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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 | /* SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0 */ /* Copyright (c) 2015-2018 Mellanox Technologies. All rights reserved */ #ifndef _MLXSW_CMD_H #define _MLXSW_CMD_H #include "item.h" #define MLXSW_CMD_MBOX_SIZE 4096 static inline char *mlxsw_cmd_mbox_alloc(void) { return kzalloc(MLXSW_CMD_MBOX_SIZE, GFP_KERNEL); } static inline void mlxsw_cmd_mbox_free(char *mbox) { kfree(mbox); } static inline void mlxsw_cmd_mbox_zero(char *mbox) { memset(mbox, 0, MLXSW_CMD_MBOX_SIZE); } struct mlxsw_core; int mlxsw_cmd_exec(struct mlxsw_core *mlxsw_core, u16 opcode, u8 opcode_mod, u32 in_mod, bool out_mbox_direct, bool reset_ok, char *in_mbox, size_t in_mbox_size, char *out_mbox, size_t out_mbox_size); static inline int mlxsw_cmd_exec_in(struct mlxsw_core *mlxsw_core, u16 opcode, u8 opcode_mod, u32 in_mod, char *in_mbox, size_t in_mbox_size) { return mlxsw_cmd_exec(mlxsw_core, opcode, opcode_mod, in_mod, false, false, in_mbox, in_mbox_size, NULL, 0); } static inline int mlxsw_cmd_exec_out(struct mlxsw_core *mlxsw_core, u16 opcode, u8 opcode_mod, u32 in_mod, bool out_mbox_direct, char *out_mbox, size_t out_mbox_size) { return mlxsw_cmd_exec(mlxsw_core, opcode, opcode_mod, in_mod, out_mbox_direct, false, NULL, 0, out_mbox, out_mbox_size); } static inline int mlxsw_cmd_exec_none(struct mlxsw_core *mlxsw_core, u16 opcode, u8 opcode_mod, u32 in_mod) { return mlxsw_cmd_exec(mlxsw_core, opcode, opcode_mod, in_mod, false, false, NULL, 0, NULL, 0); } enum mlxsw_cmd_opcode { MLXSW_CMD_OPCODE_QUERY_FW = 0x004, MLXSW_CMD_OPCODE_QUERY_BOARDINFO = 0x006, MLXSW_CMD_OPCODE_QUERY_AQ_CAP = 0x003, MLXSW_CMD_OPCODE_MAP_FA = 0xFFF, MLXSW_CMD_OPCODE_UNMAP_FA = 0xFFE, MLXSW_CMD_OPCODE_CONFIG_PROFILE = 0x100, MLXSW_CMD_OPCODE_ACCESS_REG = 0x040, MLXSW_CMD_OPCODE_SW2HW_DQ = 0x201, MLXSW_CMD_OPCODE_HW2SW_DQ = 0x202, MLXSW_CMD_OPCODE_2ERR_DQ = 0x01E, MLXSW_CMD_OPCODE_QUERY_DQ = 0x022, MLXSW_CMD_OPCODE_SW2HW_CQ = 0x016, MLXSW_CMD_OPCODE_HW2SW_CQ = 0x017, MLXSW_CMD_OPCODE_QUERY_CQ = 0x018, MLXSW_CMD_OPCODE_SW2HW_EQ = 0x013, MLXSW_CMD_OPCODE_HW2SW_EQ = 0x014, MLXSW_CMD_OPCODE_QUERY_EQ = 0x015, MLXSW_CMD_OPCODE_QUERY_RESOURCES = 0x101, }; static inline const char *mlxsw_cmd_opcode_str(u16 opcode) { switch (opcode) { case MLXSW_CMD_OPCODE_QUERY_FW: return "QUERY_FW"; case MLXSW_CMD_OPCODE_QUERY_BOARDINFO: return "QUERY_BOARDINFO"; case MLXSW_CMD_OPCODE_QUERY_AQ_CAP: return "QUERY_AQ_CAP"; case MLXSW_CMD_OPCODE_MAP_FA: return "MAP_FA"; case MLXSW_CMD_OPCODE_UNMAP_FA: return "UNMAP_FA"; case MLXSW_CMD_OPCODE_CONFIG_PROFILE: return "CONFIG_PROFILE"; case MLXSW_CMD_OPCODE_ACCESS_REG: return "ACCESS_REG"; case MLXSW_CMD_OPCODE_SW2HW_DQ: return "SW2HW_DQ"; case MLXSW_CMD_OPCODE_HW2SW_DQ: return "HW2SW_DQ"; case MLXSW_CMD_OPCODE_2ERR_DQ: return "2ERR_DQ"; case MLXSW_CMD_OPCODE_QUERY_DQ: return "QUERY_DQ"; case MLXSW_CMD_OPCODE_SW2HW_CQ: return "SW2HW_CQ"; case MLXSW_CMD_OPCODE_HW2SW_CQ: return "HW2SW_CQ"; case MLXSW_CMD_OPCODE_QUERY_CQ: return "QUERY_CQ"; case MLXSW_CMD_OPCODE_SW2HW_EQ: return "SW2HW_EQ"; case MLXSW_CMD_OPCODE_HW2SW_EQ: return "HW2SW_EQ"; case MLXSW_CMD_OPCODE_QUERY_EQ: return "QUERY_EQ"; case MLXSW_CMD_OPCODE_QUERY_RESOURCES: return "QUERY_RESOURCES"; default: return "*UNKNOWN*"; } } enum mlxsw_cmd_status { /* Command execution succeeded. */ MLXSW_CMD_STATUS_OK = 0x00, /* Internal error (e.g. bus error) occurred while processing command. */ MLXSW_CMD_STATUS_INTERNAL_ERR = 0x01, /* Operation/command not supported or opcode modifier not supported. */ MLXSW_CMD_STATUS_BAD_OP = 0x02, /* Parameter not supported, parameter out of range. */ MLXSW_CMD_STATUS_BAD_PARAM = 0x03, /* System was not enabled or bad system state. */ MLXSW_CMD_STATUS_BAD_SYS_STATE = 0x04, /* Attempt to access reserved or unallocated resource, or resource in * inappropriate ownership. */ MLXSW_CMD_STATUS_BAD_RESOURCE = 0x05, /* Requested resource is currently executing a command. */ MLXSW_CMD_STATUS_RESOURCE_BUSY = 0x06, /* Required capability exceeds device limits. */ MLXSW_CMD_STATUS_EXCEED_LIM = 0x08, /* Resource is not in the appropriate state or ownership. */ MLXSW_CMD_STATUS_BAD_RES_STATE = 0x09, /* Index out of range (might be beyond table size or attempt to * access a reserved resource). */ MLXSW_CMD_STATUS_BAD_INDEX = 0x0A, /* NVMEM checksum/CRC failed. */ MLXSW_CMD_STATUS_BAD_NVMEM = 0x0B, /* Device is currently running reset */ MLXSW_CMD_STATUS_RUNNING_RESET = 0x26, /* Bad management packet (silently discarded). */ MLXSW_CMD_STATUS_BAD_PKT = 0x30, }; static inline const char *mlxsw_cmd_status_str(u8 status) { switch (status) { case MLXSW_CMD_STATUS_OK: return "OK"; case MLXSW_CMD_STATUS_INTERNAL_ERR: return "INTERNAL_ERR"; case MLXSW_CMD_STATUS_BAD_OP: return "BAD_OP"; case MLXSW_CMD_STATUS_BAD_PARAM: return "BAD_PARAM"; case MLXSW_CMD_STATUS_BAD_SYS_STATE: return "BAD_SYS_STATE"; case MLXSW_CMD_STATUS_BAD_RESOURCE: return "BAD_RESOURCE"; case MLXSW_CMD_STATUS_RESOURCE_BUSY: return "RESOURCE_BUSY"; case MLXSW_CMD_STATUS_EXCEED_LIM: return "EXCEED_LIM"; case MLXSW_CMD_STATUS_BAD_RES_STATE: return "BAD_RES_STATE"; case MLXSW_CMD_STATUS_BAD_INDEX: return "BAD_INDEX"; case MLXSW_CMD_STATUS_BAD_NVMEM: return "BAD_NVMEM"; case MLXSW_CMD_STATUS_RUNNING_RESET: return "RUNNING_RESET"; case MLXSW_CMD_STATUS_BAD_PKT: return "BAD_PKT"; default: return "*UNKNOWN*"; } } /* QUERY_FW - Query Firmware * ------------------------- * OpMod == 0, INMmod == 0 * ----------------------- * The QUERY_FW command retrieves information related to firmware, command * interface version and the amount of resources that should be allocated to * the firmware. */ static inline int mlxsw_cmd_query_fw(struct mlxsw_core *mlxsw_core, char *out_mbox) { return mlxsw_cmd_exec_out(mlxsw_core, MLXSW_CMD_OPCODE_QUERY_FW, 0, 0, false, out_mbox, MLXSW_CMD_MBOX_SIZE); } /* cmd_mbox_query_fw_fw_pages * Amount of physical memory to be allocatedfor firmware usage in 4KB pages. */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_pages, 0x00, 16, 16); /* cmd_mbox_query_fw_fw_rev_major * Firmware Revision - Major */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_rev_major, 0x00, 0, 16); /* cmd_mbox_query_fw_fw_rev_subminor * Firmware Sub-minor version (Patch level) */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_rev_subminor, 0x04, 16, 16); /* cmd_mbox_query_fw_fw_rev_minor * Firmware Revision - Minor */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_rev_minor, 0x04, 0, 16); /* cmd_mbox_query_fw_core_clk * Internal Clock Frequency (in MHz) */ MLXSW_ITEM32(cmd_mbox, query_fw, core_clk, 0x08, 16, 16); /* cmd_mbox_query_fw_cmd_interface_rev * Command Interface Interpreter Revision ID. This number is bumped up * every time a non-backward-compatible change is done for the command * interface. The current cmd_interface_rev is 1. */ MLXSW_ITEM32(cmd_mbox, query_fw, cmd_interface_rev, 0x08, 0, 16); /* cmd_mbox_query_fw_dt * If set, Debug Trace is supported */ MLXSW_ITEM32(cmd_mbox, query_fw, dt, 0x0C, 31, 1); /* cmd_mbox_query_fw_api_version * Indicates the version of the API, to enable software querying * for compatibility. The current api_version is 1. */ MLXSW_ITEM32(cmd_mbox, query_fw, api_version, 0x0C, 0, 16); /* cmd_mbox_query_fw_fw_hour * Firmware timestamp - hour */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_hour, 0x10, 24, 8); /* cmd_mbox_query_fw_fw_minutes * Firmware timestamp - minutes */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_minutes, 0x10, 16, 8); /* cmd_mbox_query_fw_fw_seconds * Firmware timestamp - seconds */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_seconds, 0x10, 8, 8); /* cmd_mbox_query_fw_fw_year * Firmware timestamp - year */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_year, 0x14, 16, 16); /* cmd_mbox_query_fw_fw_month * Firmware timestamp - month */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_month, 0x14, 8, 8); /* cmd_mbox_query_fw_fw_day * Firmware timestamp - day */ MLXSW_ITEM32(cmd_mbox, query_fw, fw_day, 0x14, 0, 8); /* cmd_mbox_query_fw_clr_int_base_offset * Clear Interrupt register's offset from clr_int_bar register * in PCI address space. */ MLXSW_ITEM64(cmd_mbox, query_fw, clr_int_base_offset, 0x20, 0, 64); /* cmd_mbox_query_fw_clr_int_bar * PCI base address register (BAR) where clr_int register is located. * 00 - BAR 0-1 (64 bit BAR) */ MLXSW_ITEM32(cmd_mbox, query_fw, clr_int_bar, 0x28, 30, 2); /* cmd_mbox_query_fw_error_buf_offset * Read Only buffer for internal error reports of offset * from error_buf_bar register in PCI address space). */ MLXSW_ITEM64(cmd_mbox, query_fw, error_buf_offset, 0x30, 0, 64); /* cmd_mbox_query_fw_error_buf_size * Internal error buffer size in DWORDs */ MLXSW_ITEM32(cmd_mbox, query_fw, error_buf_size, 0x38, 0, 32); /* cmd_mbox_query_fw_error_int_bar * PCI base address register (BAR) where error buffer * register is located. * 00 - BAR 0-1 (64 bit BAR) */ MLXSW_ITEM32(cmd_mbox, query_fw, error_int_bar, 0x3C, 30, 2); /* cmd_mbox_query_fw_doorbell_page_offset * Offset of the doorbell page */ MLXSW_ITEM64(cmd_mbox, query_fw, doorbell_page_offset, 0x40, 0, 64); /* cmd_mbox_query_fw_doorbell_page_bar * PCI base address register (BAR) of the doorbell page * 00 - BAR 0-1 (64 bit BAR) */ MLXSW_ITEM32(cmd_mbox, query_fw, doorbell_page_bar, 0x48, 30, 2); /* cmd_mbox_query_fw_free_running_clock_offset * The offset of the free running clock page */ MLXSW_ITEM64(cmd_mbox, query_fw, free_running_clock_offset, 0x50, 0, 64); /* cmd_mbox_query_fw_fr_rn_clk_bar * PCI base address register (BAR) of the free running clock page * 0: BAR 0 * 1: 64 bit BAR */ MLXSW_ITEM32(cmd_mbox, query_fw, fr_rn_clk_bar, 0x58, 30, 2); /* cmd_mbox_query_fw_utc_sec_offset * The offset of the UTC_Sec page */ MLXSW_ITEM64(cmd_mbox, query_fw, utc_sec_offset, 0x70, 0, 64); /* cmd_mbox_query_fw_utc_sec_bar * PCI base address register (BAR) of the UTC_Sec page * 0: BAR 0 * 1: 64 bit BAR * Reserved on SwitchX/-2, Switch-IB/2, Spectrum-1 */ MLXSW_ITEM32(cmd_mbox, query_fw, utc_sec_bar, 0x78, 30, 2); /* cmd_mbox_query_fw_utc_nsec_offset * The offset of the UTC_nSec page */ MLXSW_ITEM64(cmd_mbox, query_fw, utc_nsec_offset, 0x80, 0, 64); /* cmd_mbox_query_fw_utc_nsec_bar * PCI base address register (BAR) of the UTC_nSec page * 0: BAR 0 * 1: 64 bit BAR * Reserved on SwitchX/-2, Switch-IB/2, Spectrum-1 */ MLXSW_ITEM32(cmd_mbox, query_fw, utc_nsec_bar, 0x88, 30, 2); /* QUERY_BOARDINFO - Query Board Information * ----------------------------------------- * OpMod == 0 (N/A), INMmod == 0 (N/A) * ----------------------------------- * The QUERY_BOARDINFO command retrieves adapter specific parameters. */ static inline int mlxsw_cmd_boardinfo(struct mlxsw_core *mlxsw_core, char *out_mbox) { return mlxsw_cmd_exec_out(mlxsw_core, MLXSW_CMD_OPCODE_QUERY_BOARDINFO, 0, 0, false, out_mbox, MLXSW_CMD_MBOX_SIZE); } /* cmd_mbox_boardinfo_intapin * When PCIe interrupt messages are being used, this value is used for clearing * an interrupt. When using MSI-X, this register is not used. */ MLXSW_ITEM32(cmd_mbox, boardinfo, intapin, 0x10, 24, 8); /* cmd_mbox_boardinfo_vsd_vendor_id * PCISIG Vendor ID (www.pcisig.com/membership/vid_search) of the vendor * specifying/formatting the VSD. The vsd_vendor_id identifies the management * domain of the VSD/PSID data. Different vendors may choose different VSD/PSID * format and encoding as long as they use their assigned vsd_vendor_id. */ MLXSW_ITEM32(cmd_mbox, boardinfo, vsd_vendor_id, 0x1C, 0, 16); /* cmd_mbox_boardinfo_vsd * Vendor Specific Data. The VSD string that is burnt to the Flash * with the firmware. */ #define MLXSW_CMD_BOARDINFO_VSD_LEN 208 MLXSW_ITEM_BUF(cmd_mbox, boardinfo, vsd, 0x20, MLXSW_CMD_BOARDINFO_VSD_LEN); /* cmd_mbox_boardinfo_psid * The PSID field is a 16-ascii (byte) character string which acts as * the board ID. The PSID format is used in conjunction with * Mellanox vsd_vendor_id (15B3h). */ #define MLXSW_CMD_BOARDINFO_PSID_LEN 16 MLXSW_ITEM_BUF(cmd_mbox, boardinfo, psid, 0xF0, MLXSW_CMD_BOARDINFO_PSID_LEN); /* QUERY_AQ_CAP - Query Asynchronous Queues Capabilities * ----------------------------------------------------- * OpMod == 0 (N/A), INMmod == 0 (N/A) * ----------------------------------- * The QUERY_AQ_CAP command returns the device asynchronous queues * capabilities supported. */ static inline int mlxsw_cmd_query_aq_cap(struct mlxsw_core *mlxsw_core, char *out_mbox) { return mlxsw_cmd_exec_out(mlxsw_core, MLXSW_CMD_OPCODE_QUERY_AQ_CAP, 0, 0, false, out_mbox, MLXSW_CMD_MBOX_SIZE); } /* cmd_mbox_query_aq_cap_log_max_sdq_sz * Log (base 2) of max WQEs allowed on SDQ. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, log_max_sdq_sz, 0x00, 24, 8); /* cmd_mbox_query_aq_cap_max_num_sdqs * Maximum number of SDQs. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, max_num_sdqs, 0x00, 0, 8); /* cmd_mbox_query_aq_cap_log_max_rdq_sz * Log (base 2) of max WQEs allowed on RDQ. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, log_max_rdq_sz, 0x04, 24, 8); /* cmd_mbox_query_aq_cap_max_num_rdqs * Maximum number of RDQs. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, max_num_rdqs, 0x04, 0, 8); /* cmd_mbox_query_aq_cap_log_max_cq_sz * Log (base 2) of the Maximum CQEs allowed in a CQ for CQEv0 and CQEv1. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, log_max_cq_sz, 0x08, 24, 8); /* cmd_mbox_query_aq_cap_log_max_cqv2_sz * Log (base 2) of the Maximum CQEs allowed in a CQ for CQEv2. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, log_max_cqv2_sz, 0x08, 16, 8); /* cmd_mbox_query_aq_cap_max_num_cqs * Maximum number of CQs. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, max_num_cqs, 0x08, 0, 8); /* cmd_mbox_query_aq_cap_log_max_eq_sz * Log (base 2) of max EQEs allowed on EQ. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, log_max_eq_sz, 0x0C, 24, 8); /* cmd_mbox_query_aq_cap_max_num_eqs * Maximum number of EQs. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, max_num_eqs, 0x0C, 0, 8); /* cmd_mbox_query_aq_cap_max_sg_sq * The maximum S/G list elements in an DSQ. DSQ must not contain * more S/G entries than indicated here. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, max_sg_sq, 0x10, 8, 8); /* cmd_mbox_query_aq_cap_ * The maximum S/G list elements in an DRQ. DRQ must not contain * more S/G entries than indicated here. */ MLXSW_ITEM32(cmd_mbox, query_aq_cap, max_sg_rq, 0x10, 0, 8); /* MAP_FA - Map Firmware Area * -------------------------- * OpMod == 0 (N/A), INMmod == Number of VPM entries * ------------------------------------------------- * The MAP_FA command passes physical pages to the switch. These pages * are used to store the device firmware. MAP_FA can be executed multiple * times until all the firmware area is mapped (the size that should be * mapped is retrieved through the QUERY_FW command). All required pages * must be mapped to finish the initialization phase. Physical memory * passed in this command must be pinned. */ #define MLXSW_CMD_MAP_FA_VPM_ENTRIES_MAX 32 static inline int mlxsw_cmd_map_fa(struct mlxsw_core *mlxsw_core, char *in_mbox, u32 vpm_entries_count) { return mlxsw_cmd_exec_in(mlxsw_core, MLXSW_CMD_OPCODE_MAP_FA, 0, vpm_entries_count, in_mbox, MLXSW_CMD_MBOX_SIZE); } /* cmd_mbox_map_fa_pa * Physical Address. */ MLXSW_ITEM64_INDEXED(cmd_mbox, map_fa, pa, 0x00, 12, 52, 0x08, 0x00, true); /* cmd_mbox_map_fa_log2size * Log (base 2) of the size in 4KB pages of the physical and contiguous memory * that starts at PA_L/H. */ MLXSW_ITEM32_INDEXED(cmd_mbox, map_fa, log2size, 0x00, 0, 5, 0x08, 0x04, false); /* UNMAP_FA - Unmap Firmware Area * ------------------------------ * OpMod == 0 (N/A), INMmod == 0 (N/A) * ----------------------------------- * The UNMAP_FA command unload the firmware and unmaps all the * firmware area. After this command is completed the device will not access * the pages that were mapped to the firmware area. After executing UNMAP_FA * command, software reset must be done prior to execution of MAP_FW command. */ static inline int mlxsw_cmd_unmap_fa(struct mlxsw_core *mlxsw_core) { return mlxsw_cmd_exec_none(mlxsw_core, MLXSW_CMD_OPCODE_UNMAP_FA, 0, 0); } /* QUERY_RESOURCES - Query chip resources * -------------------------------------- * OpMod == 0 (N/A) , INMmod is index * ---------------------------------- * The QUERY_RESOURCES command retrieves information related to chip resources * by resource ID. Every command returns 32 entries. INmod is being use as base. * for example, index 1 will return entries 32-63. When the tables end and there * are no more sources in the table, will return resource id 0xFFF to indicate * it. */ #define MLXSW_CMD_QUERY_RESOURCES_TABLE_END_ID 0xffff #define MLXSW_CMD_QUERY_RESOURCES_MAX_QUERIES 100 #define MLXSW_CMD_QUERY_RESOURCES_PER_QUERY 32 static inline int mlxsw_cmd_query_resources(struct mlxsw_core *mlxsw_core, char *out_mbox, int index) { return mlxsw_cmd_exec_out(mlxsw_core, MLXSW_CMD_OPCODE_QUERY_RESOURCES, 0, index, false, out_mbox, MLXSW_CMD_MBOX_SIZE); } /* cmd_mbox_query_resource_id * The resource id. 0xFFFF indicates table's end. */ MLXSW_ITEM32_INDEXED(cmd_mbox, query_resource, id, 0x00, 16, 16, 0x8, 0, false); /* cmd_mbox_query_resource_data * The resource */ MLXSW_ITEM64_INDEXED(cmd_mbox, query_resource, data, 0x00, 0, 40, 0x8, 0, false); /* CONFIG_PROFILE (Set) - Configure Switch Profile * ------------------------------ * OpMod == 1 (Set), INMmod == 0 (N/A) * ----------------------------------- * The CONFIG_PROFILE command sets the switch profile. The command can be * executed on the device only once at startup in order to allocate and * configure all switch resources and prepare it for operational mode. * It is not possible to change the device profile after the chip is * in operational mode. * Failure of the CONFIG_PROFILE command leaves the hardware in an indeterminate * state therefore it is required to perform software reset to the device * following an unsuccessful completion of the command. It is required * to perform software reset to the device to change an existing profile. */ static inline int mlxsw_cmd_config_profile_set(struct mlxsw_core *mlxsw_core, char *in_mbox) { return mlxsw_cmd_exec_in(mlxsw_core, MLXSW_CMD_OPCODE_CONFIG_PROFILE, 1, 0, in_mbox, MLXSW_CMD_MBOX_SIZE); } /* cmd_mbox_config_profile_set_max_vepa_channels * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_vepa_channels, 0x0C, 0, 1); /* cmd_mbox_config_profile_set_max_lag * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_lag, 0x0C, 1, 1); /* cmd_mbox_config_profile_set_max_port_per_lag * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_port_per_lag, 0x0C, 2, 1); /* cmd_mbox_config_profile_set_max_mid * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_mid, 0x0C, 3, 1); /* cmd_mbox_config_profile_set_max_pgt * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_pgt, 0x0C, 4, 1); /* cmd_mbox_config_profile_set_max_system_port * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_system_port, 0x0C, 5, 1); /* cmd_mbox_config_profile_set_max_vlan_groups * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_vlan_groups, 0x0C, 6, 1); /* cmd_mbox_config_profile_set_max_regions * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_regions, 0x0C, 7, 1); /* cmd_mbox_config_profile_set_flood_mode * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_flood_mode, 0x0C, 8, 1); /* cmd_mbox_config_profile_set_max_flood_tables * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_flood_tables, 0x0C, 9, 1); /* cmd_mbox_config_profile_set_max_ib_mc * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_ib_mc, 0x0C, 12, 1); /* cmd_mbox_config_profile_set_max_pkey * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_max_pkey, 0x0C, 13, 1); /* cmd_mbox_config_profile_set_adaptive_routing_group_cap * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_adaptive_routing_group_cap, 0x0C, 14, 1); /* cmd_mbox_config_profile_set_ar_sec * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_ar_sec, 0x0C, 15, 1); /* cmd_mbox_config_set_ubridge * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_ubridge, 0x0C, 22, 1); /* cmd_mbox_config_set_kvd_linear_size * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_kvd_linear_size, 0x0C, 24, 1); /* cmd_mbox_config_set_kvd_hash_single_size * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_kvd_hash_single_size, 0x0C, 25, 1); /* cmd_mbox_config_set_kvd_hash_double_size * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_kvd_hash_double_size, 0x0C, 26, 1); /* cmd_mbox_config_set_cqe_version * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_cqe_version, 0x08, 0, 1); /* cmd_mbox_config_set_cqe_time_stamp_type * Capability bit. Setting a bit to 1 configures the profile * according to the mailbox contents. */ MLXSW_ITEM32(cmd_mbox, config_profile, set_cqe_time_stamp_type, 0x08, 2, 1); /* cmd_mbox_config_profile_max_vepa_channels * Maximum number of VEPA channels per port (0 through 16) * 0 - multi-channel VEPA is disabled */ MLXSW_ITEM32(cmd_mbox, config_profile, max_vepa_channels, 0x10, 0, 8); /* cmd_mbox_config_profile_max_lag * Maximum number of LAG IDs requested. * Reserved when Spectrum-1/2/3, supported from Spectrum-4 and above. * For Spectrum-4, firmware sets 128 for values between 1-128 and 256 for values * between 129-256. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_lag, 0x14, 0, 16); /* cmd_mbox_config_profile_max_port_per_lag * Maximum number of ports per LAG requested. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_port_per_lag, 0x18, 0, 16); /* cmd_mbox_config_profile_max_mid * Maximum Multicast IDs. * Multicast IDs are allocated from 0 to max_mid-1 */ MLXSW_ITEM32(cmd_mbox, config_profile, max_mid, 0x1C, 0, 16); /* cmd_mbox_config_profile_max_pgt * Maximum records in the Port Group Table per Switch Partition. * Port Group Table indexes are from 0 to max_pgt-1 */ MLXSW_ITEM32(cmd_mbox, config_profile, max_pgt, 0x20, 0, 16); /* cmd_mbox_config_profile_max_system_port * The maximum number of system ports that can be allocated. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_system_port, 0x24, 0, 16); /* cmd_mbox_config_profile_max_vlan_groups * Maximum number VLAN Groups for VLAN binding. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_vlan_groups, 0x28, 0, 12); /* cmd_mbox_config_profile_max_regions * Maximum number of TCAM Regions. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_regions, 0x2C, 0, 16); /* cmd_mbox_config_profile_max_flood_tables * Maximum number of single-entry flooding tables. Different flooding tables * can be associated with different packet types. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_flood_tables, 0x30, 16, 4); /* cmd_mbox_config_profile_max_vid_flood_tables * Maximum number of per-vid flooding tables. Flooding tables are associated * to the different packet types for the different switch partitions. * Table size is 4K entries covering all VID space. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_vid_flood_tables, 0x30, 8, 4); enum mlxsw_cmd_mbox_config_profile_flood_mode { /* Mixed mode, where: * max_flood_tables indicates the number of single-entry tables. * max_vid_flood_tables indicates the number of per-VID tables. * max_fid_offset_flood_tables indicates the number of FID-offset * tables. max_fid_flood_tables indicates the number of per-FID tables. * Reserved when unified bridge model is used. */ MLXSW_CMD_MBOX_CONFIG_PROFILE_FLOOD_MODE_MIXED = 3, /* Controlled flood tables. Reserved when legacy bridge model is * used. */ MLXSW_CMD_MBOX_CONFIG_PROFILE_FLOOD_MODE_CONTROLLED = 4, }; /* cmd_mbox_config_profile_flood_mode * Flooding mode to use. */ MLXSW_ITEM32(cmd_mbox, config_profile, flood_mode, 0x30, 0, 3); /* cmd_mbox_config_profile_max_fid_offset_flood_tables * Maximum number of FID-offset flooding tables. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_fid_offset_flood_tables, 0x34, 24, 4); /* cmd_mbox_config_profile_fid_offset_flood_table_size * The size (number of entries) of each FID-offset flood table. */ MLXSW_ITEM32(cmd_mbox, config_profile, fid_offset_flood_table_size, 0x34, 0, 16); /* cmd_mbox_config_profile_max_fid_flood_tables * Maximum number of per-FID flooding tables. * * Note: This flooding tables cover special FIDs only (vFIDs), starting at * FID value 4K and higher. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_fid_flood_tables, 0x38, 24, 4); /* cmd_mbox_config_profile_fid_flood_table_size * The size (number of entries) of each per-FID table. */ MLXSW_ITEM32(cmd_mbox, config_profile, fid_flood_table_size, 0x38, 0, 16); /* cmd_mbox_config_profile_max_ib_mc * Maximum number of multicast FDB records for InfiniBand * FDB (in 512 chunks) per InfiniBand switch partition. */ MLXSW_ITEM32(cmd_mbox, config_profile, max_ib_mc, 0x40, 0, 15); /* cmd_mbox_config_profile_max_pkey * Maximum per port PKEY table size (for PKEY enforcement) */ MLXSW_ITEM32(cmd_mbox, config_profile, max_pkey, 0x44, 0, 15); /* cmd_mbox_config_profile_ar_sec * Primary/secondary capability * Describes the number of adaptive routing sub-groups * 0 - disable primary/secondary (single group) * 1 - enable primary/secondary (2 sub-groups) * 2 - 3 sub-groups: Not supported in SwitchX, SwitchX-2 * 3 - 4 sub-groups: Not supported in SwitchX, SwitchX-2 */ MLXSW_ITEM32(cmd_mbox, config_profile, ar_sec, 0x4C, 24, 2); /* cmd_mbox_config_profile_adaptive_routing_group_cap * Adaptive Routing Group Capability. Indicates the number of AR groups * supported. Note that when Primary/secondary is enabled, each * primary/secondary couple consumes 2 adaptive routing entries. */ MLXSW_ITEM32(cmd_mbox, config_profile, adaptive_routing_group_cap, 0x4C, 0, 16); /* cmd_mbox_config_profile_arn * Adaptive Routing Notification Enable * Not supported in SwitchX, SwitchX-2 */ MLXSW_ITEM32(cmd_mbox, config_profile, arn, 0x50, 31, 1); /* cmd_mbox_config_profile_ubridge * Unified Bridge * 0 - non unified bridge * 1 - unified bridge */ MLXSW_ITEM32(cmd_mbox, config_profile, ubridge, 0x50, 4, 1); /* cmd_mbox_config_kvd_linear_size * KVD Linear Size * Valid for Spectrum only * Allowed values are 128*N where N=0 or higher */ MLXSW_ITEM32(cmd_mbox, config_profile, kvd_linear_size, 0x54, 0, 24); /* cmd_mbox_config_kvd_hash_single_size * KVD Hash single-entries size * Valid for Spectrum only * Allowed values are 128*N where N=0 or higher * Must be greater or equal to cap_min_kvd_hash_single_size * Must be smaller or equal to cap_kvd_size - kvd_linear_size */ MLXSW_ITEM32(cmd_mbox, config_profile, kvd_hash_single_size, 0x58, 0, 24); /* cmd_mbox_config_kvd_hash_double_size * KVD Hash double-entries size (units of single-size entries) * Valid for Spectrum only * Allowed values are 128*N where N=0 or higher * Must be either 0 or greater or equal to cap_min_kvd_hash_double_size * Must be smaller or equal to cap_kvd_size - kvd_linear_size */ MLXSW_ITEM32(cmd_mbox, config_profile, kvd_hash_double_size, 0x5C, 0, 24); /* cmd_mbox_config_profile_swid_config_mask * Modify Switch Partition Configuration mask. When set, the configu- * ration value for the Switch Partition are taken from the mailbox. * When clear, the current configuration values are used. * Bit 0 - set type * Bit 1 - properties * Other - reserved */ MLXSW_ITEM32_INDEXED(cmd_mbox, config_profile, swid_config_mask, 0x60, 24, 8, 0x08, 0x00, false); /* cmd_mbox_config_profile_swid_config_type * Switch Partition type. * 0000 - disabled (Switch Partition does not exist) * 0001 - InfiniBand * 0010 - Ethernet * 1000 - router port (SwitchX-2 only) * Other - reserved */ MLXSW_ITEM32_INDEXED(cmd_mbox, config_profile, swid_config_type, 0x60, 20, 4, 0x08, 0x00, false); /* cmd_mbox_config_profile_swid_config_properties * Switch Partition properties. */ MLXSW_ITEM32_INDEXED(cmd_mbox, config_profile, swid_config_properties, 0x60, 0, 8, 0x08, 0x00, false); enum mlxsw_cmd_mbox_config_profile_cqe_time_stamp_type { /* uSec - 1.024uSec (default). Only bits 15:0 are valid. */ MLXSW_CMD_MBOX_CONFIG_PROFILE_CQE_TIME_STAMP_TYPE_USEC, /* FRC - Free Running Clock, units of 1nSec. * Reserved when SwitchX/-2, Switch-IB/2 and Spectrum-1. */ MLXSW_CMD_MBOX_CONFIG_PROFILE_CQE_TIME_STAMP_TYPE_FRC, /* UTC. time_stamp[37:30] = Sec, time_stamp[29:0] = nSec. * Reserved when SwitchX/2, Switch-IB/2 and Spectrum-1. */ MLXSW_CMD_MBOX_CONFIG_PROFILE_CQE_TIME_STAMP_TYPE_UTC, }; /* cmd_mbox_config_profile_cqe_time_stamp_type * CQE time_stamp_type for non-mirror-packets. * Configured if set_cqe_time_stamp_type is set. * Reserved when SwitchX/-2, Switch-IB/2 and Spectrum-1. */ MLXSW_ITEM32(cmd_mbox, config_profile, cqe_time_stamp_type, 0xB0, 8, 2); /* cmd_mbox_config_profile_cqe_version * CQE version: * 0: CQE version is 0 * 1: CQE version is either 1 or 2 * CQE ver 1 or 2 is configured by Completion Queue Context field cqe_ver. */ MLXSW_ITEM32(cmd_mbox, config_profile, cqe_version, 0xB0, 0, 8); /* ACCESS_REG - Access EMAD Supported Register * ---------------------------------- * OpMod == 0 (N/A), INMmod == 0 (N/A) * ------------------------------------- * The ACCESS_REG command supports accessing device registers. This access * is mainly used for bootstrapping. */ static inline int mlxsw_cmd_access_reg(struct mlxsw_core *mlxsw_core, bool reset_ok, char *in_mbox, char *out_mbox) { return mlxsw_cmd_exec(mlxsw_core, MLXSW_CMD_OPCODE_ACCESS_REG, 0, 0, false, reset_ok, in_mbox, MLXSW_CMD_MBOX_SIZE, out_mbox, MLXSW_CMD_MBOX_SIZE); } /* SW2HW_DQ - Software to Hardware DQ * ---------------------------------- * OpMod == 0 (send DQ) / OpMod == 1 (receive DQ) * INMmod == DQ number * ---------------------------------------------- * The SW2HW_DQ command transitions a descriptor queue from software to * hardware ownership. The command enables posting WQEs and ringing DoorBells * on the descriptor queue. */ static inline int __mlxsw_cmd_sw2hw_dq(struct mlxsw_core *mlxsw_core, char *in_mbox, u32 dq_number, u8 opcode_mod) { return mlxsw_cmd_exec_in(mlxsw_core, MLXSW_CMD_OPCODE_SW2HW_DQ, opcode_mod, dq_number, in_mbox, MLXSW_CMD_MBOX_SIZE); } enum { MLXSW_CMD_OPCODE_MOD_SDQ = 0, MLXSW_CMD_OPCODE_MOD_RDQ = 1, }; static inline int mlxsw_cmd_sw2hw_sdq(struct mlxsw_core *mlxsw_core, char *in_mbox, u32 dq_number) { return __mlxsw_cmd_sw2hw_dq(mlxsw_core, in_mbox, dq_number, MLXSW_CMD_OPCODE_MOD_SDQ); } static inline int mlxsw_cmd_sw2hw_rdq(struct mlxsw_core *mlxsw_core, char *in_mbox, u32 dq_number) { return __mlxsw_cmd_sw2hw_dq(mlxsw_core, in_mbox, dq_number, MLXSW_CMD_OPCODE_MOD_RDQ); } /* cmd_mbox_sw2hw_dq_cq * Number of the CQ that this Descriptor Queue reports completions to. */ MLXSW_ITEM32(cmd_mbox, sw2hw_dq, cq, 0x00, 24, 8); enum mlxsw_cmd_mbox_sw2hw_dq_sdq_lp { MLXSW_CMD_MBOX_SW2HW_DQ_SDQ_LP_WQE, MLXSW_CMD_MBOX_SW2HW_DQ_SDQ_LP_IGNORE_WQE, }; /* cmd_mbox_sw2hw_dq_sdq_lp * SDQ local Processing * 0: local processing by wqe.lp * 1: local processing (ignoring wqe.lp) */ MLXSW_ITEM32(cmd_mbox, sw2hw_dq, sdq_lp, 0x00, 23, 1); /* cmd_mbox_sw2hw_dq_sdq_tclass * SDQ: CPU Egress TClass * RDQ: Reserved */ MLXSW_ITEM32(cmd_mbox, sw2hw_dq, sdq_tclass, 0x00, 16, 6); /* cmd_mbox_sw2hw_dq_log2_dq_sz * Log (base 2) of the Descriptor Queue size in 4KB pages. */ MLXSW_ITEM32(cmd_mbox, sw2hw_dq, log2_dq_sz, 0x00, 0, 6); /* cmd_mbox_sw2hw_dq_pa * Physical Address. */ MLXSW_ITEM64_INDEXED(cmd_mbox, sw2hw_dq, pa, 0x10, 12, 52, 0x08, 0x00, true); /* HW2SW_DQ - Hardware to Software DQ * ---------------------------------- * OpMod == 0 (send DQ) / OpMod == 1 (receive DQ) * INMmod == DQ number * ---------------------------------------------- * The HW2SW_DQ command transitions a descriptor queue from hardware to * software ownership. Incoming packets on the DQ are silently discarded, * SW should not post descriptors on nonoperational DQs. */ static inline int __mlxsw_cmd_hw2sw_dq(struct mlxsw_core *mlxsw_core, u32 dq_number, u8 opcode_mod) { return mlxsw_cmd_exec_none(mlxsw_core, MLXSW_CMD_OPCODE_HW2SW_DQ, opcode_mod, dq_number); } static inline int mlxsw_cmd_hw2sw_sdq(struct mlxsw_core *mlxsw_core, u32 dq_number) { return __mlxsw_cmd_hw2sw_dq(mlxsw_core, dq_number, MLXSW_CMD_OPCODE_MOD_SDQ); } static inline int mlxsw_cmd_hw2sw_rdq(struct mlxsw_core *mlxsw_core, u32 dq_number) { return __mlxsw_cmd_hw2sw_dq(mlxsw_core, dq_number, MLXSW_CMD_OPCODE_MOD_RDQ); } /* 2ERR_DQ - To Error DQ * --------------------- * OpMod == 0 (send DQ) / OpMod == 1 (receive DQ) * INMmod == DQ number * ---------------------------------------------- * The 2ERR_DQ command transitions the DQ into the error state from the state * in which it has been. While the command is executed, some in-process * descriptors may complete. Once the DQ transitions into the error state, * if there are posted descriptors on the RDQ/SDQ, the hardware writes * a completion with error (flushed) for all descriptors posted in the RDQ/SDQ. * When the command is completed successfully, the DQ is already in * the error state. */ static inline int __mlxsw_cmd_2err_dq(struct mlxsw_core *mlxsw_core, u32 dq_number, u8 opcode_mod) { return mlxsw_cmd_exec_none(mlxsw_core, MLXSW_CMD_OPCODE_2ERR_DQ, opcode_mod, dq_number); } static inline int mlxsw_cmd_2err_sdq(struct mlxsw_core *mlxsw_core, u32 dq_number) { return __mlxsw_cmd_2err_dq(mlxsw_core, dq_number, MLXSW_CMD_OPCODE_MOD_SDQ); } static inline int mlxsw_cmd_2err_rdq(struct mlxsw_core *mlxsw_core, u32 dq_number) { return __mlxsw_cmd_2err_dq(mlxsw_core, dq_number, MLXSW_CMD_OPCODE_MOD_RDQ); } /* QUERY_DQ - Query DQ * --------------------- * OpMod == 0 (send DQ) / OpMod == 1 (receive DQ) * INMmod == DQ number * ---------------------------------------------- * The QUERY_DQ command retrieves a snapshot of DQ parameters from the hardware. * * Note: Output mailbox has the same format as SW2HW_DQ. */ static inline int __mlxsw_cmd_query_dq(struct mlxsw_core *mlxsw_core, char *out_mbox, u32 dq_number, u8 opcode_mod) { return mlxsw_cmd_exec_out(mlxsw_core, MLXSW_CMD_OPCODE_2ERR_DQ, opcode_mod, dq_number, false, out_mbox, MLXSW_CMD_MBOX_SIZE); } static inline int mlxsw_cmd_query_sdq(struct mlxsw_core *mlxsw_core, char *out_mbox, u32 dq_number) { return __mlxsw_cmd_query_dq(mlxsw_core, out_mbox, dq_number, MLXSW_CMD_OPCODE_MOD_SDQ); } static inline int mlxsw_cmd_query_rdq(struct mlxsw_core *mlxsw_core, char *out_mbox, u32 dq_number) { return __mlxsw_cmd_query_dq(mlxsw_core, out_mbox, dq_number, MLXSW_CMD_OPCODE_MOD_RDQ); } /* SW2HW_CQ - Software to Hardware CQ * ---------------------------------- * OpMod == 0 (N/A), INMmod == CQ number * ------------------------------------- * The SW2HW_CQ command transfers ownership of a CQ context entry from software * to hardware. The command takes the CQ context entry from the input mailbox * and stores it in the CQC in the ownership of the hardware. The command fails * if the requested CQC entry is already in the ownership of the hardware. */ static inline int mlxsw_cmd_sw2hw_cq(struct mlxsw_core *mlxsw_core, char *in_mbox, u32 cq_number) { return mlxsw_cmd_exec_in(mlxsw_core, MLXSW_CMD_OPCODE_SW2HW_CQ, 0, cq_number, in_mbox, MLXSW_CMD_MBOX_SIZE); } enum mlxsw_cmd_mbox_sw2hw_cq_cqe_ver { MLXSW_CMD_MBOX_SW2HW_CQ_CQE_VER_1, MLXSW_CMD_MBOX_SW2HW_CQ_CQE_VER_2, }; /* cmd_mbox_sw2hw_cq_cqe_ver * CQE Version. */ MLXSW_ITEM32(cmd_mbox, sw2hw_cq, cqe_ver, 0x00, 28, 4); /* cmd_mbox_sw2hw_cq_c_eqn * Event Queue this CQ reports completion events to. */ MLXSW_ITEM32(cmd_mbox, sw2hw_cq, c_eqn, 0x00, 24, 1); /* cmd_mbox_sw2hw_cq_st * Event delivery state machine * 0x0 - FIRED * 0x1 - ARMED (Request for Notification) */ MLXSW_ITEM32(cmd_mbox, sw2hw_cq, st, 0x00, 8, 1); /* cmd_mbox_sw2hw_cq_log_cq_size * Log (base 2) of the CQ size (in entries). */ MLXSW_ITEM32(cmd_mbox, sw2hw_cq, log_cq_size, 0x00, 0, 4); /* cmd_mbox_sw2hw_cq_producer_counter * Producer Counter. The counter is incremented for each CQE that is * written by the HW to the CQ. * Maintained by HW (valid for the QUERY_CQ command only) */ MLXSW_ITEM32(cmd_mbox, sw2hw_cq, producer_counter, 0x04, 0, 16); /* cmd_mbox_sw2hw_cq_pa * Physical Address. */ MLXSW_ITEM64_INDEXED(cmd_mbox, sw2hw_cq, pa, 0x10, 11, 53, 0x08, 0x00, true); /* HW2SW_CQ - Hardware to Software CQ * ---------------------------------- * OpMod == 0 (N/A), INMmod == CQ number * ------------------------------------- * The HW2SW_CQ command transfers ownership of a CQ context entry from hardware * to software. The CQC entry is invalidated as a result of this command. */ static inline int mlxsw_cmd_hw2sw_cq(struct mlxsw_core *mlxsw_core, u32 cq_number) { return mlxsw_cmd_exec_none(mlxsw_core, MLXSW_CMD_OPCODE_HW2SW_CQ, 0, cq_number); } /* QUERY_CQ - Query CQ * ---------------------------------- * OpMod == 0 (N/A), INMmod == CQ number * ------------------------------------- * The QUERY_CQ command retrieves a snapshot of the current CQ context entry. * The command stores the snapshot in the output mailbox in the software format. * Note that the CQ context state and values are not affected by the QUERY_CQ * command. The QUERY_CQ command is for debug purposes only. * * Note: Output mailbox has the same format as SW2HW_CQ. */ static inline int mlxsw_cmd_query_cq(struct mlxsw_core *mlxsw_core, char *out_mbox, u32 cq_number) { return mlxsw_cmd_exec_out(mlxsw_core, MLXSW_CMD_OPCODE_QUERY_CQ, 0, cq_number, false, out_mbox, MLXSW_CMD_MBOX_SIZE); } /* SW2HW_EQ - Software to Hardware EQ * ---------------------------------- * OpMod == 0 (N/A), INMmod == EQ number * ------------------------------------- * The SW2HW_EQ command transfers ownership of an EQ context entry from software * to hardware. The command takes the EQ context entry from the input mailbox * and stores it in the EQC in the ownership of the hardware. The command fails * if the requested EQC entry is already in the ownership of the hardware. */ static inline int mlxsw_cmd_sw2hw_eq(struct mlxsw_core *mlxsw_core, char *in_mbox, u32 eq_number) { return mlxsw_cmd_exec_in(mlxsw_core, MLXSW_CMD_OPCODE_SW2HW_EQ, 0, eq_number, in_mbox, MLXSW_CMD_MBOX_SIZE); } /* cmd_mbox_sw2hw_eq_int_msix * When set, MSI-X cycles will be generated by this EQ. * When cleared, an interrupt will be generated by this EQ. */ MLXSW_ITEM32(cmd_mbox, sw2hw_eq, int_msix, 0x00, 24, 1); /* cmd_mbox_sw2hw_eq_st * Event delivery state machine * 0x0 - FIRED * 0x1 - ARMED (Request for Notification) * 0x11 - Always ARMED * other - reserved */ MLXSW_ITEM32(cmd_mbox, sw2hw_eq, st, 0x00, 8, 2); /* cmd_mbox_sw2hw_eq_log_eq_size * Log (base 2) of the EQ size (in entries). */ MLXSW_ITEM32(cmd_mbox, sw2hw_eq, log_eq_size, 0x00, 0, 4); /* cmd_mbox_sw2hw_eq_producer_counter * Producer Counter. The counter is incremented for each EQE that is written * by the HW to the EQ. * Maintained by HW (valid for the QUERY_EQ command only) */ MLXSW_ITEM32(cmd_mbox, sw2hw_eq, producer_counter, 0x04, 0, 16); /* cmd_mbox_sw2hw_eq_pa * Physical Address. */ MLXSW_ITEM64_INDEXED(cmd_mbox, sw2hw_eq, pa, 0x10, 11, 53, 0x08, 0x00, true); /* HW2SW_EQ - Hardware to Software EQ * ---------------------------------- * OpMod == 0 (N/A), INMmod == EQ number * ------------------------------------- */ static inline int mlxsw_cmd_hw2sw_eq(struct mlxsw_core *mlxsw_core, u32 eq_number) { return mlxsw_cmd_exec_none(mlxsw_core, MLXSW_CMD_OPCODE_HW2SW_EQ, 0, eq_number); } /* QUERY_EQ - Query EQ * ---------------------------------- * OpMod == 0 (N/A), INMmod == EQ number * ------------------------------------- * * Note: Output mailbox has the same format as SW2HW_EQ. */ static inline int mlxsw_cmd_query_eq(struct mlxsw_core *mlxsw_core, char *out_mbox, u32 eq_number) { return mlxsw_cmd_exec_out(mlxsw_core, MLXSW_CMD_OPCODE_QUERY_EQ, 0, eq_number, false, out_mbox, MLXSW_CMD_MBOX_SIZE); } #endif |