include/ipmid/api.h - openbmc/phosphor-host-ipmid - Gitiles

 #ifndef __HOST_IPMID_IPMI_COMMON_H__
 #define __HOST_IPMID_IPMI_COMMON_H__

 #include <systemd/sd-bus.h>

 #include <cstddef>

 /*
  * Specifies the minimum privilege level required to execute the command
  * This means the command can be executed at a given privilege level or higher
  * privilege level. Those commands which can be executed via system interface
  * only should use SYSTEM_INTERFACE
  */
 enum CommandPrivilege
 {
     PRIVILEGE_CALLBACK = 0x01,
     PRIVILEGE_USER,
     PRIVILEGE_OPERATOR,
     PRIVILEGE_ADMIN,
     PRIVILEGE_OEM,
     SYSTEM_INTERFACE = 0xFF,
 };

 // length of Completion Code and its ALWAYS _1_
 #define IPMI_CC_LEN 1

 // IPMI Net Function number as specified by IPMI V2.0 spec.
 // Example :
 // NETFUN_APP      =   (0x06 << 2),
 typedef unsigned char ipmi_netfn_t;

 // IPMI Command for a Net Function number as specified by IPMI V2.0 spec.
 typedef unsigned char ipmi_cmd_t;

 // Buffer containing data from sender of netfn and command as part of request
 typedef void* ipmi_request_t;

 // This is the response buffer that the provider of [netfn,cmd] will send back
 // to the caller. Provider will allocate the memory inside the handler and then
 // will do a memcpy to this response buffer and also will set the data size
 // parameter to the size of the buffer.
 // EXAMPLE :
 // unsigned char str[] = {0x00, 0x01, 0xFE, 0xFF, 0x0A, 0x01};
 // *data_len = 6;
 // memcpy(response, &str, *data_len);
 typedef void* ipmi_response_t;

 // This buffer contains any *user specific* data that is of interest only to the
 // plugin. For a ipmi function router, this data is opaque. At the time of
 // registering the plugin handlers, plugin may optionally allocate a memory and
 // fill in whatever needed that will be of help during the actual handling of
 // command. IPMID will just pass the netfn, cmd and also this data to plugins
 // during the command handler invocation.
 typedef void* ipmi_context_t;

 // Length of request / response buffer depending on whether the data is a
 // request or a response from a plugin handler.
 typedef std::size_t* ipmi_data_len_t;

 // Plugin function return the status code
 typedef unsigned char ipmi_ret_t;

 typedef enum CommandPrivilege ipmi_cmd_privilege_t;

 // This is the callback handler that the plugin registers with IPMID. IPMI
 // function router will then make a call to this callback handler with the
 // necessary arguments of netfn, cmd, request, response, size and context.
 typedef ipmi_ret_t (*ipmid_callback_t)(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t,
                                        ipmi_response_t, ipmi_data_len_t,
                                        ipmi_context_t);

 // This is the constructor function that is called into by each plugin handlers.
 // When ipmi sets up the callback handlers, a call is made to this with
 // information of netfn, cmd, callback handler pointer and context data.
 void ipmi_register_callback(ipmi_netfn_t, ipmi_cmd_t, ipmi_context_t,
                             ipmid_callback_t, ipmi_cmd_privilege_t);

 unsigned short reserveSel(void);
 bool checkSELReservation(unsigned short id);
 void cancelSELReservation(void);

 // These are the command network functions, the response
 // network functions are the function + 1. So to determine
 // the proper network function which issued the command
 // associated with a response, subtract 1.
 // Note: these are also shifted left to make room for the LUN.
 enum ipmi_net_fns
 {
     NETFUN_CHASSIS = 0x00,
     NETFUN_BRIDGE = 0x02,
     NETFUN_SENSOR = 0x04,
     NETFUN_APP = 0x06,
     NETFUN_FIRMWARE = 0x08,
     NETFUN_STORAGE = 0x0a,
     NETFUN_TRANSPORT = 0x0c,
     NETFUN_GRPEXT = 0x2c,
     NETFUN_OEM_GROUP = 0x2e,
     NETFUN_NONE = 0x30,
     NETFUN_OEM = 0x32,
     NETFUN_IBM_OEM = 0x3A
 };

 // IPMI commands for net functions. Since this is to be used both by the ipmi
 // function router and also the callback handler registration function, its put
 // in this .H file.
 enum ipmi_netfn_wild_card_cmd
 {
     IPMI_CMD_WILDCARD = 0xFF,
 };

 // Return (completion) codes from a IPMI operation as needed by IPMI V2.0 spec.
 enum ipmi_return_codes
 {
     IPMI_CC_OK = 0x00,
     IPMI_DCMI_CC_NO_ACTIVE_POWER_LIMIT = 0x80,
     IPMI_WDOG_CC_NOT_INIT = 0x80,
     IPMI_CC_SYSTEM_INFO_PARAMETER_NOT_SUPPORTED = 0x80,
     IPMI_CC_SYSTEM_INFO_PARAMETER_SET_READ_ONLY = 0x82,
     IPMI_CC_BUSY = 0xC0,
     IPMI_CC_INVALID = 0xC1,
     IPMI_CC_TIMEOUT = 0xC3,
     IPMI_CC_OUT_OF_SPACE = 0xC4,
     IPMI_CC_INVALID_RESERVATION_ID = 0xC5,
     IPMI_CC_REQ_DATA_TRUNCATED = 0xC6,
     IPMI_CC_REQ_DATA_LEN_INVALID = 0xC7,
     IPMI_CC_PARM_OUT_OF_RANGE = 0xC9,
     IPMI_CC_REQUESTED_TOO_MANY_BYTES = 0xCA,
     IPMI_CC_SENSOR_INVALID = 0xCB,
     IPMI_CC_INVALID_FIELD_REQUEST = 0xCC,
     IPMI_CC_ILLEGAL_COMMAND = 0xCD,
     IPMI_CC_RESPONSE_ERROR = 0xCE,
     IPMI_CC_INSUFFICIENT_PRIVILEGE = 0xD4,
     IPMI_CC_UNSPECIFIED_ERROR = 0xFF,
 };

 // Temp solution: To detect the request source channel.
 // There is no stright forward way to get the exact
 // channel so we are hardcoding it to KCS in case host-ipmid
 // and LAN1 for netipmid.
 // we can't differentiate between LAN1 & LAN2 for netipmid in this logic.
 // As our current design will not be able to support the same. This is done
 // so that in all the places where ever we need to use the self channel can be
 // be implemented properly and based on new architecture.this can be updated.
 typedef enum
 {
     interfaceKCS = 0,
     interfaceLAN1 = 1,
     interfaceUnknown = 0xFF
 } EInterfaceIndex;

 EInterfaceIndex getInterfaceIndex(void);

 sd_bus* ipmid_get_sd_bus_connection(void);
 sd_event* ipmid_get_sd_event_connection(void);
 sd_bus_slot* ipmid_get_sd_bus_slot(void);

 // move this from ipmid.hpp, which is now gone
 // this should not be used. Use the channel API to get the channel size
 #define MAX_IPMI_BUFFER 64

 #endif
	#ifndef __HOST_IPMID_IPMI_COMMON_H__
	#define __HOST_IPMID_IPMI_COMMON_H__

	#include <systemd/sd-bus.h>

	#include <cstddef>

	/*
	* Specifies the minimum privilege level required to execute the command
	* This means the command can be executed at a given privilege level or higher
	* privilege level. Those commands which can be executed via system interface
	* only should use SYSTEM_INTERFACE
	*/
	enum CommandPrivilege
	{
	PRIVILEGE_CALLBACK = 0x01,
	PRIVILEGE_USER,
	PRIVILEGE_OPERATOR,
	PRIVILEGE_ADMIN,
	PRIVILEGE_OEM,
	SYSTEM_INTERFACE = 0xFF,
	};

	// length of Completion Code and its ALWAYS _1_
	#define IPMI_CC_LEN 1

	// IPMI Net Function number as specified by IPMI V2.0 spec.
	// Example :
	// NETFUN_APP = (0x06 << 2),
	typedef unsigned char ipmi_netfn_t;

	// IPMI Command for a Net Function number as specified by IPMI V2.0 spec.
	typedef unsigned char ipmi_cmd_t;

	// Buffer containing data from sender of netfn and command as part of request
	typedef void* ipmi_request_t;

	// This is the response buffer that the provider of [netfn,cmd] will send back
	// to the caller. Provider will allocate the memory inside the handler and then
	// will do a memcpy to this response buffer and also will set the data size
	// parameter to the size of the buffer.
	// EXAMPLE :
	// unsigned char str[] = {0x00, 0x01, 0xFE, 0xFF, 0x0A, 0x01};
	// *data_len = 6;
	// memcpy(response, &str, *data_len);
	typedef void* ipmi_response_t;

	// This buffer contains any user specific data that is of interest only to the
	// plugin. For a ipmi function router, this data is opaque. At the time of
	// registering the plugin handlers, plugin may optionally allocate a memory and
	// fill in whatever needed that will be of help during the actual handling of
	// command. IPMID will just pass the netfn, cmd and also this data to plugins
	// during the command handler invocation.
	typedef void* ipmi_context_t;

	// Length of request / response buffer depending on whether the data is a
	// request or a response from a plugin handler.
	typedef std::size_t* ipmi_data_len_t;

	// Plugin function return the status code
	typedef unsigned char ipmi_ret_t;

	typedef enum CommandPrivilege ipmi_cmd_privilege_t;

	// This is the callback handler that the plugin registers with IPMID. IPMI
	// function router will then make a call to this callback handler with the
	// necessary arguments of netfn, cmd, request, response, size and context.
	typedef ipmi_ret_t (*ipmid_callback_t)(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t,
	ipmi_response_t, ipmi_data_len_t,
	ipmi_context_t);

	// This is the constructor function that is called into by each plugin handlers.
	// When ipmi sets up the callback handlers, a call is made to this with
	// information of netfn, cmd, callback handler pointer and context data.
	void ipmi_register_callback(ipmi_netfn_t, ipmi_cmd_t, ipmi_context_t,
	ipmid_callback_t, ipmi_cmd_privilege_t);

	unsigned short reserveSel(void);
	bool checkSELReservation(unsigned short id);
	void cancelSELReservation(void);

	// These are the command network functions, the response
	// network functions are the function + 1. So to determine
	// the proper network function which issued the command
	// associated with a response, subtract 1.
	// Note: these are also shifted left to make room for the LUN.
	enum ipmi_net_fns
	{
	NETFUN_CHASSIS = 0x00,
	NETFUN_BRIDGE = 0x02,
	NETFUN_SENSOR = 0x04,
	NETFUN_APP = 0x06,
	NETFUN_FIRMWARE = 0x08,
	NETFUN_STORAGE = 0x0a,
	NETFUN_TRANSPORT = 0x0c,
	NETFUN_GRPEXT = 0x2c,
	NETFUN_OEM_GROUP = 0x2e,
	NETFUN_NONE = 0x30,
	NETFUN_OEM = 0x32,
	NETFUN_IBM_OEM = 0x3A
	};

	// IPMI commands for net functions. Since this is to be used both by the ipmi
	// function router and also the callback handler registration function, its put
	// in this .H file.
	enum ipmi_netfn_wild_card_cmd
	{
	IPMI_CMD_WILDCARD = 0xFF,
	};

	// Return (completion) codes from a IPMI operation as needed by IPMI V2.0 spec.
	enum ipmi_return_codes
	{
	IPMI_CC_OK = 0x00,
	IPMI_DCMI_CC_NO_ACTIVE_POWER_LIMIT = 0x80,
	IPMI_WDOG_CC_NOT_INIT = 0x80,
	IPMI_CC_SYSTEM_INFO_PARAMETER_NOT_SUPPORTED = 0x80,
	IPMI_CC_SYSTEM_INFO_PARAMETER_SET_READ_ONLY = 0x82,
	IPMI_CC_BUSY = 0xC0,
	IPMI_CC_INVALID = 0xC1,
	IPMI_CC_TIMEOUT = 0xC3,
	IPMI_CC_OUT_OF_SPACE = 0xC4,
	IPMI_CC_INVALID_RESERVATION_ID = 0xC5,
	IPMI_CC_REQ_DATA_TRUNCATED = 0xC6,
	IPMI_CC_REQ_DATA_LEN_INVALID = 0xC7,
	IPMI_CC_PARM_OUT_OF_RANGE = 0xC9,
	IPMI_CC_REQUESTED_TOO_MANY_BYTES = 0xCA,
	IPMI_CC_SENSOR_INVALID = 0xCB,
	IPMI_CC_INVALID_FIELD_REQUEST = 0xCC,
	IPMI_CC_ILLEGAL_COMMAND = 0xCD,
	IPMI_CC_RESPONSE_ERROR = 0xCE,
	IPMI_CC_INSUFFICIENT_PRIVILEGE = 0xD4,
	IPMI_CC_UNSPECIFIED_ERROR = 0xFF,
	};

	// Temp solution: To detect the request source channel.
	// There is no stright forward way to get the exact
	// channel so we are hardcoding it to KCS in case host-ipmid
	// and LAN1 for netipmid.
	// we can't differentiate between LAN1 & LAN2 for netipmid in this logic.
	// As our current design will not be able to support the same. This is done
	// so that in all the places where ever we need to use the self channel can be
	// be implemented properly and based on new architecture.this can be updated.
	typedef enum
	{
	interfaceKCS = 0,
	interfaceLAN1 = 1,
	interfaceUnknown = 0xFF
	} EInterfaceIndex;

	EInterfaceIndex getInterfaceIndex(void);

	sd_bus* ipmid_get_sd_bus_connection(void);
	sd_event* ipmid_get_sd_event_connection(void);
	sd_bus_slot* ipmid_get_sd_bus_slot(void);

	// move this from ipmid.hpp, which is now gone
	// this should not be used. Use the channel API to get the channel size
	#define MAX_IPMI_BUFFER 64

	#endif