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 202405ae98SPatrick Williams #include <commandutils.hpp> 212405ae98SPatrick Williams #include <ipmid/api-types.hpp> 2263c99be4SVijay Khemka #include <ipmid/api.hpp> 231b6fae3fSVijay Khemka #include <ipmid/utils.hpp> 2463c99be4SVijay Khemka #include <nlohmann/json.hpp> 2563c99be4SVijay Khemka #include <oemcommands.hpp> 26e7d23d0eSVijay Khemka #include <phosphor-logging/log.hpp> 27e7d23d0eSVijay Khemka #include <sdbusplus/bus.hpp> 282405ae98SPatrick Williams #include <xyz/openbmc_project/Control/Boot/Mode/server.hpp> 292405ae98SPatrick Williams #include <xyz/openbmc_project/Control/Boot/Source/server.hpp> 302405ae98SPatrick Williams #include <xyz/openbmc_project/Control/Boot/Type/server.hpp> 315f8e3435SManikandan Elumalai 3263c99be4SVijay Khemka #include <array> 3363c99be4SVijay Khemka #include <cstring> 3463c99be4SVijay Khemka #include <fstream> 3563c99be4SVijay Khemka #include <iomanip> 3663c99be4SVijay Khemka #include <iostream> 372405ae98SPatrick Williams #include <regex> 3863c99be4SVijay Khemka #include <sstream> 39e7d23d0eSVijay Khemka #include <string> 40e7d23d0eSVijay Khemka #include <vector> 41e7d23d0eSVijay Khemka 42e7d23d0eSVijay Khemka #define SIZE_IANA_ID 3 43e7d23d0eSVijay Khemka 44e7d23d0eSVijay Khemka namespace ipmi 45e7d23d0eSVijay Khemka { 46a7231893SVijay Khemka 47a7231893SVijay Khemka using namespace phosphor::logging; 48a7231893SVijay Khemka 49e1ff81faSKarthikeyan Pasupathi void getSelectorPosition(size_t& position); 50e7d23d0eSVijay Khemka static void registerOEMFunctions() __attribute__((constructor)); 51cd315e07SPatrick Williams sdbusplus::bus_t dbus(ipmid_get_sd_bus_connection()); // from ipmid/api.h 52e7d23d0eSVijay Khemka static constexpr size_t maxFRUStringLength = 0x3F; 535f8e3435SManikandan Elumalai constexpr uint8_t cmdSetSystemGuid = 0xEF; 54e7d23d0eSVijay Khemka 5510ff3d86SKarthikeyan Pasupathi constexpr uint8_t cmdSetQDimmInfo = 0x12; 5610ff3d86SKarthikeyan Pasupathi constexpr uint8_t cmdGetQDimmInfo = 0x13; 5710ff3d86SKarthikeyan Pasupathi 58cc0d6d92SVijay Khemka int plat_udbg_get_post_desc(uint8_t, uint8_t*, uint8_t, uint8_t*, uint8_t*, 59cc0d6d92SVijay Khemka uint8_t*); 6038183d66SVijay Khemka int plat_udbg_get_gpio_desc(uint8_t, uint8_t*, uint8_t*, uint8_t*, uint8_t*, 6138183d66SVijay Khemka uint8_t*); 62e7d23d0eSVijay Khemka ipmi_ret_t plat_udbg_get_frame_data(uint8_t, uint8_t, uint8_t*, uint8_t*, 63e7d23d0eSVijay Khemka uint8_t*); 64e7d23d0eSVijay Khemka ipmi_ret_t plat_udbg_control_panel(uint8_t, uint8_t, uint8_t, uint8_t*, 65e7d23d0eSVijay Khemka uint8_t*); 66dd14c0f7SVijay Khemka int sendMeCmd(uint8_t, uint8_t, std::vector<uint8_t>&, std::vector<uint8_t>&); 67dd14c0f7SVijay Khemka 685f8e3435SManikandan Elumalai int sendBicCmd(uint8_t, uint8_t, uint8_t, std::vector<uint8_t>&, 695f8e3435SManikandan Elumalai std::vector<uint8_t>&); 705f8e3435SManikandan Elumalai 71feaa9811SVijay Khemka nlohmann::json oemData __attribute__((init_priority(101))); 721b6fae3fSVijay Khemka 73f2246ce8SVijay Khemka static constexpr size_t GUID_SIZE = 16; 74f2246ce8SVijay Khemka // TODO Make offset and location runtime configurable to ensure we 75f2246ce8SVijay Khemka // can make each define their own locations. 76f2246ce8SVijay Khemka static constexpr off_t OFFSET_SYS_GUID = 0x17F0; 77f2246ce8SVijay Khemka static constexpr const char* FRU_EEPROM = "/sys/bus/i2c/devices/6-0054/eeprom"; 787bb4592aSDelphine CC Chiu void flushOemData(); 79f2246ce8SVijay Khemka 801b6fae3fSVijay Khemka enum class LanParam : uint8_t 811b6fae3fSVijay Khemka { 821b6fae3fSVijay Khemka INPROGRESS = 0, 831b6fae3fSVijay Khemka AUTHSUPPORT = 1, 841b6fae3fSVijay Khemka AUTHENABLES = 2, 851b6fae3fSVijay Khemka IP = 3, 861b6fae3fSVijay Khemka IPSRC = 4, 871b6fae3fSVijay Khemka MAC = 5, 881b6fae3fSVijay Khemka SUBNET = 6, 891b6fae3fSVijay Khemka GATEWAY = 12, 901b6fae3fSVijay Khemka VLAN = 20, 911b6fae3fSVijay Khemka CIPHER_SUITE_COUNT = 22, 921b6fae3fSVijay Khemka CIPHER_SUITE_ENTRIES = 23, 931b6fae3fSVijay Khemka IPV6 = 59, 941b6fae3fSVijay Khemka }; 951b6fae3fSVijay Khemka 96a7231893SVijay Khemka namespace network 97a7231893SVijay Khemka { 98a7231893SVijay Khemka 99a7231893SVijay Khemka constexpr auto ROOT = "/xyz/openbmc_project/network"; 100a7231893SVijay Khemka constexpr auto SERVICE = "xyz.openbmc_project.Network"; 101a7231893SVijay Khemka constexpr auto IPV4_TYPE = "ipv4"; 102a7231893SVijay Khemka constexpr auto IPV6_TYPE = "ipv6"; 103a7231893SVijay Khemka constexpr auto IPV4_PREFIX = "169.254"; 104a7231893SVijay Khemka constexpr auto IPV6_PREFIX = "fe80"; 105a7231893SVijay Khemka constexpr auto IP_INTERFACE = "xyz.openbmc_project.Network.IP"; 106a7231893SVijay Khemka constexpr auto MAC_INTERFACE = "xyz.openbmc_project.Network.MACAddress"; 1078d1a81e8SPotin Lai constexpr auto IPV4_PROTOCOL = "xyz.openbmc_project.Network.IP.Protocol.IPv4"; 1088d1a81e8SPotin Lai constexpr auto IPV6_PROTOCOL = "xyz.openbmc_project.Network.IP.Protocol.IPv6"; 109a7231893SVijay Khemka 110a7231893SVijay Khemka bool isLinkLocalIP(const std::string& address) 111a7231893SVijay Khemka { 112a7231893SVijay Khemka return address.find(IPV4_PREFIX) == 0 || address.find(IPV6_PREFIX) == 0; 113a7231893SVijay Khemka } 114a7231893SVijay Khemka 115cd315e07SPatrick Williams DbusObjectInfo getIPObject(sdbusplus::bus_t& bus, const std::string& interface, 116a7231893SVijay Khemka const std::string& serviceRoot, 1178d1a81e8SPotin Lai const std::string& protocol, 1188d1a81e8SPotin Lai const std::string& ethdev) 119a7231893SVijay Khemka { 1208d1a81e8SPotin Lai auto objectTree = getAllDbusObjects(bus, serviceRoot, interface, ethdev); 121a7231893SVijay Khemka 122a7231893SVijay Khemka if (objectTree.empty()) 123a7231893SVijay Khemka { 124a7231893SVijay Khemka log<level::ERR>("No Object has implemented the IP interface", 125a7231893SVijay Khemka entry("INTERFACE=%s", interface.c_str())); 126a7231893SVijay Khemka } 127a7231893SVijay Khemka 128a7231893SVijay Khemka DbusObjectInfo objectInfo; 129a7231893SVijay Khemka 130a7231893SVijay Khemka for (auto& object : objectTree) 131a7231893SVijay Khemka { 1322405ae98SPatrick Williams auto variant = ipmi::getDbusProperty(bus, object.second.begin()->first, 1332405ae98SPatrick Williams object.first, IP_INTERFACE, 1342405ae98SPatrick Williams "Type"); 1358d1a81e8SPotin Lai if (std::get<std::string>(variant) != protocol) 1368d1a81e8SPotin Lai { 1378d1a81e8SPotin Lai continue; 1388d1a81e8SPotin Lai } 1398d1a81e8SPotin Lai 1408d1a81e8SPotin Lai variant = ipmi::getDbusProperty(bus, object.second.begin()->first, 141a7231893SVijay Khemka object.first, IP_INTERFACE, "Address"); 142a7231893SVijay Khemka 143a7231893SVijay Khemka objectInfo = std::make_pair(object.first, object.second.begin()->first); 144a7231893SVijay Khemka 145a7231893SVijay Khemka // if LinkLocalIP found look for Non-LinkLocalIP 146a7231893SVijay Khemka if (isLinkLocalIP(std::get<std::string>(variant))) 147a7231893SVijay Khemka { 148a7231893SVijay Khemka continue; 149a7231893SVijay Khemka } 150a7231893SVijay Khemka else 151a7231893SVijay Khemka { 152a7231893SVijay Khemka break; 153a7231893SVijay Khemka } 154a7231893SVijay Khemka } 155a7231893SVijay Khemka return objectInfo; 156a7231893SVijay Khemka } 157a7231893SVijay Khemka 158a7231893SVijay Khemka } // namespace network 159a7231893SVijay Khemka 160f0cf6658SJayashree-D namespace boot 161f0cf6658SJayashree-D { 16277ee489fSJayashree Dhanapal using BootSource = 16377ee489fSJayashree Dhanapal sdbusplus::xyz::openbmc_project::Control::Boot::server::Source::Sources; 16477ee489fSJayashree Dhanapal using BootMode = 16577ee489fSJayashree Dhanapal sdbusplus::xyz::openbmc_project::Control::Boot::server::Mode::Modes; 16677ee489fSJayashree Dhanapal using BootType = 16777ee489fSJayashree Dhanapal sdbusplus::xyz::openbmc_project::Control::Boot::server::Type::Types; 168f0cf6658SJayashree-D 169f0cf6658SJayashree-D using IpmiValue = uint8_t; 170f0cf6658SJayashree-D 17177ee489fSJayashree Dhanapal std::map<IpmiValue, BootSource> sourceIpmiToDbus = { 17277ee489fSJayashree Dhanapal {0x0f, BootSource::Default}, {0x00, BootSource::RemovableMedia}, 17377ee489fSJayashree Dhanapal {0x01, BootSource::Network}, {0x02, BootSource::Disk}, 1747bb4592aSDelphine CC Chiu {0x03, BootSource::ExternalMedia}, {0x04, BootSource::RemovableMedia}, 1757bb4592aSDelphine CC Chiu {0x09, BootSource::Network}}; 176f0cf6658SJayashree-D 177c0f918b5SDelphine CC Chiu std::map<IpmiValue, BootMode> modeIpmiToDbus = {{0x04, BootMode::Setup}, 17877ee489fSJayashree Dhanapal {0x00, BootMode::Regular}}; 179f0cf6658SJayashree-D 18077ee489fSJayashree Dhanapal std::map<IpmiValue, BootType> typeIpmiToDbus = {{0x00, BootType::Legacy}, 18177ee489fSJayashree Dhanapal {0x01, BootType::EFI}}; 182778147daSJayashree Dhanapal 18377ee489fSJayashree Dhanapal std::map<std::optional<BootSource>, IpmiValue> sourceDbusToIpmi = { 18477ee489fSJayashree Dhanapal {BootSource::Default, 0x0f}, 18577ee489fSJayashree Dhanapal {BootSource::RemovableMedia, 0x00}, 18677ee489fSJayashree Dhanapal {BootSource::Network, 0x01}, 18777ee489fSJayashree Dhanapal {BootSource::Disk, 0x02}, 18877ee489fSJayashree Dhanapal {BootSource::ExternalMedia, 0x03}}; 189f0cf6658SJayashree-D 19077ee489fSJayashree Dhanapal std::map<std::optional<BootMode>, IpmiValue> modeDbusToIpmi = { 191c0f918b5SDelphine CC Chiu {BootMode::Setup, 0x04}, {BootMode::Regular, 0x00}}; 192f0cf6658SJayashree-D 19377ee489fSJayashree Dhanapal std::map<std::optional<BootType>, IpmiValue> typeDbusToIpmi = { 19477ee489fSJayashree Dhanapal {BootType::Legacy, 0x00}, {BootType::EFI, 0x01}}; 195778147daSJayashree Dhanapal 196c0f918b5SDelphine CC Chiu static constexpr auto bootEnableIntf = "xyz.openbmc_project.Object.Enable"; 197f0cf6658SJayashree-D static constexpr auto bootModeIntf = "xyz.openbmc_project.Control.Boot.Mode"; 198f0cf6658SJayashree-D static constexpr auto bootSourceIntf = 199f0cf6658SJayashree-D "xyz.openbmc_project.Control.Boot.Source"; 200778147daSJayashree Dhanapal static constexpr auto bootTypeIntf = "xyz.openbmc_project.Control.Boot.Type"; 201f0cf6658SJayashree-D static constexpr auto bootSourceProp = "BootSource"; 202f0cf6658SJayashree-D static constexpr auto bootModeProp = "BootMode"; 203778147daSJayashree Dhanapal static constexpr auto bootTypeProp = "BootType"; 204c0f918b5SDelphine CC Chiu static constexpr auto bootEnableProp = "Enabled"; 205f0cf6658SJayashree-D 206f0cf6658SJayashree-D std::tuple<std::string, std::string> objPath(size_t id) 207f0cf6658SJayashree-D { 208f0cf6658SJayashree-D std::string hostName = "host" + std::to_string(id); 2092405ae98SPatrick Williams std::string bootObjPath = "/xyz/openbmc_project/control/" + hostName + 2102405ae98SPatrick Williams "/boot"; 211f0cf6658SJayashree-D return std::make_tuple(std::move(bootObjPath), std::move(hostName)); 212f0cf6658SJayashree-D } 213f0cf6658SJayashree-D 2147bb4592aSDelphine CC Chiu /* Helper functions to set boot order */ 2157bb4592aSDelphine CC Chiu void setBootOrder(std::string bootObjPath, const std::vector<uint8_t>& bootSeq, 2167bb4592aSDelphine CC Chiu std::string bootOrderKey) 2177bb4592aSDelphine CC Chiu { 2187bb4592aSDelphine CC Chiu if (bootSeq.size() != SIZE_BOOT_ORDER) 2197bb4592aSDelphine CC Chiu { 2207bb4592aSDelphine CC Chiu phosphor::logging::log<phosphor::logging::level::ERR>( 2217bb4592aSDelphine CC Chiu "Invalid Boot order length received"); 2227bb4592aSDelphine CC Chiu return; 2237bb4592aSDelphine CC Chiu } 2247bb4592aSDelphine CC Chiu 2257bb4592aSDelphine CC Chiu std::shared_ptr<sdbusplus::asio::connection> dbus = getSdBus(); 2267bb4592aSDelphine CC Chiu 2277bb4592aSDelphine CC Chiu uint8_t mode = bootSeq.front(); 2287bb4592aSDelphine CC Chiu 2297bb4592aSDelphine CC Chiu // SETTING BOOT MODE PROPERTY 2307bb4592aSDelphine CC Chiu uint8_t bootModeBit = mode & 0x04; 2317bb4592aSDelphine CC Chiu auto bootValue = ipmi::boot::modeIpmiToDbus.at(bootModeBit); 2327bb4592aSDelphine CC Chiu 2337bb4592aSDelphine CC Chiu std::string bootOption = 2347bb4592aSDelphine CC Chiu sdbusplus::message::convert_to_string<boot::BootMode>(bootValue); 2357bb4592aSDelphine CC Chiu 2367bb4592aSDelphine CC Chiu std::string service = getService(*dbus, ipmi::boot::bootModeIntf, 2377bb4592aSDelphine CC Chiu bootObjPath); 2387bb4592aSDelphine CC Chiu setDbusProperty(*dbus, service, bootObjPath, ipmi::boot::bootModeIntf, 2397bb4592aSDelphine CC Chiu ipmi::boot::bootModeProp, bootOption); 2407bb4592aSDelphine CC Chiu 2417bb4592aSDelphine CC Chiu // SETTING BOOT SOURCE PROPERTY 2427bb4592aSDelphine CC Chiu auto bootOrder = ipmi::boot::sourceIpmiToDbus.at(bootSeq.at(1)); 2437bb4592aSDelphine CC Chiu std::string bootSource = 2447bb4592aSDelphine CC Chiu sdbusplus::message::convert_to_string<boot::BootSource>(bootOrder); 2457bb4592aSDelphine CC Chiu 2467bb4592aSDelphine CC Chiu service = getService(*dbus, ipmi::boot::bootSourceIntf, bootObjPath); 2477bb4592aSDelphine CC Chiu setDbusProperty(*dbus, service, bootObjPath, ipmi::boot::bootSourceIntf, 2487bb4592aSDelphine CC Chiu ipmi::boot::bootSourceProp, bootSource); 2497bb4592aSDelphine CC Chiu 2507bb4592aSDelphine CC Chiu // SETTING BOOT TYPE PROPERTY 2517bb4592aSDelphine CC Chiu uint8_t bootTypeBit = mode & 0x01; 2527bb4592aSDelphine CC Chiu auto bootTypeVal = ipmi::boot::typeIpmiToDbus.at(bootTypeBit); 2537bb4592aSDelphine CC Chiu 2547bb4592aSDelphine CC Chiu std::string bootType = 2557bb4592aSDelphine CC Chiu sdbusplus::message::convert_to_string<boot::BootType>(bootTypeVal); 2567bb4592aSDelphine CC Chiu 2577bb4592aSDelphine CC Chiu service = getService(*dbus, ipmi::boot::bootTypeIntf, bootObjPath); 2587bb4592aSDelphine CC Chiu 2597bb4592aSDelphine CC Chiu setDbusProperty(*dbus, service, bootObjPath, ipmi::boot::bootTypeIntf, 2607bb4592aSDelphine CC Chiu ipmi::boot::bootTypeProp, bootType); 2617bb4592aSDelphine CC Chiu 2627bb4592aSDelphine CC Chiu // Set the valid bit to boot enabled property 2637bb4592aSDelphine CC Chiu service = getService(*dbus, ipmi::boot::bootEnableIntf, bootObjPath); 2647bb4592aSDelphine CC Chiu 2657bb4592aSDelphine CC Chiu setDbusProperty(*dbus, service, bootObjPath, ipmi::boot::bootEnableIntf, 2667bb4592aSDelphine CC Chiu ipmi::boot::bootEnableProp, 2677bb4592aSDelphine CC Chiu (mode & BOOT_MODE_BOOT_FLAG) ? true : false); 2687bb4592aSDelphine CC Chiu 2697bb4592aSDelphine CC Chiu nlohmann::json bootMode; 2707bb4592aSDelphine CC Chiu 2717bb4592aSDelphine CC Chiu bootMode["UEFI"] = (mode & BOOT_MODE_UEFI) ? true : false; 2727bb4592aSDelphine CC Chiu bootMode["CMOS_CLR"] = (mode & BOOT_MODE_CMOS_CLR) ? true : false; 2737bb4592aSDelphine CC Chiu bootMode["FORCE_BOOT"] = (mode & BOOT_MODE_FORCE_BOOT) ? true : false; 2747bb4592aSDelphine CC Chiu bootMode["BOOT_FLAG"] = (mode & BOOT_MODE_BOOT_FLAG) ? true : false; 2757bb4592aSDelphine CC Chiu oemData[bootOrderKey][KEY_BOOT_MODE] = bootMode; 2767bb4592aSDelphine CC Chiu 2777bb4592aSDelphine CC Chiu /* Initialize boot sequence array */ 2787bb4592aSDelphine CC Chiu oemData[bootOrderKey][KEY_BOOT_SEQ] = {}; 2797bb4592aSDelphine CC Chiu for (size_t i = 1; i < SIZE_BOOT_ORDER; i++) 2807bb4592aSDelphine CC Chiu { 2817bb4592aSDelphine CC Chiu if (bootSeq.at(i) >= BOOT_SEQ_ARRAY_SIZE) 2827bb4592aSDelphine CC Chiu oemData[bootOrderKey][KEY_BOOT_SEQ][i - 1] = "NA"; 2837bb4592aSDelphine CC Chiu else 2847bb4592aSDelphine CC Chiu oemData[bootOrderKey][KEY_BOOT_SEQ][i - 1] = 2857bb4592aSDelphine CC Chiu bootSeqDefine[bootSeq.at(i)]; 2867bb4592aSDelphine CC Chiu } 2877bb4592aSDelphine CC Chiu 2887bb4592aSDelphine CC Chiu flushOemData(); 2897bb4592aSDelphine CC Chiu } 2907bb4592aSDelphine CC Chiu 2917bb4592aSDelphine CC Chiu void getBootOrder(std::string bootObjPath, std::vector<uint8_t>& bootSeq, 2927bb4592aSDelphine CC Chiu std::string hostName) 2937bb4592aSDelphine CC Chiu { 2947bb4592aSDelphine CC Chiu if (oemData.find(hostName) == oemData.end()) 2957bb4592aSDelphine CC Chiu { 2967bb4592aSDelphine CC Chiu /* Return default boot order 0100090203ff */ 2977bb4592aSDelphine CC Chiu bootSeq.push_back(BOOT_MODE_UEFI); 2987bb4592aSDelphine CC Chiu bootSeq.push_back(static_cast<uint8_t>(bootMap["USB_DEV"])); 2997bb4592aSDelphine CC Chiu bootSeq.push_back(static_cast<uint8_t>(bootMap["NET_IPV6"])); 3007bb4592aSDelphine CC Chiu bootSeq.push_back(static_cast<uint8_t>(bootMap["SATA_HDD"])); 3017bb4592aSDelphine CC Chiu bootSeq.push_back(static_cast<uint8_t>(bootMap["SATA_CD"])); 3027bb4592aSDelphine CC Chiu bootSeq.push_back(0xff); 3037bb4592aSDelphine CC Chiu 3047bb4592aSDelphine CC Chiu phosphor::logging::log<phosphor::logging::level::INFO>( 3057bb4592aSDelphine CC Chiu "Set default boot order"); 3067bb4592aSDelphine CC Chiu setBootOrder(bootObjPath, bootSeq, hostName); 3077bb4592aSDelphine CC Chiu return; 3087bb4592aSDelphine CC Chiu } 3097bb4592aSDelphine CC Chiu 3107bb4592aSDelphine CC Chiu std::shared_ptr<sdbusplus::asio::connection> dbus = getSdBus(); 3117bb4592aSDelphine CC Chiu 3127bb4592aSDelphine CC Chiu // GETTING PROPERTY OF MODE INTERFACE 3137bb4592aSDelphine CC Chiu 3147bb4592aSDelphine CC Chiu std::string service = getService(*dbus, ipmi::boot::bootModeIntf, 3157bb4592aSDelphine CC Chiu bootObjPath); 3167bb4592aSDelphine CC Chiu Value variant = getDbusProperty(*dbus, service, bootObjPath, 3177bb4592aSDelphine CC Chiu ipmi::boot::bootModeIntf, 3187bb4592aSDelphine CC Chiu ipmi::boot::bootModeProp); 3197bb4592aSDelphine CC Chiu 3207bb4592aSDelphine CC Chiu auto bootMode = sdbusplus::message::convert_from_string<boot::BootMode>( 3217bb4592aSDelphine CC Chiu std::get<std::string>(variant)); 3227bb4592aSDelphine CC Chiu 3237bb4592aSDelphine CC Chiu uint8_t bootOption = ipmi::boot::modeDbusToIpmi.at(bootMode); 3247bb4592aSDelphine CC Chiu 3257bb4592aSDelphine CC Chiu // GETTING PROPERTY OF TYPE INTERFACE 3267bb4592aSDelphine CC Chiu 3277bb4592aSDelphine CC Chiu service = getService(*dbus, ipmi::boot::bootTypeIntf, bootObjPath); 3287bb4592aSDelphine CC Chiu variant = getDbusProperty(*dbus, service, bootObjPath, 3297bb4592aSDelphine CC Chiu ipmi::boot::bootTypeIntf, 3307bb4592aSDelphine CC Chiu ipmi::boot::bootTypeProp); 3317bb4592aSDelphine CC Chiu 3327bb4592aSDelphine CC Chiu auto bootType = sdbusplus::message::convert_from_string<boot::BootType>( 3337bb4592aSDelphine CC Chiu std::get<std::string>(variant)); 3347bb4592aSDelphine CC Chiu 3357bb4592aSDelphine CC Chiu // Get the valid bit to boot enabled property 3367bb4592aSDelphine CC Chiu service = getService(*dbus, ipmi::boot::bootEnableIntf, bootObjPath); 3377bb4592aSDelphine CC Chiu variant = getDbusProperty(*dbus, service, bootObjPath, 3387bb4592aSDelphine CC Chiu ipmi::boot::bootEnableIntf, 3397bb4592aSDelphine CC Chiu ipmi::boot::bootEnableProp); 3407bb4592aSDelphine CC Chiu 3417bb4592aSDelphine CC Chiu bool validFlag = std::get<bool>(variant); 3427bb4592aSDelphine CC Chiu 3437bb4592aSDelphine CC Chiu uint8_t bootTypeVal = ipmi::boot::typeDbusToIpmi.at(bootType); 3447bb4592aSDelphine CC Chiu 3457bb4592aSDelphine CC Chiu bootSeq.push_back(bootOption | bootTypeVal); 3467bb4592aSDelphine CC Chiu 3477bb4592aSDelphine CC Chiu if (validFlag) 3487bb4592aSDelphine CC Chiu { 3497bb4592aSDelphine CC Chiu bootSeq.front() |= BOOT_MODE_BOOT_FLAG; 3507bb4592aSDelphine CC Chiu } 3517bb4592aSDelphine CC Chiu 3527bb4592aSDelphine CC Chiu nlohmann::json bootModeJson = oemData[hostName][KEY_BOOT_MODE]; 3537bb4592aSDelphine CC Chiu if (bootModeJson["CMOS_CLR"]) 3547bb4592aSDelphine CC Chiu bootSeq.front() |= BOOT_MODE_CMOS_CLR; 3557bb4592aSDelphine CC Chiu 3567bb4592aSDelphine CC Chiu for (int i = 1; i < SIZE_BOOT_ORDER; i++) 3577bb4592aSDelphine CC Chiu { 3587bb4592aSDelphine CC Chiu std::string seqStr = oemData[hostName][KEY_BOOT_SEQ][i - 1]; 3597bb4592aSDelphine CC Chiu if (bootMap.find(seqStr) != bootMap.end()) 3607bb4592aSDelphine CC Chiu bootSeq.push_back(bootMap[seqStr]); 3617bb4592aSDelphine CC Chiu else 3627bb4592aSDelphine CC Chiu bootSeq.push_back(0xff); 3637bb4592aSDelphine CC Chiu } 3647bb4592aSDelphine CC Chiu } 3657bb4592aSDelphine CC Chiu 366f0cf6658SJayashree-D } // namespace boot 367f0cf6658SJayashree-D 3681d4a0697SVijay Khemka //---------------------------------------------------------------------- 3691d4a0697SVijay Khemka // Helper functions for storing oem data 3701d4a0697SVijay Khemka //---------------------------------------------------------------------- 3711d4a0697SVijay Khemka 3721d4a0697SVijay Khemka void flushOemData() 3731d4a0697SVijay Khemka { 3741d4a0697SVijay Khemka std::ofstream file(JSON_OEM_DATA_FILE); 3751d4a0697SVijay Khemka file << oemData; 376feaa9811SVijay Khemka file.close(); 3771d4a0697SVijay Khemka return; 3781d4a0697SVijay Khemka } 3791d4a0697SVijay Khemka 3801d4a0697SVijay Khemka std::string bytesToStr(uint8_t* byte, int len) 3811d4a0697SVijay Khemka { 3821d4a0697SVijay Khemka std::stringstream ss; 3831d4a0697SVijay Khemka int i; 3841d4a0697SVijay Khemka 3851d4a0697SVijay Khemka ss << std::hex; 3861d4a0697SVijay Khemka for (i = 0; i < len; i++) 3871d4a0697SVijay Khemka { 3881d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)byte[i]; 3891d4a0697SVijay Khemka } 3901d4a0697SVijay Khemka 3911d4a0697SVijay Khemka return ss.str(); 3921d4a0697SVijay Khemka } 3931d4a0697SVijay Khemka 3941d4a0697SVijay Khemka int strToBytes(std::string& str, uint8_t* data) 3951d4a0697SVijay Khemka { 3961d4a0697SVijay Khemka std::string sstr; 397e39f9393SWilly Tu size_t i; 3981d4a0697SVijay Khemka 3991d4a0697SVijay Khemka for (i = 0; i < (str.length()) / 2; i++) 4001d4a0697SVijay Khemka { 4011d4a0697SVijay Khemka sstr = str.substr(i * 2, 2); 4021d4a0697SVijay Khemka data[i] = (uint8_t)std::strtol(sstr.c_str(), NULL, 16); 4031d4a0697SVijay Khemka } 4041d4a0697SVijay Khemka return i; 4051d4a0697SVijay Khemka } 4061d4a0697SVijay Khemka 40710ff3d86SKarthikeyan Pasupathi int readDimmType(std::string& data, uint8_t param) 40810ff3d86SKarthikeyan Pasupathi { 40910ff3d86SKarthikeyan Pasupathi nlohmann::json dimmObj; 41010ff3d86SKarthikeyan Pasupathi /* Get dimm type names stored in json file */ 41110ff3d86SKarthikeyan Pasupathi std::ifstream file(JSON_DIMM_TYPE_FILE); 41210ff3d86SKarthikeyan Pasupathi if (file) 41310ff3d86SKarthikeyan Pasupathi { 41410ff3d86SKarthikeyan Pasupathi file >> dimmObj; 41510ff3d86SKarthikeyan Pasupathi file.close(); 41610ff3d86SKarthikeyan Pasupathi } 41710ff3d86SKarthikeyan Pasupathi else 41810ff3d86SKarthikeyan Pasupathi { 41910ff3d86SKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 42010ff3d86SKarthikeyan Pasupathi "DIMM type names file not found", 42110ff3d86SKarthikeyan Pasupathi phosphor::logging::entry("DIMM_TYPE_FILE=%s", JSON_DIMM_TYPE_FILE)); 42210ff3d86SKarthikeyan Pasupathi return -1; 42310ff3d86SKarthikeyan Pasupathi } 42410ff3d86SKarthikeyan Pasupathi 42510ff3d86SKarthikeyan Pasupathi std::string dimmKey = "dimm_type" + std::to_string(param); 42610ff3d86SKarthikeyan Pasupathi auto obj = dimmObj[dimmKey]["short_name"]; 42710ff3d86SKarthikeyan Pasupathi data = obj; 42810ff3d86SKarthikeyan Pasupathi return 0; 42910ff3d86SKarthikeyan Pasupathi } 43010ff3d86SKarthikeyan Pasupathi 4311b6fae3fSVijay Khemka ipmi_ret_t getNetworkData(uint8_t lan_param, char* data) 4321b6fae3fSVijay Khemka { 4331b6fae3fSVijay Khemka ipmi_ret_t rc = IPMI_CC_OK; 434cd315e07SPatrick Williams sdbusplus::bus_t bus(ipmid_get_sd_bus_connection()); 4351b6fae3fSVijay Khemka 4361b6fae3fSVijay Khemka const std::string ethdevice = "eth0"; 4371b6fae3fSVijay Khemka 4381b6fae3fSVijay Khemka switch (static_cast<LanParam>(lan_param)) 4391b6fae3fSVijay Khemka { 440d1194024SVijay Khemka case LanParam::IP: 441d1194024SVijay Khemka { 4421b6fae3fSVijay Khemka std::string ipaddress; 443a7231893SVijay Khemka auto ipObjectInfo = ipmi::network::getIPObject( 4448d1a81e8SPotin Lai bus, ipmi::network::IP_INTERFACE, ipmi::network::ROOT, 4458d1a81e8SPotin Lai ipmi::network::IPV4_PROTOCOL, ethdevice); 4461b6fae3fSVijay Khemka 4471b6fae3fSVijay Khemka auto properties = ipmi::getAllDbusProperties( 4481b6fae3fSVijay Khemka bus, ipObjectInfo.second, ipObjectInfo.first, 4491b6fae3fSVijay Khemka ipmi::network::IP_INTERFACE); 4501b6fae3fSVijay Khemka 451ef0efbc4SPatrick Williams ipaddress = std::get<std::string>(properties["Address"]); 4521b6fae3fSVijay Khemka 4531b6fae3fSVijay Khemka std::strcpy(data, ipaddress.c_str()); 4541b6fae3fSVijay Khemka } 4551b6fae3fSVijay Khemka break; 4561b6fae3fSVijay Khemka 457d1194024SVijay Khemka case LanParam::IPV6: 458d1194024SVijay Khemka { 4591b6fae3fSVijay Khemka std::string ipaddress; 460a7231893SVijay Khemka auto ipObjectInfo = ipmi::network::getIPObject( 4618d1a81e8SPotin Lai bus, ipmi::network::IP_INTERFACE, ipmi::network::ROOT, 4628d1a81e8SPotin Lai ipmi::network::IPV6_PROTOCOL, ethdevice); 4631b6fae3fSVijay Khemka 4641b6fae3fSVijay Khemka auto properties = ipmi::getAllDbusProperties( 4651b6fae3fSVijay Khemka bus, ipObjectInfo.second, ipObjectInfo.first, 4661b6fae3fSVijay Khemka ipmi::network::IP_INTERFACE); 4671b6fae3fSVijay Khemka 468ef0efbc4SPatrick Williams ipaddress = std::get<std::string>(properties["Address"]); 4691b6fae3fSVijay Khemka 4701b6fae3fSVijay Khemka std::strcpy(data, ipaddress.c_str()); 4711b6fae3fSVijay Khemka } 4721b6fae3fSVijay Khemka break; 4731b6fae3fSVijay Khemka 474d1194024SVijay Khemka case LanParam::MAC: 475d1194024SVijay Khemka { 4761b6fae3fSVijay Khemka std::string macAddress; 4771b6fae3fSVijay Khemka auto macObjectInfo = 4781b6fae3fSVijay Khemka ipmi::getDbusObject(bus, ipmi::network::MAC_INTERFACE, 4791b6fae3fSVijay Khemka ipmi::network::ROOT, ethdevice); 4801b6fae3fSVijay Khemka 4811b6fae3fSVijay Khemka auto variant = ipmi::getDbusProperty( 4821b6fae3fSVijay Khemka bus, macObjectInfo.second, macObjectInfo.first, 4831b6fae3fSVijay Khemka ipmi::network::MAC_INTERFACE, "MACAddress"); 4841b6fae3fSVijay Khemka 485ef0efbc4SPatrick Williams macAddress = std::get<std::string>(variant); 4861b6fae3fSVijay Khemka 4871b6fae3fSVijay Khemka sscanf(macAddress.c_str(), ipmi::network::MAC_ADDRESS_FORMAT, 4881b6fae3fSVijay Khemka (data), (data + 1), (data + 2), (data + 3), (data + 4), 4891b6fae3fSVijay Khemka (data + 5)); 4901b6fae3fSVijay Khemka std::strcpy(data, macAddress.c_str()); 4911b6fae3fSVijay Khemka } 4921b6fae3fSVijay Khemka break; 4931b6fae3fSVijay Khemka 4941b6fae3fSVijay Khemka default: 4951b6fae3fSVijay Khemka rc = IPMI_CC_PARM_OUT_OF_RANGE; 4961b6fae3fSVijay Khemka } 4971b6fae3fSVijay Khemka return rc; 4981b6fae3fSVijay Khemka } 499e7d23d0eSVijay Khemka 50039836ffaSKarthikeyan Pasupathi bool isMultiHostPlatform() 50139836ffaSKarthikeyan Pasupathi { 50239836ffaSKarthikeyan Pasupathi bool platform; 5034ec80567SJayashree Dhanapal if (hostInstances == "0") 50439836ffaSKarthikeyan Pasupathi { 50539836ffaSKarthikeyan Pasupathi platform = false; 50639836ffaSKarthikeyan Pasupathi } 50739836ffaSKarthikeyan Pasupathi else 50839836ffaSKarthikeyan Pasupathi { 50939836ffaSKarthikeyan Pasupathi platform = true; 51039836ffaSKarthikeyan Pasupathi } 51139836ffaSKarthikeyan Pasupathi return platform; 51239836ffaSKarthikeyan Pasupathi } 51339836ffaSKarthikeyan Pasupathi 514e7d23d0eSVijay Khemka // return code: 0 successful 515e7d23d0eSVijay Khemka int8_t getFruData(std::string& data, std::string& name) 516e7d23d0eSVijay Khemka { 51798aabdb1SKarthikeyan Pasupathi size_t pos; 51898aabdb1SKarthikeyan Pasupathi static constexpr const auto depth = 0; 51998aabdb1SKarthikeyan Pasupathi std::vector<std::string> paths; 52098aabdb1SKarthikeyan Pasupathi std::string machinePath; 52198aabdb1SKarthikeyan Pasupathi std::string baseBoard = "Baseboard"; 52298aabdb1SKarthikeyan Pasupathi 52398aabdb1SKarthikeyan Pasupathi bool platform = isMultiHostPlatform(); 52498aabdb1SKarthikeyan Pasupathi if (platform == true) 52598aabdb1SKarthikeyan Pasupathi { 526e1ff81faSKarthikeyan Pasupathi getSelectorPosition(pos); 52798aabdb1SKarthikeyan Pasupathi } 52898aabdb1SKarthikeyan Pasupathi 52998aabdb1SKarthikeyan Pasupathi sd_bus* bus = NULL; 53098aabdb1SKarthikeyan Pasupathi int ret = sd_bus_default_system(&bus); 53198aabdb1SKarthikeyan Pasupathi if (ret < 0) 532e7d23d0eSVijay Khemka { 533e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 53498aabdb1SKarthikeyan Pasupathi "Failed to connect to system bus", 53598aabdb1SKarthikeyan Pasupathi phosphor::logging::entry("ERRNO=0x%X", -ret)); 53698aabdb1SKarthikeyan Pasupathi sd_bus_unref(bus); 537e7d23d0eSVijay Khemka return -1; 538e7d23d0eSVijay Khemka } 539cd315e07SPatrick Williams sdbusplus::bus_t dbus(bus); 54098aabdb1SKarthikeyan Pasupathi auto mapperCall = dbus.new_method_call("xyz.openbmc_project.ObjectMapper", 54198aabdb1SKarthikeyan Pasupathi "/xyz/openbmc_project/object_mapper", 54298aabdb1SKarthikeyan Pasupathi "xyz.openbmc_project.ObjectMapper", 54398aabdb1SKarthikeyan Pasupathi "GetSubTreePaths"); 54498aabdb1SKarthikeyan Pasupathi static constexpr std::array<const char*, 1> interface = { 54598aabdb1SKarthikeyan Pasupathi "xyz.openbmc_project.Inventory.Decorator.Asset"}; 54698aabdb1SKarthikeyan Pasupathi mapperCall.append("/xyz/openbmc_project/inventory/", depth, interface); 547e7d23d0eSVijay Khemka 548e7d23d0eSVijay Khemka try 549e7d23d0eSVijay Khemka { 55098aabdb1SKarthikeyan Pasupathi auto reply = dbus.call(mapperCall); 55198aabdb1SKarthikeyan Pasupathi reply.read(paths); 552e7d23d0eSVijay Khemka } 55398aabdb1SKarthikeyan Pasupathi catch (sdbusplus::exception_t& e) 554e7d23d0eSVijay Khemka { 555e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>(e.what()); 556e7d23d0eSVijay Khemka return -1; 557e7d23d0eSVijay Khemka } 55898aabdb1SKarthikeyan Pasupathi 55998aabdb1SKarthikeyan Pasupathi for (const auto& path : paths) 56098aabdb1SKarthikeyan Pasupathi { 56198aabdb1SKarthikeyan Pasupathi if (platform == true) 56298aabdb1SKarthikeyan Pasupathi { 56398aabdb1SKarthikeyan Pasupathi if (pos == BMC_POS) 56498aabdb1SKarthikeyan Pasupathi { 56598aabdb1SKarthikeyan Pasupathi machinePath = baseBoard; 56698aabdb1SKarthikeyan Pasupathi } 56798aabdb1SKarthikeyan Pasupathi else 56898aabdb1SKarthikeyan Pasupathi { 56998aabdb1SKarthikeyan Pasupathi machinePath = "_" + std::to_string(pos); 57098aabdb1SKarthikeyan Pasupathi } 57198aabdb1SKarthikeyan Pasupathi } 57298aabdb1SKarthikeyan Pasupathi else 57398aabdb1SKarthikeyan Pasupathi { 57498aabdb1SKarthikeyan Pasupathi machinePath = baseBoard; 57598aabdb1SKarthikeyan Pasupathi } 57698aabdb1SKarthikeyan Pasupathi 57798aabdb1SKarthikeyan Pasupathi auto found = path.find(machinePath); 578123cbcc4SPatrick Williams if (found == std::string::npos) 57998aabdb1SKarthikeyan Pasupathi { 58098aabdb1SKarthikeyan Pasupathi continue; 58198aabdb1SKarthikeyan Pasupathi } 58298aabdb1SKarthikeyan Pasupathi 58398aabdb1SKarthikeyan Pasupathi std::shared_ptr<sdbusplus::asio::connection> dbus = getSdBus(); 58498aabdb1SKarthikeyan Pasupathi std::string service = getService( 58598aabdb1SKarthikeyan Pasupathi *dbus, "xyz.openbmc_project.Inventory.Decorator.Asset", path); 58698aabdb1SKarthikeyan Pasupathi 58798aabdb1SKarthikeyan Pasupathi auto Value = ipmi::getDbusProperty( 58898aabdb1SKarthikeyan Pasupathi *dbus, service, path, 58998aabdb1SKarthikeyan Pasupathi "xyz.openbmc_project.Inventory.Decorator.Asset", name); 59098aabdb1SKarthikeyan Pasupathi 59198aabdb1SKarthikeyan Pasupathi data = std::get<std::string>(Value); 59298aabdb1SKarthikeyan Pasupathi return 0; 593e7d23d0eSVijay Khemka } 594e7d23d0eSVijay Khemka return -1; 595e7d23d0eSVijay Khemka } 596e7d23d0eSVijay Khemka 59710ff3d86SKarthikeyan Pasupathi int8_t sysConfig(std::vector<std::string>& data, size_t pos) 59810ff3d86SKarthikeyan Pasupathi { 59910ff3d86SKarthikeyan Pasupathi nlohmann::json sysObj; 60010ff3d86SKarthikeyan Pasupathi std::string dimmInfo = KEY_Q_DIMM_INFO + std::to_string(pos); 60110ff3d86SKarthikeyan Pasupathi std::string result, typeName; 60210ff3d86SKarthikeyan Pasupathi uint8_t res[MAX_BUF]; 60310ff3d86SKarthikeyan Pasupathi 60410ff3d86SKarthikeyan Pasupathi /* Get sysConfig data stored in json file */ 60510ff3d86SKarthikeyan Pasupathi std::ifstream file(JSON_OEM_DATA_FILE); 60610ff3d86SKarthikeyan Pasupathi if (file) 60710ff3d86SKarthikeyan Pasupathi { 60810ff3d86SKarthikeyan Pasupathi file >> sysObj; 60910ff3d86SKarthikeyan Pasupathi file.close(); 61010ff3d86SKarthikeyan Pasupathi } 61110ff3d86SKarthikeyan Pasupathi else 61210ff3d86SKarthikeyan Pasupathi { 61310ff3d86SKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 61410ff3d86SKarthikeyan Pasupathi "oemData file not found", 61510ff3d86SKarthikeyan Pasupathi phosphor::logging::entry("OEM_DATA_FILE=%s", JSON_OEM_DATA_FILE)); 61610ff3d86SKarthikeyan Pasupathi return -1; 61710ff3d86SKarthikeyan Pasupathi } 61810ff3d86SKarthikeyan Pasupathi 61910ff3d86SKarthikeyan Pasupathi if (sysObj.find(dimmInfo) == sysObj.end()) 62010ff3d86SKarthikeyan Pasupathi { 62110ff3d86SKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 62210ff3d86SKarthikeyan Pasupathi "sysconfig key not available", 62310ff3d86SKarthikeyan Pasupathi phosphor::logging::entry("SYS_JSON_KEY=%s", dimmInfo.c_str())); 62410ff3d86SKarthikeyan Pasupathi return -1; 62510ff3d86SKarthikeyan Pasupathi } 62610ff3d86SKarthikeyan Pasupathi /* Get dimm type names stored in json file */ 62710ff3d86SKarthikeyan Pasupathi nlohmann::json dimmObj; 62810ff3d86SKarthikeyan Pasupathi std::ifstream dimmFile(JSON_DIMM_TYPE_FILE); 62910ff3d86SKarthikeyan Pasupathi if (file) 63010ff3d86SKarthikeyan Pasupathi { 63110ff3d86SKarthikeyan Pasupathi dimmFile >> dimmObj; 63210ff3d86SKarthikeyan Pasupathi dimmFile.close(); 63310ff3d86SKarthikeyan Pasupathi } 63410ff3d86SKarthikeyan Pasupathi else 63510ff3d86SKarthikeyan Pasupathi { 63610ff3d86SKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 63710ff3d86SKarthikeyan Pasupathi "DIMM type names file not found", 63810ff3d86SKarthikeyan Pasupathi phosphor::logging::entry("DIMM_TYPE_FILE=%s", JSON_DIMM_TYPE_FILE)); 63910ff3d86SKarthikeyan Pasupathi return -1; 64010ff3d86SKarthikeyan Pasupathi } 64110ff3d86SKarthikeyan Pasupathi std::vector<std::string> a; 64210ff3d86SKarthikeyan Pasupathi for (auto& j : dimmObj.items()) 64310ff3d86SKarthikeyan Pasupathi { 64410ff3d86SKarthikeyan Pasupathi std::string name = j.key(); 64510ff3d86SKarthikeyan Pasupathi a.push_back(name); 64610ff3d86SKarthikeyan Pasupathi } 64710ff3d86SKarthikeyan Pasupathi 64810ff3d86SKarthikeyan Pasupathi uint8_t len = a.size(); 64910ff3d86SKarthikeyan Pasupathi for (uint8_t ii = 0; ii < len; ii++) 65010ff3d86SKarthikeyan Pasupathi { 65110ff3d86SKarthikeyan Pasupathi std::string indKey = std::to_string(ii); 65210ff3d86SKarthikeyan Pasupathi std::string speedSize = sysObj[dimmInfo][indKey][DIMM_SPEED]; 65310ff3d86SKarthikeyan Pasupathi strToBytes(speedSize, res); 65410ff3d86SKarthikeyan Pasupathi auto speed = (res[1] << 8 | res[0]); 65510ff3d86SKarthikeyan Pasupathi size_t dimmSize = ((res[3] << 8 | res[2]) / 1000); 65610ff3d86SKarthikeyan Pasupathi 65710ff3d86SKarthikeyan Pasupathi if (dimmSize == 0) 65810ff3d86SKarthikeyan Pasupathi { 65910ff3d86SKarthikeyan Pasupathi std::cerr << "Dimm information not available for slot_" + 66010ff3d86SKarthikeyan Pasupathi std::to_string(ii) 66110ff3d86SKarthikeyan Pasupathi << std::endl; 66210ff3d86SKarthikeyan Pasupathi continue; 66310ff3d86SKarthikeyan Pasupathi } 66410ff3d86SKarthikeyan Pasupathi std::string type = sysObj[dimmInfo][indKey][DIMM_TYPE]; 66510ff3d86SKarthikeyan Pasupathi std::string dualInlineMem = sysObj[dimmInfo][indKey][KEY_DIMM_TYPE]; 66610ff3d86SKarthikeyan Pasupathi strToBytes(type, res); 66710ff3d86SKarthikeyan Pasupathi size_t dimmType = res[0]; 66810ff3d86SKarthikeyan Pasupathi if (dimmVenMap.find(dimmType) == dimmVenMap.end()) 66910ff3d86SKarthikeyan Pasupathi { 67010ff3d86SKarthikeyan Pasupathi typeName = "unknown"; 67110ff3d86SKarthikeyan Pasupathi } 67210ff3d86SKarthikeyan Pasupathi else 67310ff3d86SKarthikeyan Pasupathi { 67410ff3d86SKarthikeyan Pasupathi typeName = dimmVenMap[dimmType]; 67510ff3d86SKarthikeyan Pasupathi } 67610ff3d86SKarthikeyan Pasupathi result = dualInlineMem + "/" + typeName + "/" + std::to_string(speed) + 67710ff3d86SKarthikeyan Pasupathi "MHz" + "/" + std::to_string(dimmSize) + "GB"; 67810ff3d86SKarthikeyan Pasupathi data.push_back(result); 67910ff3d86SKarthikeyan Pasupathi } 68010ff3d86SKarthikeyan Pasupathi return 0; 68110ff3d86SKarthikeyan Pasupathi } 68210ff3d86SKarthikeyan Pasupathi 683d532fecaSKarthikeyan Pasupathi int8_t procInfo(std::string& result, size_t pos) 684d532fecaSKarthikeyan Pasupathi { 685d532fecaSKarthikeyan Pasupathi std::vector<char> data; 686d532fecaSKarthikeyan Pasupathi uint8_t res[MAX_BUF]; 687d532fecaSKarthikeyan Pasupathi std::string procIndex = "00"; 688d532fecaSKarthikeyan Pasupathi nlohmann::json proObj; 689d532fecaSKarthikeyan Pasupathi std::string procInfo = KEY_Q_PROC_INFO + std::to_string(pos); 690d532fecaSKarthikeyan Pasupathi /* Get processor data stored in json file */ 691d532fecaSKarthikeyan Pasupathi std::ifstream file(JSON_OEM_DATA_FILE); 692d532fecaSKarthikeyan Pasupathi if (file) 693d532fecaSKarthikeyan Pasupathi { 694d532fecaSKarthikeyan Pasupathi file >> proObj; 695d532fecaSKarthikeyan Pasupathi file.close(); 696d532fecaSKarthikeyan Pasupathi } 697d532fecaSKarthikeyan Pasupathi else 698d532fecaSKarthikeyan Pasupathi { 699d532fecaSKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 700d532fecaSKarthikeyan Pasupathi "oemData file not found", 701d532fecaSKarthikeyan Pasupathi phosphor::logging::entry("OEM_DATA_FILE=%s", JSON_OEM_DATA_FILE)); 702d532fecaSKarthikeyan Pasupathi return -1; 703d532fecaSKarthikeyan Pasupathi } 704d532fecaSKarthikeyan Pasupathi if (proObj.find(procInfo) == proObj.end()) 705d532fecaSKarthikeyan Pasupathi { 706d532fecaSKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 707d532fecaSKarthikeyan Pasupathi "processor info key not available", 708d532fecaSKarthikeyan Pasupathi phosphor::logging::entry("PROC_JSON_KEY=%s", procInfo.c_str())); 709d532fecaSKarthikeyan Pasupathi return -1; 710d532fecaSKarthikeyan Pasupathi } 711d532fecaSKarthikeyan Pasupathi std::string procName = proObj[procInfo][procIndex][KEY_PROC_NAME]; 712d532fecaSKarthikeyan Pasupathi std::string basicInfo = proObj[procInfo][procIndex][KEY_BASIC_INFO]; 713d532fecaSKarthikeyan Pasupathi // Processor Product Name 714d532fecaSKarthikeyan Pasupathi strToBytes(procName, res); 715d532fecaSKarthikeyan Pasupathi data.assign(reinterpret_cast<char*>(&res), 716d532fecaSKarthikeyan Pasupathi reinterpret_cast<char*>(&res) + sizeof(res)); 717d532fecaSKarthikeyan Pasupathi 718d532fecaSKarthikeyan Pasupathi std::string s(data.begin(), data.end()); 719d532fecaSKarthikeyan Pasupathi std::regex regex(" "); 720d532fecaSKarthikeyan Pasupathi std::vector<std::string> productName( 721d532fecaSKarthikeyan Pasupathi std::sregex_token_iterator(s.begin(), s.end(), regex, -1), 722d532fecaSKarthikeyan Pasupathi std::sregex_token_iterator()); 723d532fecaSKarthikeyan Pasupathi 724d532fecaSKarthikeyan Pasupathi // Processor core and frequency 725d532fecaSKarthikeyan Pasupathi strToBytes(basicInfo, res); 726d532fecaSKarthikeyan Pasupathi uint16_t coreNum = res[0]; 727d532fecaSKarthikeyan Pasupathi double procFrequency = (float)(res[4] << 8 | res[3]) / 1000; 728d532fecaSKarthikeyan Pasupathi result = "CPU:" + productName[2] + "/" + std::to_string(procFrequency) + 729d532fecaSKarthikeyan Pasupathi "GHz" + "/" + std::to_string(coreNum) + "c"; 730d532fecaSKarthikeyan Pasupathi return 0; 731d532fecaSKarthikeyan Pasupathi } 732d532fecaSKarthikeyan Pasupathi 733e7d23d0eSVijay Khemka typedef struct 734e7d23d0eSVijay Khemka { 735e7d23d0eSVijay Khemka uint8_t cur_power_state; 736e7d23d0eSVijay Khemka uint8_t last_power_event; 737e7d23d0eSVijay Khemka uint8_t misc_power_state; 738e7d23d0eSVijay Khemka uint8_t front_panel_button_cap_status; 739e7d23d0eSVijay Khemka } ipmi_get_chassis_status_t; 740e7d23d0eSVijay Khemka 741e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 742e7d23d0eSVijay Khemka // Get Debug Frame Info 743e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 744e39f9393SWilly Tu ipmi_ret_t ipmiOemDbgGetFrameInfo(ipmi_netfn_t, ipmi_cmd_t, 745e7d23d0eSVijay Khemka ipmi_request_t request, 746e7d23d0eSVijay Khemka ipmi_response_t response, 747e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 748e7d23d0eSVijay Khemka { 749e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 750e7d23d0eSVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 751e7d23d0eSVijay Khemka uint8_t num_frames = 3; 752e7d23d0eSVijay Khemka 753e7d23d0eSVijay Khemka std::memcpy(res, req, SIZE_IANA_ID); // IANA ID 754e7d23d0eSVijay Khemka res[SIZE_IANA_ID] = num_frames; 755e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + 1; 756e7d23d0eSVijay Khemka 757e7d23d0eSVijay Khemka return IPMI_CC_OK; 758e7d23d0eSVijay Khemka } 759e7d23d0eSVijay Khemka 760e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 761e7d23d0eSVijay Khemka // Get Debug Updated Frames 762e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 763e39f9393SWilly Tu ipmi_ret_t ipmiOemDbgGetUpdFrames(ipmi_netfn_t, ipmi_cmd_t, 764e7d23d0eSVijay Khemka ipmi_request_t request, 765e7d23d0eSVijay Khemka ipmi_response_t response, 766e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 767e7d23d0eSVijay Khemka { 768e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 769e7d23d0eSVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 770e7d23d0eSVijay Khemka uint8_t num_updates = 3; 771e7d23d0eSVijay Khemka *data_len = 4; 772e7d23d0eSVijay Khemka 773e7d23d0eSVijay Khemka std::memcpy(res, req, SIZE_IANA_ID); // IANA ID 774e7d23d0eSVijay Khemka res[SIZE_IANA_ID] = num_updates; 775e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + num_updates + 1; 776e7d23d0eSVijay Khemka res[SIZE_IANA_ID + 1] = 1; // info page update 777e7d23d0eSVijay Khemka res[SIZE_IANA_ID + 2] = 2; // cri sel update 778e7d23d0eSVijay Khemka res[SIZE_IANA_ID + 3] = 3; // cri sensor update 779e7d23d0eSVijay Khemka 780e7d23d0eSVijay Khemka return IPMI_CC_OK; 781e7d23d0eSVijay Khemka } 782e7d23d0eSVijay Khemka 783e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 784e7d23d0eSVijay Khemka // Get Debug POST Description 785e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 786e39f9393SWilly Tu ipmi_ret_t ipmiOemDbgGetPostDesc(ipmi_netfn_t, ipmi_cmd_t, 787e7d23d0eSVijay Khemka ipmi_request_t request, 788e7d23d0eSVijay Khemka ipmi_response_t response, 789e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 790e7d23d0eSVijay Khemka { 791e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 792e7d23d0eSVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 793e7d23d0eSVijay Khemka uint8_t index = 0; 794e7d23d0eSVijay Khemka uint8_t next = 0; 795e7d23d0eSVijay Khemka uint8_t end = 0; 796e7d23d0eSVijay Khemka uint8_t phase = 0; 797cc0d6d92SVijay Khemka uint8_t descLen = 0; 798e7d23d0eSVijay Khemka int ret; 799e7d23d0eSVijay Khemka 800e7d23d0eSVijay Khemka index = req[3]; 801e7d23d0eSVijay Khemka phase = req[4]; 802e7d23d0eSVijay Khemka 803cc0d6d92SVijay Khemka ret = plat_udbg_get_post_desc(index, &next, phase, &end, &descLen, &res[8]); 804e7d23d0eSVijay Khemka if (ret) 805e7d23d0eSVijay Khemka { 806e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 807e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID; 808e7d23d0eSVijay Khemka return IPMI_CC_UNSPECIFIED_ERROR; 809e7d23d0eSVijay Khemka } 810e7d23d0eSVijay Khemka 811e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 812e7d23d0eSVijay Khemka res[3] = index; 813e7d23d0eSVijay Khemka res[4] = next; 814e7d23d0eSVijay Khemka res[5] = phase; 815e7d23d0eSVijay Khemka res[6] = end; 816cc0d6d92SVijay Khemka res[7] = descLen; 817cc0d6d92SVijay Khemka *data_len = SIZE_IANA_ID + 5 + descLen; 818e7d23d0eSVijay Khemka 819e7d23d0eSVijay Khemka return IPMI_CC_OK; 820e7d23d0eSVijay Khemka } 821e7d23d0eSVijay Khemka 822e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 823e7d23d0eSVijay Khemka // Get Debug GPIO Description 824e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 825e39f9393SWilly Tu ipmi_ret_t ipmiOemDbgGetGpioDesc(ipmi_netfn_t, ipmi_cmd_t, 826e7d23d0eSVijay Khemka ipmi_request_t request, 827e7d23d0eSVijay Khemka ipmi_response_t response, 828e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 829e7d23d0eSVijay Khemka { 830e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 831e7d23d0eSVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 832e7d23d0eSVijay Khemka 83338183d66SVijay Khemka uint8_t index = 0; 83438183d66SVijay Khemka uint8_t next = 0; 83538183d66SVijay Khemka uint8_t level = 0; 83638183d66SVijay Khemka uint8_t pinDef = 0; 83738183d66SVijay Khemka uint8_t descLen = 0; 83838183d66SVijay Khemka int ret; 839e7d23d0eSVijay Khemka 84038183d66SVijay Khemka index = req[3]; 84138183d66SVijay Khemka 84238183d66SVijay Khemka ret = plat_udbg_get_gpio_desc(index, &next, &level, &pinDef, &descLen, 84338183d66SVijay Khemka &res[8]); 84438183d66SVijay Khemka if (ret) 84538183d66SVijay Khemka { 84638183d66SVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 84738183d66SVijay Khemka *data_len = SIZE_IANA_ID; 84838183d66SVijay Khemka return IPMI_CC_UNSPECIFIED_ERROR; 84938183d66SVijay Khemka } 85038183d66SVijay Khemka 85138183d66SVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 85238183d66SVijay Khemka res[3] = index; 85338183d66SVijay Khemka res[4] = next; 85438183d66SVijay Khemka res[5] = level; 85538183d66SVijay Khemka res[6] = pinDef; 85638183d66SVijay Khemka res[7] = descLen; 85738183d66SVijay Khemka *data_len = SIZE_IANA_ID + 5 + descLen; 858e7d23d0eSVijay Khemka 859e7d23d0eSVijay Khemka return IPMI_CC_OK; 860e7d23d0eSVijay Khemka } 861e7d23d0eSVijay Khemka 862e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 863e7d23d0eSVijay Khemka // Get Debug Frame Data 864e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 865e39f9393SWilly Tu ipmi_ret_t ipmiOemDbgGetFrameData(ipmi_netfn_t, ipmi_cmd_t, 866e7d23d0eSVijay Khemka ipmi_request_t request, 867e7d23d0eSVijay Khemka ipmi_response_t response, 868e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 869e7d23d0eSVijay Khemka { 870e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 871e7d23d0eSVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 872e7d23d0eSVijay Khemka uint8_t frame; 873e7d23d0eSVijay Khemka uint8_t page; 874e7d23d0eSVijay Khemka uint8_t next; 875e7d23d0eSVijay Khemka uint8_t count; 876e7d23d0eSVijay Khemka int ret; 877e7d23d0eSVijay Khemka 878e7d23d0eSVijay Khemka frame = req[3]; 879e7d23d0eSVijay Khemka page = req[4]; 880e7d23d0eSVijay Khemka 881e7d23d0eSVijay Khemka ret = plat_udbg_get_frame_data(frame, page, &next, &count, &res[7]); 882e7d23d0eSVijay Khemka if (ret) 883e7d23d0eSVijay Khemka { 884e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 885e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID; 886e7d23d0eSVijay Khemka return IPMI_CC_UNSPECIFIED_ERROR; 887e7d23d0eSVijay Khemka } 888e7d23d0eSVijay Khemka 889e7d23d0eSVijay Khemka memcpy(res, req, SIZE_IANA_ID); // IANA ID 890e7d23d0eSVijay Khemka res[3] = frame; 891e7d23d0eSVijay Khemka res[4] = page; 892e7d23d0eSVijay Khemka res[5] = next; 893e7d23d0eSVijay Khemka res[6] = count; 894e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + 4 + count; 895e7d23d0eSVijay Khemka 896e7d23d0eSVijay Khemka return IPMI_CC_OK; 897e7d23d0eSVijay Khemka } 898e7d23d0eSVijay Khemka 899e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 900e7d23d0eSVijay Khemka // Get Debug Control Panel 901e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 902e39f9393SWilly Tu ipmi_ret_t ipmiOemDbgGetCtrlPanel(ipmi_netfn_t, ipmi_cmd_t, 903e7d23d0eSVijay Khemka ipmi_request_t request, 904e7d23d0eSVijay Khemka ipmi_response_t response, 905e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 906e7d23d0eSVijay Khemka { 907e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 908e7d23d0eSVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 909e7d23d0eSVijay Khemka 910e7d23d0eSVijay Khemka uint8_t panel; 911e7d23d0eSVijay Khemka uint8_t operation; 912e7d23d0eSVijay Khemka uint8_t item; 913e7d23d0eSVijay Khemka uint8_t count; 914e7d23d0eSVijay Khemka ipmi_ret_t ret; 915e7d23d0eSVijay Khemka 916e7d23d0eSVijay Khemka panel = req[3]; 917e7d23d0eSVijay Khemka operation = req[4]; 918e7d23d0eSVijay Khemka item = req[5]; 919e7d23d0eSVijay Khemka 920e7d23d0eSVijay Khemka ret = plat_udbg_control_panel(panel, operation, item, &count, &res[3]); 921e7d23d0eSVijay Khemka 922e7d23d0eSVijay Khemka std::memcpy(res, req, SIZE_IANA_ID); // IANA ID 923e7d23d0eSVijay Khemka *data_len = SIZE_IANA_ID + count; 924e7d23d0eSVijay Khemka 925e7d23d0eSVijay Khemka return ret; 926e7d23d0eSVijay Khemka } 927e7d23d0eSVijay Khemka 928e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 929e7d23d0eSVijay Khemka // Set Dimm Info (CMD_OEM_SET_DIMM_INFO) 930e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 931e39f9393SWilly Tu ipmi_ret_t ipmiOemSetDimmInfo(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t request, 932e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 933e39f9393SWilly Tu ipmi_context_t) 934e7d23d0eSVijay Khemka { 935e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 9361d4a0697SVijay Khemka 9371d4a0697SVijay Khemka uint8_t index = req[0]; 9381d4a0697SVijay Khemka uint8_t type = req[1]; 9391d4a0697SVijay Khemka uint16_t speed; 9401d4a0697SVijay Khemka uint32_t size; 9411d4a0697SVijay Khemka 9421d4a0697SVijay Khemka memcpy(&speed, &req[2], 2); 9431d4a0697SVijay Khemka memcpy(&size, &req[4], 4); 9441d4a0697SVijay Khemka 9451d4a0697SVijay Khemka std::stringstream ss; 9461d4a0697SVijay Khemka ss << std::hex; 9471d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)index; 9481d4a0697SVijay Khemka 9491d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_INDEX] = index; 9501d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_TYPE] = type; 9511d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_SPEED] = speed; 9521d4a0697SVijay Khemka oemData[KEY_SYS_CONFIG][ss.str()][KEY_DIMM_SIZE] = size; 9531d4a0697SVijay Khemka 9541d4a0697SVijay Khemka flushOemData(); 9551d4a0697SVijay Khemka 9561d4a0697SVijay Khemka *data_len = 0; 9571d4a0697SVijay Khemka 9581d4a0697SVijay Khemka return IPMI_CC_OK; 9591d4a0697SVijay Khemka } 9601d4a0697SVijay Khemka 9611d4a0697SVijay Khemka //---------------------------------------------------------------------- 9621d4a0697SVijay Khemka // Get Board ID (CMD_OEM_GET_BOARD_ID) 9631d4a0697SVijay Khemka //---------------------------------------------------------------------- 964e39f9393SWilly Tu ipmi_ret_t ipmiOemGetBoardID(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t, 965e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 966e39f9393SWilly Tu ipmi_context_t) 9671d4a0697SVijay Khemka { 9681d4a0697SVijay Khemka /* TODO: Needs to implement this after GPIO implementation */ 969e7d23d0eSVijay Khemka *data_len = 0; 970e7d23d0eSVijay Khemka 971e7d23d0eSVijay Khemka return IPMI_CC_OK; 972e7d23d0eSVijay Khemka } 973e7d23d0eSVijay Khemka 9744ae63e71SBonnie Lo //---------------------------------------------------------------------- 9754ae63e71SBonnie Lo // Get port 80 record (CMD_OEM_GET_80PORT_RECORD) 9764ae63e71SBonnie Lo //---------------------------------------------------------------------- 9774ae63e71SBonnie Lo ipmi::RspType<std::vector<uint8_t>> 9784ae63e71SBonnie Lo ipmiOemGet80PortRecord(ipmi::Context::ptr ctx) 9794ae63e71SBonnie Lo { 9804ae63e71SBonnie Lo auto postCodeService = "xyz.openbmc_project.State.Boot.PostCode" + 9814ae63e71SBonnie Lo std::to_string(ctx->hostIdx + 1); 9824ae63e71SBonnie Lo auto postCodeObjPath = "/xyz/openbmc_project/State/Boot/PostCode" + 9834ae63e71SBonnie Lo std::to_string(ctx->hostIdx + 1); 9844ae63e71SBonnie Lo constexpr auto postCodeInterface = 9854ae63e71SBonnie Lo "xyz.openbmc_project.State.Boot.PostCode"; 9864ae63e71SBonnie Lo const static uint16_t lastestPostCodeIndex = 1; 9874ae63e71SBonnie Lo constexpr const auto maxPostCodeLen = 9884ae63e71SBonnie Lo 224; // The length must be lower than IPMB limitation 9894ae63e71SBonnie Lo size_t startIndex = 0; 9904ae63e71SBonnie Lo 9914ae63e71SBonnie Lo std::vector<std::tuple<uint64_t, std::vector<uint8_t>>> postCodes; 9924ae63e71SBonnie Lo std::vector<uint8_t> resData; 9934ae63e71SBonnie Lo 9944ae63e71SBonnie Lo auto conn = getSdBus(); 9954ae63e71SBonnie Lo /* Get the post codes by calling GetPostCodes method */ 9962405ae98SPatrick Williams auto msg = conn->new_method_call(postCodeService.c_str(), 9972405ae98SPatrick Williams postCodeObjPath.c_str(), postCodeInterface, 9982405ae98SPatrick Williams "GetPostCodes"); 9994ae63e71SBonnie Lo msg.append(lastestPostCodeIndex); 10004ae63e71SBonnie Lo 10014ae63e71SBonnie Lo try 10024ae63e71SBonnie Lo { 10034ae63e71SBonnie Lo auto reply = conn->call(msg); 10044ae63e71SBonnie Lo reply.read(postCodes); 10054ae63e71SBonnie Lo } 10064ae63e71SBonnie Lo catch (const sdbusplus::exception::SdBusError& e) 10074ae63e71SBonnie Lo { 10084ae63e71SBonnie Lo phosphor::logging::log<phosphor::logging::level::ERR>( 10094ae63e71SBonnie Lo "IPMI Get80PortRecord Failed in call method", 10104ae63e71SBonnie Lo phosphor::logging::entry("ERROR=%s", e.what())); 10114ae63e71SBonnie Lo return ipmi::responseUnspecifiedError(); 10124ae63e71SBonnie Lo } 10134ae63e71SBonnie Lo 10144ae63e71SBonnie Lo /* Get post code data */ 10154ae63e71SBonnie Lo for (size_t i = 0; i < postCodes.size(); ++i) 10164ae63e71SBonnie Lo { 10174ae63e71SBonnie Lo uint64_t primaryPostCode = std::get<uint64_t>(postCodes[i]); 10184ae63e71SBonnie Lo for (int j = postCodeSize - 1; j >= 0; --j) 10194ae63e71SBonnie Lo { 10204ae63e71SBonnie Lo uint8_t postCode = 10214ae63e71SBonnie Lo ((primaryPostCode >> (sizeof(uint64_t) * j)) & 0xFF); 10224ae63e71SBonnie Lo resData.emplace_back(postCode); 10234ae63e71SBonnie Lo } 10244ae63e71SBonnie Lo } 10254ae63e71SBonnie Lo 10264ae63e71SBonnie Lo std::vector<uint8_t> response; 10274ae63e71SBonnie Lo if (resData.size() > maxPostCodeLen) 10284ae63e71SBonnie Lo { 10294ae63e71SBonnie Lo startIndex = resData.size() - maxPostCodeLen; 10304ae63e71SBonnie Lo } 10314ae63e71SBonnie Lo 10324ae63e71SBonnie Lo response.assign(resData.begin() + startIndex, resData.end()); 10334ae63e71SBonnie Lo 10344ae63e71SBonnie Lo return ipmi::responseSuccess(response); 10354ae63e71SBonnie Lo } 10364ae63e71SBonnie Lo 1037e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 10381d4a0697SVijay Khemka // Set Boot Order (CMD_OEM_SET_BOOT_ORDER) 10391d4a0697SVijay Khemka //---------------------------------------------------------------------- 1040f0cf6658SJayashree-D ipmi::RspType<std::vector<uint8_t>> 10417bb4592aSDelphine CC Chiu ipmiOemSetBootOrder(ipmi::Context::ptr ctx, std::vector<uint8_t> bootSeq) 10421d4a0697SVijay Khemka { 10437bb4592aSDelphine CC Chiu size_t len = bootSeq.size(); 10441d4a0697SVijay Khemka 10451d4a0697SVijay Khemka if (len != SIZE_BOOT_ORDER) 10461d4a0697SVijay Khemka { 10471d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 10481d4a0697SVijay Khemka "Invalid Boot order length received"); 1049f0cf6658SJayashree-D return ipmi::responseReqDataLenInvalid(); 10501d4a0697SVijay Khemka } 10511d4a0697SVijay Khemka 10524ec80567SJayashree Dhanapal std::optional<size_t> hostId = findHost(ctx->hostIdx); 10531d4a0697SVijay Khemka 1054f0cf6658SJayashree-D if (!hostId) 1055f0cf6658SJayashree-D { 1056f0cf6658SJayashree-D phosphor::logging::log<phosphor::logging::level::ERR>( 1057f0cf6658SJayashree-D "Invalid Host Id received"); 1058f0cf6658SJayashree-D return ipmi::responseInvalidCommand(); 1059f0cf6658SJayashree-D } 1060f0cf6658SJayashree-D auto [bootObjPath, hostName] = ipmi::boot::objPath(*hostId); 1061f0cf6658SJayashree-D 10627bb4592aSDelphine CC Chiu ipmi::boot::setBootOrder(bootObjPath, bootSeq, hostName); 1063f0cf6658SJayashree-D 10647bb4592aSDelphine CC Chiu return ipmi::responseSuccess(bootSeq); 10651d4a0697SVijay Khemka } 10661d4a0697SVijay Khemka 10671d4a0697SVijay Khemka //---------------------------------------------------------------------- 1068e7d23d0eSVijay Khemka // Get Boot Order (CMD_OEM_GET_BOOT_ORDER) 1069e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 10707bb4592aSDelphine CC Chiu ipmi::RspType<std::vector<uint8_t>> ipmiOemGetBootOrder(ipmi::Context::ptr ctx) 1071e7d23d0eSVijay Khemka { 10727bb4592aSDelphine CC Chiu std::vector<uint8_t> bootSeq; 1073e7d23d0eSVijay Khemka 10744ec80567SJayashree Dhanapal std::optional<size_t> hostId = findHost(ctx->hostIdx); 10751d4a0697SVijay Khemka 1076f0cf6658SJayashree-D if (!hostId) 1077f0cf6658SJayashree-D { 1078f0cf6658SJayashree-D phosphor::logging::log<phosphor::logging::level::ERR>( 1079f0cf6658SJayashree-D "Invalid Host Id received"); 1080f0cf6658SJayashree-D return ipmi::responseInvalidCommand(); 1081f0cf6658SJayashree-D } 1082f0cf6658SJayashree-D auto [bootObjPath, hostName] = ipmi::boot::objPath(*hostId); 1083f0cf6658SJayashree-D 10847bb4592aSDelphine CC Chiu ipmi::boot::getBootOrder(bootObjPath, bootSeq, hostName); 1085f0cf6658SJayashree-D 10867bb4592aSDelphine CC Chiu return ipmi::responseSuccess(bootSeq); 1087e7d23d0eSVijay Khemka } 1088e7d23d0eSVijay Khemka // Set Machine Config Info (CMD_OEM_SET_MACHINE_CONFIG_INFO) 1089e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1090e39f9393SWilly Tu ipmi_ret_t ipmiOemSetMachineCfgInfo(ipmi_netfn_t, ipmi_cmd_t, 1091e39f9393SWilly Tu ipmi_request_t request, ipmi_response_t, 1092e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 1093e7d23d0eSVijay Khemka { 10941d4a0697SVijay Khemka machineConfigInfo_t* req = reinterpret_cast<machineConfigInfo_t*>(request); 10951d4a0697SVijay Khemka uint8_t len = *data_len; 1096e7d23d0eSVijay Khemka 1097e7d23d0eSVijay Khemka *data_len = 0; 1098e7d23d0eSVijay Khemka 10991d4a0697SVijay Khemka if (len < sizeof(machineConfigInfo_t)) 11001d4a0697SVijay Khemka { 11011d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 11021d4a0697SVijay Khemka "Invalid machine configuration length received"); 11031d4a0697SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 11041d4a0697SVijay Khemka } 11051d4a0697SVijay Khemka 11061d4a0697SVijay Khemka if (req->chassis_type >= sizeof(chassisType) / sizeof(uint8_t*)) 11071d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_CHAS_TYPE] = "UNKNOWN"; 11081d4a0697SVijay Khemka else 11091d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_CHAS_TYPE] = 11101d4a0697SVijay Khemka chassisType[req->chassis_type]; 11111d4a0697SVijay Khemka 11121d4a0697SVijay Khemka if (req->mb_type >= sizeof(mbType) / sizeof(uint8_t*)) 11131d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_MB_TYPE] = "UNKNOWN"; 11141d4a0697SVijay Khemka else 11151d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_MB_TYPE] = mbType[req->mb_type]; 11161d4a0697SVijay Khemka 11171d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PROC_CNT] = req->proc_cnt; 11181d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_MEM_CNT] = req->mem_cnt; 11191d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_HDD35_CNT] = req->hdd35_cnt; 11201d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_HDD25_CNT] = req->hdd25_cnt; 11211d4a0697SVijay Khemka 11221d4a0697SVijay Khemka if (req->riser_type >= sizeof(riserType) / sizeof(uint8_t*)) 11231d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_RSR_TYPE] = "UNKNOWN"; 11241d4a0697SVijay Khemka else 11251d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_RSR_TYPE] = riserType[req->riser_type]; 11261d4a0697SVijay Khemka 11271d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC] = {}; 11281d4a0697SVijay Khemka int i = 0; 11291d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_0) 11301d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT1"; 11311d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_1) 11321d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT2"; 11331d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_2) 11341d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT3"; 11351d4a0697SVijay Khemka if (req->pcie_card_loc & BIT_3) 11361d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_PCIE_LOC][i++] = "SLOT4"; 11371d4a0697SVijay Khemka 11381d4a0697SVijay Khemka if (req->slot1_pcie_type >= sizeof(pcieType) / sizeof(uint8_t*)) 11391d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT1_TYPE] = "UNKNOWN"; 11401d4a0697SVijay Khemka else 11411d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT1_TYPE] = 11421d4a0697SVijay Khemka pcieType[req->slot1_pcie_type]; 11431d4a0697SVijay Khemka 11441d4a0697SVijay Khemka if (req->slot2_pcie_type >= sizeof(pcieType) / sizeof(uint8_t*)) 11451d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT2_TYPE] = "UNKNOWN"; 11461d4a0697SVijay Khemka else 11471d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT2_TYPE] = 11481d4a0697SVijay Khemka pcieType[req->slot2_pcie_type]; 11491d4a0697SVijay Khemka 11501d4a0697SVijay Khemka if (req->slot3_pcie_type >= sizeof(pcieType) / sizeof(uint8_t*)) 11511d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT3_TYPE] = "UNKNOWN"; 11521d4a0697SVijay Khemka else 11531d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT3_TYPE] = 11541d4a0697SVijay Khemka pcieType[req->slot3_pcie_type]; 11551d4a0697SVijay Khemka 11561d4a0697SVijay Khemka if (req->slot4_pcie_type >= sizeof(pcieType) / sizeof(uint8_t*)) 11571d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT4_TYPE] = "UNKNOWN"; 11581d4a0697SVijay Khemka else 11591d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_SLOT4_TYPE] = 11601d4a0697SVijay Khemka pcieType[req->slot4_pcie_type]; 11611d4a0697SVijay Khemka 11621d4a0697SVijay Khemka oemData[KEY_MC_CONFIG][KEY_MC_AEP_CNT] = req->aep_mem_cnt; 11631d4a0697SVijay Khemka 11641d4a0697SVijay Khemka flushOemData(); 11651d4a0697SVijay Khemka 1166e7d23d0eSVijay Khemka return IPMI_CC_OK; 1167e7d23d0eSVijay Khemka } 1168e7d23d0eSVijay Khemka 1169e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1170e7d23d0eSVijay Khemka // Set POST start (CMD_OEM_SET_POST_START) 1171e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1172e39f9393SWilly Tu ipmi_ret_t ipmiOemSetPostStart(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t, 1173e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 1174e39f9393SWilly Tu ipmi_context_t) 1175e7d23d0eSVijay Khemka { 1176e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>("POST Start Event"); 1177e7d23d0eSVijay Khemka 11781d4a0697SVijay Khemka /* Do nothing, return success */ 1179e7d23d0eSVijay Khemka *data_len = 0; 1180e7d23d0eSVijay Khemka return IPMI_CC_OK; 1181e7d23d0eSVijay Khemka } 1182e7d23d0eSVijay Khemka 1183e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1184e7d23d0eSVijay Khemka // Set POST End (CMD_OEM_SET_POST_END) 1185e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1186e39f9393SWilly Tu ipmi_ret_t ipmiOemSetPostEnd(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t, 1187e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 1188e39f9393SWilly Tu ipmi_context_t) 1189e7d23d0eSVijay Khemka { 11901d4a0697SVijay Khemka struct timespec ts; 1191e7d23d0eSVijay Khemka 1192e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>("POST End Event"); 1193e7d23d0eSVijay Khemka 1194e7d23d0eSVijay Khemka *data_len = 0; 11951d4a0697SVijay Khemka 11961d4a0697SVijay Khemka // Timestamp post end time. 11971d4a0697SVijay Khemka clock_gettime(CLOCK_REALTIME, &ts); 11981d4a0697SVijay Khemka oemData[KEY_TS_SLED] = ts.tv_sec; 11991d4a0697SVijay Khemka flushOemData(); 12001d4a0697SVijay Khemka 12011d4a0697SVijay Khemka // Sync time with system 12021d4a0697SVijay Khemka // TODO: Add code for syncing time 12031d4a0697SVijay Khemka 12041d4a0697SVijay Khemka return IPMI_CC_OK; 12051d4a0697SVijay Khemka } 12061d4a0697SVijay Khemka 12071d4a0697SVijay Khemka //---------------------------------------------------------------------- 12081d4a0697SVijay Khemka // Set PPIN Info (CMD_OEM_SET_PPIN_INFO) 12091d4a0697SVijay Khemka //---------------------------------------------------------------------- 12101d4a0697SVijay Khemka // Inform BMC about PPIN data of 8 bytes for each CPU 12111d4a0697SVijay Khemka // 12121d4a0697SVijay Khemka // Request: 12131d4a0697SVijay Khemka // Byte 1:8 – CPU0 PPIN data 12141d4a0697SVijay Khemka // Optional: 12151d4a0697SVijay Khemka // Byte 9:16 – CPU1 PPIN data 12161d4a0697SVijay Khemka // 12171d4a0697SVijay Khemka // Response: 12181d4a0697SVijay Khemka // Byte 1 – Completion Code 1219e39f9393SWilly Tu ipmi_ret_t ipmiOemSetPPINInfo(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t request, 1220e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 1221e39f9393SWilly Tu ipmi_context_t) 12221d4a0697SVijay Khemka { 12231d4a0697SVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 12241d4a0697SVijay Khemka std::string ppinStr; 12251d4a0697SVijay Khemka int len; 12261d4a0697SVijay Khemka 12271d4a0697SVijay Khemka if (*data_len > SIZE_CPU_PPIN * 2) 12281d4a0697SVijay Khemka len = SIZE_CPU_PPIN * 2; 12291d4a0697SVijay Khemka else 12301d4a0697SVijay Khemka len = *data_len; 12311d4a0697SVijay Khemka *data_len = 0; 12321d4a0697SVijay Khemka 12331d4a0697SVijay Khemka ppinStr = bytesToStr(req, len); 12341d4a0697SVijay Khemka oemData[KEY_PPIN_INFO] = ppinStr.c_str(); 12351d4a0697SVijay Khemka flushOemData(); 12361d4a0697SVijay Khemka 12371d4a0697SVijay Khemka return IPMI_CC_OK; 12381d4a0697SVijay Khemka } 12391d4a0697SVijay Khemka 12401d4a0697SVijay Khemka //---------------------------------------------------------------------- 12411d4a0697SVijay Khemka // Set ADR Trigger (CMD_OEM_SET_ADR_TRIGGER) 12421d4a0697SVijay Khemka //---------------------------------------------------------------------- 1243e39f9393SWilly Tu ipmi_ret_t ipmiOemSetAdrTrigger(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t, 1244e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 1245e39f9393SWilly Tu ipmi_context_t) 12461d4a0697SVijay Khemka { 12471d4a0697SVijay Khemka /* Do nothing, return success */ 12481d4a0697SVijay Khemka *data_len = 0; 1249e7d23d0eSVijay Khemka return IPMI_CC_OK; 1250e7d23d0eSVijay Khemka } 1251e7d23d0eSVijay Khemka 1252f2246ce8SVijay Khemka // Helper function to set guid at offset in EEPROM 1253e39f9393SWilly Tu [[maybe_unused]] static int setGUID(off_t offset, uint8_t* guid) 1254f2246ce8SVijay Khemka { 1255f2246ce8SVijay Khemka int fd = -1; 1256f2246ce8SVijay Khemka ssize_t len; 1257f2246ce8SVijay Khemka int ret = 0; 1258*b2ae88b4Scchoux std::string eepromPath = FRU_EEPROM; 1259*b2ae88b4Scchoux 1260*b2ae88b4Scchoux // find the eeprom path of MB FRU 1261*b2ae88b4Scchoux auto device = getMbFruDevice(); 1262*b2ae88b4Scchoux if (device) 1263*b2ae88b4Scchoux { 1264*b2ae88b4Scchoux auto [bus, address] = *device; 1265*b2ae88b4Scchoux std::stringstream ss; 1266*b2ae88b4Scchoux ss << "/sys/bus/i2c/devices/" << static_cast<int>(bus) << "-" 1267*b2ae88b4Scchoux << std::setw(4) << std::setfill('0') << std::hex 1268*b2ae88b4Scchoux << static_cast<int>(address) << "/eeprom"; 1269*b2ae88b4Scchoux eepromPath = ss.str(); 1270*b2ae88b4Scchoux } 1271f2246ce8SVijay Khemka 1272f2246ce8SVijay Khemka errno = 0; 1273f2246ce8SVijay Khemka 1274f2246ce8SVijay Khemka // Check if file is present 1275*b2ae88b4Scchoux if (access(eepromPath.c_str(), F_OK) == -1) 1276f2246ce8SVijay Khemka { 1277*b2ae88b4Scchoux std::cerr << "Unable to access: " << eepromPath << std::endl; 1278f2246ce8SVijay Khemka return errno; 1279f2246ce8SVijay Khemka } 1280f2246ce8SVijay Khemka 1281f2246ce8SVijay Khemka // Open the file 1282*b2ae88b4Scchoux fd = open(eepromPath.c_str(), O_WRONLY); 1283f2246ce8SVijay Khemka if (fd == -1) 1284f2246ce8SVijay Khemka { 1285*b2ae88b4Scchoux std::cerr << "Unable to open: " << eepromPath << std::endl; 1286f2246ce8SVijay Khemka return errno; 1287f2246ce8SVijay Khemka } 1288f2246ce8SVijay Khemka 1289f2246ce8SVijay Khemka // seek to the offset 1290f2246ce8SVijay Khemka lseek(fd, offset, SEEK_SET); 1291f2246ce8SVijay Khemka 1292f2246ce8SVijay Khemka // Write bytes to location 1293f2246ce8SVijay Khemka len = write(fd, guid, GUID_SIZE); 1294f2246ce8SVijay Khemka if (len != GUID_SIZE) 1295f2246ce8SVijay Khemka { 1296f2246ce8SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 1297f2246ce8SVijay Khemka "GUID write data to EEPROM failed"); 1298f2246ce8SVijay Khemka ret = errno; 1299f2246ce8SVijay Khemka } 1300f2246ce8SVijay Khemka 1301f2246ce8SVijay Khemka close(fd); 1302f2246ce8SVijay Khemka return ret; 1303f2246ce8SVijay Khemka } 1304f2246ce8SVijay Khemka 1305f2246ce8SVijay Khemka //---------------------------------------------------------------------- 1306f2246ce8SVijay Khemka // Set System GUID (CMD_OEM_SET_SYSTEM_GUID) 1307f2246ce8SVijay Khemka //---------------------------------------------------------------------- 13085f8e3435SManikandan Elumalai #if BIC_ENABLED 13093f671273SBonnie Lo ipmi::RspType<> ipmiOemSetSystemGuid(ipmi::Context::ptr ctx, 13105f8e3435SManikandan Elumalai std::vector<uint8_t> reqData) 13115f8e3435SManikandan Elumalai { 13125f8e3435SManikandan Elumalai std::vector<uint8_t> respData; 13135f8e3435SManikandan Elumalai 13145f8e3435SManikandan Elumalai if (reqData.size() != GUID_SIZE) // 16bytes 13155f8e3435SManikandan Elumalai { 13165f8e3435SManikandan Elumalai return ipmi::responseReqDataLenInvalid(); 13175f8e3435SManikandan Elumalai } 13185f8e3435SManikandan Elumalai 13195f8e3435SManikandan Elumalai uint8_t bicAddr = (uint8_t)ctx->hostIdx << 2; 13205f8e3435SManikandan Elumalai 13215f8e3435SManikandan Elumalai if (sendBicCmd(ctx->netFn, ctx->cmd, bicAddr, reqData, respData)) 13225f8e3435SManikandan Elumalai return ipmi::responseUnspecifiedError(); 13235f8e3435SManikandan Elumalai 13245f8e3435SManikandan Elumalai return ipmi::responseSuccess(); 13255f8e3435SManikandan Elumalai } 13265f8e3435SManikandan Elumalai 13275f8e3435SManikandan Elumalai #else 1328d5353caaSPotin Lai ipmi_ret_t ipmiOemSetSystemGuid(ipmi_netfn_t, ipmi_cmd_t, 1329d5353caaSPotin Lai ipmi_request_t request, ipmi_response_t, 1330d5353caaSPotin Lai ipmi_data_len_t data_len, ipmi_context_t) 1331f2246ce8SVijay Khemka { 1332f2246ce8SVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 1333f2246ce8SVijay Khemka 1334f2246ce8SVijay Khemka if (*data_len != GUID_SIZE) // 16bytes 1335f2246ce8SVijay Khemka { 1336f2246ce8SVijay Khemka *data_len = 0; 1337f2246ce8SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 1338f2246ce8SVijay Khemka } 1339f2246ce8SVijay Khemka 1340f2246ce8SVijay Khemka *data_len = 0; 1341f2246ce8SVijay Khemka 1342f2246ce8SVijay Khemka if (setGUID(OFFSET_SYS_GUID, req)) 1343f2246ce8SVijay Khemka { 1344f2246ce8SVijay Khemka return IPMI_CC_UNSPECIFIED_ERROR; 1345f2246ce8SVijay Khemka } 1346f2246ce8SVijay Khemka return IPMI_CC_OK; 1347f2246ce8SVijay Khemka } 13485f8e3435SManikandan Elumalai #endif 1349f2246ce8SVijay Khemka 1350e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1351e7d23d0eSVijay Khemka // Set Bios Flash Info (CMD_OEM_SET_BIOS_FLASH_INFO) 1352e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1353e39f9393SWilly Tu ipmi_ret_t ipmiOemSetBiosFlashInfo(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t, 1354e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 1355e39f9393SWilly Tu ipmi_context_t) 1356e7d23d0eSVijay Khemka { 13571d4a0697SVijay Khemka /* Do nothing, return success */ 1358e7d23d0eSVijay Khemka *data_len = 0; 1359e7d23d0eSVijay Khemka return IPMI_CC_OK; 1360e7d23d0eSVijay Khemka } 1361e7d23d0eSVijay Khemka 1362e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1363e7d23d0eSVijay Khemka // Set PPR (CMD_OEM_SET_PPR) 1364e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1365e39f9393SWilly Tu ipmi_ret_t ipmiOemSetPpr(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t request, 1366e39f9393SWilly Tu ipmi_response_t, ipmi_data_len_t data_len, 1367e39f9393SWilly Tu ipmi_context_t) 1368e7d23d0eSVijay Khemka { 1369e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 13701d4a0697SVijay Khemka uint8_t pprCnt, pprAct, pprIndex; 13711d4a0697SVijay Khemka uint8_t selParam = req[0]; 13721d4a0697SVijay Khemka uint8_t len = *data_len; 13731d4a0697SVijay Khemka std::stringstream ss; 13741d4a0697SVijay Khemka std::string str; 1375e7d23d0eSVijay Khemka 1376e7d23d0eSVijay Khemka *data_len = 0; 13771d4a0697SVijay Khemka 13781d4a0697SVijay Khemka switch (selParam) 13791d4a0697SVijay Khemka { 13801d4a0697SVijay Khemka case PPR_ACTION: 13811d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ROW_COUNT) == 13821d4a0697SVijay Khemka oemData[KEY_PPR].end()) 13831d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 13841d4a0697SVijay Khemka 13851d4a0697SVijay Khemka pprCnt = oemData[KEY_PPR][KEY_PPR_ROW_COUNT]; 13861d4a0697SVijay Khemka if (pprCnt == 0) 13871d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 13881d4a0697SVijay Khemka 13891d4a0697SVijay Khemka pprAct = req[1]; 13901d4a0697SVijay Khemka /* Check if ppr is enabled or disabled */ 13911d4a0697SVijay Khemka if (!(pprAct & 0x80)) 13921d4a0697SVijay Khemka pprAct = 0; 13931d4a0697SVijay Khemka 13941d4a0697SVijay Khemka oemData[KEY_PPR][KEY_PPR_ACTION] = pprAct; 13951d4a0697SVijay Khemka break; 13961d4a0697SVijay Khemka case PPR_ROW_COUNT: 13971d4a0697SVijay Khemka if (req[1] > 100) 13981d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 13991d4a0697SVijay Khemka 14001d4a0697SVijay Khemka oemData[KEY_PPR][KEY_PPR_ROW_COUNT] = req[1]; 14011d4a0697SVijay Khemka break; 14021d4a0697SVijay Khemka case PPR_ROW_ADDR: 14031d4a0697SVijay Khemka pprIndex = req[1]; 14041d4a0697SVijay Khemka if (pprIndex > 100) 14051d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 14061d4a0697SVijay Khemka 14071d4a0697SVijay Khemka if (len < PPR_ROW_ADDR_LEN + 1) 14081d4a0697SVijay Khemka { 14091d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 14101d4a0697SVijay Khemka "Invalid PPR Row Address length received"); 14111d4a0697SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 14121d4a0697SVijay Khemka } 14131d4a0697SVijay Khemka 14141d4a0697SVijay Khemka ss << std::hex; 14151d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 14161d4a0697SVijay Khemka 14171d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_INDEX] = pprIndex; 14181d4a0697SVijay Khemka 14191d4a0697SVijay Khemka str = bytesToStr(&req[1], PPR_ROW_ADDR_LEN); 14201d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_ROW_ADDR] = str.c_str(); 14211d4a0697SVijay Khemka break; 14221d4a0697SVijay Khemka case PPR_HISTORY_DATA: 14231d4a0697SVijay Khemka pprIndex = req[1]; 14241d4a0697SVijay Khemka if (pprIndex > 100) 14251d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 14261d4a0697SVijay Khemka 14271d4a0697SVijay Khemka if (len < PPR_HST_DATA_LEN + 1) 14281d4a0697SVijay Khemka { 14291d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 14301d4a0697SVijay Khemka "Invalid PPR history data length received"); 14311d4a0697SVijay Khemka return IPMI_CC_REQ_DATA_LEN_INVALID; 14321d4a0697SVijay Khemka } 14331d4a0697SVijay Khemka 14341d4a0697SVijay Khemka ss << std::hex; 14351d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 14361d4a0697SVijay Khemka 14371d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_INDEX] = pprIndex; 14381d4a0697SVijay Khemka 14391d4a0697SVijay Khemka str = bytesToStr(&req[1], PPR_HST_DATA_LEN); 14401d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()][KEY_PPR_HST_DATA] = str.c_str(); 14411d4a0697SVijay Khemka break; 14421d4a0697SVijay Khemka default: 14431d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 14441d4a0697SVijay Khemka break; 14451d4a0697SVijay Khemka } 14461d4a0697SVijay Khemka 14471d4a0697SVijay Khemka flushOemData(); 14481d4a0697SVijay Khemka 1449e7d23d0eSVijay Khemka return IPMI_CC_OK; 1450e7d23d0eSVijay Khemka } 1451e7d23d0eSVijay Khemka 1452e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1453e7d23d0eSVijay Khemka // Get PPR (CMD_OEM_GET_PPR) 1454e7d23d0eSVijay Khemka //---------------------------------------------------------------------- 1455e39f9393SWilly Tu ipmi_ret_t ipmiOemGetPpr(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t request, 1456e39f9393SWilly Tu ipmi_response_t response, ipmi_data_len_t data_len, 1457e39f9393SWilly Tu ipmi_context_t) 1458e7d23d0eSVijay Khemka { 1459e7d23d0eSVijay Khemka uint8_t* req = reinterpret_cast<uint8_t*>(request); 1460e7d23d0eSVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 14611d4a0697SVijay Khemka uint8_t pprCnt, pprIndex; 14621d4a0697SVijay Khemka uint8_t selParam = req[0]; 14631d4a0697SVijay Khemka std::stringstream ss; 14641d4a0697SVijay Khemka std::string str; 1465e7d23d0eSVijay Khemka 14661d4a0697SVijay Khemka /* Any failure will return zero length data */ 14671d4a0697SVijay Khemka *data_len = 0; 14681d4a0697SVijay Khemka 14691d4a0697SVijay Khemka switch (selParam) 14701d4a0697SVijay Khemka { 14711d4a0697SVijay Khemka case PPR_ACTION: 14721d4a0697SVijay Khemka res[0] = 0; 1473e7d23d0eSVijay Khemka *data_len = 1; 1474e7d23d0eSVijay Khemka 14751d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ROW_COUNT) != 14761d4a0697SVijay Khemka oemData[KEY_PPR].end()) 14771d4a0697SVijay Khemka { 14781d4a0697SVijay Khemka pprCnt = oemData[KEY_PPR][KEY_PPR_ROW_COUNT]; 14791d4a0697SVijay Khemka if (pprCnt != 0) 14801d4a0697SVijay Khemka { 14811d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ACTION) != 14821d4a0697SVijay Khemka oemData[KEY_PPR].end()) 14831d4a0697SVijay Khemka { 14841d4a0697SVijay Khemka res[0] = oemData[KEY_PPR][KEY_PPR_ACTION]; 14851d4a0697SVijay Khemka } 14861d4a0697SVijay Khemka } 14871d4a0697SVijay Khemka } 14881d4a0697SVijay Khemka break; 14891d4a0697SVijay Khemka case PPR_ROW_COUNT: 14901d4a0697SVijay Khemka res[0] = 0; 14911d4a0697SVijay Khemka *data_len = 1; 14921d4a0697SVijay Khemka if (oemData[KEY_PPR].find(KEY_PPR_ROW_COUNT) != 14931d4a0697SVijay Khemka oemData[KEY_PPR].end()) 14941d4a0697SVijay Khemka res[0] = oemData[KEY_PPR][KEY_PPR_ROW_COUNT]; 14951d4a0697SVijay Khemka break; 14961d4a0697SVijay Khemka case PPR_ROW_ADDR: 14971d4a0697SVijay Khemka pprIndex = req[1]; 14981d4a0697SVijay Khemka if (pprIndex > 100) 14991d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15001d4a0697SVijay Khemka 15011d4a0697SVijay Khemka ss << std::hex; 15021d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 15031d4a0697SVijay Khemka 15041d4a0697SVijay Khemka if (oemData[KEY_PPR].find(ss.str()) == oemData[KEY_PPR].end()) 15051d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15061d4a0697SVijay Khemka 15071d4a0697SVijay Khemka if (oemData[KEY_PPR][ss.str()].find(KEY_PPR_ROW_ADDR) == 15081d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()].end()) 15091d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15101d4a0697SVijay Khemka 15111d4a0697SVijay Khemka str = oemData[KEY_PPR][ss.str()][KEY_PPR_ROW_ADDR]; 15121d4a0697SVijay Khemka *data_len = strToBytes(str, res); 15131d4a0697SVijay Khemka break; 15141d4a0697SVijay Khemka case PPR_HISTORY_DATA: 15151d4a0697SVijay Khemka pprIndex = req[1]; 15161d4a0697SVijay Khemka if (pprIndex > 100) 15171d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15181d4a0697SVijay Khemka 15191d4a0697SVijay Khemka ss << std::hex; 15201d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)pprIndex; 15211d4a0697SVijay Khemka 15221d4a0697SVijay Khemka if (oemData[KEY_PPR].find(ss.str()) == oemData[KEY_PPR].end()) 15231d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15241d4a0697SVijay Khemka 15251d4a0697SVijay Khemka if (oemData[KEY_PPR][ss.str()].find(KEY_PPR_HST_DATA) == 15261d4a0697SVijay Khemka oemData[KEY_PPR][ss.str()].end()) 15271d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15281d4a0697SVijay Khemka 15291d4a0697SVijay Khemka str = oemData[KEY_PPR][ss.str()][KEY_PPR_HST_DATA]; 15301d4a0697SVijay Khemka *data_len = strToBytes(str, res); 15311d4a0697SVijay Khemka break; 15321d4a0697SVijay Khemka default: 15331d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 15341d4a0697SVijay Khemka break; 15351d4a0697SVijay Khemka } 15361d4a0697SVijay Khemka 15371d4a0697SVijay Khemka return IPMI_CC_OK; 15381d4a0697SVijay Khemka } 15391d4a0697SVijay Khemka 15401d4a0697SVijay Khemka /* FB OEM QC Commands */ 15411d4a0697SVijay Khemka 15421d4a0697SVijay Khemka //---------------------------------------------------------------------- 15431d4a0697SVijay Khemka // Set Proc Info (CMD_OEM_Q_SET_PROC_INFO) 15441d4a0697SVijay Khemka //---------------------------------------------------------------------- 15451d4a0697SVijay Khemka //"Request: 15461d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZ h, LSB first 15471d4a0697SVijay Khemka // Byte 4 – Processor Index, 0 base 15481d4a0697SVijay Khemka // Byte 5 – Parameter Selector 15491d4a0697SVijay Khemka // Byte 6..N – Configuration parameter data (see below for Parameters 15501d4a0697SVijay Khemka // of Processor Information) 15511d4a0697SVijay Khemka // Response: 15521d4a0697SVijay Khemka // Byte 1 – Completion code 15531d4a0697SVijay Khemka // 15541d4a0697SVijay Khemka // Parameter#1: (Processor Product Name) 15551d4a0697SVijay Khemka // 15561d4a0697SVijay Khemka // Byte 1..48 –Product name(ASCII code) 15571d4a0697SVijay Khemka // Ex. Intel(R) Xeon(R) CPU E5-2685 v3 @ 2.60GHz 15581d4a0697SVijay Khemka // 15591d4a0697SVijay Khemka // Param#2: Processor Basic Information 15601d4a0697SVijay Khemka // Byte 1 – Core Number 15611d4a0697SVijay Khemka // Byte 2 – Thread Number (LSB) 15621d4a0697SVijay Khemka // Byte 3 – Thread Number (MSB) 15631d4a0697SVijay Khemka // Byte 4 – Processor frequency in MHz (LSB) 15641d4a0697SVijay Khemka // Byte 5 – Processor frequency in MHz (MSB) 15651d4a0697SVijay Khemka // Byte 6..7 – Revision 15661d4a0697SVijay Khemka // 1567d532fecaSKarthikeyan Pasupathi 1568d532fecaSKarthikeyan Pasupathi ipmi::RspType<> ipmiOemQSetProcInfo(ipmi::Context::ptr ctx, uint8_t, uint8_t, 1569d532fecaSKarthikeyan Pasupathi uint8_t, uint8_t procIndex, 1570d532fecaSKarthikeyan Pasupathi uint8_t paramSel, 1571d532fecaSKarthikeyan Pasupathi std::vector<uint8_t> request) 15721d4a0697SVijay Khemka { 15731d4a0697SVijay Khemka uint8_t numParam = sizeof(cpuInfoKey) / sizeof(uint8_t*); 15741d4a0697SVijay Khemka std::stringstream ss; 15751d4a0697SVijay Khemka std::string str; 1576d532fecaSKarthikeyan Pasupathi uint8_t len = request.size(); 1577d532fecaSKarthikeyan Pasupathi auto hostId = findHost(ctx->hostIdx); 1578d532fecaSKarthikeyan Pasupathi if (!hostId) 1579d532fecaSKarthikeyan Pasupathi { 1580d532fecaSKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 1581d532fecaSKarthikeyan Pasupathi "Invalid Host Id received"); 1582d532fecaSKarthikeyan Pasupathi return ipmi::responseInvalidCommand(); 1583d532fecaSKarthikeyan Pasupathi } 1584d532fecaSKarthikeyan Pasupathi std::string procInfo = KEY_Q_PROC_INFO + std::to_string(*hostId); 15851d4a0697SVijay Khemka /* check for requested data params */ 1586d532fecaSKarthikeyan Pasupathi if (len < 5 || paramSel < 1 || paramSel >= numParam) 15871d4a0697SVijay Khemka { 15881d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 15891d4a0697SVijay Khemka "Invalid parameter received"); 1590d532fecaSKarthikeyan Pasupathi return ipmi::responseParmOutOfRange(); 15911d4a0697SVijay Khemka } 15921d4a0697SVijay Khemka ss << std::hex; 1593d532fecaSKarthikeyan Pasupathi ss << std::setw(2) << std::setfill('0') << (int)procIndex; 1594d532fecaSKarthikeyan Pasupathi oemData[procInfo][ss.str()][KEY_PROC_INDEX] = procIndex; 1595d532fecaSKarthikeyan Pasupathi str = bytesToStr(request.data(), len); 1596d532fecaSKarthikeyan Pasupathi oemData[procInfo][ss.str()][cpuInfoKey[paramSel]] = str.c_str(); 15971d4a0697SVijay Khemka flushOemData(); 1598d532fecaSKarthikeyan Pasupathi return ipmi::responseSuccess(); 15991d4a0697SVijay Khemka } 16001d4a0697SVijay Khemka 16011d4a0697SVijay Khemka //---------------------------------------------------------------------- 16021d4a0697SVijay Khemka // Get Proc Info (CMD_OEM_Q_GET_PROC_INFO) 16031d4a0697SVijay Khemka //---------------------------------------------------------------------- 16041d4a0697SVijay Khemka // Request: 16051d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZ h, LSB first 16061d4a0697SVijay Khemka // Byte 4 – Processor Index, 0 base 16071d4a0697SVijay Khemka // Byte 5 – Parameter Selector 16081d4a0697SVijay Khemka // Response: 16091d4a0697SVijay Khemka // Byte 1 – Completion code 16101d4a0697SVijay Khemka // Byte 2..N – Configuration Parameter Data (see below for Parameters 16111d4a0697SVijay Khemka // of Processor Information) 16121d4a0697SVijay Khemka // 16131d4a0697SVijay Khemka // Parameter#1: (Processor Product Name) 16141d4a0697SVijay Khemka // 16151d4a0697SVijay Khemka // Byte 1..48 –Product name(ASCII code) 16161d4a0697SVijay Khemka // Ex. Intel(R) Xeon(R) CPU E5-2685 v3 @ 2.60GHz 16171d4a0697SVijay Khemka // 16181d4a0697SVijay Khemka // Param#2: Processor Basic Information 16191d4a0697SVijay Khemka // Byte 1 – Core Number 16201d4a0697SVijay Khemka // Byte 2 – Thread Number (LSB) 16211d4a0697SVijay Khemka // Byte 3 – Thread Number (MSB) 16221d4a0697SVijay Khemka // Byte 4 – Processor frequency in MHz (LSB) 16231d4a0697SVijay Khemka // Byte 5 – Processor frequency in MHz (MSB) 16241d4a0697SVijay Khemka // Byte 6..7 – Revision 16251d4a0697SVijay Khemka // 1626d532fecaSKarthikeyan Pasupathi 1627d532fecaSKarthikeyan Pasupathi ipmi::RspType<std::vector<uint8_t>> 1628d532fecaSKarthikeyan Pasupathi ipmiOemQGetProcInfo(ipmi::Context::ptr ctx, uint8_t, uint8_t, uint8_t, 1629d532fecaSKarthikeyan Pasupathi uint8_t procIndex, uint8_t paramSel) 16301d4a0697SVijay Khemka { 16311d4a0697SVijay Khemka uint8_t numParam = sizeof(cpuInfoKey) / sizeof(uint8_t*); 16321d4a0697SVijay Khemka std::stringstream ss; 16331d4a0697SVijay Khemka std::string str; 1634d532fecaSKarthikeyan Pasupathi uint8_t res[MAX_BUF]; 1635d532fecaSKarthikeyan Pasupathi auto hostId = findHost(ctx->hostIdx); 1636d532fecaSKarthikeyan Pasupathi if (!hostId) 1637d532fecaSKarthikeyan Pasupathi { 1638d532fecaSKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 1639d532fecaSKarthikeyan Pasupathi "Invalid Host Id received"); 1640d532fecaSKarthikeyan Pasupathi return ipmi::responseInvalidCommand(); 1641d532fecaSKarthikeyan Pasupathi } 1642d532fecaSKarthikeyan Pasupathi std::string procInfo = KEY_Q_PROC_INFO + std::to_string(*hostId); 1643d532fecaSKarthikeyan Pasupathi if (paramSel < 1 || paramSel >= numParam) 16441d4a0697SVijay Khemka { 16451d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 16461d4a0697SVijay Khemka "Invalid parameter received"); 1647d532fecaSKarthikeyan Pasupathi return ipmi::responseParmOutOfRange(); 16481d4a0697SVijay Khemka } 16491d4a0697SVijay Khemka ss << std::hex; 1650d532fecaSKarthikeyan Pasupathi ss << std::setw(2) << std::setfill('0') << (int)procIndex; 1651d532fecaSKarthikeyan Pasupathi if (oemData[procInfo].find(ss.str()) == oemData[procInfo].end()) 1652d532fecaSKarthikeyan Pasupathi return ipmi::responseCommandNotAvailable(); 1653d532fecaSKarthikeyan Pasupathi if (oemData[procInfo][ss.str()].find(cpuInfoKey[paramSel]) == 1654d532fecaSKarthikeyan Pasupathi oemData[procInfo][ss.str()].end()) 1655d532fecaSKarthikeyan Pasupathi return ipmi::responseCommandNotAvailable(); 1656d532fecaSKarthikeyan Pasupathi str = oemData[procInfo][ss.str()][cpuInfoKey[paramSel]]; 1657d532fecaSKarthikeyan Pasupathi int dataLen = strToBytes(str, res); 1658d532fecaSKarthikeyan Pasupathi std::vector<uint8_t> response(&res[0], &res[dataLen]); 1659d532fecaSKarthikeyan Pasupathi return ipmi::responseSuccess(response); 16601d4a0697SVijay Khemka } 16611d4a0697SVijay Khemka 16621d4a0697SVijay Khemka //---------------------------------------------------------------------- 16631d4a0697SVijay Khemka // Set Dimm Info (CMD_OEM_Q_SET_DIMM_INFO) 16641d4a0697SVijay Khemka //---------------------------------------------------------------------- 16651d4a0697SVijay Khemka // Request: 16661d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZh, LSB first 16671d4a0697SVijay Khemka // Byte 4 – DIMM Index, 0 base 16681d4a0697SVijay Khemka // Byte 5 – Parameter Selector 16691d4a0697SVijay Khemka // Byte 6..N – Configuration parameter data (see below for Parameters 16701d4a0697SVijay Khemka // of DIMM Information) 16711d4a0697SVijay Khemka // Response: 16721d4a0697SVijay Khemka // Byte 1 – Completion code 16731d4a0697SVijay Khemka // 16741d4a0697SVijay Khemka // Param#1 (DIMM Location): 16751d4a0697SVijay Khemka // Byte 1 – DIMM Present 16761d4a0697SVijay Khemka // Byte 1 – DIMM Present 16771d4a0697SVijay Khemka // 01h – Present 16781d4a0697SVijay Khemka // FFh – Not Present 16791d4a0697SVijay Khemka // Byte 2 – Node Number, 0 base 16801d4a0697SVijay Khemka // Byte 3 – Channel Number , 0 base 16811d4a0697SVijay Khemka // Byte 4 – DIMM Number , 0 base 16821d4a0697SVijay Khemka // 16831d4a0697SVijay Khemka // Param#2 (DIMM Type): 16841d4a0697SVijay Khemka // Byte 1 – DIMM Type 16851d4a0697SVijay Khemka // Bit [7:6] 16861d4a0697SVijay Khemka // For DDR3 16871d4a0697SVijay Khemka // 00 – Normal Voltage (1.5V) 16881d4a0697SVijay Khemka // 01 – Ultra Low Voltage (1.25V) 16891d4a0697SVijay Khemka // 10 – Low Voltage (1.35V) 16901d4a0697SVijay Khemka // 11 – Reserved 16911d4a0697SVijay Khemka // For DDR4 16921d4a0697SVijay Khemka // 00 – Reserved 16931d4a0697SVijay Khemka // 01 – Reserved 16941d4a0697SVijay Khemka // 10 – Reserved 16951d4a0697SVijay Khemka // 11 – Normal Voltage (1.2V) 16961d4a0697SVijay Khemka // Bit [5:0] 16971d4a0697SVijay Khemka // 0x00 – SDRAM 16981d4a0697SVijay Khemka // 0x01 – DDR-1 RAM 16991d4a0697SVijay Khemka // 0x02 – Rambus 17001d4a0697SVijay Khemka // 0x03 – DDR-2 RAM 17011d4a0697SVijay Khemka // 0x04 – FBDIMM 17021d4a0697SVijay Khemka // 0x05 – DDR-3 RAM 17031d4a0697SVijay Khemka // 0x06 – DDR-4 RAM 17041d4a0697SVijay Khemka // 17051d4a0697SVijay Khemka // Param#3 (DIMM Speed): 17061d4a0697SVijay Khemka // Byte 1..2 – DIMM speed in MHz, LSB 17071d4a0697SVijay Khemka // Byte 3..6 – DIMM size in Mbytes, LSB 17081d4a0697SVijay Khemka // 17091d4a0697SVijay Khemka // Param#4 (Module Part Number): 17101d4a0697SVijay Khemka // Byte 1..20 –Module Part Number (JEDEC Standard No. 21-C) 17111d4a0697SVijay Khemka // 17121d4a0697SVijay Khemka // Param#5 (Module Serial Number): 17131d4a0697SVijay Khemka // Byte 1..4 –Module Serial Number (JEDEC Standard No. 21-C) 17141d4a0697SVijay Khemka // 17151d4a0697SVijay Khemka // Param#6 (Module Manufacturer ID): 17161d4a0697SVijay Khemka // Byte 1 - Module Manufacturer ID, LSB 17171d4a0697SVijay Khemka // Byte 2 - Module Manufacturer ID, MSB 17181d4a0697SVijay Khemka // 171910ff3d86SKarthikeyan Pasupathi ipmi::RspType<> ipmiOemQSetDimmInfo(ipmi::Context::ptr ctx, uint8_t, uint8_t, 172010ff3d86SKarthikeyan Pasupathi uint8_t, uint8_t dimmIndex, 172110ff3d86SKarthikeyan Pasupathi uint8_t paramSel, 172210ff3d86SKarthikeyan Pasupathi std::vector<uint8_t> request) 17231d4a0697SVijay Khemka { 17241d4a0697SVijay Khemka uint8_t numParam = sizeof(dimmInfoKey) / sizeof(uint8_t*); 17251d4a0697SVijay Khemka std::stringstream ss; 17261d4a0697SVijay Khemka std::string str; 172710ff3d86SKarthikeyan Pasupathi uint8_t len = request.size(); 172810ff3d86SKarthikeyan Pasupathi std::string dimmType; 172910ff3d86SKarthikeyan Pasupathi readDimmType(dimmType, dimmIndex); 17306d9e9a75SPatrick Williams auto hostId = findHost(ctx->hostIdx); 173110ff3d86SKarthikeyan Pasupathi if (!hostId) 173210ff3d86SKarthikeyan Pasupathi { 173310ff3d86SKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 173410ff3d86SKarthikeyan Pasupathi "Invalid Host Id received"); 173510ff3d86SKarthikeyan Pasupathi return ipmi::responseInvalidCommand(); 173610ff3d86SKarthikeyan Pasupathi } 17371d4a0697SVijay Khemka 173810ff3d86SKarthikeyan Pasupathi std::string dimmInfo = KEY_Q_DIMM_INFO + std::to_string(*hostId); 17391d4a0697SVijay Khemka 174010ff3d86SKarthikeyan Pasupathi if (len < 3 || paramSel < 1 || paramSel >= numParam) 17411d4a0697SVijay Khemka { 17421d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 17431d4a0697SVijay Khemka "Invalid parameter received"); 174410ff3d86SKarthikeyan Pasupathi return ipmi::responseParmOutOfRange(); 17451d4a0697SVijay Khemka } 17461d4a0697SVijay Khemka 17471d4a0697SVijay Khemka ss << std::hex; 174810ff3d86SKarthikeyan Pasupathi ss << (int)dimmIndex; 174910ff3d86SKarthikeyan Pasupathi oemData[dimmInfo][ss.str()][KEY_DIMM_INDEX] = dimmIndex; 175010ff3d86SKarthikeyan Pasupathi oemData[dimmInfo][ss.str()][KEY_DIMM_TYPE] = dimmType; 175110ff3d86SKarthikeyan Pasupathi str = bytesToStr(request.data(), len); 175210ff3d86SKarthikeyan Pasupathi oemData[dimmInfo][ss.str()][dimmInfoKey[paramSel]] = str.c_str(); 17531d4a0697SVijay Khemka flushOemData(); 175410ff3d86SKarthikeyan Pasupathi return ipmi::responseSuccess(); 17551d4a0697SVijay Khemka } 17561d4a0697SVijay Khemka 17571d4a0697SVijay Khemka // Get Dimm Info (CMD_OEM_Q_GET_DIMM_INFO) 17581d4a0697SVijay Khemka //---------------------------------------------------------------------- 17591d4a0697SVijay Khemka // Request: 17601d4a0697SVijay Khemka // Byte 1:3 – Manufacturer ID – XXYYZZh, LSB first 17611d4a0697SVijay Khemka // Byte 4 – DIMM Index, 0 base 17621d4a0697SVijay Khemka // Byte 5 – Parameter Selector 17631d4a0697SVijay Khemka // Byte 6..N – Configuration parameter data (see below for Parameters 17641d4a0697SVijay Khemka // of DIMM Information) 17651d4a0697SVijay Khemka // Response: 17661d4a0697SVijay Khemka // Byte 1 – Completion code 17671d4a0697SVijay Khemka // Byte 2..N – Configuration Parameter Data (see Table_1213h Parameters 17681d4a0697SVijay Khemka // of DIMM Information) 17691d4a0697SVijay Khemka // 17701d4a0697SVijay Khemka // Param#1 (DIMM Location): 17711d4a0697SVijay Khemka // Byte 1 – DIMM Present 17721d4a0697SVijay Khemka // Byte 1 – DIMM Present 17731d4a0697SVijay Khemka // 01h – Present 17741d4a0697SVijay Khemka // FFh – Not Present 17751d4a0697SVijay Khemka // Byte 2 – Node Number, 0 base 17761d4a0697SVijay Khemka // Byte 3 – Channel Number , 0 base 17771d4a0697SVijay Khemka // Byte 4 – DIMM Number , 0 base 17781d4a0697SVijay Khemka // 17791d4a0697SVijay Khemka // Param#2 (DIMM Type): 17801d4a0697SVijay Khemka // Byte 1 – DIMM Type 17811d4a0697SVijay Khemka // Bit [7:6] 17821d4a0697SVijay Khemka // For DDR3 17831d4a0697SVijay Khemka // 00 – Normal Voltage (1.5V) 17841d4a0697SVijay Khemka // 01 – Ultra Low Voltage (1.25V) 17851d4a0697SVijay Khemka // 10 – Low Voltage (1.35V) 17861d4a0697SVijay Khemka // 11 – Reserved 17871d4a0697SVijay Khemka // For DDR4 17881d4a0697SVijay Khemka // 00 – Reserved 17891d4a0697SVijay Khemka // 01 – Reserved 17901d4a0697SVijay Khemka // 10 – Reserved 17911d4a0697SVijay Khemka // 11 – Normal Voltage (1.2V) 17921d4a0697SVijay Khemka // Bit [5:0] 17931d4a0697SVijay Khemka // 0x00 – SDRAM 17941d4a0697SVijay Khemka // 0x01 – DDR-1 RAM 17951d4a0697SVijay Khemka // 0x02 – Rambus 17961d4a0697SVijay Khemka // 0x03 – DDR-2 RAM 17971d4a0697SVijay Khemka // 0x04 – FBDIMM 17981d4a0697SVijay Khemka // 0x05 – DDR-3 RAM 17991d4a0697SVijay Khemka // 0x06 – DDR-4 RAM 18001d4a0697SVijay Khemka // 18011d4a0697SVijay Khemka // Param#3 (DIMM Speed): 18021d4a0697SVijay Khemka // Byte 1..2 – DIMM speed in MHz, LSB 18031d4a0697SVijay Khemka // Byte 3..6 – DIMM size in Mbytes, LSB 18041d4a0697SVijay Khemka // 18051d4a0697SVijay Khemka // Param#4 (Module Part Number): 18061d4a0697SVijay Khemka // Byte 1..20 –Module Part Number (JEDEC Standard No. 21-C) 18071d4a0697SVijay Khemka // 18081d4a0697SVijay Khemka // Param#5 (Module Serial Number): 18091d4a0697SVijay Khemka // Byte 1..4 –Module Serial Number (JEDEC Standard No. 21-C) 18101d4a0697SVijay Khemka // 18111d4a0697SVijay Khemka // Param#6 (Module Manufacturer ID): 18121d4a0697SVijay Khemka // Byte 1 - Module Manufacturer ID, LSB 18131d4a0697SVijay Khemka // Byte 2 - Module Manufacturer ID, MSB 18141d4a0697SVijay Khemka // 181510ff3d86SKarthikeyan Pasupathi ipmi::RspType<std::vector<uint8_t>> 181610ff3d86SKarthikeyan Pasupathi ipmiOemQGetDimmInfo(ipmi::Context::ptr ctx, uint8_t, uint8_t, uint8_t, 181710ff3d86SKarthikeyan Pasupathi uint8_t dimmIndex, uint8_t paramSel) 18181d4a0697SVijay Khemka { 18191d4a0697SVijay Khemka uint8_t numParam = sizeof(dimmInfoKey) / sizeof(uint8_t*); 182010ff3d86SKarthikeyan Pasupathi uint8_t res[MAX_BUF]; 18211d4a0697SVijay Khemka std::stringstream ss; 18221d4a0697SVijay Khemka std::string str; 182310ff3d86SKarthikeyan Pasupathi std::string dimmType; 182410ff3d86SKarthikeyan Pasupathi readDimmType(dimmType, dimmIndex); 18256d9e9a75SPatrick Williams auto hostId = findHost(ctx->hostIdx); 182610ff3d86SKarthikeyan Pasupathi if (!hostId) 182710ff3d86SKarthikeyan Pasupathi { 182810ff3d86SKarthikeyan Pasupathi phosphor::logging::log<phosphor::logging::level::ERR>( 182910ff3d86SKarthikeyan Pasupathi "Invalid Host Id received"); 183010ff3d86SKarthikeyan Pasupathi return ipmi::responseInvalidCommand(); 183110ff3d86SKarthikeyan Pasupathi } 183210ff3d86SKarthikeyan Pasupathi std::string dimmInfo = KEY_Q_DIMM_INFO + std::to_string(*hostId); 18331d4a0697SVijay Khemka 183410ff3d86SKarthikeyan Pasupathi if (paramSel < 1 || paramSel >= numParam) 18351d4a0697SVijay Khemka { 18361d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 18371d4a0697SVijay Khemka "Invalid parameter received"); 183810ff3d86SKarthikeyan Pasupathi return ipmi::responseParmOutOfRange(); 18391d4a0697SVijay Khemka } 18401d4a0697SVijay Khemka ss << std::hex; 184110ff3d86SKarthikeyan Pasupathi ss << (int)dimmIndex; 184210ff3d86SKarthikeyan Pasupathi oemData[dimmInfo][ss.str()][KEY_DIMM_TYPE] = dimmType; 184310ff3d86SKarthikeyan Pasupathi if (oemData[dimmInfo].find(ss.str()) == oemData[dimmInfo].end()) 184410ff3d86SKarthikeyan Pasupathi return ipmi::responseCommandNotAvailable(); 184510ff3d86SKarthikeyan Pasupathi if (oemData[dimmInfo][ss.str()].find(dimmInfoKey[paramSel]) == 184610ff3d86SKarthikeyan Pasupathi oemData[dimmInfo][ss.str()].end()) 184710ff3d86SKarthikeyan Pasupathi return ipmi::responseCommandNotAvailable(); 184810ff3d86SKarthikeyan Pasupathi str = oemData[dimmInfo][ss.str()][dimmInfoKey[paramSel]]; 184910ff3d86SKarthikeyan Pasupathi int data_length = strToBytes(str, res); 185010ff3d86SKarthikeyan Pasupathi std::vector<uint8_t> response(&res[0], &res[data_length]); 185110ff3d86SKarthikeyan Pasupathi return ipmi::responseSuccess(response); 18521d4a0697SVijay Khemka } 18531d4a0697SVijay Khemka 18541d4a0697SVijay Khemka //---------------------------------------------------------------------- 18551d4a0697SVijay Khemka // Set Drive Info (CMD_OEM_Q_SET_DRIVE_INFO) 18561d4a0697SVijay Khemka //---------------------------------------------------------------------- 18571d4a0697SVijay Khemka // BIOS issue this command to provide HDD information to BMC. 18581d4a0697SVijay Khemka // 18591d4a0697SVijay Khemka // BIOS just can get information by standard ATA / SMART command for 18601d4a0697SVijay Khemka // OB SATA controller. 18611d4a0697SVijay Khemka // BIOS can get 18621d4a0697SVijay Khemka // 1. Serial Number 18631d4a0697SVijay Khemka // 2. Model Name 18641d4a0697SVijay Khemka // 3. HDD FW Version 18651d4a0697SVijay Khemka // 4. HDD Capacity 18661d4a0697SVijay Khemka // 5. HDD WWN 18671d4a0697SVijay Khemka // 18681d4a0697SVijay Khemka // Use Get HDD info Param #5 to know the MAX HDD info index. 18691d4a0697SVijay Khemka // 18701d4a0697SVijay Khemka // Request: 18711d4a0697SVijay Khemka // Byte 1:3 – Quanta Manufacturer ID – 001C4Ch, LSB first 18721d4a0697SVijay Khemka // Byte 4 – 18731d4a0697SVijay Khemka // [7:4] Reserved 18741d4a0697SVijay Khemka // [3:0] HDD Controller Type 18751d4a0697SVijay Khemka // 0x00 – BIOS 18761d4a0697SVijay Khemka // 0x01 – Expander 18771d4a0697SVijay Khemka // 0x02 – LSI 18781d4a0697SVijay Khemka // Byte 5 – HDD Info Index, 0 base 18791d4a0697SVijay Khemka // Byte 6 – Parameter Selector 18801d4a0697SVijay Khemka // Byte 7..N – Configuration parameter data (see Table_1415h Parameters of HDD 18811d4a0697SVijay Khemka // Information) 18821d4a0697SVijay Khemka // 18831d4a0697SVijay Khemka // Response: 18841d4a0697SVijay Khemka // Byte 1 – Completion Code 18851d4a0697SVijay Khemka // 18861d4a0697SVijay Khemka // Param#0 (HDD Location): 18871d4a0697SVijay Khemka // Byte 1 – Controller 18881d4a0697SVijay Khemka // [7:3] Device Number 18891d4a0697SVijay Khemka // [2:0] Function Number 18901d4a0697SVijay Khemka // For Intel C610 series (Wellsburg) 18911d4a0697SVijay Khemka // D31:F2 (0xFA) – SATA control 1 18921d4a0697SVijay Khemka // D31:F5 (0xFD) – SATA control 2 18931d4a0697SVijay Khemka // D17:F4 (0x8C) – sSata control 18941d4a0697SVijay Khemka // Byte 2 – Port Number 18951d4a0697SVijay Khemka // Byte 3 – Location (0xFF: No HDD Present) 18961d4a0697SVijay Khemka // BIOS default set Byte 3 to 0xFF, if No HDD Present. And then skip send param 18971d4a0697SVijay Khemka // #1~4, #6, #7 to BMC (still send param #5) BIOS default set Byte 3 to 0, if 18981d4a0697SVijay Khemka // the HDD present. BMC or other people who know the HDD location has 18991d4a0697SVijay Khemka // responsibility for update Location info 19001d4a0697SVijay Khemka // 19011d4a0697SVijay Khemka // Param#1 (Serial Number): 19021d4a0697SVijay Khemka // Bytes 1..33: HDD Serial Number 19031d4a0697SVijay Khemka // 19041d4a0697SVijay Khemka // Param#2 (Model Name): 19051d4a0697SVijay Khemka // Byte 1..33 – HDD Model Name 19061d4a0697SVijay Khemka // 19071d4a0697SVijay Khemka // Param#3 (HDD FW Version): 19081d4a0697SVijay Khemka // Byte 1..17 –HDD FW version 19091d4a0697SVijay Khemka // 19101d4a0697SVijay Khemka // Param#4 (Capacity): 19111d4a0697SVijay Khemka // Byte 1..4 –HDD Block Size, LSB 19121d4a0697SVijay Khemka // Byte 5..12 - HDD Block Number, LSB 19131d4a0697SVijay Khemka // HDD Capacity = HDD Block size * HDD BLock number (Unit Byte) 19141d4a0697SVijay Khemka // 19151d4a0697SVijay Khemka // Param#5 (Max HDD Quantity): 19161d4a0697SVijay Khemka // Byte 1 - Max HDD Quantity 19171d4a0697SVijay Khemka // Max supported port numbers in this PCH 19181d4a0697SVijay Khemka // 19191d4a0697SVijay Khemka // Param#6 (HDD Type) 19201d4a0697SVijay Khemka // Byte 1 – HDD Type 19211d4a0697SVijay Khemka // 0h – Reserved 19221d4a0697SVijay Khemka // 1h – SAS 19231d4a0697SVijay Khemka // 2h – SATA 19241d4a0697SVijay Khemka // 3h – PCIE SSD (NVME) 19251d4a0697SVijay Khemka // 19261d4a0697SVijay Khemka // Param#7 (HDD WWN) 19271d4a0697SVijay Khemka // Data 1...8: HDD World Wide Name, LSB 19281d4a0697SVijay Khemka // 1929e39f9393SWilly Tu ipmi_ret_t ipmiOemQSetDriveInfo(ipmi_netfn_t, ipmi_cmd_t, 1930e39f9393SWilly Tu ipmi_request_t request, ipmi_response_t, 1931e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 19321d4a0697SVijay Khemka { 19331d4a0697SVijay Khemka qDriveInfo_t* req = reinterpret_cast<qDriveInfo_t*>(request); 19341d4a0697SVijay Khemka uint8_t numParam = sizeof(driveInfoKey) / sizeof(uint8_t*); 19351d4a0697SVijay Khemka uint8_t ctrlType = req->hddCtrlType & 0x0f; 19361d4a0697SVijay Khemka std::stringstream ss; 19371d4a0697SVijay Khemka std::string str; 19381d4a0697SVijay Khemka uint8_t len = *data_len; 19391d4a0697SVijay Khemka 19401d4a0697SVijay Khemka *data_len = 0; 19411d4a0697SVijay Khemka 19421d4a0697SVijay Khemka /* check for requested data params */ 19431d4a0697SVijay Khemka if (len < 6 || req->paramSel < 1 || req->paramSel >= numParam || 19441d4a0697SVijay Khemka ctrlType > 2) 19451d4a0697SVijay Khemka { 19461d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 19471d4a0697SVijay Khemka "Invalid parameter received"); 19481d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 19491d4a0697SVijay Khemka } 19501d4a0697SVijay Khemka 19511d4a0697SVijay Khemka len = len - 6; // Get Actual data length 19521d4a0697SVijay Khemka 19531d4a0697SVijay Khemka ss << std::hex; 19541d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->hddIndex; 19551d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][KEY_HDD_CTRL_TYPE] = req->hddCtrlType; 19561d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()][KEY_HDD_INDEX] = 19571d4a0697SVijay Khemka req->hddIndex; 19581d4a0697SVijay Khemka 19591d4a0697SVijay Khemka str = bytesToStr(req->data, len); 19601d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()] 19611d4a0697SVijay Khemka [driveInfoKey[req->paramSel]] = str.c_str(); 19621d4a0697SVijay Khemka flushOemData(); 19631d4a0697SVijay Khemka 19641d4a0697SVijay Khemka return IPMI_CC_OK; 19651d4a0697SVijay Khemka } 19661d4a0697SVijay Khemka 19671d4a0697SVijay Khemka //---------------------------------------------------------------------- 19681d4a0697SVijay Khemka // Get Drive Info (CMD_OEM_Q_GET_DRIVE_INFO) 19691d4a0697SVijay Khemka //---------------------------------------------------------------------- 19701d4a0697SVijay Khemka // BMC needs to check HDD presented or not first. If NOT presented, return 19711d4a0697SVijay Khemka // completion code 0xD5. 19721d4a0697SVijay Khemka // 19731d4a0697SVijay Khemka // Request: 19741d4a0697SVijay Khemka // Byte 1:3 – Quanta Manufacturer ID – 001C4Ch, LSB first 19751d4a0697SVijay Khemka // Byte 4 – 19761d4a0697SVijay Khemka //[7:4] Reserved 19771d4a0697SVijay Khemka //[3:0] HDD Controller Type 19781d4a0697SVijay Khemka // 0x00 – BIOS 19791d4a0697SVijay Khemka // 0x01 – Expander 19801d4a0697SVijay Khemka // 0x02 – LSI 19811d4a0697SVijay Khemka // Byte 5 – HDD Index, 0 base 19821d4a0697SVijay Khemka // Byte 6 – Parameter Selector (See Above Set HDD Information) 19831d4a0697SVijay Khemka // Response: 19841d4a0697SVijay Khemka // Byte 1 – Completion Code 19851d4a0697SVijay Khemka // 0xD5 – Not support in current status (HDD Not Present) 19861d4a0697SVijay Khemka // Byte 2..N – Configuration parameter data (see Table_1415h Parameters of HDD 19871d4a0697SVijay Khemka // Information) 19881d4a0697SVijay Khemka // 1989e39f9393SWilly Tu ipmi_ret_t ipmiOemQGetDriveInfo(ipmi_netfn_t, ipmi_cmd_t, 19901d4a0697SVijay Khemka ipmi_request_t request, 19911d4a0697SVijay Khemka ipmi_response_t response, 1992e39f9393SWilly Tu ipmi_data_len_t data_len, ipmi_context_t) 19931d4a0697SVijay Khemka { 19941d4a0697SVijay Khemka qDriveInfo_t* req = reinterpret_cast<qDriveInfo_t*>(request); 19951d4a0697SVijay Khemka uint8_t numParam = sizeof(driveInfoKey) / sizeof(uint8_t*); 19961d4a0697SVijay Khemka uint8_t* res = reinterpret_cast<uint8_t*>(response); 19971d4a0697SVijay Khemka uint8_t ctrlType = req->hddCtrlType & 0x0f; 19981d4a0697SVijay Khemka std::stringstream ss; 19991d4a0697SVijay Khemka std::string str; 20001d4a0697SVijay Khemka 20011d4a0697SVijay Khemka *data_len = 0; 20021d4a0697SVijay Khemka 20031d4a0697SVijay Khemka /* check for requested data params */ 20041d4a0697SVijay Khemka if (req->paramSel < 1 || req->paramSel >= numParam || ctrlType > 2) 20051d4a0697SVijay Khemka { 20061d4a0697SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>( 20071d4a0697SVijay Khemka "Invalid parameter received"); 20081d4a0697SVijay Khemka return IPMI_CC_PARM_OUT_OF_RANGE; 20091d4a0697SVijay Khemka } 20101d4a0697SVijay Khemka 20111d4a0697SVijay Khemka if (oemData[KEY_Q_DRIVE_INFO].find(ctrlTypeKey[ctrlType]) == 20121d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO].end()) 20131d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 20141d4a0697SVijay Khemka 20151d4a0697SVijay Khemka ss << std::hex; 20161d4a0697SVijay Khemka ss << std::setw(2) << std::setfill('0') << (int)req->hddIndex; 20171d4a0697SVijay Khemka 20181d4a0697SVijay Khemka if (oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]].find(ss.str()) == 20191d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO].end()) 20201d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 20211d4a0697SVijay Khemka 20221d4a0697SVijay Khemka if (oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()].find( 20231d4a0697SVijay Khemka dimmInfoKey[req->paramSel]) == 20241d4a0697SVijay Khemka oemData[KEY_Q_DRIVE_INFO][ss.str()].end()) 20251d4a0697SVijay Khemka return CC_PARAM_NOT_SUPP_IN_CURR_STATE; 20261d4a0697SVijay Khemka 20271d4a0697SVijay Khemka str = oemData[KEY_Q_DRIVE_INFO][ctrlTypeKey[ctrlType]][ss.str()] 20281d4a0697SVijay Khemka [dimmInfoKey[req->paramSel]]; 20291d4a0697SVijay Khemka *data_len = strToBytes(str, res); 20301d4a0697SVijay Khemka 2031e7d23d0eSVijay Khemka return IPMI_CC_OK; 2032e7d23d0eSVijay Khemka } 2033e7d23d0eSVijay Khemka 2034e4d6fe74SLogananth Sundararaj /* Helper function for sending DCMI commands to ME/BIC and 2035e4d6fe74SLogananth Sundararaj * getting response back 2036e4d6fe74SLogananth Sundararaj */ 2037e4d6fe74SLogananth Sundararaj ipmi::RspType<std::vector<uint8_t>> 2038e4d6fe74SLogananth Sundararaj sendDCMICmd([[maybe_unused]] ipmi::Context::ptr ctx, 2039e4d6fe74SLogananth Sundararaj [[maybe_unused]] uint8_t cmd, std::vector<uint8_t>& cmdData) 2040dd14c0f7SVijay Khemka { 2041dd14c0f7SVijay Khemka std::vector<uint8_t> respData; 2042dd14c0f7SVijay Khemka 2043e4d6fe74SLogananth Sundararaj #if BIC_ENABLED 2044e4d6fe74SLogananth Sundararaj 2045e4d6fe74SLogananth Sundararaj uint8_t bicAddr = (uint8_t)ctx->hostIdx << 2; 2046e4d6fe74SLogananth Sundararaj 2047e4d6fe74SLogananth Sundararaj if (sendBicCmd(ctx->netFn, ctx->cmd, bicAddr, cmdData, respData)) 2048e4d6fe74SLogananth Sundararaj { 2049e4d6fe74SLogananth Sundararaj return ipmi::responseUnspecifiedError(); 2050e4d6fe74SLogananth Sundararaj } 2051e4d6fe74SLogananth Sundararaj 2052e4d6fe74SLogananth Sundararaj #else 2053e4d6fe74SLogananth Sundararaj 2054dd14c0f7SVijay Khemka /* Add group id as first byte to request for ME command */ 2055dd14c0f7SVijay Khemka cmdData.insert(cmdData.begin(), groupDCMI); 2056dd14c0f7SVijay Khemka 2057dd14c0f7SVijay Khemka if (sendMeCmd(ipmi::netFnGroup, cmd, cmdData, respData)) 2058e4d6fe74SLogananth Sundararaj { 2059dd14c0f7SVijay Khemka return ipmi::responseUnspecifiedError(); 2060e4d6fe74SLogananth Sundararaj } 2061dd14c0f7SVijay Khemka 2062dd14c0f7SVijay Khemka /* Remove group id as first byte as it will be added by IPMID */ 2063dd14c0f7SVijay Khemka respData.erase(respData.begin()); 2064dd14c0f7SVijay Khemka 2065e4d6fe74SLogananth Sundararaj #endif 2066e4d6fe74SLogananth Sundararaj 2067dd14c0f7SVijay Khemka return ipmi::responseSuccess(std::move(respData)); 2068dd14c0f7SVijay Khemka } 2069dd14c0f7SVijay Khemka 2070dd14c0f7SVijay Khemka /* DCMI Command handellers. */ 2071dd14c0f7SVijay Khemka 2072dd14c0f7SVijay Khemka ipmi::RspType<std::vector<uint8_t>> 2073e4d6fe74SLogananth Sundararaj ipmiOemDCMIGetPowerReading(ipmi::Context::ptr ctx, 2074e4d6fe74SLogananth Sundararaj std::vector<uint8_t> reqData) 2075dd14c0f7SVijay Khemka { 2076e4d6fe74SLogananth Sundararaj return sendDCMICmd(ctx, ipmi::dcmi::cmdGetPowerReading, reqData); 2077dd14c0f7SVijay Khemka } 2078dd14c0f7SVijay Khemka 2079dd14c0f7SVijay Khemka ipmi::RspType<std::vector<uint8_t>> 2080e4d6fe74SLogananth Sundararaj ipmiOemDCMIGetPowerLimit(ipmi::Context::ptr ctx, 2081e4d6fe74SLogananth Sundararaj std::vector<uint8_t> reqData) 2082dd14c0f7SVijay Khemka { 2083e4d6fe74SLogananth Sundararaj return sendDCMICmd(ctx, ipmi::dcmi::cmdGetPowerLimit, reqData); 2084dd14c0f7SVijay Khemka } 2085dd14c0f7SVijay Khemka 2086dd14c0f7SVijay Khemka ipmi::RspType<std::vector<uint8_t>> 2087e4d6fe74SLogananth Sundararaj ipmiOemDCMISetPowerLimit(ipmi::Context::ptr ctx, 2088e4d6fe74SLogananth Sundararaj std::vector<uint8_t> reqData) 2089dd14c0f7SVijay Khemka { 2090e4d6fe74SLogananth Sundararaj return sendDCMICmd(ctx, ipmi::dcmi::cmdSetPowerLimit, reqData); 2091dd14c0f7SVijay Khemka } 2092dd14c0f7SVijay Khemka 2093dd14c0f7SVijay Khemka ipmi::RspType<std::vector<uint8_t>> 2094e4d6fe74SLogananth Sundararaj ipmiOemDCMIApplyPowerLimit(ipmi::Context::ptr ctx, 2095e4d6fe74SLogananth Sundararaj std::vector<uint8_t> reqData) 2096dd14c0f7SVijay Khemka { 2097e4d6fe74SLogananth Sundararaj return sendDCMICmd(ctx, ipmi::dcmi::cmdActDeactivatePwrLimit, reqData); 2098dd14c0f7SVijay Khemka } 2099dd14c0f7SVijay Khemka 2100e7d23d0eSVijay Khemka static void registerOEMFunctions(void) 2101e7d23d0eSVijay Khemka { 21021d4a0697SVijay Khemka /* Get OEM data from json file */ 21031d4a0697SVijay Khemka std::ifstream file(JSON_OEM_DATA_FILE); 21041d4a0697SVijay Khemka if (file) 2105feaa9811SVijay Khemka { 21061d4a0697SVijay Khemka file >> oemData; 2107feaa9811SVijay Khemka file.close(); 2108feaa9811SVijay Khemka } 21091d4a0697SVijay Khemka 2110e7d23d0eSVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>( 2111e7d23d0eSVijay Khemka "Registering OEM commands"); 21127c0aea49SVijay Khemka 2113e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_FRAME_INFO, 2114e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetFrameInfo, 2115e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug frame info 2116e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, 2117e7d23d0eSVijay Khemka CMD_OEM_USB_DBG_GET_UPDATED_FRAMES, NULL, 2118e7d23d0eSVijay Khemka ipmiOemDbgGetUpdFrames, 2119e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug updated frames 2120e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_POST_DESC, 2121e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetPostDesc, 2122e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug post description 2123e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_GPIO_DESC, 2124e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetGpioDesc, 2125e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug gpio description 2126e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_GET_FRAME_DATA, 2127e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetFrameData, 2128e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug frame data 2129e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFN_OEM_USB_DBG_REQ, CMD_OEM_USB_DBG_CTRL_PANEL, 2130e7d23d0eSVijay Khemka NULL, ipmiOemDbgGetCtrlPanel, 2131e7d23d0eSVijay Khemka PRIVILEGE_USER); // get debug control panel 2132e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_DIMM_INFO, NULL, 2133e7d23d0eSVijay Khemka ipmiOemSetDimmInfo, 2134e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set Dimm Info 21351d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_GET_BOARD_ID, NULL, 21361d4a0697SVijay Khemka ipmiOemGetBoardID, 21371d4a0697SVijay Khemka PRIVILEGE_USER); // Get Board ID 21384ae63e71SBonnie Lo ipmi::registerHandler(ipmi::prioOemBase, ipmi::netFnOemOne, 21394ae63e71SBonnie Lo CMD_OEM_GET_80PORT_RECORD, ipmi::Privilege::User, 21404ae63e71SBonnie Lo ipmiOemGet80PortRecord); // Get 80 Port Record 2141e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_MACHINE_CONFIG_INFO, NULL, 2142e7d23d0eSVijay Khemka ipmiOemSetMachineCfgInfo, 2143e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set Machine Config Info 2144e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_POST_START, NULL, 2145e7d23d0eSVijay Khemka ipmiOemSetPostStart, 2146e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set POST start 2147e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_POST_END, NULL, 2148e7d23d0eSVijay Khemka ipmiOemSetPostEnd, 2149e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set POST End 21501d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_PPIN_INFO, NULL, 21511d4a0697SVijay Khemka ipmiOemSetPPINInfo, 21521d4a0697SVijay Khemka PRIVILEGE_USER); // Set PPIN Info 21535f8e3435SManikandan Elumalai #if BIC_ENABLED 21545f8e3435SManikandan Elumalai 21555f8e3435SManikandan Elumalai ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnOemOne, 21565f8e3435SManikandan Elumalai ipmi::cmdSetSystemGuid, ipmi::Privilege::User, 21575f8e3435SManikandan Elumalai ipmiOemSetSystemGuid); 21585f8e3435SManikandan Elumalai #else 21595f8e3435SManikandan Elumalai 2160f2246ce8SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_SYSTEM_GUID, NULL, 2161f2246ce8SVijay Khemka ipmiOemSetSystemGuid, 2162f2246ce8SVijay Khemka PRIVILEGE_USER); // Set System GUID 21635f8e3435SManikandan Elumalai #endif 21641d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_ADR_TRIGGER, NULL, 21651d4a0697SVijay Khemka ipmiOemSetAdrTrigger, 21661d4a0697SVijay Khemka PRIVILEGE_USER); // Set ADR Trigger 2167e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_BIOS_FLASH_INFO, NULL, 2168e7d23d0eSVijay Khemka ipmiOemSetBiosFlashInfo, 2169e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set Bios Flash Info 2170e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_SET_PPR, NULL, ipmiOemSetPpr, 2171e7d23d0eSVijay Khemka PRIVILEGE_USER); // Set PPR 2172e7d23d0eSVijay Khemka ipmiPrintAndRegister(NETFUN_NONE, CMD_OEM_GET_PPR, NULL, ipmiOemGetPpr, 2173e7d23d0eSVijay Khemka PRIVILEGE_USER); // Get PPR 21741d4a0697SVijay Khemka /* FB OEM QC Commands */ 2175d532fecaSKarthikeyan Pasupathi ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnOemFour, 2176d532fecaSKarthikeyan Pasupathi CMD_OEM_Q_SET_PROC_INFO, ipmi::Privilege::User, 2177d532fecaSKarthikeyan Pasupathi ipmiOemQSetProcInfo); // Set Proc Info 2178d532fecaSKarthikeyan Pasupathi ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnOemFour, 2179d532fecaSKarthikeyan Pasupathi CMD_OEM_Q_GET_PROC_INFO, ipmi::Privilege::User, 2180d532fecaSKarthikeyan Pasupathi ipmiOemQGetProcInfo); // Get Proc Info 218110ff3d86SKarthikeyan Pasupathi ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnOemFour, 218210ff3d86SKarthikeyan Pasupathi ipmi::cmdSetQDimmInfo, ipmi::Privilege::User, 218310ff3d86SKarthikeyan Pasupathi ipmiOemQSetDimmInfo); // Set Dimm Info 218410ff3d86SKarthikeyan Pasupathi ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnOemFour, 218510ff3d86SKarthikeyan Pasupathi ipmi::cmdGetQDimmInfo, ipmi::Privilege::User, 218610ff3d86SKarthikeyan Pasupathi ipmiOemQGetDimmInfo); // Get Dimm Info 21871d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_SET_DRIVE_INFO, NULL, 21881d4a0697SVijay Khemka ipmiOemQSetDriveInfo, 21891d4a0697SVijay Khemka PRIVILEGE_USER); // Set Drive Info 21901d4a0697SVijay Khemka ipmiPrintAndRegister(NETFUN_FB_OEM_QC, CMD_OEM_Q_GET_DRIVE_INFO, NULL, 21911d4a0697SVijay Khemka ipmiOemQGetDriveInfo, 21921d4a0697SVijay Khemka PRIVILEGE_USER); // Get Drive Info 2193dd14c0f7SVijay Khemka 2194dd14c0f7SVijay Khemka /* FB OEM DCMI Commands as per DCMI spec 1.5 Section 6 */ 2195dd14c0f7SVijay Khemka ipmi::registerGroupHandler(ipmi::prioOpenBmcBase, groupDCMI, 2196dd14c0f7SVijay Khemka ipmi::dcmi::cmdGetPowerReading, 2197dd14c0f7SVijay Khemka ipmi::Privilege::User, 2198dd14c0f7SVijay Khemka ipmiOemDCMIGetPowerReading); // Get Power Reading 2199dd14c0f7SVijay Khemka 2200dd14c0f7SVijay Khemka ipmi::registerGroupHandler(ipmi::prioOpenBmcBase, groupDCMI, 2201dd14c0f7SVijay Khemka ipmi::dcmi::cmdGetPowerLimit, 2202dd14c0f7SVijay Khemka ipmi::Privilege::User, 2203dd14c0f7SVijay Khemka ipmiOemDCMIGetPowerLimit); // Get Power Limit 2204dd14c0f7SVijay Khemka 2205dd14c0f7SVijay Khemka ipmi::registerGroupHandler(ipmi::prioOpenBmcBase, groupDCMI, 2206dd14c0f7SVijay Khemka ipmi::dcmi::cmdSetPowerLimit, 2207dd14c0f7SVijay Khemka ipmi::Privilege::Operator, 2208dd14c0f7SVijay Khemka ipmiOemDCMISetPowerLimit); // Set Power Limit 2209dd14c0f7SVijay Khemka 2210dd14c0f7SVijay Khemka ipmi::registerGroupHandler(ipmi::prioOpenBmcBase, groupDCMI, 2211dd14c0f7SVijay Khemka ipmi::dcmi::cmdActDeactivatePwrLimit, 2212dd14c0f7SVijay Khemka ipmi::Privilege::Operator, 2213dd14c0f7SVijay Khemka ipmiOemDCMIApplyPowerLimit); // Apply Power Limit 2214dd14c0f7SVijay Khemka 2215f0cf6658SJayashree-D /* FB OEM BOOT ORDER COMMANDS */ 2216f0cf6658SJayashree-D ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnOemOne, 2217f0cf6658SJayashree-D CMD_OEM_GET_BOOT_ORDER, ipmi::Privilege::User, 2218f0cf6658SJayashree-D ipmiOemGetBootOrder); // Get Boot Order 2219f0cf6658SJayashree-D 2220f0cf6658SJayashree-D ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnOemOne, 2221f0cf6658SJayashree-D CMD_OEM_SET_BOOT_ORDER, ipmi::Privilege::User, 2222f0cf6658SJayashree-D ipmiOemSetBootOrder); // Set Boot Order 2223f0cf6658SJayashree-D 2224e7d23d0eSVijay Khemka return; 2225e7d23d0eSVijay Khemka } 2226e7d23d0eSVijay Khemka 2227e7d23d0eSVijay Khemka } // namespace ipmi 2228