.. _mi.h - NVMe Management Interface library (libnvme-mi) definitions.: **mi.h - NVMe Management Interface library (libnvme-mi) definitions.** These provide an abstraction for the MI messaging between controllers and a host, typically over an MCTP-over-i2c link to a NVMe device, used as part of the out-of-band management of a system. We have a few data structures define here to reflect the topology of a MI connection with an NVMe subsystem: - :c:type:`libnvme_mi_ep_t`: an MI endpoint - our mechanism of communication with a NVMe subsystem. For MCTP, an endpoint will be the component that holds the MCTP address (EID), and receives our request message. endpoints are defined in the NVMe-MI spec, and are specific to the MI interface. Each endpoint will provide access to one or more of: - :c:type:`libnvme_mi_ctrl_t`: a NVMe controller, as defined by the NVMe base spec. The controllers are responsible for processing any NVMe standard commands (eg, the Admin command set). An endpoint (:c:type:`libnvme_mi_ep_t`) may provide access to multiple controllers - so each of the controller- type commands will require a :c:type:`libnvme_mi_ctrl_t` to be specified, rather than an endpoint A couple of conventions with the libnvme-mi API: - All types and functions have the libnvme_mi prefix, to distinguish from the libnvme core. - We currently support either MI commands and Admin commands. The former adds a _mi prefix, the latter an _admin prefix. [This does result in the MI functions having a double _mi, like :c:type:`libnvme_mi_mi_subsystem_health_status_poll`, which is apparently amusing for our German-speaking readers] For return values: unless specified in the per-function documentation, all functions: - return 0 on success - return -1, with errno set, for errors communicating with the MI device, either in request or response data - return >1 on MI status errors. This value is the 8-bit MI status value, represented by :c:type:`enum nvme_mi_resp_status `. Note that the status values may be vendor-defined above 0xe0. For the second case, we have a few conventions for errno values: - EPROTO: response data violated the MI protocol, and libnvme cannot validly interpret the response - EIO: Other I/O error communicating with device (eg., valid but unexpected response data) - EINVAL: invalid input arguments for a command In line with the core NVMe API, the Admin command functions take an `_args` structure to provide the command-specific parameters. However, for the MI interface, the fd and timeout members of these _args structs are ignored. References to the specifications here will either to be the NVM Express Management Interface ("NVMe-MI") or the NVM Express Base specification ("NVMe"). At the time of writing, the versions we're referencing here are: - NVMe-MI 1.2b - NVMe 2.0b with a couple of accommodations for older spec types, particularly NVMe-MI 1.1, where possible. .. c:function:: const char * libnvme_mi_status_to_string (int status) return a string representation of the MI status. **Parameters** ``int status`` MI response status **Description** Gives a string description of **status**, as per section 4.1.2 of the NVMe-MI spec. The status value should be of type NVME_STATUS_MI, and extracted from the return value using nvme_status_get_value(). Returned string is const, and should not be free()ed. **Return** A string representing the status value .. c:type:: libnvme_mi_ep_t MI Endpoint object. **Description** Represents our communication endpoint on the remote MI-capable device. To be used for direct MI commands for the endpoint (through the libnvme_mi_mi_* functions(), or to communicate with individual controllers (see :c:type:`libnvme_mi_init_ctrl`). Endpoints are created through a transport-specific constructor; currently only MCTP-connected endpoints are supported, through :c:type:`libnvme_mi_open_mctp`. Subsequent operations on the endpoint (and related controllers) are transport-independent. .. c:function:: int libnvme_mi_set_csi (libnvme_mi_ep_t ep, uint8_t csi) Assign a CSI to an endpoint. **Parameters** ``libnvme_mi_ep_t ep`` Endpoint ``uint8_t csi`` value to use for CSI bit in NMP (0 or 1) for this endpoint **Return** 0 if successful, -1 otherwise (some endpoints may not support) .. c:function:: libnvme_mi_ep_t libnvme_mi_first_endpoint (struct libnvme_global_ctx *ctx) Start endpoint iterator **Parameters** ``struct libnvme_global_ctx *ctx`` :c:type:`struct libnvme_global_ctx ` object **Return** first MI endpoint object under this root, or NULL if no endpoints are present. **Description** See: :c:type:`libnvme_mi_next_endpoint`, :c:type:`libnvme_mi_for_each_endpoint` .. c:function:: libnvme_mi_ep_t libnvme_mi_next_endpoint (struct libnvme_global_ctx *ctx, libnvme_mi_ep_t e) Continue endpoint iterator **Parameters** ``struct libnvme_global_ctx *ctx`` :c:type:`struct libnvme_global_ctx ` object ``libnvme_mi_ep_t e`` :c:type:`libnvme_mi_ep_t` current position of iterator **Return** next endpoint MI endpoint object after **e** under this root, or NULL if no further endpoints are present. **Description** See: :c:type:`libnvme_mi_first_endpoint`, :c:type:`libnvme_mi_for_each_endpoint` .. c:macro:: libnvme_mi_for_each_endpoint ``libnvme_mi_for_each_endpoint (c, e)`` Iterator for NVMe-MI endpoints. **Parameters** ``c`` :c:type:`struct libnvme_global_ctx ` object ``e`` :c:type:`libnvme_mi_ep_t` object, set on each iteration .. c:macro:: libnvme_mi_for_each_endpoint_safe ``libnvme_mi_for_each_endpoint_safe (c, e, _e)`` Iterator for NVMe-MI endpoints, allowing deletion during traversal **Parameters** ``c`` :c:type:`struct libnvme_global_ctx ` object ``e`` :c:type:`libnvme_mi_ep_t` object, set on each iteration ``_e`` :c:type:`libnvme_mi_ep_t` object used as temporary storage .. c:function:: int libnvme_mi_ep_set_timeout (libnvme_mi_ep_t ep, unsigned int timeout_ms) set a timeout for NVMe-MI responses **Parameters** ``libnvme_mi_ep_t ep`` MI endpoint object ``unsigned int timeout_ms`` Timeout for MI responses, given in milliseconds .. c:function:: void libnvme_mi_ep_set_mprt_max (libnvme_mi_ep_t ep, unsigned int mprt_max_ms) set the maximum wait time for a More Processing Required response **Parameters** ``libnvme_mi_ep_t ep`` MI endpoint object ``unsigned int mprt_max_ms`` Maximum more processing required wait time **Description** NVMe-MI endpoints may respond to a request with a "More Processing Required" response; this also includes a hint on the worst-case processing time for the eventual response data, with a specification-defined maximum of 65.535 seconds. This function provides a way to limit the maximum time we're prepared to wait for the final response. Specify zero in **mprt_max_ms** for no limit. This should be larger than the command/response timeout set in :c:type:`libnvme_mi_ep_set_timeout`(). .. c:function:: unsigned int libnvme_mi_ep_get_timeout (libnvme_mi_ep_t ep) get the current timeout value for NVMe-MI responses **Parameters** ``libnvme_mi_ep_t ep`` MI endpoint object **Description** Returns the current timeout value, in milliseconds, for this endpoint. .. c:function:: struct libnvme_transport_handle * libnvme_mi_first_transport_handle (libnvme_mi_ep_t ep) Start transport handle iterator **Parameters** ``libnvme_mi_ep_t ep`` :c:type:`libnvme_mi_ep_t` object **Return** first transport handle to a MI controller object under this root, or NULL if no controllers are present. **Description** See: :c:type:`libnvme_mi_next_transport_handle`, :c:type:`libnvme_mi_for_each_transport_handle` .. c:function:: struct libnvme_transport_handle * libnvme_mi_next_transport_handle (libnvme_mi_ep_t ep, struct libnvme_transport_handle *hdl) Continue transport handle iterator **Parameters** ``libnvme_mi_ep_t ep`` :c:type:`libnvme_mi_ep_t` object ``struct libnvme_transport_handle *hdl`` :c:type:`nvme_transport_handle` current position of iterator **Return** next transport handle to MI controller object after **c** under this endpoint, or NULL if no further controllers are present. **Description** See: :c:type:`libnvme_mi_first_transport_handle`, :c:type:`libnvme_mi_for_each_transport_handle` .. c:macro:: libnvme_mi_for_each_transport_handle ``libnvme_mi_for_each_transport_handle (ep, hdl)`` Iterator for transport handle to NVMe-MI controllers. **Parameters** ``ep`` :c:type:`libnvme_mi_ep_t` containing endpoints ``hdl`` :c:type:`nvme_trasnport_handle` object, set on each iteration **Description** Allows iteration of the list of controllers behind an endpoint. Unless the controllers have already been created explicitly, you'll probably want to call :c:type:`libnvme_mi_scan_ep`() to scan for the controllers first. See: :c:type:`libnvme_mi_scan_ep`() .. c:macro:: libnvme_mi_for_each_transport_handle_safe ``libnvme_mi_for_each_transport_handle_safe (ep, hdl, _hdl)`` Iterator for transport handle to NVMe-MI controllers, allowing deletion during traversal **Parameters** ``ep`` :c:type:`libnvme_mi_ep_t` containing controllers ``hdl`` :c:type:`nvme_transport_handle` object, set on each iteration ``_hdl`` :c:type:`nvme_transport_handle` object used as temporary storage **Description** Allows iteration of the list of controllers behind an endpoint, safe against deletion during iteration. Unless the controllers have already been created explicitly (or you're just iterating to destroy controllers) you'll probably want to call :c:type:`libnvme_mi_scan_ep`() to scan for the controllers first. See: :c:type:`libnvme_mi_scan_ep`() .. c:function:: libnvme_mi_ep_t libnvme_mi_open_mctp (struct libnvme_global_ctx *ctx, unsigned int netid, uint8_t eid) Create an endpoint using a MCTP connection. **Parameters** ``struct libnvme_global_ctx *ctx`` :c:type:`struct libnvme_global_ctx ` object ``unsigned int netid`` MCTP network ID on this system ``uint8_t eid`` MCTP endpoint ID **Description** Transport-specific endpoint initialization for MI-connected endpoints. Once an endpoint is created, the rest of the API is transport-independent. See :c:type:`libnvme_mi_close` **Return** New endpoint object for **netid** & **eid**, or NULL on failure. .. c:function:: int libnvme_mi_aem_open (libnvme_mi_ep_t ep) Prepare an existing endpoint to receive AEMs **Parameters** ``libnvme_mi_ep_t ep`` Endpoint to configure for AEMs **Return** 0 if success, -1 otherwise .. c:function:: void libnvme_mi_close (libnvme_mi_ep_t ep) Close an endpoint connection and release resources, including controller objects. **Parameters** ``libnvme_mi_ep_t ep`` Endpoint object to close .. c:function:: struct libnvme_global_ctx * libnvme_mi_scan_mctp (void) look for MCTP-connected NVMe-MI endpoints. **Parameters** ``void`` no arguments **Description** This function queries the system MCTP daemon ("mctpd") over D-Bus, to find MCTP endpoints that report support for NVMe-MI over MCTP. This requires libvnme-mi to be compiled with D-Bus support; if not, this will return NULL. **Return** A **struct** libnvme_global_ctx populated with a set of MCTP-connected endpoints, or NULL on failure .. c:function:: int libnvme_mi_scan_ep (libnvme_mi_ep_t ep, bool force_rescan) query an endpoint for its NVMe controllers. **Parameters** ``libnvme_mi_ep_t ep`` Endpoint to scan ``bool force_rescan`` close existing controllers and rescan **Description** This function queries an MI endpoint for the controllers available, by performing an MI Read MI Data Structure command (requesting the controller list). The controllers are stored in the endpoint's internal list, and can be iterated with libnvme_mi_for_each_ctrl. This will only scan the endpoint once, unless **force_rescan** is set. If so, all existing controller objects will be freed - the caller must not hold a reference to those across this call. See: :c:type:`libnvme_mi_for_each_ctrl` **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: struct libnvme_transport_handle * libnvme_mi_init_transport_handle (libnvme_mi_ep_t ep, __u16 ctrl_id) initialise a transport handle to NVMe controller. **Parameters** ``libnvme_mi_ep_t ep`` Endpoint to create under ``__u16 ctrl_id`` ID of controller to initialize. **Description** Create a connection to a controller behind the endpoint specified in **ep**. Controller IDs may be queried from the endpoint through :c:type:`libnvme_mi_mi_read_mi_data_ctrl_list`. See :c:type:`libnvme_mi_close_transport_handle` **Return** New transport handle object, or NULL on failure. .. c:function:: __u16 libnvme_mi_ctrl_id (struct libnvme_transport_handle *hdl) get the ID of a controller **Parameters** ``struct libnvme_transport_handle *hdl`` transport handle to controller to query **Description** Retrieve the ID of the controller, as defined by hardware, and available in the Identify (Controller List) data. This is the value passed to **libnvme_mi_init_transport_handle**, but may have been created internally via **libnvme_mi_scan_ep**. **Return** the (locally-stored) ID of this controller. .. c:function:: char * libnvme_mi_endpoint_desc (libnvme_mi_ep_t ep) Get a string describing a MI endpoint. **Parameters** ``libnvme_mi_ep_t ep`` endpoint to describe **Description** Generates a human-readable string describing the endpoint, with possibly transport-specific data. The string is allocated during the call, and the caller is responsible for free()-ing the string. **Return** a newly-allocated string containing the endpoint description, or NULL on failure. .. c:function:: void libnvme_mi_ep_set_submit_entry (libnvme_mi_ep_t ep, void *(*mi_submit_entry)(struct libnvme_mi_ep *ep, __u8 type, const struct nvme_mi_msg_hdr *hdr, size_t hdr_len, const void *data, size_t data_len)) Install MI submit-entry callback **Parameters** ``libnvme_mi_ep_t ep`` endpoint to configure ``void *(*mi_submit_entry)(struct libnvme_mi_ep *ep, __u8 type, const struct nvme_mi_msg_hdr *hdr, size_t hdr_len, const void *data, size_t data_len)`` After input validation the callback is invoked before an MI command is submitted. The function receives the endpoint, message type, header, and data about to be sent, and may return an opaque pointer representing per-command context. This pointer is later passed unmodified to the mi_submit_exit callback. Implementations typically use this hook for logging, tracing, or allocating per-command state. **Description** Installs a callback invoked at the moment an MI command enters the submission path. This applies to all MI operations through this endpoint (both endpoint- level MI commands and controller admin commands). Passing NULL removes any previously installed callback. .. c:function:: void libnvme_mi_ep_set_submit_exit (libnvme_mi_ep_t ep, void (*mi_submit_exit)(struct libnvme_mi_ep *ep, __u8 type, const struct nvme_mi_msg_hdr *hdr, size_t hdr_len, const void *data, size_t data_len, void *user_data)) Install MI submit-exit callback **Parameters** ``libnvme_mi_ep_t ep`` endpoint to configure ``void (*mi_submit_exit)(struct libnvme_mi_ep *ep, __u8 type, const struct nvme_mi_msg_hdr *hdr, size_t hdr_len, const void *data, size_t data_len, void *user_data)`` Callback invoked after an MI command completes callback (i.e., after a response has been received and passed basic validation). The function receives the endpoint, message type, header, data, and the **user_data** pointer returned earlier by the mi_submit_entry callback. Implementations typically use this hook for logging, tracing, or freeing per-command state. **Description** Installs a callback invoked when an MI command completes. This applies to all MI operations through this endpoint. Passing NULL removes any previously installed callback. .. c:function:: int libnvme_mi_mi_xfer (libnvme_mi_ep_t ep, struct nvme_mi_mi_req_hdr *mi_req, size_t req_data_size, struct nvme_mi_mi_resp_hdr *mi_resp, size_t *resp_data_size) Raw mi transfer interface. **Parameters** ``libnvme_mi_ep_t ep`` endpoint to send the MI command to ``struct nvme_mi_mi_req_hdr *mi_req`` request data ``size_t req_data_size`` size of request data payload ``struct nvme_mi_mi_resp_hdr *mi_resp`` buffer for response data ``size_t *resp_data_size`` size of response data buffer, updated to received size **Description** Performs an arbitrary NVMe MI command, using the provided request data, in **mi_req**. The size of the request data *payload* is specified in **req_data_size** - this does not include the standard header length (so a header-only request would have a size of 0). Note that the Management Request Doublewords are considered part of the header data. On success, response data is stored in **mi_resp**, which has an optional appended payload buffer of **resp_data_size** bytes. The actual payload size transferred will be stored in **resp_data_size**. This size does not include the MI response header, so 0 represents no payload. See: :c:type:`struct nvme_mi_mi_req_hdr ` and :c:type:`struct nvme_mi_mi_resp_hdr `. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_read_mi_data_subsys (libnvme_mi_ep_t ep, struct nvme_mi_read_nvm_ss_info *s) Perform a Read MI Data Structure command, retrieving subsystem data. **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``struct nvme_mi_read_nvm_ss_info *s`` subsystem information to populate **Description** Retrieves the Subsystem information - number of external ports and NVMe version information. See :c:type:`struct nvme_mi_read_nvm_ss_info `. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_read_mi_data_port (libnvme_mi_ep_t ep, __u8 portid, struct nvme_mi_read_port_info *p) Perform a Read MI Data Structure command, retrieving port data. **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 portid`` id of port data to retrieve ``struct nvme_mi_read_port_info *p`` port information to populate **Description** Retrieves the Port information, for the specified port ID. The subsystem data (from :c:type:`libnvme_mi_mi_read_mi_data_subsys`) nmp field contains the allowed range of port IDs. See :c:type:`struct nvme_mi_read_port_info `. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_read_mi_data_ctrl_list (libnvme_mi_ep_t ep, __u8 start_ctrlid, struct nvme_ctrl_list *list) Perform a Read MI Data Structure command, retrieving the list of attached controllers. **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 start_ctrlid`` starting controller ID ``struct nvme_ctrl_list *list`` controller list to populate **Description** Retrieves the list of attached controllers, with IDs greater than or equal to **start_ctrlid**. See :c:type:`struct nvme_ctrl_list `. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_read_mi_data_ctrl (libnvme_mi_ep_t ep, __u16 ctrl_id, struct nvme_mi_read_ctrl_info *ctrl) Perform a Read MI Data Structure command, retrieving controller information **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u16 ctrl_id`` ID of controller to query ``struct nvme_mi_read_ctrl_info *ctrl`` controller data to populate **Description** Retrieves the Controller Information Data Structure for the attached controller with ID **ctrlid**. See :c:type:`struct nvme_mi_read_ctrl_info `. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_subsystem_health_status_poll (libnvme_mi_ep_t ep, bool clear, struct nvme_mi_nvm_ss_health_status *nshds) Read the Subsystem Health Data Structure from the NVM subsystem **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``bool clear`` flag to clear the Composite Controller Status state ``struct nvme_mi_nvm_ss_health_status *nshds`` subsystem health status data to populate **Description** Retrieves the Subsystem Health Data Structure into **nshds**. If **clear** is set, requests that the Composite Controller Status bits are cleared after the read. See NVMe-MI section 5.6 for details on the CCS bits. See :c:type:`struct nvme_mi_nvm_ss_health_status `. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_get (libnvme_mi_ep_t ep, __u32 dw0, __u32 dw1, __u32 *nmresp) query a configuration parameter **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u32 dw0`` management doubleword 0, containing configuration identifier, plus config-specific fields ``__u32 dw1`` management doubleword 0, config-specific. ``__u32 *nmresp`` set to queried configuration data in NMRESP field of response. **Description** Performs a MI Configuration Get command, with the configuration identifier as the LSB of **dw0**. Other **dw0** and **dw1** data is configuration-identifier specific. On a successful Configuration Get, the **nmresp** pointer will be populated with the bytes from the 3-byte NMRESP field, converted to native endian. See :c:type:`enum nvme_mi_config_id ` for identifiers. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_set (libnvme_mi_ep_t ep, __u32 dw0, __u32 dw1) set a configuration parameter **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u32 dw0`` management doubleword 0, containing configuration identifier, plus config-specific fields ``__u32 dw1`` management doubleword 0, config-specific. **Description** Performs a MI Configuration Set command, with the command as the LSB of **dw0**. Other **dw0** and **dw1** data is configuration-identifier specific. See :c:type:`enum nvme_mi_config_id ` for identifiers. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_get_smbus_freq (libnvme_mi_ep_t ep, __u8 port, enum nvme_mi_config_smbus_freq *freq) get configuration: SMBus port frequency **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 port`` port ID to query ``enum nvme_mi_config_smbus_freq *freq`` output value for current frequency configuration **Description** Performs a MI Configuration Get, to query the current SMBus frequency of the port specified in **port**. On success, populates **freq** with the port frequency **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_set_smbus_freq (libnvme_mi_ep_t ep, __u8 port, enum nvme_mi_config_smbus_freq freq) set configuration: SMBus port frequency **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 port`` port ID to set ``enum nvme_mi_config_smbus_freq freq`` new frequency configuration **Description** Performs a MI Configuration Set, to update the current SMBus frequency of the port specified in **port**. See :c:type:`struct nvme_mi_read_port_info ` for the maximum supported SMBus frequency for the port. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_set_health_status_change (libnvme_mi_ep_t ep, __u32 mask) clear CCS bits in health status **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u32 mask`` bitmask to clear **Description** Performs a MI Configuration Set, to update the current health status poll values of the Composite Controller Status bits. Bits set in **mask** will be cleared from future health status poll data, and may be re-triggered by a future health change event. See :c:type:`libnvme_mi_mi_subsystem_health_status_poll`(), :c:type:`enum nvme_mi_ccs ` for values in **mask**. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_get_mctp_mtu (libnvme_mi_ep_t ep, __u8 port, __u16 *mtu) get configuration: MCTP MTU **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 port`` port ID to query ``__u16 *mtu`` output value for current MCTP MTU configuration **Description** Performs a MI Configuration Get, to query the current MCTP Maximum Transmission Unit size (MTU) of the port specified in **port**. On success, populates **mtu** with the MTU. The default reset value is 64, corresponding to the MCTP baseline MTU. Some controllers may also use this as the maximum receive unit size, and may not accept MCTP messages larger than the configured MTU. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_set_mctp_mtu (libnvme_mi_ep_t ep, __u8 port, __u16 mtu) set configuration: MCTP MTU **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 port`` port ID to set ``__u16 mtu`` new MTU configuration **Description** Performs a MI Configuration Set, to update the current MCTP MTU value for the port specified in **port**. Some controllers may also use this as the maximum receive unit size, and may not accept MCTP messages larger than the configured MTU. When setting this value, you will likely need to change the MTU of the local MCTP interface(s) to match. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_get_async_event (libnvme_mi_ep_t ep, __u8 *aeelver, struct nvme_mi_aem_supported_list *list, size_t *list_num_bytes) get configuration: Asynchronous Event **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 *aeelver`` Asynchronous Event Enable List Version Number ``struct nvme_mi_aem_supported_list *list`` AE Supported list header and list contents ``size_t *list_num_bytes`` number of bytes in the list header and contents buffer. This will be populated with returned size of list and contents if successful. **Description** Performs a MI Configuration Get, to query the current enable Asynchronous Events. On success, populates **aeelver** and the **list** with current info, **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_mi_config_set_async_event (libnvme_mi_ep_t ep, bool envfa, bool empfa, bool encfa, __u8 aemd, __u8 aerd, struct nvme_mi_aem_enable_list *enable_list, size_t enable_list_size, struct nvme_mi_aem_occ_list_hdr *occ_list, size_t *occ_list_size) set configuration: Asynchronous Event **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``bool envfa`` Enable SR-IOV Virtual Functions AE ``bool empfa`` Enable SR-IOV Physical Functions AE ``bool encfa`` Enable PCI Functions AE. ``__u8 aemd`` AEM Delay Interval (for Sync only) ``__u8 aerd`` AEM Retry Delay (for Sync only; time in 100s of ms) ``struct nvme_mi_aem_enable_list *enable_list`` libnvme_mi_aem_enable_listucture containing header and items of events to be enabled or disabled. This is taken as a delta change from the current configuration. ``size_t enable_list_size`` Size of the enable_list including header and data. Meant to catch overrun issues. ``struct nvme_mi_aem_occ_list_hdr *occ_list`` Pointer to populate with the occurrence list (header and data) ``size_t *occ_list_size`` Total size of provided occ_list buffer. Will be updated with received size if successful **Description** Performs a MI Configuration Set, to ACK (sent after an AEM) or Sync (at anytime to enable or disable Asynchronous Events). On success, populates **occ_list**. See TP6035a for details on how occ_list is populated in ACK versus Sync conditions **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_admin_xfer (struct libnvme_transport_handle *hdl, struct nvme_mi_admin_req_hdr *admin_req, size_t req_data_size, struct nvme_mi_admin_resp_hdr *admin_resp, off_t resp_data_offset, size_t *resp_data_size) Raw admin transfer interface. **Parameters** ``struct libnvme_transport_handle *hdl`` transport handle to send the admin command to ``struct nvme_mi_admin_req_hdr *admin_req`` request data ``size_t req_data_size`` size of request data payload ``struct nvme_mi_admin_resp_hdr *admin_resp`` buffer for response data ``off_t resp_data_offset`` offset into request data to retrieve from controller ``size_t *resp_data_size`` size of response data buffer, updated to received size **Description** Performs an arbitrary NVMe Admin command, using the provided request data, in **admin_req**. The size of the request data *payload* is specified in **req_data_size** - this does not include the standard header length (so a header-only request would have a size of 0). On success, response data is stored in **admin_resp**, which has an optional appended payload buffer of **resp_data_size** bytes. The actual payload transferred will be stored in **resp_data_size**. These sizes do not include the Admin request header, so 0 represents no payload. As with all Admin commands, we can request partial data from the Admin Response payload, offset by **resp_data_offset**. See: :c:type:`struct nvme_mi_admin_req_hdr ` and :c:type:`struct nvme_mi_admin_resp_hdr `. **Return** The nvme command status if a response was received (see :c:type:`enum nvme_status_field `) or negative error code otherwise. .. c:function:: int libnvme_mi_control (libnvme_mi_ep_t ep, __u8 opcode, __u16 cpsp, __u16 *result_cpsr) Perform a Control Primitive command **Parameters** ``libnvme_mi_ep_t ep`` endpoint for MI communication ``__u8 opcode`` Control Primitive opcode (using :c:type:`enum nvme_mi_control_opcode `) ``__u16 cpsp`` Control Primitive Specific Parameter ``__u16 *result_cpsr`` Optional field to return the result from the CPSR field **Description** Perform a Control Primitive command, using the opcode specified in **opcode** Stores the result from the CPSR field in **result_cpsr** if set. See: :c:type:`enum nvme_mi_control_opcode ` **Return** 0 on success, negative error code otherwise. .. c:enum:: libnvme_mi_aem_handler_next_action Next action for the AEM state machine handler **Constants** ``NVME_MI_AEM_HNA_ACK`` Send an ack for the AEM ``NVME_MI_AEM_HNA_NONE`` No further action **Description** Used as return value for the AE callback generated when calling libnvme_mi_aem_process .. c:struct:: libnvme_mi_event AE event information structure **Definition** :: struct libnvme_mi_event { uint8_t aeoi; uint8_t aessi; uint32_t aeocidi; void *spec_info; size_t spec_info_len; void *vend_spec_info; size_t vend_spec_info_len; }; **Members** ``aeoi`` Event identifier ``aessi`` Event occurrence scope info ``aeocidi`` Event occurrence scope ID info ``spec_info`` Specific info buffer ``spec_info_len`` Length of specific info buffer ``vend_spec_info`` Vendor specific info buffer ``vend_spec_info_len`` Length of vendor specific info buffer **Description** Application callbacks for libnvme_mi_aem_process will be able to call libnvme_mi_aem_get_next_event which will return a pointer to such an identifier for the next event the application should parse .. c:function:: struct libnvme_mi_event * libnvme_mi_aem_get_next_event (libnvme_mi_ep_t ep) Get details for the next event to parse **Parameters** ``libnvme_mi_ep_t ep`` The endpoint with the event **Description** When inside a aem_handler, call this and a returned struct pointer will provide details of event information. Will return NULL when end of parsing is occurred. spec_info and vend_spec_info must be copied to persist as they will not be valid after the handler_next_action has returned. **Return** Pointer no next libnvme_mi_event or NULL if this is the last one .. c:struct:: libnvme_mi_aem_config Provided for libnvme_mi_aem_enable **Definition** :: struct libnvme_mi_aem_config { enum libnvme_mi_aem_handler_next_action (*aem_handler)(libnvme_mi_ep_t ep,size_t num_events, void *userdata); struct libnvme_mi_aem_enabled_map enabled_map; bool envfa; bool empfa; bool encfa; __u8 aemd; __u8 aerd; }; **Members** ``aem_handler`` Callback function for application processing of events ``enabled_map`` Map indicating which AE should be enabled on the endpoint ``envfa`` Enable SR-IOV virtual functions AE ``empfa`` Enable SR-IOV physical functions AE ``encfa`` Enable PCIe functions AE ``aemd`` AEM Delay (time in seconds from when event happens to AEM being batched and sent) ``aerd`` AEM Retry Delay (time in 100s of ms between AEM retries from the endpoint) **Description** Application callbacks for libnvme_mi_aem_process will be able to call libnvme_mi_aem_get_next_event which will return a pointer to such an identifier for the next event the application should parse .. c:function:: int libnvme_mi_aem_get_fd (libnvme_mi_ep_t ep) Returns the pollable fd for AEM data available **Parameters** ``libnvme_mi_ep_t ep`` The endpoint being monitored for asynchronous data **Description** This populated structure can be polled from the application to understand if a call to libnvme_mi_aem_process() is required (when a poll returns > 0). **Return** The fd value or -1 if error .. c:function:: int libnvme_mi_aem_enable (libnvme_mi_ep_t ep, struct libnvme_mi_aem_config *config, void *userdata) Enable AE on the provided endpoint **Parameters** ``libnvme_mi_ep_t ep`` Endpoint to enable AEs ``struct libnvme_mi_aem_config *config`` AE configuraiton including which events are enabled and the callback function ``void *userdata`` Application provided context pointer for callback function **Description** This function is called to enable AE on the endpoint. Endpoint will provide initial state (if any) of enabled AEs and application can parse those via the aem_handler fn pointer in callbacks. Thes can be obtained in the callback by calling libnvme_mi_aem_get_next_event(). Application should poll the fd that can be obtained from libnvme_mi_aem_get_fd and then call libnvme_mi_aem_process() when poll() indicates data available. A call to libnvme_mi_aem_process() will grab AEM data and call the aem_handler fn pointer. At this point the application can call libnvme_mi_aem_get_next_event() to get information for each triggered event. **Return** 0 on success, negative error code otherwise. .. c:function:: int libnvme_mi_aem_get_enabled (libnvme_mi_ep_t ep, struct libnvme_mi_aem_enabled_map *enabled) Return information on which AEs are enabled **Parameters** ``libnvme_mi_ep_t ep`` Endpoint to check enabled status ``struct libnvme_mi_aem_enabled_map *enabled`` libnvme_mi_aem_enabled_map indexed by AE event ID of enabled state **Return** 0 on success, negative error code otherwise. .. c:function:: int libnvme_mi_aem_disable (libnvme_mi_ep_t ep) Disable AE on the provided endpoint **Parameters** ``libnvme_mi_ep_t ep`` Endpoint to disable AEs **Return** 0 on success, negative error code otherwise. .. c:function:: int libnvme_mi_aem_process (libnvme_mi_ep_t ep, void *userdata) Process AEM on the provided endpoint **Parameters** ``libnvme_mi_ep_t ep`` Endpoint to process ``void *userdata`` Application provided context pointer for callback function **Description** Call this if poll() indicates data is available on the fd provided by libnvme_mi_aem_get_fd() This will call the fn pointer, aem_handler, provided with libnvme_mi_aem_config and the application can call libnvme_mi_aem_get_next_event() from within this callback to get aem event data. The callback function should return NVME_MI_AEM_HNA_ACK for normal operation. **Return** 0 on success, negative error code otherwise. .. c:function:: void * libnvme_mi_submit_entry (__u8 type, const struct nvme_mi_msg_hdr *hdr, size_t hdr_len, const void *data, size_t data_len) Weak hook called before an MI message is sent. **Parameters** ``__u8 type`` MCTP message type ``const struct nvme_mi_msg_hdr *hdr`` Pointer to the MI message header ``size_t hdr_len`` Length of the message header in bytes ``const void *data`` Pointer to message payload data ``size_t data_len`` Length of payload data in bytes **Description** This is a weak symbol that can be overridden by an application to intercept outgoing MI messages for tracing or testing purposes. The return value is passed back as **user_data** to the matching libnvme_mi_submit_exit() call. **Return** An opaque pointer passed to libnvme_mi_submit_exit(), or NULL. .. c:function:: void libnvme_mi_submit_exit (__u8 type, const struct nvme_mi_msg_hdr *hdr, size_t hdr_len, const void *data, size_t data_len, void *user_data) Weak hook called after an MI message completes. **Parameters** ``__u8 type`` MCTP message type ``const struct nvme_mi_msg_hdr *hdr`` Pointer to the MI response message header ``size_t hdr_len`` Length of the response message header in bytes ``const void *data`` Pointer to response payload data ``size_t data_len`` Length of response payload data in bytes ``void *user_data`` Value returned by the matching libnvme_mi_submit_entry() call **Description** This is a weak symbol that can be overridden by an application to intercept completed MI transactions. Called with the opaque pointer returned by the corresponding libnvme_mi_submit_entry() call.