697SVijay Khemka // Byte 1:3 – Quanta Manufacturer ID – 001C4Ch, LSB first 13681d4a0697SVijay Khemka // Byte 4 – 13691d4a0697SVijay Khemka // [7:4] Reserved 13701d4a0697SVijay Khemka // [3:0] HDD Controller Type 13711d4a0697SVijay Khemka // 0x00 – BIOS 13721d4a0697SVijay Khemka // 0x01 – Expander 13731d4a0697SVijay Khemka // 0x02 – LSI 13741d4a0697SVijay Khemka // Byte 5 – HDD Info Index, 0 base 13751d4a0697SVijay Khemka // Byte 6 – Parameter Selector 13761d4a0697SVijay Khemka // Byte 7..N – Configuration parameter data (see Table_1415h Parameters of HDD 13771d4a0697SVijay Khemka // Information) 13781d4a0697SVijay Khemka // 13791d4a0697SVijay Khemka // Response: 13801d4a0697SVijay Khemka // Byte 1 – Completion Code 13811d4a0697SVijay Khemka // 13821d4a0697SVijay Khemka // Param#0 (HDD Location): 13831d4a0697SVijay Khemka // Byte 1 – Controller 13841d4a0697SVijay Khemka // [7:3] Device Number 13851d4a0697SVijay Khemka // [2:0] Function Number 13861d4a0697SVijay Khemka // For Intel C610 series (Wellsburg) 13871d4a0697SVijay Khemka // D31:F2 (0xFA) – SATA control 1 13881d4a0697SVijay Khemka // D31:F5 (0xFD) – SATA control 2 13891d4a0697SVijay Khemka // D17:F4 (0x8C) – sSata control 13901d4a0697SVijay Khemka // Byte 2 – Port Number 13911d4a0697SVijay Khemka // Byte 3 – Location (0xFF: No HDD Present) 13921d4a0697SVijay Khemka // BIOS default set Byte 3 to 0xFF, if No HDD Present. And then skip send param 13931d4a0697SVijay Khemka // #1~4, #6, #7 to BMC (still send param #5) BIOS default set Byte 3 to 0, if 13941d4a0697SVijay Khemka // the HDD present. BMC or other people who know the HDD location has 13951d4a0697SVijay Khemka // responsibility for update Location info 13961d4a0697SVijay Khemka // 13971d4a0697SVijay Khemka // Param#1 (Serial Number): 13981d4a0697SVijay Khemka // Bytes 1..33: HDD Serial Number 13991d4a0697SVijay Khemka // 14001d4a0697SVijay Khemka // Param#2 (Model Name): 14011d4a0697SVijay Khemka // Byte 1..33 – HDD Model Name 14021d4a0697SVijay Khemka // 14031d4a0697SVijay Khemka // Param#3 (HDD FW Version): 14041d4a0697SVijay Khemka // Byte 1..17 –HDD FW version 14051d4a0697SVijay Khemka // 14061d4a0697SVijay Khemka // Param#4 (Capacity): 14071d4a0697SVijay Khemka // Byte 1..4 –HDD Block Size, LSB 14081d4a0697SVijay Khemka // Byte 5..12 - HDD Block Number, LSB 14091d4a0697SVijay Khemka // HDD Capacity = HDD Block size * HDD BLock number (Unit Byte) 14101d4a0697SVijay Khemka // 14111d4a0697SVijay Khemka // Param#5 (Max HDD Quantity): 14121d4a0697SVijay Khemka // Byte 1 - Max HDD Quantity 14131d4a0697SVijay Khemka // Max supported port numbers in this PCH 14141d4a0697SVijay Khemka // 14151d4a0697SVijay Khemka // Param#6 (HDD Type) 14161d4a0697SVijay Khemka // Byte 1 – HDD Type 14171d4a0697SVijay Khemka // 0h – Reserved 14181d4a0697SVijay Khemka // 1h – SAS 14191d4a0697SVijay Khemka // 2h – SATA 14201d4a0697SVijay Khemka // 3h – PCIE SSD (NVME) 14211d4a0697SVijay Khemka // 14221d4a0697SVijay Khemka // Param#7 (HDD WWN) 14231d4a0697SVijay Khemka // Data 1...8: HDD World Wide Name, LSB 14241d4a0697SVijay Khemka // 14251d4a0697SVijay Khemka ipmi_ret_t ipmiOemQSetDriveInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 14261d4a0697SVijay Khemka ipmi_request_t request, 14271d4a0697SVijay Khemka ipmi_response_t response, 14281d4a0697SVijay Khemka ipmi_data_len_t data_len, 14291d4a0697SVijay Khemka ipmi_context_t context) 14301d4a0697SVijay Khemka { 14311d4a0697SVijay Khemka qDriveInfo_t *req = reinterpret_cast<qDriveInfo_t *>(request); 14321d4a0697SVijay Khemka uint8_t numParam = sizeof(driveInfoKey) / sizeof(uint8_t *); 14331d4a0697SVijay Khemka uint8_t ctrlType = req->hddCtrlType & 0x0f; 14341d4a0697SVijay Khemka std::stringstream ss; 14351d4a0697SVijay Khemka std::string str; 14361d4a0697SVijay Khemka uint8_t len = *data_len; 14371d4a0697SVijay Khemka 14381d4a0697SVijay Khemka *data_len = 0; 14391d4a0697SVijay Khemka 14401d4a0697SVijay Khemka /* check for requested data params */ 14411d4a0697SVijay Khemka if (len < 6 || req->paramSel < 1 || req->paramSel >= numParam || 14421d4a0697SVijay Khemka ctrlType > 2) 14431d4a0697SVijay Khemka { 14441d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 14451d4a0697SVijay Khemka "Invalid parameter received"); 14461d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 14471d4a0697SVijay Khemka } 14481d4a0697SVijay Khemka 14491d4a0697SVijay Khemka len = len - 6; // Get Actual data length 14501d4a0697SVijay Khemka 14511d4a0697SVijay Khemka ss << std::hex; 14521d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->hddIndex; 14531d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][KEY_HDD_CTRL_TYPE] = req->hddCtrlType; 14541d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()][KEY_HDD_INDEX] = 14551d4a0697SVijay Khemka req->hddIndex; 14561d4a0697SVijay Khemka 14571d4a0697SVijay Khemka str = bytesToStr(req->data, len); 14581d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()] 14591d4a0697SVijay Khemka [driveInfoKey[req->paramSel]] = str.c_str(); 14601d4a0697SVijay Khemka flushOemData(); 14611d4a0697SVijay Khemka 14621d4a0697SVijay Khemka return IPMI_CC_OK; 14631d4a0697SVijay Khemka } 14641d4a0697SVijay Khemka 14651d4a0697SVijay Khemka //---------------------------------------------------------------------- 14661d4a0697SVijay Khemka // Get Drive Info (CMD_OEM_Q_GET_DRIVE_INFO) 14671d4a0697SVijay Khemka //---------------------------------------------------------------------- 14681d4a0697SVijay Khemka // BMC needs to check HDD presented or not first. If NOT presented, return 14691d4a0697SVijay Khemka // completion code 0xD5. 14701d4a0697SVijay Khemka // 14711d4a0697SVijay Khemka // Request: 14721d4a0697SVijay Khemka // Byte 1:3 – Quanta Manufacturer ID – 001C4Ch, LSB first 14731d4a0697SVijay Khemka // Byte 4 – 14741d4a0697SVijay Khemka //[7:4] Reserved 14751d4a0697SVijay Khemka //[3:0] HDD Controller Type 14761d4a0697SVijay Khemka // 0x00 – BIOS 14771d4a0697SVijay Khemka // 0x01 – Expander 14781d4a0697SVijay Khemka // 0x02 – LSI 14791d4a0697SVijay Khemka // Byte 5 – HDD Index, 0 base 14801d4a0697SVijay Khemka // Byte 6 – Parameter Selector (See Above Set HDD Information) 14811d4a0697SVijay Khemka // Response: 14821d4a0697SVijay Khemka // Byte 1 – Completion Code 14831d4a0697SVijay Khemka // 0xD5 – Not support in current status (HDD Not Present) 14841d4a0697SVijay Khemka // Byte 2..N – Configuration parameter data (see Table_1415h Parameters of HDD 14851d4a0697SVijay Khemka // Information) 14861d4a0697SVijay Khemka // 14871d4a0697SVijay Khemka ipmi_ret_t ipmiOemQGetDriveInfo(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 14881d4a0697SVijay Khemka ipmi_request_t request, 14891d4a0697SVijay Khemka ipmi_response_t response, 14901d4a0697SVijay Khemka ipmi_data_len_t data_len, 14911d4a0697SVijay Khemka ipmi_context_t context) 14921d4a0697SVijay Khemka { 14931d4a0697SVijay Khemka qDriveInfo_t *req = reinterpret_cast<qDriveInfo_t *>(request); 14941d4a0697SVijay Khemka uint8_t numParam = sizeof(driveInfoKey) / sizeof(uint8_t *); 14951d4a0697SVijay Khemka uint8_t *res = reinterpret_cast<uint8_t *>(response); 14961d4a0697SVijay Khemka uint8_t ctrlType = req->hddCtrlType & 0x0f; 14971d4a0697SVijay Khemka std::stringstream ss; 14981d4a0697SVijay Khemka std::string str; 14991d4a0697SVijay Khemka 15001d4a0697SVijay Khemka *data_len = 0; 15011d4a0697SVijay Khemka 15021d4a0697SVijay Khemka /* check for requested data params */ 15031d4a0697SVijay Khemka if (req->paramSel < 1 || req->paramSel >= numParam || ctrlType > 2) 15041d4a0697SVijay Khemka { 15051d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 15061d4a0697SVijay Khemka "Invalid parameter received"); 15071d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15081d4a0697SVijay Khemka } 15091d4a0697SVijay Khemka 15101d4a0697SVijay Khemka if (oemData[KEY_Q_DRIVE_INFO].find(ctrlTypeKey[ctrlType]) == 15111d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO].end()) 15121d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 15131d4a0697SVijay Khemka 15141d4a0697SVijay Khemka ss << std::hex; 15151d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->hddIndex; 15161d4a0697SVijay Khemka 15171d4a0697SVijay Khemka if (oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]].find(ss.str()) == 15181d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO].end()) 15191d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 15201d4a0697SVijay Khemka 15211d4a0697SVijay Khemka if (oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()].find( 15221d4a0697SVijay Khemka dimmInfoKey[req->paramSel]) == 15231d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][ss.str()].end()) 15241d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 15251d4a0697SVijay Khemka 15261d4a0697SVijay Khemka str = oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()] 15271d4a0697SVijay Khemka [dimmInfoKey[req->paramSel]]; 15281d4a0697SVijay Khemka *data_len = strToBytes(str, res); 15291d4a0697SVijay Khemka 1530e7d23d0eSVijay Khemka return IPMI_CC_OK; 1531e7d23d0eSVijay Khemka } 1532e7d23d0eSVijay Khemka 1533e7d23d0eSVijay Khemka static void registerOEMFunctions(void) 1534e7d23d0eSVijay Khemka { 15351d4a0697SVijay Khemka /* Get OEM data from json file */ 15361d4a0697SVijay Khemka std::ifstream file(JSON_OEM_DATA_FILE); 15371d4a0697SVijay Khemka if (file) 1538feaa9811SVijay Khemka { 15391d4a0697SVijay Khemka file >> oemData; 1540feaa9811SVijay Khemka file.close(); 1541feaa9811SVijay Khemka } 15421d4a0697SVijay Khemka 1543e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>( 1544e7d23d0eSVijay Khemka "Registering OEM commands"); 1545e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_CHASSIS, 1, NULL, ipmiGetChassisStatus, 1546e7d23d0eSVijay Khemka PRIVILEGE_USER); // get chassis status 1547e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_FRAME_INFO, 1548e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetFrameInfo, 1549e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug frame info 1550e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, 1551e7d23d0eSVijay Khemka CMD_OEM_USB_DBG_GET_UPDATED_FRAMES, NULL, 1552e7d23d0eSVijay Khemka ipmiOemDbgGetUpdFrames, 1553e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug updated frames 1554e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_POST_DESC, 1555e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetPostDesc, 1556e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug post description 1557e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_GPIO_DESC, 1558e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetGpioDesc, 1559e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug gpio description 1560e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_FRAME_DATA, 1561e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetFrameData, 1562e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug frame data 1563e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_CTRL_PANEL, 1564e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetCtrlPanel, 1565e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug control panel 1566e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_DIMM_INFO, NULL, 1567e7d23d0eSVijay Khemka ipmiOemSetDimmInfo, 1568e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set Dimm Info 15691d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_GET_BOARD_ID, NULL, 15701d4a0697SVijay Khemka ipmiOemGetBoardID, 15711d4a0697SVijay Khemka PRIVILEGE_USER); // Get Board ID 15721d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_BOOT_ORDER, NULL, 15731d4a0697SVijay Khemka ipmiOemSetBootOrder, 15741d4a0697SVijay Khemka PRIVILEGE_USER); // Set Boot Order 1575e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_GET_BOOT_ORDER, NULL, 1576e7d23d0eSVijay Khemka ipmiOemGetBootOrder, 1577e7d23d0eSVijay Khemka PRIVILEGE_USER); // Get Boot Order 1578e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_MACHINE_CONFIG_INFO, NULL, 1579e7d23d0eSVijay Khemka ipmiOemSetMachineCfgInfo, 1580e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set Machine Config Info 1581e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_POST_START, NULL, 1582e7d23d0eSVijay Khemka ipmiOemSetPostStart, 1583e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set POST start 1584e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_POST_END, NULL, 1585e7d23d0eSVijay Khemka ipmiOemSetPostEnd, 1586e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set POST End 15871d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_PPIN_INFO, NULL, 15881d4a0697SVijay Khemka ipmiOemSetPPINInfo, 15891d4a0697SVijay Khemka PRIVILEGE_USER); // Set PPIN Info 15901d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_ADR_TRIGGER, NULL, 15911d4a0697SVijay Khemka ipmiOemSetAdrTrigger, 15921d4a0697SVijay Khemka PRIVILEGE_USER); // Set ADR Trigger 1593e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_BIOS_FLASH_INFO, NULL, 1594e7d23d0eSVijay Khemka ipmiOemSetBiosFlashInfo, 1595e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set Bios Flash Info 1596e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_PPR, NULL, ipmiOemSetPpr, 1597e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set PPR 1598e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_GET_PPR, NULL, ipmiOemGetPpr, 1599e7d23d0eSVijay Khemka PRIVILEGE_USER); // Get PPR 16001d4a0697SVijay Khemka /* FB OEM QC Commands */ 16011d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_SET_PROC_INFO, NULL, 16021d4a0697SVijay Khemka ipmiOemQSetProcInfo, 16031d4a0697SVijay Khemka PRIVILEGE_USER); // Set Proc Info 16041d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_GET_PROC_INFO, NULL, 16051d4a0697SVijay Khemka ipmiOemQGetProcInfo, 16061d4a0697SVijay Khemka PRIVILEGE_USER); // Get Proc Info 16071d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_SET_DIMM_INFO, NULL, 16081d4a0697SVijay Khemka ipmiOemQSetDimmInfo, 16091d4a0697SVijay Khemka PRIVILEGE_USER); // Set Dimm Info 16101d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_GET_DIMM_INFO, NULL, 16111d4a0697SVijay Khemka ipmiOemQGetDimmInfo, 16121d4a0697SVijay Khemka PRIVILEGE_USER); // Get Dimm Info 16131d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_SET_DRIVE_INFO, NULL, 16141d4a0697SVijay Khemka ipmiOemQSetDriveInfo, 16151d4a0697SVijay Khemka PRIVILEGE_USER); // Set Drive Info 16161d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_GET_DRIVE_INFO, NULL, 16171d4a0697SVijay Khemka ipmiOemQGetDriveInfo, 16181d4a0697SVijay Khemka PRIVILEGE_USER); // Get Drive Info 1619e7d23d0eSVijay Khemka return; 1620e7d23d0eSVijay Khemka } 1621e7d23d0eSVijay Khemka 1622e7d23d0eSVijay Khemka } // namespace ipmi 1623