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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 | /* SPDX-License-Identifier: GPL-2.0 * * Copyright 2020-2022 HabanaLabs, Ltd. * All Rights Reserved. * */ #ifndef CPUCP_IF_H #define CPUCP_IF_H #include <linux/types.h> #include <linux/if_ether.h> #include "hl_boot_if.h" #define NUM_HBM_PSEUDO_CH 2 #define NUM_HBM_CH_PER_DEV 8 #define CPUCP_PKT_HBM_ECC_INFO_WR_PAR_SHIFT 0 #define CPUCP_PKT_HBM_ECC_INFO_WR_PAR_MASK 0x00000001 #define CPUCP_PKT_HBM_ECC_INFO_RD_PAR_SHIFT 1 #define CPUCP_PKT_HBM_ECC_INFO_RD_PAR_MASK 0x00000002 #define CPUCP_PKT_HBM_ECC_INFO_CA_PAR_SHIFT 2 #define CPUCP_PKT_HBM_ECC_INFO_CA_PAR_MASK 0x00000004 #define CPUCP_PKT_HBM_ECC_INFO_DERR_SHIFT 3 #define CPUCP_PKT_HBM_ECC_INFO_DERR_MASK 0x00000008 #define CPUCP_PKT_HBM_ECC_INFO_SERR_SHIFT 4 #define CPUCP_PKT_HBM_ECC_INFO_SERR_MASK 0x00000010 #define CPUCP_PKT_HBM_ECC_INFO_TYPE_SHIFT 5 #define CPUCP_PKT_HBM_ECC_INFO_TYPE_MASK 0x00000020 #define CPUCP_PKT_HBM_ECC_INFO_HBM_CH_SHIFT 6 #define CPUCP_PKT_HBM_ECC_INFO_HBM_CH_MASK 0x000007C0 #define PLL_MAP_MAX_BITS 128 #define PLL_MAP_LEN (PLL_MAP_MAX_BITS / 8) /* * info of the pkt queue pointers in the first async occurrence */ struct cpucp_pkt_sync_err { __le32 pi; __le32 ci; }; struct hl_eq_hbm_ecc_data { /* SERR counter */ __le32 sec_cnt; /* DERR counter */ __le32 dec_cnt; /* Supplemental Information according to the mask bits */ __le32 hbm_ecc_info; /* Address in hbm where the ecc happened */ __le32 first_addr; /* SERR continuous address counter */ __le32 sec_cont_cnt; __le32 pad; }; /* * EVENT QUEUE */ struct hl_eq_header { __le32 reserved; __le32 ctl; }; struct hl_eq_ecc_data { __le64 ecc_address; __le64 ecc_syndrom; __u8 memory_wrapper_idx; __u8 is_critical; __u8 pad[6]; }; enum hl_sm_sei_cause { SM_SEI_SO_OVERFLOW, SM_SEI_LBW_4B_UNALIGNED, SM_SEI_AXI_RESPONSE_ERR }; struct hl_eq_sm_sei_data { __le32 sei_log; /* enum hl_sm_sei_cause */ __u8 sei_cause; __u8 pad[3]; }; enum hl_fw_alive_severity { FW_ALIVE_SEVERITY_MINOR, FW_ALIVE_SEVERITY_CRITICAL }; struct hl_eq_fw_alive { __le64 uptime_seconds; __le32 process_id; __le32 thread_id; /* enum hl_fw_alive_severity */ __u8 severity; __u8 pad[7]; }; struct hl_eq_intr_cause { __le64 intr_cause_data; }; struct hl_eq_pcie_drain_ind_data { struct hl_eq_intr_cause intr_cause; __le64 drain_wr_addr_lbw; __le64 drain_rd_addr_lbw; __le64 drain_wr_addr_hbw; __le64 drain_rd_addr_hbw; }; struct hl_eq_razwi_lbw_info_regs { __le32 rr_aw_razwi_reg; __le32 rr_aw_razwi_id_reg; __le32 rr_ar_razwi_reg; __le32 rr_ar_razwi_id_reg; }; struct hl_eq_razwi_hbw_info_regs { __le32 rr_aw_razwi_hi_reg; __le32 rr_aw_razwi_lo_reg; __le32 rr_aw_razwi_id_reg; __le32 rr_ar_razwi_hi_reg; __le32 rr_ar_razwi_lo_reg; __le32 rr_ar_razwi_id_reg; }; /* razwi_happened masks */ #define RAZWI_HAPPENED_HBW 0x1 #define RAZWI_HAPPENED_LBW 0x2 #define RAZWI_HAPPENED_AW 0x4 #define RAZWI_HAPPENED_AR 0x8 struct hl_eq_razwi_info { __le32 razwi_happened_mask; union { struct hl_eq_razwi_lbw_info_regs lbw; struct hl_eq_razwi_hbw_info_regs hbw; }; __le32 pad; }; struct hl_eq_razwi_with_intr_cause { struct hl_eq_razwi_info razwi_info; struct hl_eq_intr_cause intr_cause; }; #define HBM_CA_ERR_CMD_LIFO_LEN 8 #define HBM_RD_ERR_DATA_LIFO_LEN 8 #define HBM_WR_PAR_CMD_LIFO_LEN 11 enum hl_hbm_sei_cause { /* Command/address parity error event is split into 2 events due to * size limitation: ODD suffix for odd HBM CK_t cycles and EVEN suffix * for even HBM CK_t cycles */ HBM_SEI_CMD_PARITY_EVEN, HBM_SEI_CMD_PARITY_ODD, /* Read errors can be reflected as a combination of SERR/DERR/parity * errors. Therefore, we define one event for all read error types. * LKD will perform further proccessing. */ HBM_SEI_READ_ERR, HBM_SEI_WRITE_DATA_PARITY_ERR, HBM_SEI_CATTRIP, HBM_SEI_MEM_BIST_FAIL, HBM_SEI_DFI, HBM_SEI_INV_TEMP_READ_OUT, HBM_SEI_BIST_FAIL, }; /* Masks for parsing hl_hbm_sei_headr fields */ #define HBM_ECC_SERR_CNTR_MASK 0xFF #define HBM_ECC_DERR_CNTR_MASK 0xFF00 #define HBM_RD_PARITY_CNTR_MASK 0xFF0000 /* HBM index and MC index are known by the event_id */ struct hl_hbm_sei_header { union { /* relevant only in case of HBM read error */ struct { __u8 ecc_serr_cnt; __u8 ecc_derr_cnt; __u8 read_par_cnt; __u8 reserved; }; /* All other cases */ __le32 cnt; }; __u8 sei_cause; /* enum hl_hbm_sei_cause */ __u8 mc_channel; /* range: 0-3 */ __u8 mc_pseudo_channel; /* range: 0-7 */ __u8 is_critical; }; #define HBM_RD_ADDR_SID_SHIFT 0 #define HBM_RD_ADDR_SID_MASK 0x1 #define HBM_RD_ADDR_BG_SHIFT 1 #define HBM_RD_ADDR_BG_MASK 0x6 #define HBM_RD_ADDR_BA_SHIFT 3 #define HBM_RD_ADDR_BA_MASK 0x18 #define HBM_RD_ADDR_COL_SHIFT 5 #define HBM_RD_ADDR_COL_MASK 0x7E0 #define HBM_RD_ADDR_ROW_SHIFT 11 #define HBM_RD_ADDR_ROW_MASK 0x3FFF800 struct hbm_rd_addr { union { /* bit fields are only for FW use */ struct { u32 dbg_rd_err_addr_sid:1; u32 dbg_rd_err_addr_bg:2; u32 dbg_rd_err_addr_ba:2; u32 dbg_rd_err_addr_col:6; u32 dbg_rd_err_addr_row:15; u32 reserved:6; }; __le32 rd_addr_val; }; }; #define HBM_RD_ERR_BEAT_SHIFT 2 /* dbg_rd_err_misc fields: */ /* Read parity is calculated per DW on every beat */ #define HBM_RD_ERR_PAR_ERR_BEAT0_SHIFT 0 #define HBM_RD_ERR_PAR_ERR_BEAT0_MASK 0x3 #define HBM_RD_ERR_PAR_DATA_BEAT0_SHIFT 8 #define HBM_RD_ERR_PAR_DATA_BEAT0_MASK 0x300 /* ECC is calculated per PC on every beat */ #define HBM_RD_ERR_SERR_BEAT0_SHIFT 16 #define HBM_RD_ERR_SERR_BEAT0_MASK 0x10000 #define HBM_RD_ERR_DERR_BEAT0_SHIFT 24 #define HBM_RD_ERR_DERR_BEAT0_MASK 0x100000 struct hl_eq_hbm_sei_read_err_intr_info { /* DFI_RD_ERR_REP_ADDR */ struct hbm_rd_addr dbg_rd_err_addr; /* DFI_RD_ERR_REP_ERR */ union { struct { /* bit fields are only for FW use */ u32 dbg_rd_err_par:8; u32 dbg_rd_err_par_data:8; u32 dbg_rd_err_serr:4; u32 dbg_rd_err_derr:4; u32 reserved:8; }; __le32 dbg_rd_err_misc; }; /* DFI_RD_ERR_REP_DM */ __le32 dbg_rd_err_dm; /* DFI_RD_ERR_REP_SYNDROME */ __le32 dbg_rd_err_syndrome; /* DFI_RD_ERR_REP_DATA */ __le32 dbg_rd_err_data[HBM_RD_ERR_DATA_LIFO_LEN]; }; struct hl_eq_hbm_sei_ca_par_intr_info { /* 14 LSBs */ __le16 dbg_row[HBM_CA_ERR_CMD_LIFO_LEN]; /* 18 LSBs */ __le32 dbg_col[HBM_CA_ERR_CMD_LIFO_LEN]; }; #define WR_PAR_LAST_CMD_COL_SHIFT 0 #define WR_PAR_LAST_CMD_COL_MASK 0x3F #define WR_PAR_LAST_CMD_BG_SHIFT 6 #define WR_PAR_LAST_CMD_BG_MASK 0xC0 #define WR_PAR_LAST_CMD_BA_SHIFT 8 #define WR_PAR_LAST_CMD_BA_MASK 0x300 #define WR_PAR_LAST_CMD_SID_SHIFT 10 #define WR_PAR_LAST_CMD_SID_MASK 0x400 /* Row address isn't latched */ struct hbm_sei_wr_cmd_address { /* DFI_DERR_LAST_CMD */ union { struct { /* bit fields are only for FW use */ u32 col:6; u32 bg:2; u32 ba:2; u32 sid:1; u32 reserved:21; }; __le32 dbg_wr_cmd_addr; }; }; struct hl_eq_hbm_sei_wr_par_intr_info { /* entry 0: WR command address from the 1st cycle prior to the error * entry 1: WR command address from the 2nd cycle prior to the error * and so on... */ struct hbm_sei_wr_cmd_address dbg_last_wr_cmds[HBM_WR_PAR_CMD_LIFO_LEN]; /* derr[0:1] - 1st HBM cycle DERR output * derr[2:3] - 2nd HBM cycle DERR output */ __u8 dbg_derr; /* extend to reach 8B */ __u8 pad[3]; }; /* * this struct represents the following sei causes: * command parity, ECC double error, ECC single error, dfi error, cattrip, * temperature read-out, read parity error and write parity error. * some only use the header while some have extra data. */ struct hl_eq_hbm_sei_data { struct hl_hbm_sei_header hdr; union { struct hl_eq_hbm_sei_ca_par_intr_info ca_parity_even_info; struct hl_eq_hbm_sei_ca_par_intr_info ca_parity_odd_info; struct hl_eq_hbm_sei_read_err_intr_info read_err_info; struct hl_eq_hbm_sei_wr_par_intr_info wr_parity_info; }; }; /* Engine/farm arc interrupt type */ enum hl_engine_arc_interrupt_type { /* Qman/farm ARC DCCM QUEUE FULL interrupt type */ ENGINE_ARC_DCCM_QUEUE_FULL_IRQ = 1 }; /* Data structure specifies details of payload of DCCM QUEUE FULL interrupt */ struct hl_engine_arc_dccm_queue_full_irq { /* Queue index value which caused DCCM QUEUE FULL */ __le32 queue_index; __le32 pad; }; /* Data structure specifies details of QM/FARM ARC interrupt */ struct hl_eq_engine_arc_intr_data { /* ARC engine id e.g. DCORE0_TPC0_QM_ARC, DCORE0_TCP1_QM_ARC */ __le32 engine_id; __le32 intr_type; /* enum hl_engine_arc_interrupt_type */ /* More info related to the interrupt e.g. queue index * incase of DCCM_QUEUE_FULL interrupt. */ __le64 payload; __le64 pad[5]; }; #define ADDR_DEC_ADDRESS_COUNT_MAX 4 /* Data structure specifies details of ADDR_DEC interrupt */ struct hl_eq_addr_dec_intr_data { struct hl_eq_intr_cause intr_cause; __le64 addr[ADDR_DEC_ADDRESS_COUNT_MAX]; __u8 addr_cnt; __u8 pad[7]; }; struct hl_eq_entry { struct hl_eq_header hdr; union { __le64 data_placeholder; struct hl_eq_ecc_data ecc_data; struct hl_eq_hbm_ecc_data hbm_ecc_data; /* Obsolete */ struct hl_eq_sm_sei_data sm_sei_data; struct cpucp_pkt_sync_err pkt_sync_err; struct hl_eq_fw_alive fw_alive; struct hl_eq_intr_cause intr_cause; struct hl_eq_pcie_drain_ind_data pcie_drain_ind_data; struct hl_eq_razwi_info razwi_info; struct hl_eq_razwi_with_intr_cause razwi_with_intr_cause; struct hl_eq_hbm_sei_data sei_data; /* Gaudi2 HBM */ struct hl_eq_engine_arc_intr_data arc_data; struct hl_eq_addr_dec_intr_data addr_dec; __le64 data[7]; }; }; #define HL_EQ_ENTRY_SIZE sizeof(struct hl_eq_entry) #define EQ_CTL_READY_SHIFT 31 #define EQ_CTL_READY_MASK 0x80000000 #define EQ_CTL_EVENT_TYPE_SHIFT 16 #define EQ_CTL_EVENT_TYPE_MASK 0x0FFF0000 #define EQ_CTL_INDEX_SHIFT 0 #define EQ_CTL_INDEX_MASK 0x0000FFFF enum pq_init_status { PQ_INIT_STATUS_NA = 0, PQ_INIT_STATUS_READY_FOR_CP, PQ_INIT_STATUS_READY_FOR_HOST, PQ_INIT_STATUS_READY_FOR_CP_SINGLE_MSI, PQ_INIT_STATUS_LEN_NOT_POWER_OF_TWO_ERR, PQ_INIT_STATUS_ILLEGAL_Q_ADDR_ERR }; /* * CpuCP Primary Queue Packets * * During normal operation, the host's kernel driver needs to send various * messages to CpuCP, usually either to SET some value into a H/W periphery or * to GET the current value of some H/W periphery. For example, SET the * frequency of MME/TPC and GET the value of the thermal sensor. * * These messages can be initiated either by the User application or by the * host's driver itself, e.g. power management code. In either case, the * communication from the host's driver to CpuCP will *always* be in * synchronous mode, meaning that the host will send a single message and poll * until the message was acknowledged and the results are ready (if results are * needed). * * This means that only a single message can be sent at a time and the host's * driver must wait for its result before sending the next message. Having said * that, because these are control messages which are sent in a relatively low * frequency, this limitation seems acceptable. It's important to note that * in case of multiple devices, messages to different devices *can* be sent * at the same time. * * The message, inputs/outputs (if relevant) and fence object will be located * on the device DDR at an address that will be determined by the host's driver. * During device initialization phase, the host will pass to CpuCP that address. * Most of the message types will contain inputs/outputs inside the message * itself. The common part of each message will contain the opcode of the * message (its type) and a field representing a fence object. * * When the host's driver wishes to send a message to CPU CP, it will write the * message contents to the device DDR, clear the fence object and then write to * the PSOC_ARC1_AUX_SW_INTR, to issue interrupt 121 to ARC Management CPU. * * Upon receiving the interrupt (#121), CpuCP will read the message from the * DDR. In case the message is a SET operation, CpuCP will first perform the * operation and then write to the fence object on the device DDR. In case the * message is a GET operation, CpuCP will first fill the results section on the * device DDR and then write to the fence object. If an error occurred, CpuCP * will fill the rc field with the right error code. * * In the meantime, the host's driver will poll on the fence object. Once the * host sees that the fence object is signaled, it will read the results from * the device DDR (if relevant) and resume the code execution in the host's * driver. * * To use QMAN packets, the opcode must be the QMAN opcode, shifted by 8 * so the value being put by the host's driver matches the value read by CpuCP * * Non-QMAN packets should be limited to values 1 through (2^8 - 1) * * Detailed description: * * CPUCP_PACKET_DISABLE_PCI_ACCESS - * After receiving this packet the embedded CPU must NOT issue PCI * transactions (read/write) towards the Host CPU. This also include * sending MSI-X interrupts. * This packet is usually sent before the device is moved to D3Hot state. * * CPUCP_PACKET_ENABLE_PCI_ACCESS - * After receiving this packet the embedded CPU is allowed to issue PCI * transactions towards the Host CPU, including sending MSI-X interrupts. * This packet is usually send after the device is moved to D0 state. * * CPUCP_PACKET_TEMPERATURE_GET - * Fetch the current temperature / Max / Max Hyst / Critical / * Critical Hyst of a specified thermal sensor. The packet's * arguments specify the desired sensor and the field to get. * * CPUCP_PACKET_VOLTAGE_GET - * Fetch the voltage / Max / Min of a specified sensor. The packet's * arguments specify the sensor and type. * * CPUCP_PACKET_CURRENT_GET - * Fetch the current / Max / Min of a specified sensor. The packet's * arguments specify the sensor and type. * * CPUCP_PACKET_FAN_SPEED_GET - * Fetch the speed / Max / Min of a specified fan. The packet's * arguments specify the sensor and type. * * CPUCP_PACKET_PWM_GET - * Fetch the pwm value / mode of a specified pwm. The packet's * arguments specify the sensor and type. * * CPUCP_PACKET_PWM_SET - * Set the pwm value / mode of a specified pwm. The packet's * arguments specify the sensor, type and value. * * CPUCP_PACKET_FREQUENCY_SET - * Set the frequency of a specified PLL. The packet's arguments specify * the PLL and the desired frequency. The actual frequency in the device * might differ from the requested frequency. * * CPUCP_PACKET_FREQUENCY_GET - * Fetch the frequency of a specified PLL. The packet's arguments specify * the PLL. * * CPUCP_PACKET_LED_SET - * Set the state of a specified led. The packet's arguments * specify the led and the desired state. * * CPUCP_PACKET_I2C_WR - * Write 32-bit value to I2C device. The packet's arguments specify the * I2C bus, address and value. * * CPUCP_PACKET_I2C_RD - * Read 32-bit value from I2C device. The packet's arguments specify the * I2C bus and address. * * CPUCP_PACKET_INFO_GET - * Fetch information from the device as specified in the packet's * structure. The host's driver passes the max size it allows the CpuCP to * write to the structure, to prevent data corruption in case of * mismatched driver/FW versions. * * CPUCP_PACKET_FLASH_PROGRAM_REMOVED - this packet was removed * * CPUCP_PACKET_UNMASK_RAZWI_IRQ - * Unmask the given IRQ. The IRQ number is specified in the value field. * The packet is sent after receiving an interrupt and printing its * relevant information. * * CPUCP_PACKET_UNMASK_RAZWI_IRQ_ARRAY - * Unmask the given IRQs. The IRQs numbers are specified in an array right * after the cpucp_packet structure, where its first element is the array * length. The packet is sent after a soft reset was done in order to * handle any interrupts that were sent during the reset process. * * CPUCP_PACKET_TEST - * Test packet for CpuCP connectivity. The CPU will put the fence value * in the result field. * * CPUCP_PACKET_FREQUENCY_CURR_GET - * Fetch the current frequency of a specified PLL. The packet's arguments * specify the PLL. * * CPUCP_PACKET_MAX_POWER_GET - * Fetch the maximal power of the device. * * CPUCP_PACKET_MAX_POWER_SET - * Set the maximal power of the device. The packet's arguments specify * the power. * * CPUCP_PACKET_EEPROM_DATA_GET - * Get EEPROM data from the CpuCP kernel. The buffer is specified in the * addr field. The CPU will put the returned data size in the result * field. In addition, the host's driver passes the max size it allows the * CpuCP to write to the structure, to prevent data corruption in case of * mismatched driver/FW versions. * * CPUCP_PACKET_NIC_INFO_GET - * Fetch information from the device regarding the NIC. the host's driver * passes the max size it allows the CpuCP to write to the structure, to * prevent data corruption in case of mismatched driver/FW versions. * * CPUCP_PACKET_TEMPERATURE_SET - * Set the value of the offset property of a specified thermal sensor. * The packet's arguments specify the desired sensor and the field to * set. * * CPUCP_PACKET_VOLTAGE_SET - * Trigger the reset_history property of a specified voltage sensor. * The packet's arguments specify the desired sensor and the field to * set. * * CPUCP_PACKET_CURRENT_SET - * Trigger the reset_history property of a specified current sensor. * The packet's arguments specify the desired sensor and the field to * set. * * CPUCP_PACKET_PCIE_THROUGHPUT_GET - * Get throughput of PCIe. * The packet's arguments specify the transaction direction (TX/RX). * The window measurement is 10[msec], and the return value is in KB/sec. * * CPUCP_PACKET_PCIE_REPLAY_CNT_GET * Replay count measures number of "replay" events, which is basicly * number of retries done by PCIe. * * CPUCP_PACKET_TOTAL_ENERGY_GET - * Total Energy is measurement of energy from the time FW Linux * is loaded. It is calculated by multiplying the average power * by time (passed from armcp start). The units are in MilliJouls. * * CPUCP_PACKET_PLL_INFO_GET - * Fetch frequencies of PLL from the required PLL IP. * The packet's arguments specify the device PLL type * Pll type is the PLL from device pll_index enum. * The result is composed of 4 outputs, each is 16-bit * frequency in MHz. * * CPUCP_PACKET_POWER_GET - * Fetch the present power consumption of the device (Current * Voltage). * * CPUCP_PACKET_NIC_PFC_SET - * Enable/Disable the NIC PFC feature. The packet's arguments specify the * NIC port, relevant lanes to configure and one bit indication for * enable/disable. * * CPUCP_PACKET_NIC_FAULT_GET - * Fetch the current indication for local/remote faults from the NIC MAC. * The result is 32-bit value of the relevant register. * * CPUCP_PACKET_NIC_LPBK_SET - * Enable/Disable the MAC loopback feature. The packet's arguments specify * the NIC port, relevant lanes to configure and one bit indication for * enable/disable. * * CPUCP_PACKET_NIC_MAC_INIT - * Configure the NIC MAC channels. The packet's arguments specify the * NIC port and the speed. * * CPUCP_PACKET_MSI_INFO_SET - * set the index number for each supported msi type going from * host to device * * CPUCP_PACKET_NIC_XPCS91_REGS_GET - * Fetch the un/correctable counters values from the NIC MAC. * * CPUCP_PACKET_NIC_STAT_REGS_GET - * Fetch various NIC MAC counters from the NIC STAT. * * CPUCP_PACKET_NIC_STAT_REGS_CLR - * Clear the various NIC MAC counters in the NIC STAT. * * CPUCP_PACKET_NIC_STAT_REGS_ALL_GET - * Fetch all NIC MAC counters from the NIC STAT. * * CPUCP_PACKET_IS_IDLE_CHECK - * Check if the device is IDLE in regard to the DMA/compute engines * and QMANs. The f/w will return a bitmask where each bit represents * a different engine or QMAN according to enum cpucp_idle_mask. * The bit will be 1 if the engine is NOT idle. * * CPUCP_PACKET_HBM_REPLACED_ROWS_INFO_GET - * Fetch all HBM replaced-rows and prending to be replaced rows data. * * CPUCP_PACKET_HBM_PENDING_ROWS_STATUS - * Fetch status of HBM rows pending replacement and need a reboot to * be replaced. * * CPUCP_PACKET_POWER_SET - * Resets power history of device to 0 * * CPUCP_PACKET_ENGINE_CORE_ASID_SET - * Packet to perform engine core ASID configuration * * CPUCP_PACKET_SEC_ATTEST_GET - * Get the attestaion data that is collected during various stages of the * boot sequence. the attestation data is also hashed with some unique * number (nonce) provided by the host to prevent replay attacks. * public key and certificate also provided as part of the FW response. * * CPUCP_PACKET_MONITOR_DUMP_GET - * Get monitors registers dump from the CpuCP kernel. * The CPU will put the registers dump in the a buffer allocated by the driver * which address is passed via the CpuCp packet. In addition, the host's driver * passes the max size it allows the CpuCP to write to the structure, to prevent * data corruption in case of mismatched driver/FW versions. * Obsolete. * * CPUCP_PACKET_GENERIC_PASSTHROUGH - * Generic opcode for all firmware info that is only passed to host * through the LKD, without getting parsed there. * * CPUCP_PACKET_ACTIVE_STATUS_SET - * LKD sends FW indication whether device is free or in use, this indication is reported * also to the BMC. * * CPUCP_PACKET_REGISTER_INTERRUPTS - * Packet to register interrupts indicating LKD is ready to receive events from FW. * * CPUCP_PACKET_SOFT_RESET - * Packet to perform soft-reset. */ enum cpucp_packet_id { CPUCP_PACKET_DISABLE_PCI_ACCESS = 1, /* internal */ CPUCP_PACKET_ENABLE_PCI_ACCESS, /* internal */ CPUCP_PACKET_TEMPERATURE_GET, /* sysfs */ CPUCP_PACKET_VOLTAGE_GET, /* sysfs */ CPUCP_PACKET_CURRENT_GET, /* sysfs */ CPUCP_PACKET_FAN_SPEED_GET, /* sysfs */ CPUCP_PACKET_PWM_GET, /* sysfs */ CPUCP_PACKET_PWM_SET, /* sysfs */ CPUCP_PACKET_FREQUENCY_SET, /* sysfs */ CPUCP_PACKET_FREQUENCY_GET, /* sysfs */ CPUCP_PACKET_LED_SET, /* debugfs */ CPUCP_PACKET_I2C_WR, /* debugfs */ CPUCP_PACKET_I2C_RD, /* debugfs */ CPUCP_PACKET_INFO_GET, /* IOCTL */ CPUCP_PACKET_FLASH_PROGRAM_REMOVED, CPUCP_PACKET_UNMASK_RAZWI_IRQ, /* internal */ CPUCP_PACKET_UNMASK_RAZWI_IRQ_ARRAY, /* internal */ CPUCP_PACKET_TEST, /* internal */ CPUCP_PACKET_FREQUENCY_CURR_GET, /* sysfs */ CPUCP_PACKET_MAX_POWER_GET, /* sysfs */ CPUCP_PACKET_MAX_POWER_SET, /* sysfs */ CPUCP_PACKET_EEPROM_DATA_GET, /* sysfs */ CPUCP_PACKET_NIC_INFO_GET, /* internal */ CPUCP_PACKET_TEMPERATURE_SET, /* sysfs */ CPUCP_PACKET_VOLTAGE_SET, /* sysfs */ CPUCP_PACKET_CURRENT_SET, /* sysfs */ CPUCP_PACKET_PCIE_THROUGHPUT_GET, /* internal */ CPUCP_PACKET_PCIE_REPLAY_CNT_GET, /* internal */ CPUCP_PACKET_TOTAL_ENERGY_GET, /* internal */ CPUCP_PACKET_PLL_INFO_GET, /* internal */ CPUCP_PACKET_NIC_STATUS, /* internal */ CPUCP_PACKET_POWER_GET, /* internal */ CPUCP_PACKET_NIC_PFC_SET, /* internal */ CPUCP_PACKET_NIC_FAULT_GET, /* internal */ CPUCP_PACKET_NIC_LPBK_SET, /* internal */ CPUCP_PACKET_NIC_MAC_CFG, /* internal */ CPUCP_PACKET_MSI_INFO_SET, /* internal */ CPUCP_PACKET_NIC_XPCS91_REGS_GET, /* internal */ CPUCP_PACKET_NIC_STAT_REGS_GET, /* internal */ CPUCP_PACKET_NIC_STAT_REGS_CLR, /* internal */ CPUCP_PACKET_NIC_STAT_REGS_ALL_GET, /* internal */ CPUCP_PACKET_IS_IDLE_CHECK, /* internal */ CPUCP_PACKET_HBM_REPLACED_ROWS_INFO_GET,/* internal */ CPUCP_PACKET_HBM_PENDING_ROWS_STATUS, /* internal */ CPUCP_PACKET_POWER_SET, /* internal */ CPUCP_PACKET_RESERVED, /* not used */ CPUCP_PACKET_ENGINE_CORE_ASID_SET, /* internal */ CPUCP_PACKET_RESERVED2, /* not used */ CPUCP_PACKET_SEC_ATTEST_GET, /* internal */ CPUCP_PACKET_RESERVED3, /* not used */ CPUCP_PACKET_RESERVED4, /* not used */ CPUCP_PACKET_MONITOR_DUMP_GET, /* debugfs */ CPUCP_PACKET_RESERVED5, /* not used */ CPUCP_PACKET_RESERVED6, /* not used */ CPUCP_PACKET_RESERVED7, /* not used */ CPUCP_PACKET_GENERIC_PASSTHROUGH, /* IOCTL */ CPUCP_PACKET_RESERVED8, /* not used */ CPUCP_PACKET_ACTIVE_STATUS_SET, /* internal */ CPUCP_PACKET_RESERVED9, /* not used */ CPUCP_PACKET_RESERVED10, /* not used */ CPUCP_PACKET_RESERVED11, /* not used */ CPUCP_PACKET_RESERVED12, /* internal */ CPUCP_PACKET_REGISTER_INTERRUPTS, /* internal */ CPUCP_PACKET_SOFT_RESET, /* internal */ CPUCP_PACKET_ID_MAX /* must be last */ }; #define CPUCP_PACKET_FENCE_VAL 0xFE8CE7A5 #define CPUCP_PKT_CTL_RC_SHIFT 12 #define CPUCP_PKT_CTL_RC_MASK 0x0000F000 #define CPUCP_PKT_CTL_OPCODE_SHIFT 16 #define CPUCP_PKT_CTL_OPCODE_MASK 0x1FFF0000 #define CPUCP_PKT_RES_PLL_OUT0_SHIFT 0 #define CPUCP_PKT_RES_PLL_OUT0_MASK 0x000000000000FFFFull #define CPUCP_PKT_RES_PLL_OUT1_SHIFT 16 #define CPUCP_PKT_RES_PLL_OUT1_MASK 0x00000000FFFF0000ull #define CPUCP_PKT_RES_PLL_OUT2_SHIFT 32 #define CPUCP_PKT_RES_PLL_OUT2_MASK 0x0000FFFF00000000ull #define CPUCP_PKT_RES_PLL_OUT3_SHIFT 48 #define CPUCP_PKT_RES_PLL_OUT3_MASK 0xFFFF000000000000ull #define CPUCP_PKT_RES_EEPROM_OUT0_SHIFT 0 #define CPUCP_PKT_RES_EEPROM_OUT0_MASK 0x000000000000FFFFull #define CPUCP_PKT_RES_EEPROM_OUT1_SHIFT 16 #define CPUCP_PKT_RES_EEPROM_OUT1_MASK 0x0000000000FF0000ull #define CPUCP_PKT_VAL_PFC_IN1_SHIFT 0 #define CPUCP_PKT_VAL_PFC_IN1_MASK 0x0000000000000001ull #define CPUCP_PKT_VAL_PFC_IN2_SHIFT 1 #define CPUCP_PKT_VAL_PFC_IN2_MASK 0x000000000000001Eull #define CPUCP_PKT_VAL_LPBK_IN1_SHIFT 0 #define CPUCP_PKT_VAL_LPBK_IN1_MASK 0x0000000000000001ull #define CPUCP_PKT_VAL_LPBK_IN2_SHIFT 1 #define CPUCP_PKT_VAL_LPBK_IN2_MASK 0x000000000000001Eull #define CPUCP_PKT_VAL_MAC_CNT_IN1_SHIFT 0 #define CPUCP_PKT_VAL_MAC_CNT_IN1_MASK 0x0000000000000001ull #define CPUCP_PKT_VAL_MAC_CNT_IN2_SHIFT 1 #define CPUCP_PKT_VAL_MAC_CNT_IN2_MASK 0x00000000FFFFFFFEull /* heartbeat status bits */ #define CPUCP_PKT_HB_STATUS_EQ_FAULT_SHIFT 0 #define CPUCP_PKT_HB_STATUS_EQ_FAULT_MASK 0x00000001 struct cpucp_packet { union { __le64 value; /* For SET packets */ __le64 result; /* For GET packets */ __le64 addr; /* For PQ */ }; __le32 ctl; __le32 fence; /* Signal to host that message is completed */ union { struct {/* For temperature/current/voltage/fan/pwm get/set */ __le16 sensor_index; __le16 type; }; struct { /* For I2C read/write */ __u8 i2c_bus; __u8 i2c_addr; __u8 i2c_reg; /* * In legacy implemetations, i2c_len was not present, * was unused and just added as pad. * So if i2c_len is 0, it is treated as legacy * and r/w 1 Byte, else if i2c_len is specified, * its treated as new multibyte r/w support. */ __u8 i2c_len; }; struct {/* For PLL info fetch */ __le16 pll_type; /* TODO pll_reg is kept temporary before removal */ __le16 pll_reg; }; /* For any general request */ __le32 index; /* For frequency get/set */ __le32 pll_index; /* For led set */ __le32 led_index; /* For get CpuCP info/EEPROM data/NIC info */ __le32 data_max_size; /* * For any general status bitmask. Shall be used whenever the * result cannot be used to hold general purpose data. */ __le32 status_mask; /* random, used once number, for security packets */ __le32 nonce; }; union { /* For NIC requests */ __le32 port_index; /* For Generic packet sub index */ __le32 pkt_subidx; }; }; struct cpucp_unmask_irq_arr_packet { struct cpucp_packet cpucp_pkt; __le32 length; __le32 irqs[]; }; struct cpucp_nic_status_packet { struct cpucp_packet cpucp_pkt; __le32 length; __le32 data[]; }; struct cpucp_array_data_packet { struct cpucp_packet cpucp_pkt; __le32 length; __le32 data[]; }; enum cpucp_led_index { CPUCP_LED0_INDEX = 0, CPUCP_LED1_INDEX, CPUCP_LED2_INDEX, CPUCP_LED_MAX_INDEX = CPUCP_LED2_INDEX }; /* * enum cpucp_packet_rc - Error return code * @cpucp_packet_success -> in case of success. * @cpucp_packet_invalid -> this is to support first generation platforms. * @cpucp_packet_fault -> in case of processing error like failing to * get device binding or semaphore etc. * @cpucp_packet_invalid_pkt -> when cpucp packet is un-supported. * @cpucp_packet_invalid_params -> when checking parameter like length of buffer * or attribute value etc. * @cpucp_packet_rc_max -> It indicates size of enum so should be at last. */ enum cpucp_packet_rc { cpucp_packet_success, cpucp_packet_invalid, cpucp_packet_fault, cpucp_packet_invalid_pkt, cpucp_packet_invalid_params, cpucp_packet_rc_max }; /* * cpucp_temp_type should adhere to hwmon_temp_attributes * defined in Linux kernel hwmon.h file */ enum cpucp_temp_type { cpucp_temp_input, cpucp_temp_min = 4, cpucp_temp_min_hyst, cpucp_temp_max = 6, cpucp_temp_max_hyst, cpucp_temp_crit, cpucp_temp_crit_hyst, cpucp_temp_offset = 19, cpucp_temp_lowest = 21, cpucp_temp_highest = 22, cpucp_temp_reset_history = 23, cpucp_temp_warn = 24, cpucp_temp_max_crit = 25, cpucp_temp_max_warn = 26, }; enum cpucp_in_attributes { cpucp_in_input, cpucp_in_min, cpucp_in_max, cpucp_in_lowest = 6, cpucp_in_highest = 7, cpucp_in_reset_history, cpucp_in_intr_alarm_a, cpucp_in_intr_alarm_b, }; enum cpucp_curr_attributes { cpucp_curr_input, cpucp_curr_min, cpucp_curr_max, cpucp_curr_lowest = 6, cpucp_curr_highest = 7, cpucp_curr_reset_history }; enum cpucp_fan_attributes { cpucp_fan_input, cpucp_fan_min = 2, cpucp_fan_max }; enum cpucp_pwm_attributes { cpucp_pwm_input, cpucp_pwm_enable }; enum cpucp_pcie_throughput_attributes { cpucp_pcie_throughput_tx, cpucp_pcie_throughput_rx }; /* TODO temporary kept before removal */ enum cpucp_pll_reg_attributes { cpucp_pll_nr_reg, cpucp_pll_nf_reg, cpucp_pll_od_reg, cpucp_pll_div_factor_reg, cpucp_pll_div_sel_reg }; /* TODO temporary kept before removal */ enum cpucp_pll_type_attributes { cpucp_pll_cpu, cpucp_pll_pci, }; /* * cpucp_power_type aligns with hwmon_power_attributes * defined in Linux kernel hwmon.h file */ enum cpucp_power_type { CPUCP_POWER_INPUT = 8, CPUCP_POWER_INPUT_HIGHEST = 9, CPUCP_POWER_RESET_INPUT_HISTORY = 11 }; /* * MSI type enumeration table for all ASICs and future SW versions. * For future ASIC-LKD compatibility, we can only add new enumerations. * at the end of the table (before CPUCP_NUM_OF_MSI_TYPES). * Changing the order of entries or removing entries is not allowed. */ enum cpucp_msi_type { CPUCP_EVENT_QUEUE_MSI_TYPE, CPUCP_NIC_PORT1_MSI_TYPE, CPUCP_NIC_PORT3_MSI_TYPE, CPUCP_NIC_PORT5_MSI_TYPE, CPUCP_NIC_PORT7_MSI_TYPE, CPUCP_NIC_PORT9_MSI_TYPE, CPUCP_NUM_OF_MSI_TYPES }; /* * PLL enumeration table used for all ASICs and future SW versions. * For future ASIC-LKD compatibility, we can only add new enumerations. * at the end of the table. * Changing the order of entries or removing entries is not allowed. */ enum pll_index { CPU_PLL = 0, PCI_PLL = 1, NIC_PLL = 2, DMA_PLL = 3, MESH_PLL = 4, MME_PLL = 5, TPC_PLL = 6, IF_PLL = 7, SRAM_PLL = 8, NS_PLL = 9, HBM_PLL = 10, MSS_PLL = 11, DDR_PLL = 12, VID_PLL = 13, BANK_PLL = 14, MMU_PLL = 15, IC_PLL = 16, MC_PLL = 17, EMMC_PLL = 18, D2D_PLL = 19, CS_PLL = 20, C2C_PLL = 21, NCH_PLL = 22, C2M_PLL = 23, PLL_MAX }; enum rl_index { TPC_RL = 0, MME_RL, EDMA_RL, }; enum pvt_index { PVT_SW, PVT_SE, PVT_NW, PVT_NE }; /* Event Queue Packets */ struct eq_generic_event { __le64 data[7]; }; /* * CpuCP info */ #define CARD_NAME_MAX_LEN 16 #define CPUCP_MAX_SENSORS 128 #define CPUCP_MAX_NICS 128 #define CPUCP_LANES_PER_NIC 4 #define CPUCP_NIC_QSFP_EEPROM_MAX_LEN 1024 #define CPUCP_MAX_NIC_LANES (CPUCP_MAX_NICS * CPUCP_LANES_PER_NIC) #define CPUCP_NIC_MASK_ARR_LEN ((CPUCP_MAX_NICS + 63) / 64) #define CPUCP_NIC_POLARITY_ARR_LEN ((CPUCP_MAX_NIC_LANES + 63) / 64) #define CPUCP_HBM_ROW_REPLACE_MAX 32 struct cpucp_sensor { __le32 type; __le32 flags; }; /** * struct cpucp_card_types - ASIC card type. * @cpucp_card_type_pci: PCI card. * @cpucp_card_type_pmc: PCI Mezzanine Card. */ enum cpucp_card_types { cpucp_card_type_pci, cpucp_card_type_pmc }; #define CPUCP_SEC_CONF_ENABLED_SHIFT 0 #define CPUCP_SEC_CONF_ENABLED_MASK 0x00000001 #define CPUCP_SEC_CONF_FLASH_WP_SHIFT 1 #define CPUCP_SEC_CONF_FLASH_WP_MASK 0x00000002 #define CPUCP_SEC_CONF_EEPROM_WP_SHIFT 2 #define CPUCP_SEC_CONF_EEPROM_WP_MASK 0x00000004 /** * struct cpucp_security_info - Security information. * @config: configuration bit field * @keys_num: number of stored keys * @revoked_keys: revoked keys bit field * @min_svn: minimal security version */ struct cpucp_security_info { __u8 config; __u8 keys_num; __u8 revoked_keys; __u8 min_svn; }; /** * struct cpucp_info - Info from CpuCP that is necessary to the host's driver * @sensors: available sensors description. * @kernel_version: CpuCP linux kernel version. * @reserved: reserved field. * @card_type: card configuration type. * @card_location: in a server, each card has different connections topology * depending on its location (relevant for PMC card type) * @cpld_version: CPLD programmed F/W version. * @infineon_version: Infineon main DC-DC version. * @fuse_version: silicon production FUSE information. * @thermal_version: thermald S/W version. * @cpucp_version: CpuCP S/W version. * @infineon_second_stage_version: Infineon 2nd stage DC-DC version. * @dram_size: available DRAM size. * @card_name: card name that will be displayed in HWMON subsystem on the host * @tpc_binning_mask: TPC binning mask, 1 bit per TPC instance * (0 = functional, 1 = binned) * @decoder_binning_mask: Decoder binning mask, 1 bit per decoder instance * (0 = functional, 1 = binned), maximum 1 per dcore * @sram_binning: Categorize SRAM functionality * (0 = fully functional, 1 = lower-half is not functional, * 2 = upper-half is not functional) * @sec_info: security information * @pll_map: Bit map of supported PLLs for current ASIC version. * @mme_binning_mask: MME binning mask, * bits [0:6] <==> dcore0 mme fma * bits [7:13] <==> dcore1 mme fma * bits [14:20] <==> dcore0 mme ima * bits [21:27] <==> dcore1 mme ima * For each group, if the 6th bit is set then first 5 bits * represent the col's idx [0-31], otherwise these bits are * ignored, and col idx 32 is binned. 7th bit is don't care. * @dram_binning_mask: DRAM binning mask, 1 bit per dram instance * (0 = functional 1 = binned) * @memory_repair_flag: eFuse flag indicating memory repair * @edma_binning_mask: EDMA binning mask, 1 bit per EDMA instance * (0 = functional 1 = binned) * @xbar_binning_mask: Xbar binning mask, 1 bit per Xbar instance * (0 = functional 1 = binned) * @interposer_version: Interposer version programmed in eFuse * @substrate_version: Substrate version programmed in eFuse * @fw_hbm_region_size: Size in bytes of FW reserved region in HBM. * @fw_os_version: Firmware OS Version */ struct cpucp_info { struct cpucp_sensor sensors[CPUCP_MAX_SENSORS]; __u8 kernel_version[VERSION_MAX_LEN]; __le32 reserved; __le32 card_type; __le32 card_location; __le32 cpld_version; __le32 infineon_version; __u8 fuse_version[VERSION_MAX_LEN]; __u8 thermal_version[VERSION_MAX_LEN]; __u8 cpucp_version[VERSION_MAX_LEN]; __le32 infineon_second_stage_version; __le64 dram_size; char card_name[CARD_NAME_MAX_LEN]; __le64 tpc_binning_mask; __le64 decoder_binning_mask; __u8 sram_binning; __u8 dram_binning_mask; __u8 memory_repair_flag; __u8 edma_binning_mask; __u8 xbar_binning_mask; __u8 interposer_version; __u8 substrate_version; __u8 reserved2; struct cpucp_security_info sec_info; __le32 fw_hbm_region_size; __u8 pll_map[PLL_MAP_LEN]; __le64 mme_binning_mask; __u8 fw_os_version[VERSION_MAX_LEN]; }; struct cpucp_mac_addr { __u8 mac_addr[ETH_ALEN]; }; enum cpucp_serdes_type { TYPE_1_SERDES_TYPE, TYPE_2_SERDES_TYPE, HLS1_SERDES_TYPE, HLS1H_SERDES_TYPE, HLS2_SERDES_TYPE, HLS2_TYPE_1_SERDES_TYPE, MAX_NUM_SERDES_TYPE, /* number of types */ UNKNOWN_SERDES_TYPE = 0xFFFF /* serdes_type is u16 */ }; struct cpucp_nic_info { struct cpucp_mac_addr mac_addrs[CPUCP_MAX_NICS]; __le64 link_mask[CPUCP_NIC_MASK_ARR_LEN]; __le64 pol_tx_mask[CPUCP_NIC_POLARITY_ARR_LEN]; __le64 pol_rx_mask[CPUCP_NIC_POLARITY_ARR_LEN]; __le64 link_ext_mask[CPUCP_NIC_MASK_ARR_LEN]; __u8 qsfp_eeprom[CPUCP_NIC_QSFP_EEPROM_MAX_LEN]; __le64 auto_neg_mask[CPUCP_NIC_MASK_ARR_LEN]; __le16 serdes_type; /* enum cpucp_serdes_type */ __le16 tx_swap_map[CPUCP_MAX_NICS]; __u8 reserved[6]; }; #define PAGE_DISCARD_MAX 64 struct page_discard_info { __u8 num_entries; __u8 reserved[7]; __le32 mmu_page_idx[PAGE_DISCARD_MAX]; }; /* * struct frac_val - fracture value represented by "integer.frac". * @integer: the integer part of the fracture value; * @frac: the fracture part of the fracture value. */ struct frac_val { union { struct { __le16 integer; __le16 frac; }; __le32 val; }; }; /* * struct ser_val - the SER (symbol error rate) value is represented by "integer * 10 ^ -exp". * @integer: the integer part of the SER value; * @exp: the exponent part of the SER value. */ struct ser_val { __le16 integer; __le16 exp; }; /* * struct cpucp_nic_status - describes the status of a NIC port. * @port: NIC port index. * @bad_format_cnt: e.g. CRC. * @responder_out_of_sequence_psn_cnt: e.g NAK. * @high_ber_reinit_cnt: link reinit due to high BER. * @correctable_err_cnt: e.g. bit-flip. * @uncorrectable_err_cnt: e.g. MAC errors. * @retraining_cnt: re-training counter. * @up: is port up. * @pcs_link: has PCS link. * @phy_ready: is PHY ready. * @auto_neg: is Autoneg enabled. * @timeout_retransmission_cnt: timeout retransmission events. * @high_ber_cnt: high ber events. * @pre_fec_ser: pre FEC SER value. * @post_fec_ser: post FEC SER value. * @throughput: measured throughput. * @latency: measured latency. */ struct cpucp_nic_status { __le32 port; __le32 bad_format_cnt; __le32 responder_out_of_sequence_psn_cnt; __le32 high_ber_reinit; __le32 correctable_err_cnt; __le32 uncorrectable_err_cnt; __le32 retraining_cnt; __u8 up; __u8 pcs_link; __u8 phy_ready; __u8 auto_neg; __le32 timeout_retransmission_cnt; __le32 high_ber_cnt; struct ser_val pre_fec_ser; struct ser_val post_fec_ser; struct frac_val bandwidth; struct frac_val lat; }; enum cpucp_hbm_row_replace_cause { REPLACE_CAUSE_DOUBLE_ECC_ERR, REPLACE_CAUSE_MULTI_SINGLE_ECC_ERR, }; struct cpucp_hbm_row_info { __u8 hbm_idx; __u8 pc; __u8 sid; __u8 bank_idx; __le16 row_addr; __u8 replaced_row_cause; /* enum cpucp_hbm_row_replace_cause */ __u8 pad; }; struct cpucp_hbm_row_replaced_rows_info { __le16 num_replaced_rows; __u8 pad[6]; struct cpucp_hbm_row_info replaced_rows[CPUCP_HBM_ROW_REPLACE_MAX]; }; enum cpu_reset_status { CPU_RST_STATUS_NA = 0, CPU_RST_STATUS_SOFT_RST_DONE = 1, }; #define SEC_PCR_DATA_BUF_SZ 256 #define SEC_PCR_QUOTE_BUF_SZ 510 /* (512 - 2) 2 bytes used for size */ #define SEC_SIGNATURE_BUF_SZ 255 /* (256 - 1) 1 byte used for size */ #define SEC_PUB_DATA_BUF_SZ 510 /* (512 - 2) 2 bytes used for size */ #define SEC_CERTIFICATE_BUF_SZ 2046 /* (2048 - 2) 2 bytes used for size */ /* * struct cpucp_sec_attest_info - attestation report of the boot * @pcr_data: raw values of the PCR registers * @pcr_num_reg: number of PCR registers in the pcr_data array * @pcr_reg_len: length of each PCR register in the pcr_data array (bytes) * @nonce: number only used once. random number provided by host. this also * passed to the quote command as a qualifying data. * @pcr_quote_len: length of the attestation quote data (bytes) * @pcr_quote: attestation report data structure * @quote_sig_len: length of the attestation report signature (bytes) * @quote_sig: signature structure of the attestation report * @pub_data_len: length of the public data (bytes) * @public_data: public key for the signed attestation * (outPublic + name + qualifiedName) * @certificate_len: length of the certificate (bytes) * @certificate: certificate for the attestation signing key */ struct cpucp_sec_attest_info { __u8 pcr_data[SEC_PCR_DATA_BUF_SZ]; __u8 pcr_num_reg; __u8 pcr_reg_len; __le16 pad0; __le32 nonce; __le16 pcr_quote_len; __u8 pcr_quote[SEC_PCR_QUOTE_BUF_SZ]; __u8 quote_sig_len; __u8 quote_sig[SEC_SIGNATURE_BUF_SZ]; __le16 pub_data_len; __u8 public_data[SEC_PUB_DATA_BUF_SZ]; __le16 certificate_len; __u8 certificate[SEC_CERTIFICATE_BUF_SZ]; }; /* * struct cpucp_dev_info_signed - device information signed by a secured device * @info: device information structure as defined above * @nonce: number only used once. random number provided by host. this number is * hashed and signed along with the device information. * @info_sig_len: length of the attestation signature (bytes) * @info_sig: signature of the info + nonce data. * @pub_data_len: length of the public data (bytes) * @public_data: public key info signed info data * (outPublic + name + qualifiedName) * @certificate_len: length of the certificate (bytes) * @certificate: certificate for the signing key */ struct cpucp_dev_info_signed { struct cpucp_info info; /* assumed to be 64bit aligned */ __le32 nonce; __le32 pad0; __u8 info_sig_len; __u8 info_sig[SEC_SIGNATURE_BUF_SZ]; __le16 pub_data_len; __u8 public_data[SEC_PUB_DATA_BUF_SZ]; __le16 certificate_len; __u8 certificate[SEC_CERTIFICATE_BUF_SZ]; }; #define DCORE_MON_REGS_SZ 512 /* * struct dcore_monitor_regs_data - DCORE monitor regs data. * the structure follows sync manager block layout. Obsolete. * @mon_pay_addrl: array of payload address low bits. * @mon_pay_addrh: array of payload address high bits. * @mon_pay_data: array of payload data. * @mon_arm: array of monitor arm. * @mon_status: array of monitor status. */ struct dcore_monitor_regs_data { __le32 mon_pay_addrl[DCORE_MON_REGS_SZ]; __le32 mon_pay_addrh[DCORE_MON_REGS_SZ]; __le32 mon_pay_data[DCORE_MON_REGS_SZ]; __le32 mon_arm[DCORE_MON_REGS_SZ]; __le32 mon_status[DCORE_MON_REGS_SZ]; }; /* contains SM data for each SYNC_MNGR (Obsolete) */ struct cpucp_monitor_dump { struct dcore_monitor_regs_data sync_mngr_w_s; struct dcore_monitor_regs_data sync_mngr_e_s; struct dcore_monitor_regs_data sync_mngr_w_n; struct dcore_monitor_regs_data sync_mngr_e_n; }; /* * The Type of the generic request (and other input arguments) will be fetched from user by reading * from "pkt_subidx" field in struct cpucp_packet. * * HL_PASSTHROUGHT_VERSIONS - Fetch all firmware versions. */ enum hl_passthrough_type { HL_PASSTHROUGH_VERSIONS, }; #endif /* CPUCP_IF_H */ |