0ec682f566
The XLP on-chip devices have PCI configuration headers, but some of the devices need custom resource allocation code. - devices with no MEM/IO BARs with registers in PCIe extended reg space have to be handled in memory resource allocation - devices without INTPIN/INTLINE in PCI header can be supported by having these faked with a shadow register. - Some devices does not allow 8/16 bit access to the register space, he default bus space cannot be used for these. Subclass pci and override attach and resource allocation methods to take care of this. Remove earlier code which did this partially.
317 lines
9.4 KiB
C
317 lines
9.4 KiB
C
/*-
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* Copyright 2003-2011 Netlogic Microsystems (Netlogic). All rights
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* reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are
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* met:
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*
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in
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* the documentation and/or other materials provided with the
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* distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY Netlogic Microsystems ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL NETLOGIC OR CONTRIBUTORS BE
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* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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* THE POSSIBILITY OF SUCH DAMAGE.
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*
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* NETLOGIC_BSD
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* $FreeBSD$
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*/
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#ifndef _NLM_HAL_PIC_H
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#define _NLM_HAL_PIC_H
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/* PIC Specific registers */
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#define PIC_CTRL 0x00
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/* PIC control register defines */
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#define PIC_CTRL_ITV 32 /* interrupt timeout value */
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#define PIC_CTRL_ICI 19 /* ICI interrupt timeout enable */
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#define PIC_CTRL_ITE 18 /* interrupt timeout enable */
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#define PIC_CTRL_STE 10 /* system timer interrupt enable */
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#define PIC_CTRL_WWR1 8 /* watchdog 1 wraparound count for reset */
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#define PIC_CTRL_WWR0 6 /* watchdog 0 wraparound count for reset */
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#define PIC_CTRL_WWN1 4 /* watchdog 1 wraparound count for NMI */
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#define PIC_CTRL_WWN0 2 /* watchdog 0 wraparound count for NMI */
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#define PIC_CTRL_WTE 0 /* watchdog timer enable */
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/* PIC Status register defines */
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#define PIC_ICI_STATUS 33 /* ICI interrupt timeout status */
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#define PIC_ITE_STATUS 32 /* interrupt timeout status */
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#define PIC_STS_STATUS 4 /* System timer interrupt status */
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#define PIC_WNS_STATUS 2 /* NMI status for watchdog timers */
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#define PIC_WIS_STATUS 0 /* Interrupt status for watchdog timers */
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/* PIC IPI control register offsets */
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#define PIC_IPICTRL_NMI 32
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#define PIC_IPICTRL_RIV 20 /* received interrupt vector */
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#define PIC_IPICTRL_IDB 16 /* interrupt destination base */
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#define PIC_IPICTRL_DTE 0 /* interrupt destination thread enables */
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/* PIC IRT register offsets */
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#define PIC_IRT_ENABLE 31
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#define PIC_IRT_NMI 29
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#define PIC_IRT_SCH 28 /* Scheduling scheme */
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#define PIC_IRT_RVEC 20 /* Interrupt receive vectors */
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#define PIC_IRT_DT 19 /* Destination type */
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#define PIC_IRT_DB 16 /* Destination base */
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#define PIC_IRT_DTE 0 /* Destination thread enables */
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#define PIC_BYTESWAP 0x02
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#define PIC_STATUS 0x04
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#define PIC_INTR_TIMEOUT 0x06
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#define PIC_ICI0_INTR_TIMEOUT 0x08
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#define PIC_ICI1_INTR_TIMEOUT 0x0a
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#define PIC_ICI2_INTR_TIMEOUT 0x0c
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#define PIC_IPI_CTL 0x0e
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#define PIC_INT_ACK 0x10
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#define PIC_INT_PENDING0 0x12
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#define PIC_INT_PENDING1 0x14
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#define PIC_INT_PENDING2 0x16
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#define PIC_WDOG0_MAXVAL 0x18
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#define PIC_WDOG0_COUNT 0x1a
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#define PIC_WDOG0_ENABLE0 0x1c
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#define PIC_WDOG0_ENABLE1 0x1e
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#define PIC_WDOG0_BEATCMD 0x20
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#define PIC_WDOG0_BEAT0 0x22
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#define PIC_WDOG0_BEAT1 0x24
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#define PIC_WDOG1_MAXVAL 0x26
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#define PIC_WDOG1_COUNT 0x28
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#define PIC_WDOG1_ENABLE0 0x2a
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#define PIC_WDOG1_ENABLE1 0x2c
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#define PIC_WDOG1_BEATCMD 0x2e
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#define PIC_WDOG1_BEAT0 0x30
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#define PIC_WDOG1_BEAT1 0x32
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#define PIC_WDOG_MAXVAL(i) (PIC_WDOG0_MAXVAL + ((i) ? 7 : 0))
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#define PIC_WDOG_COUNT(i) (PIC_WDOG0_COUNT + ((i) ? 7 : 0))
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#define PIC_WDOG_ENABLE0(i) (PIC_WDOG0_ENABLE0 + ((i) ? 7 : 0))
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#define PIC_WDOG_ENABLE1(i) (PIC_WDOG0_ENABLE1 + ((i) ? 7 : 0))
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#define PIC_WDOG_BEATCMD(i) (PIC_WDOG0_BEATCMD + ((i) ? 7 : 0))
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#define PIC_WDOG_BEAT0(i) (PIC_WDOG0_BEAT0 + ((i) ? 7 : 0))
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#define PIC_WDOG_BEAT1(i) (PIC_WDOG0_BEAT1 + ((i) ? 7 : 0))
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#define PIC_TIMER0_MAXVAL 0x34
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#define PIC_TIMER1_MAXVAL 0x36
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#define PIC_TIMER2_MAXVAL 0x38
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#define PIC_TIMER3_MAXVAL 0x3a
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#define PIC_TIMER4_MAXVAL 0x3c
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#define PIC_TIMER5_MAXVAL 0x3e
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#define PIC_TIMER6_MAXVAL 0x40
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#define PIC_TIMER7_MAXVAL 0x42
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#define PIC_TIMER_MAXVAL(i) (PIC_TIMER0_MAXVAL + ((i) * 2))
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#define PIC_TIMER0_COUNT 0x44
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#define PIC_TIMER1_COUNT 0x46
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#define PIC_TIMER2_COUNT 0x48
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#define PIC_TIMER3_COUNT 0x4a
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#define PIC_TIMER4_COUNT 0x4c
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#define PIC_TIMER5_COUNT 0x4e
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#define PIC_TIMER6_COUNT 0x50
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#define PIC_TIMER7_COUNT 0x52
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#define PIC_TIMER_COUNT(i) (PIC_TIMER0_COUNT + ((i) * 2))
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#define PIC_ITE0_N0_N1 0x54
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#define PIC_ITE1_N0_N1 0x58
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#define PIC_ITE2_N0_N1 0x5c
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#define PIC_ITE3_N0_N1 0x60
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#define PIC_ITE4_N0_N1 0x64
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#define PIC_ITE5_N0_N1 0x68
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#define PIC_ITE6_N0_N1 0x6c
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#define PIC_ITE7_N0_N1 0x70
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#define PIC_ITE_N0_N1(i) (PIC_ITE0_N0_N1 + ((i) * 4))
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#define PIC_ITE0_N2_N3 0x56
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#define PIC_ITE1_N2_N3 0x5a
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#define PIC_ITE2_N2_N3 0x5e
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#define PIC_ITE3_N2_N3 0x62
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#define PIC_ITE4_N2_N3 0x66
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#define PIC_ITE5_N2_N3 0x6a
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#define PIC_ITE6_N2_N3 0x6e
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#define PIC_ITE7_N2_N3 0x72
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#define PIC_ITE_N2_N3(i) (PIC_ITE0_N2_N3 + ((i) * 4))
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#define PIC_IRT0 0x74
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#define PIC_IRT(i) (PIC_IRT0 + ((i) * 2))
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#define TIMER_CYCLES_MAXVAL 0xffffffffffffffffULL
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/*
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* IRT Map
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*/
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#define PIC_IRT_WD_0_INDEX 0
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#define PIC_IRT_WD_1_INDEX 1
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#define PIC_IRT_WD_NMI_0_INDEX 2
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#define PIC_IRT_WD_NMI_1_INDEX 3
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#define PIC_IRT_TIMER_0_INDEX 4
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#define PIC_IRT_TIMER_1_INDEX 5
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#define PIC_IRT_TIMER_2_INDEX 6
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#define PIC_IRT_TIMER_3_INDEX 7
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#define PIC_IRT_TIMER_4_INDEX 8
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#define PIC_IRT_TIMER_5_INDEX 9
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#define PIC_IRT_TIMER_6_INDEX 10
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#define PIC_IRT_TIMER_7_INDEX 11
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#define PIC_IRT_CLOCK_INDEX PIC_IRT_TIMER_7_INDEX
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#define PIC_IRT_TIMER_INDEX(num) ((num) + PIC_IRT_TIMER_0_INDEX)
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#define PIC_CLOCK_TIMER 7
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#define PIC_IRQ_BASE 8
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#if !defined(LOCORE) && !defined(__ASSEMBLY__)
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#define PIC_IRT_FIRST_IRQ (PIC_IRQ_BASE)
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#define PIC_IRT_LAST_IRQ 63
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#define XLP_IRQ_IS_PICINTR(irq) ((irq) >= PIC_IRT_FIRST_IRQ)
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/*
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* Misc
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*/
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#define PIC_IRT_VALID 1
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#define PIC_LOCAL_SCHEDULING 1
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#define PIC_GLOBAL_SCHEDULING 0
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#define nlm_read_pic_reg(b, r) nlm_read_reg64(b, r)
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#define nlm_write_pic_reg(b, r, v) nlm_write_reg64(b, r, v)
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#define nlm_get_pic_pcibase(node) nlm_pcicfg_base(XLP_IO_PIC_OFFSET(node))
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#define nlm_get_pic_regbase(node) (nlm_get_pic_pcibase(node) + XLP_IO_PCI_HDRSZ)
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/* IRT and h/w interrupt routines */
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static inline int
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nlm_pic_read_irt(uint64_t base, int irt_index)
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{
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return nlm_read_pic_reg(base, PIC_IRT(irt_index));
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}
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static inline void
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nlm_pic_send_ipi(uint64_t base, int cpu, int vec, int nmi)
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{
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uint64_t ipi;
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int node, ncpu;
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node = cpu / 32;
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ncpu = cpu & 0x1f;
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ipi = ((uint64_t)nmi << 31) | (vec << 20) | (node << 17) |
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(1 << (cpu & 0xf));
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if (ncpu > 15)
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ipi |= 0x10000; /* Setting bit 16 to select cpus 16-31 */
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nlm_write_pic_reg(base, PIC_IPI_CTL, ipi);
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}
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static inline uint64_t
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nlm_pic_read_control(uint64_t base)
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{
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return nlm_read_pic_reg(base, PIC_CTRL);
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}
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static inline void
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nlm_pic_write_control(uint64_t base, uint64_t control)
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{
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nlm_write_pic_reg(base, PIC_CTRL, control);
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}
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static inline void
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nlm_pic_update_control(uint64_t base, uint64_t control)
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{
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uint64_t val;
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val = nlm_read_pic_reg(base, PIC_CTRL);
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nlm_write_pic_reg(base, PIC_CTRL, control | val);
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}
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static inline void
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nlm_pic_ack(uint64_t base, int irt_num)
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{
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nlm_write_pic_reg(base, PIC_INT_ACK, irt_num);
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/* Ack the Status register for Watchdog & System timers */
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if (irt_num < 12)
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nlm_write_pic_reg(base, PIC_STATUS, (1 << irt_num));
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}
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static inline void
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nlm_set_irt_to_cpu(uint64_t base, int irt, int cpu)
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{
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uint64_t val;
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val = nlm_read_pic_reg(base, PIC_IRT(irt));
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val |= cpu & 0xf;
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if (cpu > 15)
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val |= 1 << 16;
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nlm_write_pic_reg(base, PIC_IRT(irt), val);
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}
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static inline void
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nlm_pic_write_irt(uint64_t base, int irt_num, int en, int nmi,
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int sch, int vec, int dt, int db, int dte)
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{
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uint64_t val;
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val = (((uint64_t)en & 0x1) << 31) | ((nmi & 0x1) << 29) |
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((sch & 0x1) << 28) | ((vec & 0x3f) << 20) |
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((dt & 0x1) << 19) | ((db & 0x7) << 16) |
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(dte & 0xffff);
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nlm_write_pic_reg(base, PIC_IRT(irt_num), val);
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}
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static inline void
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nlm_pic_write_irt_direct(uint64_t base, int irt_num, int en, int nmi,
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int sch, int vec, int cpu)
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{
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nlm_pic_write_irt(base, irt_num, en, nmi, sch, vec, 1,
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(cpu >> 4), /* thread group */
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1 << (cpu & 0xf)); /* thread mask */
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}
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static inline uint64_t
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nlm_pic_read_timer(uint64_t base, int timer)
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{
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return nlm_read_pic_reg(base, PIC_TIMER_COUNT(timer));
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}
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static inline void
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nlm_pic_write_timer(uint64_t base, int timer, uint64_t value)
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{
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nlm_write_pic_reg(base, PIC_TIMER_COUNT(timer), value);
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}
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static inline void
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nlm_pic_set_timer(uint64_t base, int timer, uint64_t value, int irq, int cpu)
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{
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uint64_t pic_ctrl;
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int en, nmi;
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en = nmi = 0;
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if (irq > 0)
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en = 1;
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else if (irq < 0) {
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en = nmi = 1;
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irq = -irq;
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}
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nlm_write_pic_reg(base, PIC_TIMER_MAXVAL(timer), value);
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nlm_pic_write_irt_direct(base, PIC_IRT_TIMER_INDEX(timer),
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en, nmi, 0, irq, cpu);
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/* enable the timer */
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pic_ctrl = nlm_read_pic_reg(base, PIC_CTRL);
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pic_ctrl |= (1 << (PIC_CTRL_STE + timer));
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nlm_write_pic_reg(base, PIC_CTRL, pic_ctrl);
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}
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#endif /* __ASSEMBLY__ */
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#endif /* _NLM_HAL_PIC_H */
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