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/* IBM_PROLOG_BEGIN_TAG
* This is an automatically generated prolog.
*
* $Source: src/include/usr/intr/interrupt.H $
*
* IBM CONFIDENTIAL
*
* COPYRIGHT International Business Machines Corp. 2011-2012
*
* p1
*
* Object Code Only (OCO) source materials
* Licensed Internal Code Source Materials
* IBM HostBoot Licensed Internal Code
*
* The source code for this program is not published or other-
* wise divested of its trade secrets, irrespective of what has
* been deposited with the U.S. Copyright Office.
*
* Origin: 30
*
* IBM_PROLOG_END_TAG
*/
#ifndef INTERRUPT_H
#define INTERRUPT_H
#include <sys/msg.h>
#include <errl/errlentry.H>
#include <sys/interrupt.h>
namespace INTR
{
/**
* External Interrupt Types (XISR)
* This value is passed in message data[0] on interrupt or shutdown.
* @note The XISR is 24 bits:
* XISR[ 0: 4] NOT DEFINED
* XISR[ 5: 7] Node id
* XISR[ 8:10] chipId within Node
* XISR[11:12] Unit selection [GX='00', PHB0='01', PHB1='10', PHB2='11']
* XISR[13:19] BUID
* XISR[20:23] level
*
* extr_intr_t values are XISR right shifted, lsb = bit 23
*/
enum ext_intr_t
{
NO_INTERRUPT = 0, //!< no interrupt present
INTERPROC = 2, //!< Inter processor interrupt (should be changed?)
FSP_MAILBOX = 0x1A, //!< TODO final value??
ATTENTION = 0x26, //!< TODO find this value
MAX_XISR = 0x00FFFFFF, //!< Max value of the XISR
SHUT_DOWN = 0x01000000, //!< INTR presenter sends this when shutting down
};
/**
* Msg types for intrRp from usr space
*/
enum msg_intr_types_t
{
MSG_INTR_REGISTER_MSGQ = 1, //!< Register a msgQ
MSG_INTR_UNREGISTER_MSGQ, //!< Un register a msgQ
MSG_INTR_ENABLE, //!< Enable external Interrupts
MSG_INTR_DISABLE, //!< Disable external interrupts
MSG_INTR_SHUTDOWN, //!< Call to shutdown interrupt presenter
};
/**
* Register a message queue for an interrupt type
* @param[in] i_msgQ The message queue
* @param[in] i_msg_type, The message type of the message to send
* to i_msgQ when an interrupt of
* i_intr_type occurrs.
* @param[in] i_intr_type, The interrupt type to register.
*
* @note the interrupt type is currently the XISR value in the XIRR
* register and consists of the chipid, buid, and level
* @see i_intr_type for enumerations.
*
* @note when an interrupt of type i_msg_type occurrs, the
* interrupt presenter sends a sync message with type i_msg_type to
* i_msgQ with i_intr_type in message data word 0 and then waits
* for a response.
*
* @note When HB is shutting down the interrupt presenter will send
* a message to all registered queues with a sync message type of
* i_msg_type, and data[0] = INTR::SHUT_DOWN. A response is expected.
*/
errlHndl_t registerMsgQ(msg_q_t i_msgQ,
uint32_t i_msg_type,
ext_intr_t i_intr_type);
/**
* Un register a message queue from the interrupt handler
* @param[in] i_type the type of interrupt (XISR value)
* @return The message queue that was unregistered with i_type
* | NULL if no queue was not found for i_type
*/
msg_q_t unRegisterMsgQ(ext_intr_t i_type);
/**
* Enable hardware to report external interrupts
* @return errlHndl_t on error.
*/
errlHndl_t enableExternalInterrupts();
/**
* Disable hardware from reporting external interrupts
* @return errlHndl_t on error.
*/
errlHndl_t disableExternalInterrupts();
/**
* Get the cpu id of the interrupt destination
* @param[in] i_xisr, The XISR value for the interrupt
* @return cpuId (PIR value)
* @pre The interrupt service provider is initialized
* @note the XISR = IRSN | IRSN_source
*/
uint32_t intrDestCpuId(uint32_t i_xisr);
};
#endif
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