2017-12-04 09:39:38 +00:00
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/* SPDX-License-Identifier: GPL-2.0 */
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2016-11-08 06:09:13 +00:00
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/*
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* Adjunct processor (AP) interfaces
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*
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* Copyright IBM Corp. 2017
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*
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* Author(s): Tony Krowiak <akrowia@linux.vnet.ibm.com>
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* Martin Schwidefsky <schwidefsky@de.ibm.com>
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* Harald Freudenberger <freude@de.ibm.com>
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*/
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#ifndef _ASM_S390_AP_H_
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#define _ASM_S390_AP_H_
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/**
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* The ap_qid_t identifier of an ap queue.
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* If the AP facilities test (APFT) facility is available,
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* card and queue index are 8 bit values, otherwise
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* card index is 6 bit and queue index a 4 bit value.
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*/
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typedef unsigned int ap_qid_t;
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2018-04-09 14:18:37 +00:00
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#define AP_MKQID(_card, _queue) (((_card) & 0xff) << 8 | ((_queue) & 0xff))
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#define AP_QID_CARD(_qid) (((_qid) >> 8) & 0xff)
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#define AP_QID_QUEUE(_qid) ((_qid) & 0xff)
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2016-11-08 06:09:13 +00:00
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/**
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* struct ap_queue_status - Holds the AP queue status.
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* @queue_empty: Shows if queue is empty
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* @replies_waiting: Waiting replies
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* @queue_full: Is 1 if the queue is full
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* @irq_enabled: Shows if interrupts are enabled for the AP
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* @response_code: Holds the 8 bit response code
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*
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* The ap queue status word is returned by all three AP functions
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* (PQAP, NQAP and DQAP). There's a set of flags in the first
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* byte, followed by a 1 byte response code.
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*/
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struct ap_queue_status {
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unsigned int queue_empty : 1;
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unsigned int replies_waiting : 1;
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unsigned int queue_full : 1;
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unsigned int _pad1 : 4;
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unsigned int irq_enabled : 1;
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unsigned int response_code : 8;
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unsigned int _pad2 : 16;
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};
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2018-06-12 13:42:36 +00:00
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/**
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* ap_intructions_available() - Test if AP instructions are available.
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*
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2018-08-17 07:01:09 +00:00
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* Returns true if the AP instructions are installed, otherwise false.
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2018-06-12 13:42:36 +00:00
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*/
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2018-08-17 07:01:09 +00:00
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static inline bool ap_instructions_available(void)
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2018-06-12 13:42:36 +00:00
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{
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register unsigned long reg0 asm ("0") = AP_MKQID(0, 0);
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2018-08-09 09:59:34 +00:00
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register unsigned long reg1 asm ("1") = 0;
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register unsigned long reg2 asm ("2") = 0;
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2018-06-12 13:42:36 +00:00
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asm volatile(
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" .long 0xb2af0000\n" /* PQAP(TAPQ) */
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2018-08-09 09:59:34 +00:00
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"0: la %0,1\n"
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2018-06-12 13:42:36 +00:00
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"1:\n"
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EX_TABLE(0b, 1b)
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2018-08-09 09:59:34 +00:00
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: "+d" (reg1), "+d" (reg2)
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2018-06-12 13:42:36 +00:00
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: "d" (reg0)
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: "cc");
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2018-08-17 07:01:09 +00:00
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return reg1 != 0;
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2018-06-12 13:42:36 +00:00
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}
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/**
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* ap_tapq(): Test adjunct processor queue.
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* @qid: The AP queue number
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* @info: Pointer to queue descriptor
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*
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* Returns AP queue status structure.
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*/
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static inline struct ap_queue_status ap_tapq(ap_qid_t qid, unsigned long *info)
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{
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register unsigned long reg0 asm ("0") = qid;
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register struct ap_queue_status reg1 asm ("1");
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register unsigned long reg2 asm ("2");
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asm volatile(".long 0xb2af0000" /* PQAP(TAPQ) */
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: "=d" (reg1), "=d" (reg2)
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: "d" (reg0)
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: "cc");
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if (info)
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*info = reg2;
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return reg1;
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}
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2016-11-08 06:09:13 +00:00
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/**
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* ap_test_queue(): Test adjunct processor queue.
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* @qid: The AP queue number
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* @tbit: Test facilities bit
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* @info: Pointer to queue descriptor
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*
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* Returns AP queue status structure.
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*/
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2018-06-12 13:42:36 +00:00
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static inline struct ap_queue_status ap_test_queue(ap_qid_t qid,
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int tbit,
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unsigned long *info)
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{
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if (tbit)
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qid |= 1UL << 23; /* set T bit*/
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return ap_tapq(qid, info);
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}
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2016-11-08 06:09:13 +00:00
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2018-06-12 13:42:36 +00:00
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/**
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* ap_pqap_rapq(): Reset adjunct processor queue.
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* @qid: The AP queue number
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*
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* Returns AP queue status structure.
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*/
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static inline struct ap_queue_status ap_rapq(ap_qid_t qid)
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{
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register unsigned long reg0 asm ("0") = qid | (1UL << 24);
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register struct ap_queue_status reg1 asm ("1");
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asm volatile(
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".long 0xb2af0000" /* PQAP(RAPQ) */
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: "=d" (reg1)
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: "d" (reg0)
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: "cc");
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return reg1;
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}
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/**
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* ap_pqap_zapq(): Reset and zeroize adjunct processor queue.
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* @qid: The AP queue number
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*
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* Returns AP queue status structure.
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*/
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static inline struct ap_queue_status ap_zapq(ap_qid_t qid)
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{
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register unsigned long reg0 asm ("0") = qid | (2UL << 24);
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register struct ap_queue_status reg1 asm ("1");
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asm volatile(
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".long 0xb2af0000" /* PQAP(ZAPQ) */
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: "=d" (reg1)
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: "d" (reg0)
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: "cc");
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return reg1;
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}
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/**
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* struct ap_config_info - convenience struct for AP crypto
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* config info as returned by the ap_qci() function.
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*/
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2016-11-08 10:54:28 +00:00
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struct ap_config_info {
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unsigned int apsc : 1; /* S bit */
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unsigned int apxa : 1; /* N bit */
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unsigned int qact : 1; /* C bit */
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unsigned int rc8a : 1; /* R bit */
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unsigned char _reserved1 : 4;
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unsigned char _reserved2[3];
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unsigned char Na; /* max # of APs - 1 */
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unsigned char Nd; /* max # of Domains - 1 */
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unsigned char _reserved3[10];
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unsigned int apm[8]; /* AP ID mask */
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2019-05-21 11:50:09 +00:00
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unsigned int aqm[8]; /* AP (usage) queue mask */
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unsigned int adm[8]; /* AP (control) domain mask */
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2016-11-08 10:54:28 +00:00
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unsigned char _reserved4[16];
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} __aligned(8);
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2018-06-12 13:42:36 +00:00
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/**
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* ap_qci(): Get AP configuration data
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2016-11-08 10:54:28 +00:00
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*
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2018-06-12 13:42:36 +00:00
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* Returns 0 on success, or -EOPNOTSUPP.
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2016-11-08 10:54:28 +00:00
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*/
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2018-06-12 13:42:36 +00:00
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static inline int ap_qci(struct ap_config_info *config)
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{
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register unsigned long reg0 asm ("0") = 4UL << 24;
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register unsigned long reg1 asm ("1") = -EOPNOTSUPP;
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register struct ap_config_info *reg2 asm ("2") = config;
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asm volatile(
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".long 0xb2af0000\n" /* PQAP(QCI) */
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"0: la %0,0\n"
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"1:\n"
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EX_TABLE(0b, 1b)
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: "+d" (reg1)
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: "d" (reg0), "d" (reg2)
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: "cc", "memory");
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return reg1;
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}
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2016-11-08 10:54:28 +00:00
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2016-11-09 14:00:23 +00:00
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/*
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* struct ap_qirq_ctrl - convenient struct for easy invocation
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2018-06-12 13:42:36 +00:00
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* of the ap_aqic() function. This struct is passed as GR1
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* parameter to the PQAP(AQIC) instruction. For details please
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* see the AR documentation.
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2016-11-09 14:00:23 +00:00
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*/
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struct ap_qirq_ctrl {
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unsigned int _res1 : 8;
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2018-06-12 13:42:36 +00:00
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unsigned int zone : 8; /* zone info */
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unsigned int ir : 1; /* ir flag: enable (1) or disable (0) irq */
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2016-11-09 14:00:23 +00:00
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unsigned int _res2 : 4;
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2018-06-12 13:42:36 +00:00
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unsigned int gisc : 3; /* guest isc field */
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2016-11-09 14:00:23 +00:00
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unsigned int _res3 : 6;
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2018-06-12 13:42:36 +00:00
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unsigned int gf : 2; /* gisa format */
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2016-11-09 14:00:23 +00:00
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unsigned int _res4 : 1;
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2018-06-12 13:42:36 +00:00
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unsigned int gisa : 27; /* gisa origin */
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2016-11-09 14:00:23 +00:00
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unsigned int _res5 : 1;
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2018-06-12 13:42:36 +00:00
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unsigned int isc : 3; /* irq sub class */
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2016-11-09 14:00:23 +00:00
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};
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/**
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2018-06-12 13:42:36 +00:00
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* ap_aqic(): Control interruption for a specific AP.
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2016-11-09 14:00:23 +00:00
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* @qid: The AP queue number
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2018-06-12 13:42:36 +00:00
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* @qirqctrl: struct ap_qirq_ctrl (64 bit value)
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2016-11-09 14:00:23 +00:00
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* @ind: The notification indicator byte
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*
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* Returns AP queue status.
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2018-06-12 13:42:36 +00:00
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*/
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static inline struct ap_queue_status ap_aqic(ap_qid_t qid,
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struct ap_qirq_ctrl qirqctrl,
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void *ind)
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{
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register unsigned long reg0 asm ("0") = qid | (3UL << 24);
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2018-11-16 14:48:10 +00:00
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register union {
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unsigned long value;
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struct ap_qirq_ctrl qirqctrl;
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struct ap_queue_status status;
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} reg1 asm ("1");
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2018-06-12 13:42:36 +00:00
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register void *reg2 asm ("2") = ind;
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2018-11-16 14:48:10 +00:00
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reg1.qirqctrl = qirqctrl;
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2018-06-12 13:42:36 +00:00
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asm volatile(
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".long 0xb2af0000" /* PQAP(AQIC) */
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2018-11-16 14:48:10 +00:00
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: "+d" (reg1)
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: "d" (reg0), "d" (reg2)
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2018-06-12 13:42:36 +00:00
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: "cc");
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2018-11-16 14:48:10 +00:00
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return reg1.status;
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2018-06-12 13:42:36 +00:00
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}
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/*
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* union ap_qact_ap_info - used together with the
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* ap_aqic() function to provide a convenient way
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* to handle the ap info needed by the qact function.
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*/
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union ap_qact_ap_info {
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unsigned long val;
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struct {
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unsigned int : 3;
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unsigned int mode : 3;
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unsigned int : 26;
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unsigned int cat : 8;
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unsigned int : 8;
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unsigned char ver[2];
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};
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};
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/**
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* ap_qact(): Query AP combatibility type.
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* @qid: The AP queue number
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* @apinfo: On input the info about the AP queue. On output the
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* alternate AP queue info provided by the qact function
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* in GR2 is stored in.
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2016-11-09 14:00:23 +00:00
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*
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2018-06-12 13:42:36 +00:00
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* Returns AP queue status. Check response_code field for failures.
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2016-11-09 14:00:23 +00:00
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*/
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2018-06-12 13:42:36 +00:00
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static inline struct ap_queue_status ap_qact(ap_qid_t qid, int ifbit,
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union ap_qact_ap_info *apinfo)
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{
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register unsigned long reg0 asm ("0") = qid | (5UL << 24)
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| ((ifbit & 0x01) << 22);
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2018-11-16 14:48:10 +00:00
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register union {
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unsigned long value;
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struct ap_queue_status status;
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} reg1 asm ("1");
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2018-06-12 13:42:36 +00:00
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register unsigned long reg2 asm ("2");
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2018-11-16 14:48:10 +00:00
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reg1.value = apinfo->val;
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2018-06-12 13:42:36 +00:00
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asm volatile(
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".long 0xb2af0000" /* PQAP(QACT) */
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2018-11-16 14:48:10 +00:00
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: "+d" (reg1), "=d" (reg2)
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2018-06-12 13:42:36 +00:00
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: "d" (reg0)
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: "cc");
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apinfo->val = reg2;
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2018-11-16 14:48:10 +00:00
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return reg1.status;
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2018-06-12 13:42:36 +00:00
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}
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/**
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* ap_nqap(): Send message to adjunct processor queue.
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* @qid: The AP queue number
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* @psmid: The program supplied message identifier
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* @msg: The message text
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* @length: The message length
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*
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* Returns AP queue status structure.
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* Condition code 1 on NQAP can't happen because the L bit is 1.
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* Condition code 2 on NQAP also means the send is incomplete,
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* because a segment boundary was reached. The NQAP is repeated.
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*/
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static inline struct ap_queue_status ap_nqap(ap_qid_t qid,
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unsigned long long psmid,
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void *msg, size_t length)
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{
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register unsigned long reg0 asm ("0") = qid | 0x40000000UL;
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register struct ap_queue_status reg1 asm ("1");
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register unsigned long reg2 asm ("2") = (unsigned long) msg;
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register unsigned long reg3 asm ("3") = (unsigned long) length;
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register unsigned long reg4 asm ("4") = (unsigned int) (psmid >> 32);
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register unsigned long reg5 asm ("5") = psmid & 0xffffffff;
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asm volatile (
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"0: .long 0xb2ad0042\n" /* NQAP */
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" brc 2,0b"
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: "+d" (reg0), "=d" (reg1), "+d" (reg2), "+d" (reg3)
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: "d" (reg4), "d" (reg5)
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: "cc", "memory");
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return reg1;
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}
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/**
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* ap_dqap(): Receive message from adjunct processor queue.
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* @qid: The AP queue number
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* @psmid: Pointer to program supplied message identifier
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* @msg: The message text
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* @length: The message length
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*
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* Returns AP queue status structure.
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* Condition code 1 on DQAP means the receive has taken place
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* but only partially. The response is incomplete, hence the
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* DQAP is repeated.
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* Condition code 2 on DQAP also means the receive is incomplete,
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* this time because a segment boundary was reached. Again, the
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* DQAP is repeated.
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* Note that gpr2 is used by the DQAP instruction to keep track of
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* any 'residual' length, in case the instruction gets interrupted.
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* Hence it gets zeroed before the instruction.
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*/
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static inline struct ap_queue_status ap_dqap(ap_qid_t qid,
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unsigned long long *psmid,
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void *msg, size_t length)
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{
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register unsigned long reg0 asm("0") = qid | 0x80000000UL;
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register struct ap_queue_status reg1 asm ("1");
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register unsigned long reg2 asm("2") = 0UL;
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register unsigned long reg4 asm("4") = (unsigned long) msg;
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register unsigned long reg5 asm("5") = (unsigned long) length;
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register unsigned long reg6 asm("6") = 0UL;
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register unsigned long reg7 asm("7") = 0UL;
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asm volatile(
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"0: .long 0xb2ae0064\n" /* DQAP */
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" brc 6,0b\n"
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: "+d" (reg0), "=d" (reg1), "+d" (reg2),
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"+d" (reg4), "+d" (reg5), "+d" (reg6), "+d" (reg7)
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: : "cc", "memory");
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*psmid = (((unsigned long long) reg6) << 32) + reg7;
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return reg1;
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}
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2016-11-09 14:00:23 +00:00
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2019-02-18 17:01:35 +00:00
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/*
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* Interface to tell the AP bus code that a configuration
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* change has happened. The bus code should at least do
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* an ap bus resource rescan.
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*/
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#if IS_ENABLED(CONFIG_ZCRYPT)
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void ap_bus_cfg_chg(void);
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#else
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static inline void ap_bus_cfg_chg(void){};
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#endif
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2016-11-08 06:09:13 +00:00
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#endif /* _ASM_S390_AP_H_ */
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