1 #pragma once 2 3 #include "occ_errors.hpp" 4 #include "utils.hpp" 5 6 #include <org/open_power/OCC/PassThrough/server.hpp> 7 #include <sdbusplus/bus.hpp> 8 #include <sdbusplus/server/object.hpp> 9 10 #include <format> 11 #include <string> 12 #include <utility> 13 14 namespace open_power 15 { 16 namespace occ 17 { 18 19 // For waiting on signals 20 namespace sdbusRule = sdbusplus::bus::match::rules; 21 22 enum class CmdType 23 { 24 POLL = 0x00, 25 CLEAR_ERROR_LOG = 0x12, 26 SET_MODE_AND_STATE = 0x20, 27 SET_CONFIG_DATA = 0x21, 28 SET_USER_PCAP = 0x22, 29 RESET_PREP = 0x25, 30 SEND_AMBIENT = 0x30, 31 DEBUG_PASS_THROUGH = 0x40, 32 AME_PASS_THROUGH = 0x41, 33 GET_FIELD_DEBUG_DATA = 0x42, 34 MFG_TEST = 0x53 35 }; 36 37 enum class OccState 38 { 39 NO_CHANGE = 0x00, 40 STANDBY = 0x01, 41 OBSERVATION = 0x02, 42 ACTIVE = 0x03, 43 SAFE = 0x04, 44 CHARACTERIZATION = 0x05 45 }; 46 47 enum class SysPwrMode 48 { 49 NO_CHANGE = 0, 50 STATIC = 0x01, // Static Base Frequencey 51 NON_DETERMINISTIC = 0x02, // Non-Deterministic 52 SFP = 0x03, // Static Frequency Point (requires freqPt) 53 SAFE = 0x04, // reported when system is in SAFE mode (not settable) 54 POWER_SAVING = 0x05, // Static Power Saving 55 EFF_FAVOR_POWER = 0x06, // Efficiency - Favor Power 56 EFF_FAVOR_PERF = 0x07, // Efficiency - Favor Performance 57 MAX_FREQ = 0x09, // Maximum Frequency (per chip) 58 BALANCED_PERF = 0x0A, // Balanced Performance 59 FFO = 0x0B, // Fixed Frequency Override (requires freqPt) 60 MAX_PERF = 0x0C // Maximum Performance 61 }; 62 63 // Only some of the SysPwrModes are currently supported and allowed to be set 64 #define VALID_POWER_MODE_SETTING(mode) \ 65 ((mode == SysPwrMode::STATIC) || (mode == SysPwrMode::POWER_SAVING) || \ 66 (mode == SysPwrMode::BALANCED_PERF) || (mode == SysPwrMode::MAX_PERF) || \ 67 (mode == SysPwrMode::EFF_FAVOR_POWER) || \ 68 (mode == SysPwrMode::EFF_FAVOR_PERF)) 69 #define VALID_OEM_POWER_MODE_SETTING(mode) \ 70 ((mode == SysPwrMode::SFP) || (mode == SysPwrMode::FFO) || \ 71 (mode == SysPwrMode::MAX_FREQ) || \ 72 (mode == SysPwrMode::NON_DETERMINISTIC)) 73 74 enum class RspStatus 75 { 76 SUCCESS = 0x00, 77 CONDITIONAL_SUCCESS = 0x01, 78 INVALID_COMMAND = 0x11, 79 INVALID_COMMAND_LENGTH = 0x12, 80 INVALID_DATA_FIELD = 0x13, 81 CHECKSUM_FAILURE = 0x14, 82 INTERNAL_ERROR = 0x15, 83 PRESENT_STATE_PROHIBITS = 0x16, 84 COMMAND_IN_PROGRESS = 0xFF 85 }; 86 87 enum class CmdStatus 88 { 89 SUCCESS = 0x00, 90 FAILURE = 0x02, 91 COMM_FAILURE = 0x03 92 }; 93 94 /** @brief Trace block of data in hex with log<level:INFO> 95 * 96 * @param[in] data - vector containing data to trace 97 * @param[in] data_len - optional number of bytes to trace 98 * If 0, entire vector will be traced. 99 */ 100 void dump_hex(const std::vector<std::uint8_t>& data, 101 const unsigned int data_len = 0); 102 103 /** @class OccCommand 104 * @brief Send commands and process respsonses from the OCC 105 */ 106 class OccCommand 107 { 108 public: 109 OccCommand() = delete; 110 OccCommand(const OccCommand&) = delete; 111 OccCommand& operator=(const OccCommand&) = delete; 112 OccCommand(OccCommand&&) = default; 113 OccCommand& operator=(OccCommand&&) = default; 114 115 /** @brief Ctor to set up which OCC the command will go to 116 * 117 * @param[in] instance - OCC instance 118 * @param[in] path - Path to attach at 119 */ 120 OccCommand(uint8_t instance, const char* path); 121 122 /** @brief Dtor to clean up and close device */ 123 ~OccCommand() 124 { 125 closeDevice(); 126 } 127 128 /** @brief Send the command to the OCC and collect the response. 129 * The checksum will be validated and removed from the response. 130 * 131 * @param[in] command - command to pass-through 132 * @param[out] response - response 133 * returns SUCCESS if response was received 134 */ 135 CmdStatus send(const std::vector<std::uint8_t>& command, 136 std::vector<std::uint8_t>& response); 137 138 private: 139 /** @brief Instance number of the target OCC */ 140 uint8_t occInstance; 141 142 /** @brief OCC path on the bus */ 143 std::string path; 144 145 /** @brief OCC device path 146 * For now, here is the hard-coded mapping until 147 * the udev rule is in. 148 * occ0 --> /dev/occ1 149 * occ1 --> /dev/occ2 150 * ... 151 */ 152 std::string devicePath; 153 154 /** @brief Indicates whether or not the OCC is currently active */ 155 bool occActive = false; 156 157 /** brief file descriptor associated with occ device */ 158 int fd = -1; 159 160 /** @brief Subscribe to OCC Status signal 161 * 162 * Once the OCC status gets to active, only then we will get /dev/occ2 163 * populated and hence need to wait on that before opening that 164 */ 165 sdbusplus::bus::match_t activeStatusSignal; 166 167 /** Opens devicePath and populates file descriptor */ 168 void openDevice(); 169 170 /** Closed the fd associated with opened device */ 171 void closeDevice(); 172 173 /** @brief Callback function on OCC Status change signals 174 * 175 * @param[in] msg - Data associated with subscribed signal 176 */ 177 void activeStatusEvent(sdbusplus::message_t& msg); 178 }; 179 180 } // namespace occ 181 } // namespace open_power 182 183 template <> 184 struct std::formatter<open_power::occ::SysPwrMode> : formatter<int> 185 { 186 auto format(open_power::occ::SysPwrMode f, format_context& ctx) const 187 { 188 return formatter<int>::format(std::to_underlying(f), ctx); 189 } 190 }; 191 192 template <> 193 struct std::formatter<open_power::occ::CmdStatus> : formatter<int> 194 { 195 auto format(open_power::occ::CmdStatus f, format_context& ctx) const 196 { 197 return formatter<int>::format(std::to_underlying(f), ctx); 198 } 199 }; 200