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You may choose to be licensed under the terms of the GNU * General Public License (GPL) Version 2, available from the file * COPYING in the main directory of this source tree, or the * BSD license below: * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the following * conditions are met: * * - Redistributions of source code must retain the above * copyright notice, this list of conditions and the following * disclaimer. * * - Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials * provided with the distribution. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #ifndef ENA_COM #define ENA_COM #include <linux/compiler.h> #include <linux/delay.h> #include <linux/dma-mapping.h> #include <linux/gfp.h> #include <linux/sched.h> #include <linux/sizes.h> #include <linux/spinlock.h> #include <linux/types.h> #include <linux/wait.h> #include "ena_common_defs.h" #include "ena_admin_defs.h" #include "ena_eth_io_defs.h" #include "ena_regs_defs.h" #undef pr_fmt #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #define ENA_MAX_NUM_IO_QUEUES 128U /* We need to queues for each IO (on for Tx and one for Rx) */ #define ENA_TOTAL_NUM_QUEUES (2 * (ENA_MAX_NUM_IO_QUEUES)) #define ENA_MAX_HANDLERS 256 #define ENA_MAX_PHYS_ADDR_SIZE_BITS 48 /* Unit in usec */ #define ENA_REG_READ_TIMEOUT 200000 #define ADMIN_SQ_SIZE(depth) ((depth) * sizeof(struct ena_admin_aq_entry)) #define ADMIN_CQ_SIZE(depth) ((depth) * sizeof(struct ena_admin_acq_entry)) #define ADMIN_AENQ_SIZE(depth) ((depth) * sizeof(struct ena_admin_aenq_entry)) /*****************************************************************************/ /*****************************************************************************/ /* ENA adaptive interrupt moderation settings */ #define ENA_INTR_LOWEST_USECS (0) #define ENA_INTR_LOWEST_PKTS (3) #define ENA_INTR_LOWEST_BYTES (2 * 1524) #define ENA_INTR_LOW_USECS (32) #define ENA_INTR_LOW_PKTS (12) #define ENA_INTR_LOW_BYTES (16 * 1024) #define ENA_INTR_MID_USECS (80) #define ENA_INTR_MID_PKTS (48) #define ENA_INTR_MID_BYTES (64 * 1024) #define ENA_INTR_HIGH_USECS (128) #define ENA_INTR_HIGH_PKTS (96) #define ENA_INTR_HIGH_BYTES (128 * 1024) #define ENA_INTR_HIGHEST_USECS (192) #define ENA_INTR_HIGHEST_PKTS (128) #define ENA_INTR_HIGHEST_BYTES (192 * 1024) #define ENA_INTR_INITIAL_TX_INTERVAL_USECS 196 #define ENA_INTR_INITIAL_RX_INTERVAL_USECS 4 #define ENA_INTR_DELAY_OLD_VALUE_WEIGHT 6 #define ENA_INTR_DELAY_NEW_VALUE_WEIGHT 4 #define ENA_INTR_MODER_LEVEL_STRIDE 2 #define ENA_INTR_BYTE_COUNT_NOT_SUPPORTED 0xFFFFFF #define ENA_HW_HINTS_NO_TIMEOUT 0xFFFF enum ena_intr_moder_level { ENA_INTR_MODER_LOWEST = 0, ENA_INTR_MODER_LOW, ENA_INTR_MODER_MID, ENA_INTR_MODER_HIGH, ENA_INTR_MODER_HIGHEST, ENA_INTR_MAX_NUM_OF_LEVELS, }; struct ena_intr_moder_entry { unsigned int intr_moder_interval; unsigned int pkts_per_interval; unsigned int bytes_per_interval; }; enum queue_direction { ENA_COM_IO_QUEUE_DIRECTION_TX, ENA_COM_IO_QUEUE_DIRECTION_RX }; struct ena_com_buf { dma_addr_t paddr; /**< Buffer physical address */ u16 len; /**< Buffer length in bytes */ }; struct ena_com_rx_buf_info { u16 len; u16 req_id; }; struct ena_com_io_desc_addr { u8 __iomem *pbuf_dev_addr; /* LLQ address */ u8 *virt_addr; dma_addr_t phys_addr; }; struct ena_com_tx_meta { u16 mss; u16 l3_hdr_len; u16 l3_hdr_offset; u16 l4_hdr_len; /* In words */ }; struct ena_com_io_cq { struct ena_com_io_desc_addr cdesc_addr; /* Interrupt unmask register */ u32 __iomem *unmask_reg; /* The completion queue head doorbell register */ u32 __iomem *cq_head_db_reg; /* numa configuration register (for TPH) */ u32 __iomem *numa_node_cfg_reg; /* The value to write to the above register to unmask * the interrupt of this queue */ u32 msix_vector; enum queue_direction direction; /* holds the number of cdesc of the current packet */ u16 cur_rx_pkt_cdesc_count; /* save the firt cdesc idx of the current packet */ u16 cur_rx_pkt_cdesc_start_idx; u16 q_depth; /* Caller qid */ u16 qid; /* Device queue index */ u16 idx; u16 head; u16 last_head_update; u8 phase; u8 cdesc_entry_size_in_bytes; } ____cacheline_aligned; struct ena_com_io_sq { struct ena_com_io_desc_addr desc_addr; u32 __iomem *db_addr; u8 __iomem *header_addr; enum queue_direction direction; enum ena_admin_placement_policy_type mem_queue_type; u32 msix_vector; struct ena_com_tx_meta cached_tx_meta; u16 q_depth; u16 qid; u16 idx; u16 tail; u16 next_to_comp; u32 tx_max_header_size; u8 phase; u8 desc_entry_size; u8 dma_addr_bits; } ____cacheline_aligned; struct ena_com_admin_cq { struct ena_admin_acq_entry *entries; dma_addr_t dma_addr; u16 head; u8 phase; }; struct ena_com_admin_sq { struct ena_admin_aq_entry *entries; dma_addr_t dma_addr; u32 __iomem *db_addr; u16 head; u16 tail; u8 phase; }; struct ena_com_stats_admin { u32 aborted_cmd; u32 submitted_cmd; u32 completed_cmd; u32 out_of_space; u32 no_completion; }; struct ena_com_admin_queue { void *q_dmadev; spinlock_t q_lock; /* spinlock for the admin queue */ struct ena_comp_ctx *comp_ctx; u32 completion_timeout; u16 q_depth; struct ena_com_admin_cq cq; struct ena_com_admin_sq sq; /* Indicate if the admin queue should poll for completion */ bool polling; u16 curr_cmd_id; /* Indicate that the ena was initialized and can * process new admin commands */ bool running_state; /* Count the number of outstanding admin commands */ atomic_t outstanding_cmds; struct ena_com_stats_admin stats; }; struct ena_aenq_handlers; struct ena_com_aenq { u16 head; u8 phase; struct ena_admin_aenq_entry *entries; dma_addr_t dma_addr; u16 q_depth; struct ena_aenq_handlers *aenq_handlers; }; struct ena_com_mmio_read { struct ena_admin_ena_mmio_req_read_less_resp *read_resp; dma_addr_t read_resp_dma_addr; u32 reg_read_to; /* in us */ u16 seq_num; bool readless_supported; /* spin lock to ensure a single outstanding read */ spinlock_t lock; }; struct ena_rss { /* Indirect table */ u16 *host_rss_ind_tbl; struct ena_admin_rss_ind_table_entry *rss_ind_tbl; dma_addr_t rss_ind_tbl_dma_addr; u16 tbl_log_size; /* Hash key */ enum ena_admin_hash_functions hash_func; struct ena_admin_feature_rss_flow_hash_control *hash_key; dma_addr_t hash_key_dma_addr; u32 hash_init_val; /* Flow Control */ struct ena_admin_feature_rss_hash_control *hash_ctrl; dma_addr_t hash_ctrl_dma_addr; }; struct ena_host_attribute { /* Debug area */ u8 *debug_area_virt_addr; dma_addr_t debug_area_dma_addr; u32 debug_area_size; /* Host information */ struct ena_admin_host_info *host_info; dma_addr_t host_info_dma_addr; }; /* Each ena_dev is a PCI function. */ struct ena_com_dev { struct ena_com_admin_queue admin_queue; struct ena_com_aenq aenq; struct ena_com_io_cq io_cq_queues[ENA_TOTAL_NUM_QUEUES]; struct ena_com_io_sq io_sq_queues[ENA_TOTAL_NUM_QUEUES]; u8 __iomem *reg_bar; void __iomem *mem_bar; void *dmadev; enum ena_admin_placement_policy_type tx_mem_queue_type; u32 tx_max_header_size; u16 stats_func; /* Selected function for extended statistic dump */ u16 stats_queue; /* Selected queue for extended statistic dump */ struct ena_com_mmio_read mmio_read; struct ena_rss rss; u32 supported_features; u32 dma_addr_bits; struct ena_host_attribute host_attr; bool adaptive_coalescing; u16 intr_delay_resolution; u32 intr_moder_tx_interval; struct ena_intr_moder_entry *intr_moder_tbl; }; struct ena_com_dev_get_features_ctx { struct ena_admin_queue_feature_desc max_queues; struct ena_admin_device_attr_feature_desc dev_attr; struct ena_admin_feature_aenq_desc aenq; struct ena_admin_feature_offload_desc offload; struct ena_admin_ena_hw_hints hw_hints; }; struct ena_com_create_io_ctx { enum ena_admin_placement_policy_type mem_queue_type; enum queue_direction direction; int numa_node; u32 msix_vector; u16 queue_size; u16 qid; }; typedef void (*ena_aenq_handler)(void *data, struct ena_admin_aenq_entry *aenq_e); /* Holds aenq handlers. Indexed by AENQ event group */ struct ena_aenq_handlers { ena_aenq_handler handlers[ENA_MAX_HANDLERS]; ena_aenq_handler unimplemented_handler; }; /*****************************************************************************/ /*****************************************************************************/ /* ena_com_mmio_reg_read_request_init - Init the mmio reg read mechanism * @ena_dev: ENA communication layer struct * * Initialize the register read mechanism. * * @note: This method must be the first stage in the initialization sequence. * * @return - 0 on success, negative value on failure. */ int ena_com_mmio_reg_read_request_init(struct ena_com_dev *ena_dev); /* ena_com_set_mmio_read_mode - Enable/disable the mmio reg read mechanism * @ena_dev: ENA communication layer struct * @readless_supported: readless mode (enable/disable) */ void ena_com_set_mmio_read_mode(struct ena_com_dev *ena_dev, bool readless_supported); /* ena_com_mmio_reg_read_request_write_dev_addr - Write the mmio reg read return * value physical address. * @ena_dev: ENA communication layer struct */ void ena_com_mmio_reg_read_request_write_dev_addr(struct ena_com_dev *ena_dev); /* ena_com_mmio_reg_read_request_destroy - Destroy the mmio reg read mechanism * @ena_dev: ENA communication layer struct */ void ena_com_mmio_reg_read_request_destroy(struct ena_com_dev *ena_dev); /* ena_com_admin_init - Init the admin and the async queues * @ena_dev: ENA communication layer struct * @aenq_handlers: Those handlers to be called upon event. * @init_spinlock: Indicate if this method should init the admin spinlock or * the spinlock was init before (for example, in a case of FLR). * * Initialize the admin submission and completion queues. * Initialize the asynchronous events notification queues. * * @return - 0 on success, negative value on failure. */ int ena_com_admin_init(struct ena_com_dev *ena_dev, struct ena_aenq_handlers *aenq_handlers, bool init_spinlock); /* ena_com_admin_destroy - Destroy the admin and the async events queues. * @ena_dev: ENA communication layer struct * * @note: Before calling this method, the caller must validate that the device * won't send any additional admin completions/aenq. * To achieve that, a FLR is recommended. */ void ena_com_admin_destroy(struct ena_com_dev *ena_dev); /* ena_com_dev_reset - Perform device FLR to the device. * @ena_dev: ENA communication layer struct * @reset_reason: Specify what is the trigger for the reset in case of an error. * * @return - 0 on success, negative value on failure. */ int ena_com_dev_reset(struct ena_com_dev *ena_dev, enum ena_regs_reset_reason_types reset_reason); /* ena_com_create_io_queue - Create io queue. * @ena_dev: ENA communication layer struct * @ctx - create context structure * * Create the submission and the completion queues. * * @return - 0 on success, negative value on failure. */ int ena_com_create_io_queue(struct ena_com_dev *ena_dev, struct ena_com_create_io_ctx *ctx); /* ena_com_destroy_io_queue - Destroy IO queue with the queue id - qid. * @ena_dev: ENA communication layer struct * @qid - the caller virtual queue id. */ void ena_com_destroy_io_queue(struct ena_com_dev *ena_dev, u16 qid); /* ena_com_get_io_handlers - Return the io queue handlers * @ena_dev: ENA communication layer struct * @qid - the caller virtual queue id. * @io_sq - IO submission queue handler * @io_cq - IO completion queue handler. * * @return - 0 on success, negative value on failure. */ int ena_com_get_io_handlers(struct ena_com_dev *ena_dev, u16 qid, struct ena_com_io_sq **io_sq, struct ena_com_io_cq **io_cq); /* ena_com_admin_aenq_enable - ENAble asynchronous event notifications * @ena_dev: ENA communication layer struct * * After this method, aenq event can be received via AENQ. */ void ena_com_admin_aenq_enable(struct ena_com_dev *ena_dev); /* ena_com_set_admin_running_state - Set the state of the admin queue * @ena_dev: ENA communication layer struct * * Change the state of the admin queue (enable/disable) */ void ena_com_set_admin_running_state(struct ena_com_dev *ena_dev, bool state); /* ena_com_get_admin_running_state - Get the admin queue state * @ena_dev: ENA communication layer struct * * Retrieve the state of the admin queue (enable/disable) * * @return - current polling mode (enable/disable) */ bool ena_com_get_admin_running_state(struct ena_com_dev *ena_dev); /* ena_com_set_admin_polling_mode - Set the admin completion queue polling mode * @ena_dev: ENA communication layer struct * @polling: ENAble/Disable polling mode * * Set the admin completion mode. */ void ena_com_set_admin_polling_mode(struct ena_com_dev *ena_dev, bool polling); /* ena_com_set_admin_polling_mode - Get the admin completion queue polling mode * @ena_dev: ENA communication layer struct * * Get the admin completion mode. * If polling mode is on, ena_com_execute_admin_command will perform a * polling on the admin completion queue for the commands completion, * otherwise it will wait on wait event. * * @return state */ bool ena_com_get_ena_admin_polling_mode(struct ena_com_dev *ena_dev); /* ena_com_admin_q_comp_intr_handler - admin queue interrupt handler * @ena_dev: ENA communication layer struct * * This method go over the admin completion queue and wake up all the pending * threads that wait on the commands wait event. * * @note: Should be called after MSI-X interrupt. */ void ena_com_admin_q_comp_intr_handler(struct ena_com_dev *ena_dev); /* ena_com_aenq_intr_handler - AENQ interrupt handler * @ena_dev: ENA communication layer struct * * This method go over the async event notification queue and call the proper * aenq handler. */ void ena_com_aenq_intr_handler(struct ena_com_dev *dev, void *data); /* ena_com_abort_admin_commands - Abort all the outstanding admin commands. * @ena_dev: ENA communication layer struct * * This method aborts all the outstanding admin commands. * The caller should then call ena_com_wait_for_abort_completion to make sure * all the commands were completed. */ void ena_com_abort_admin_commands(struct ena_com_dev *ena_dev); /* ena_com_wait_for_abort_completion - Wait for admin commands abort. * @ena_dev: ENA communication layer struct * * This method wait until all the outstanding admin commands will be completed. */ void ena_com_wait_for_abort_completion(struct ena_com_dev *ena_dev); /* ena_com_validate_version - Validate the device parameters * @ena_dev: ENA communication layer struct * * This method validate the device parameters are the same as the saved * parameters in ena_dev. * This method is useful after device reset, to validate the device mac address * and the device offloads are the same as before the reset. * * @return - 0 on success negative value otherwise. */ int ena_com_validate_version(struct ena_com_dev *ena_dev); /* ena_com_get_link_params - Retrieve physical link parameters. * @ena_dev: ENA communication layer struct * @resp: Link parameters * * Retrieve the physical link parameters, * like speed, auto-negotiation and full duplex support. * * @return - 0 on Success negative value otherwise. */ int ena_com_get_link_params(struct ena_com_dev *ena_dev, struct ena_admin_get_feat_resp *resp); /* ena_com_get_dma_width - Retrieve physical dma address width the device * supports. * @ena_dev: ENA communication layer struct * * Retrieve the maximum physical address bits the device can handle. * * @return: > 0 on Success and negative value otherwise. */ int ena_com_get_dma_width(struct ena_com_dev *ena_dev); /* ena_com_set_aenq_config - Set aenq groups configurations * @ena_dev: ENA communication layer struct * @groups flag: bit fields flags of enum ena_admin_aenq_group. * * Configure which aenq event group the driver would like to receive. * * @return: 0 on Success and negative value otherwise. */ int ena_com_set_aenq_config(struct ena_com_dev *ena_dev, u32 groups_flag); /* ena_com_get_dev_attr_feat - Get device features * @ena_dev: ENA communication layer struct * @get_feat_ctx: returned context that contain the get features. * * @return: 0 on Success and negative value otherwise. */ int ena_com_get_dev_attr_feat(struct ena_com_dev *ena_dev, struct ena_com_dev_get_features_ctx *get_feat_ctx); /* ena_com_get_dev_basic_stats - Get device basic statistics * @ena_dev: ENA communication layer struct * @stats: stats return value * * @return: 0 on Success and negative value otherwise. */ int ena_com_get_dev_basic_stats(struct ena_com_dev *ena_dev, struct ena_admin_basic_stats *stats); /* ena_com_set_dev_mtu - Configure the device mtu. * @ena_dev: ENA communication layer struct * @mtu: mtu value * * @return: 0 on Success and negative value otherwise. */ int ena_com_set_dev_mtu(struct ena_com_dev *ena_dev, int mtu); /* ena_com_get_offload_settings - Retrieve the device offloads capabilities * @ena_dev: ENA communication layer struct * @offlad: offload return value * * @return: 0 on Success and negative value otherwise. */ int ena_com_get_offload_settings(struct ena_com_dev *ena_dev, struct ena_admin_feature_offload_desc *offload); /* ena_com_rss_init - Init RSS * @ena_dev: ENA communication layer struct * @log_size: indirection log size * * Allocate RSS/RFS resources. * The caller then can configure rss using ena_com_set_hash_function, * ena_com_set_hash_ctrl and ena_com_indirect_table_set. * * @return: 0 on Success and negative value otherwise. */ int ena_com_rss_init(struct ena_com_dev *ena_dev, u16 log_size); /* ena_com_rss_destroy - Destroy rss * @ena_dev: ENA communication layer struct * * Free all the RSS/RFS resources. */ void ena_com_rss_destroy(struct ena_com_dev *ena_dev); /* ena_com_fill_hash_function - Fill RSS hash function * @ena_dev: ENA communication layer struct * @func: The hash function (Toeplitz or crc) * @key: Hash key (for toeplitz hash) * @key_len: key length (max length 10 DW) * @init_val: initial value for the hash function * * Fill the ena_dev resources with the desire hash function, hash key, key_len * and key initial value (if needed by the hash function). * To flush the key into the device the caller should call * ena_com_set_hash_function. * * @return: 0 on Success and negative value otherwise. */ int ena_com_fill_hash_function(struct ena_com_dev *ena_dev, enum ena_admin_hash_functions func, const u8 *key, u16 key_len, u32 init_val); /* ena_com_set_hash_function - Flush the hash function and it dependencies to * the device. * @ena_dev: ENA communication layer struct * * Flush the hash function and it dependencies (key, key length and * initial value) if needed. * * @note: Prior to this method the caller should call ena_com_fill_hash_function * * @return: 0 on Success and negative value otherwise. */ int ena_com_set_hash_function(struct ena_com_dev *ena_dev); /* ena_com_get_hash_function - Retrieve the hash function and the hash key * from the device. * @ena_dev: ENA communication layer struct * @func: hash function * @key: hash key * * Retrieve the hash function and the hash key from the device. * * @note: If the caller called ena_com_fill_hash_function but didn't flash * it to the device, the new configuration will be lost. * * @return: 0 on Success and negative value otherwise. */ int ena_com_get_hash_function(struct ena_com_dev *ena_dev, enum ena_admin_hash_functions *func, u8 *key); /* ena_com_fill_hash_ctrl - Fill RSS hash control * @ena_dev: ENA communication layer struct. * @proto: The protocol to configure. * @hash_fields: bit mask of ena_admin_flow_hash_fields * * Fill the ena_dev resources with the desire hash control (the ethernet * fields that take part of the hash) for a specific protocol. * To flush the hash control to the device, the caller should call * ena_com_set_hash_ctrl. * * @return: 0 on Success and negative value otherwise. */ int ena_com_fill_hash_ctrl(struct ena_com_dev *ena_dev, enum ena_admin_flow_hash_proto proto, u16 hash_fields); /* ena_com_set_hash_ctrl - Flush the hash control resources to the device. * @ena_dev: ENA communication layer struct * * Flush the hash control (the ethernet fields that take part of the hash) * * @note: Prior to this method the caller should call ena_com_fill_hash_ctrl. * * @return: 0 on Success and negative value otherwise. */ int ena_com_set_hash_ctrl(struct ena_com_dev *ena_dev); /* ena_com_get_hash_ctrl - Retrieve the hash control from the device. * @ena_dev: ENA communication layer struct * @proto: The protocol to retrieve. * @fields: bit mask of ena_admin_flow_hash_fields. * * Retrieve the hash control from the device. * * @note, If the caller called ena_com_fill_hash_ctrl but didn't flash * it to the device, the new configuration will be lost. * * @return: 0 on Success and negative value otherwise. */ int ena_com_get_hash_ctrl(struct ena_com_dev *ena_dev, enum ena_admin_flow_hash_proto proto, u16 *fields); /* ena_com_set_default_hash_ctrl - Set the hash control to a default * configuration. * @ena_dev: ENA communication layer struct * * Fill the ena_dev resources with the default hash control configuration. * To flush the hash control to the device, the caller should call * ena_com_set_hash_ctrl. * * @return: 0 on Success and negative value otherwise. */ int ena_com_set_default_hash_ctrl(struct ena_com_dev *ena_dev); /* ena_com_indirect_table_fill_entry - Fill a single entry in the RSS * indirection table * @ena_dev: ENA communication layer struct. * @entry_idx - indirection table entry. * @entry_value - redirection value * * Fill a single entry of the RSS indirection table in the ena_dev resources. * To flush the indirection table to the device, the called should call * ena_com_indirect_table_set. * * @return: 0 on Success and negative value otherwise. */ int ena_com_indirect_table_fill_entry(struct ena_com_dev *ena_dev, u16 entry_idx, u16 entry_value); /* ena_com_indirect_table_set - Flush the indirection table to the device. * @ena_dev: ENA communication layer struct * * Flush the indirection hash control to the device. * Prior to this method the caller should call ena_com_indirect_table_fill_entry * * @return: 0 on Success and negative value otherwise. */ int ena_com_indirect_table_set(struct ena_com_dev *ena_dev); /* ena_com_indirect_table_get - Retrieve the indirection table from the device. * @ena_dev: ENA communication layer struct * @ind_tbl: indirection table * * Retrieve the RSS indirection table from the device. * * @note: If the caller called ena_com_indirect_table_fill_entry but didn't flash * it to the device, the new configuration will be lost. * * @return: 0 on Success and negative value otherwise. */ int ena_com_indirect_table_get(struct ena_com_dev *ena_dev, u32 *ind_tbl); /* ena_com_allocate_host_info - Allocate host info resources. * @ena_dev: ENA communication layer struct * * @return: 0 on Success and negative value otherwise. */ int ena_com_allocate_host_info(struct ena_com_dev *ena_dev); /* ena_com_allocate_debug_area - Allocate debug area. * @ena_dev: ENA communication layer struct * @debug_area_size - debug area size. * * @return: 0 on Success and negative value otherwise. */ int ena_com_allocate_debug_area(struct ena_com_dev *ena_dev, u32 debug_area_size); /* ena_com_delete_debug_area - Free the debug area resources. * @ena_dev: ENA communication layer struct * * Free the allocate debug area. */ void ena_com_delete_debug_area(struct ena_com_dev *ena_dev); /* ena_com_delete_host_info - Free the host info resources. * @ena_dev: ENA communication layer struct * * Free the allocate host info. */ void ena_com_delete_host_info(struct ena_com_dev *ena_dev); /* ena_com_set_host_attributes - Update the device with the host * attributes (debug area and host info) base address. * @ena_dev: ENA communication layer struct * * @return: 0 on Success and negative value otherwise. */ int ena_com_set_host_attributes(struct ena_com_dev *ena_dev); /* ena_com_create_io_cq - Create io completion queue. * @ena_dev: ENA communication layer struct * @io_cq - io completion queue handler * Create IO completion queue. * * @return - 0 on success, negative value on failure. */ int ena_com_create_io_cq(struct ena_com_dev *ena_dev, struct ena_com_io_cq *io_cq); /* ena_com_destroy_io_cq - Destroy io completion queue. * @ena_dev: ENA communication layer struct * @io_cq - io completion queue handler * Destroy IO completion queue. * * @return - 0 on success, negative value on failure. */ int ena_com_destroy_io_cq(struct ena_com_dev *ena_dev, struct ena_com_io_cq *io_cq); /* ena_com_execute_admin_command - Execute admin command * @admin_queue: admin queue. * @cmd: the admin command to execute. * @cmd_size: the command size. * @cmd_completion: command completion return value. * @cmd_comp_size: command completion size. * Submit an admin command and then wait until the device will return a * completion. * The completion will be copyed into cmd_comp. * * @return - 0 on success, negative value on failure. */ int ena_com_execute_admin_command(struct ena_com_admin_queue *admin_queue, struct ena_admin_aq_entry *cmd, size_t cmd_size, struct ena_admin_acq_entry *cmd_comp, size_t cmd_comp_size); /* ena_com_init_interrupt_moderation - Init interrupt moderation * @ena_dev: ENA communication layer struct * * @return - 0 on success, negative value on failure. */ int ena_com_init_interrupt_moderation(struct ena_com_dev *ena_dev); /* ena_com_destroy_interrupt_moderation - Destroy interrupt moderation resources * @ena_dev: ENA communication layer struct */ void ena_com_destroy_interrupt_moderation(struct ena_com_dev *ena_dev); /* ena_com_interrupt_moderation_supported - Return if interrupt moderation * capability is supported by the device. * * @return - supported or not. */ bool ena_com_interrupt_moderation_supported(struct ena_com_dev *ena_dev); /* ena_com_config_default_interrupt_moderation_table - Restore the interrupt * moderation table back to the default parameters. * @ena_dev: ENA communication layer struct */ void ena_com_config_default_interrupt_moderation_table(struct ena_com_dev *ena_dev); /* ena_com_update_nonadaptive_moderation_interval_tx - Update the * non-adaptive interval in Tx direction. * @ena_dev: ENA communication layer struct * @tx_coalesce_usecs: Interval in usec. * * @return - 0 on success, negative value on failure. */ int ena_com_update_nonadaptive_moderation_interval_tx(struct ena_com_dev *ena_dev, u32 tx_coalesce_usecs); /* ena_com_update_nonadaptive_moderation_interval_rx - Update the * non-adaptive interval in Rx direction. * @ena_dev: ENA communication layer struct * @rx_coalesce_usecs: Interval in usec. * * @return - 0 on success, negative value on failure. */ int ena_com_update_nonadaptive_moderation_interval_rx(struct ena_com_dev *ena_dev, u32 rx_coalesce_usecs); /* ena_com_get_nonadaptive_moderation_interval_tx - Retrieve the * non-adaptive interval in Tx direction. * @ena_dev: ENA communication layer struct * * @return - interval in usec */ unsigned int ena_com_get_nonadaptive_moderation_interval_tx(struct ena_com_dev *ena_dev); /* ena_com_get_nonadaptive_moderation_interval_rx - Retrieve the * non-adaptive interval in Rx direction. * @ena_dev: ENA communication layer struct * * @return - interval in usec */ unsigned int ena_com_get_nonadaptive_moderation_interval_rx(struct ena_com_dev *ena_dev); /* ena_com_init_intr_moderation_entry - Update a single entry in the interrupt * moderation table. * @ena_dev: ENA communication layer struct * @level: Interrupt moderation table level * @entry: Entry value * * Update a single entry in the interrupt moderation table. */ void ena_com_init_intr_moderation_entry(struct ena_com_dev *ena_dev, enum ena_intr_moder_level level, struct ena_intr_moder_entry *entry); /* ena_com_get_intr_moderation_entry - Init ena_intr_moder_entry. * @ena_dev: ENA communication layer struct * @level: Interrupt moderation table level * @entry: Entry to fill. * * Initialize the entry according to the adaptive interrupt moderation table. */ void ena_com_get_intr_moderation_entry(struct ena_com_dev *ena_dev, enum ena_intr_moder_level level, struct ena_intr_moder_entry *entry); static inline bool ena_com_get_adaptive_moderation_enabled(struct ena_com_dev *ena_dev) { return ena_dev->adaptive_coalescing; } static inline void ena_com_enable_adaptive_moderation(struct ena_com_dev *ena_dev) { ena_dev->adaptive_coalescing = true; } static inline void ena_com_disable_adaptive_moderation(struct ena_com_dev *ena_dev) { ena_dev->adaptive_coalescing = false; } /* ena_com_calculate_interrupt_delay - Calculate new interrupt delay * @ena_dev: ENA communication layer struct * @pkts: Number of packets since the last update * @bytes: Number of bytes received since the last update. * @smoothed_interval: Returned interval * @moder_tbl_idx: Current table level as input update new level as return * value. */ static inline void ena_com_calculate_interrupt_delay(struct ena_com_dev *ena_dev, unsigned int pkts, unsigned int bytes, unsigned int *smoothed_interval, unsigned int *moder_tbl_idx) { enum ena_intr_moder_level curr_moder_idx, new_moder_idx; struct ena_intr_moder_entry *curr_moder_entry; struct ena_intr_moder_entry *pred_moder_entry; struct ena_intr_moder_entry *new_moder_entry; struct ena_intr_moder_entry *intr_moder_tbl = ena_dev->intr_moder_tbl; unsigned int interval; /* We apply adaptive moderation on Rx path only. * Tx uses static interrupt moderation. */ if (!pkts || !bytes) /* Tx interrupt, or spurious interrupt, * in both cases we just use same delay values */ return; curr_moder_idx = (enum ena_intr_moder_level)(*moder_tbl_idx); if (unlikely(curr_moder_idx >= ENA_INTR_MAX_NUM_OF_LEVELS)) { pr_err("Wrong moderation index %u\n", curr_moder_idx); return; } curr_moder_entry = &intr_moder_tbl[curr_moder_idx]; new_moder_idx = curr_moder_idx; if (curr_moder_idx == ENA_INTR_MODER_LOWEST) { if ((pkts > curr_moder_entry->pkts_per_interval) || (bytes > curr_moder_entry->bytes_per_interval)) new_moder_idx = (enum ena_intr_moder_level)(curr_moder_idx + ENA_INTR_MODER_LEVEL_STRIDE); } else { pred_moder_entry = &intr_moder_tbl[curr_moder_idx - ENA_INTR_MODER_LEVEL_STRIDE]; if ((pkts <= pred_moder_entry->pkts_per_interval) || (bytes <= pred_moder_entry->bytes_per_interval)) new_moder_idx = (enum ena_intr_moder_level)(curr_moder_idx - ENA_INTR_MODER_LEVEL_STRIDE); else if ((pkts > curr_moder_entry->pkts_per_interval) || (bytes > curr_moder_entry->bytes_per_interval)) { if (curr_moder_idx != ENA_INTR_MODER_HIGHEST) new_moder_idx = (enum ena_intr_moder_level)(curr_moder_idx + ENA_INTR_MODER_LEVEL_STRIDE); } } new_moder_entry = &intr_moder_tbl[new_moder_idx]; interval = new_moder_entry->intr_moder_interval; *smoothed_interval = ( (interval * ENA_INTR_DELAY_NEW_VALUE_WEIGHT + ENA_INTR_DELAY_OLD_VALUE_WEIGHT * (*smoothed_interval)) + 5) / 10; *moder_tbl_idx = new_moder_idx; } /* ena_com_update_intr_reg - Prepare interrupt register * @intr_reg: interrupt register to update. * @rx_delay_interval: Rx interval in usecs * @tx_delay_interval: Tx interval in usecs * @unmask: unask enable/disable * * Prepare interrupt update register with the supplied parameters. */ static inline void ena_com_update_intr_reg(struct ena_eth_io_intr_reg *intr_reg, u32 rx_delay_interval, u32 tx_delay_interval, bool unmask) { intr_reg->intr_control = 0; intr_reg->intr_control |= rx_delay_interval & ENA_ETH_IO_INTR_REG_RX_INTR_DELAY_MASK; intr_reg->intr_control |= (tx_delay_interval << ENA_ETH_IO_INTR_REG_TX_INTR_DELAY_SHIFT) & ENA_ETH_IO_INTR_REG_TX_INTR_DELAY_MASK; if (unmask) intr_reg->intr_control |= ENA_ETH_IO_INTR_REG_INTR_UNMASK_MASK; } #endif /* !(ENA_COM) */ |