502 lines
15 KiB
C
502 lines
15 KiB
C
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/* SPDX-License-Identifier: GPL-2.0-or-later */
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/*
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* Copyright 2016-17 IBM Corp.
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*/
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#ifndef _VAS_H
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#define _VAS_H
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#include <linux/atomic.h>
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#include <linux/idr.h>
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#include <asm/vas.h>
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#include <linux/io.h>
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#include <linux/dcache.h>
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#include <linux/mutex.h>
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#include <linux/stringify.h>
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/*
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* Overview of Virtual Accelerator Switchboard (VAS).
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*
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* VAS is a hardware "switchboard" that allows senders and receivers to
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* exchange messages with _minimal_ kernel involvment. The receivers are
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* typically NX coprocessor engines that perform compression or encryption
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* in hardware, but receivers can also be other software threads.
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*
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* Senders are user/kernel threads that submit compression/encryption or
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* other requests to the receivers. Senders must format their messages as
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* Coprocessor Request Blocks (CRB)s and submit them using the "copy" and
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* "paste" instructions which were introduced in Power9.
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*
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* A Power node can have (upto?) 8 Power chips. There is one instance of
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* VAS in each Power9 chip. Each instance of VAS has 64K windows or ports,
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* Senders and receivers must each connect to a separate window before they
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* can exchange messages through the switchboard.
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*
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* Each window is described by two types of window contexts:
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*
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* Hypervisor Window Context (HVWC) of size VAS_HVWC_SIZE bytes
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*
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* OS/User Window Context (UWC) of size VAS_UWC_SIZE bytes.
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*
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* A window context can be viewed as a set of 64-bit registers. The settings
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* in these registers configure/control/determine the behavior of the VAS
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* hardware when messages are sent/received through the window. The registers
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* in the HVWC are configured by the kernel while the registers in the UWC can
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* be configured by the kernel or by the user space application that is using
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* the window.
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*
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* The HVWCs for all windows on a specific instance of VAS are in a contiguous
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* range of hardware addresses or Base address region (BAR) referred to as the
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* HVWC BAR for the instance. Similarly the UWCs for all windows on an instance
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* are referred to as the UWC BAR for the instance.
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*
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* The two BARs for each instance are defined Power9 MMIO Ranges spreadsheet
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* and available to the kernel in the VAS node's "reg" property in the device
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* tree:
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*
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* /proc/device-tree/vasm@.../reg
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*
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* (see vas_probe() for details on the reg property).
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*
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* The kernel maps the HVWC and UWC BAR regions into the kernel address
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* space (hvwc_map and uwc_map). The kernel can then access the window
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* contexts of a specific window using:
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*
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* hvwc = hvwc_map + winid * VAS_HVWC_SIZE.
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* uwc = uwc_map + winid * VAS_UWC_SIZE.
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*
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* where winid is the window index (0..64K).
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*
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* As mentioned, a window context is used to "configure" a window. Besides
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* this configuration address, each _send_ window also has a unique hardware
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* "paste" address that is used to submit requests/CRBs (see vas_paste_crb()).
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*
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* The hardware paste address for a window is computed using the "paste
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* base address" and "paste win id shift" reg properties in the VAS device
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* tree node using:
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*
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* paste_addr = paste_base + ((winid << paste_win_id_shift))
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*
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* (again, see vas_probe() for ->paste_base_addr and ->paste_win_id_shift).
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*
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* The kernel maps this hardware address into the sender's address space
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* after which they can use the 'paste' instruction (new in Power9) to
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* send a message (submit a request aka CRB) to the coprocessor.
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*
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* NOTE: In the initial version, senders can only in-kernel drivers/threads.
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* Support for user space threads will be added in follow-on patches.
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*
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* TODO: Do we need to map the UWC into user address space so they can return
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* credits? Its NA for NX but may be needed for other receive windows.
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*
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*/
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#define VAS_WINDOWS_PER_CHIP (64 << 10)
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/*
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* Hypervisor and OS/USer Window Context sizes
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*/
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#define VAS_HVWC_SIZE 512
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#define VAS_UWC_SIZE PAGE_SIZE
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/*
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* Initial per-process credits.
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* Max send window credits: 4K-1 (12-bits in VAS_TX_WCRED)
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*
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* TODO: Needs tuning for per-process credits
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*/
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#define VAS_TX_WCREDS_MAX ((4 << 10) - 1)
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#define VAS_WCREDS_DEFAULT (1 << 10)
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/*
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* VAS Window Context Register Offsets and bitmasks.
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* See Section 3.1.4 of VAS Work book
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*/
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#define VAS_LPID_OFFSET 0x010
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#define VAS_LPID PPC_BITMASK(0, 11)
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#define VAS_PID_OFFSET 0x018
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#define VAS_PID_ID PPC_BITMASK(0, 19)
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#define VAS_XLATE_MSR_OFFSET 0x020
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#define VAS_XLATE_MSR_DR PPC_BIT(0)
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#define VAS_XLATE_MSR_TA PPC_BIT(1)
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#define VAS_XLATE_MSR_PR PPC_BIT(2)
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#define VAS_XLATE_MSR_US PPC_BIT(3)
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#define VAS_XLATE_MSR_HV PPC_BIT(4)
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#define VAS_XLATE_MSR_SF PPC_BIT(5)
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#define VAS_XLATE_LPCR_OFFSET 0x028
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#define VAS_XLATE_LPCR_PAGE_SIZE PPC_BITMASK(0, 2)
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#define VAS_XLATE_LPCR_ISL PPC_BIT(3)
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#define VAS_XLATE_LPCR_TC PPC_BIT(4)
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#define VAS_XLATE_LPCR_SC PPC_BIT(5)
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#define VAS_XLATE_CTL_OFFSET 0x030
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#define VAS_XLATE_MODE PPC_BITMASK(0, 1)
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#define VAS_AMR_OFFSET 0x040
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#define VAS_AMR PPC_BITMASK(0, 63)
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#define VAS_SEIDR_OFFSET 0x048
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#define VAS_SEIDR PPC_BITMASK(0, 63)
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#define VAS_FAULT_TX_WIN_OFFSET 0x050
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#define VAS_FAULT_TX_WIN PPC_BITMASK(48, 63)
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#define VAS_OSU_INTR_SRC_RA_OFFSET 0x060
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#define VAS_OSU_INTR_SRC_RA PPC_BITMASK(8, 63)
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#define VAS_HV_INTR_SRC_RA_OFFSET 0x070
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#define VAS_HV_INTR_SRC_RA PPC_BITMASK(8, 63)
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#define VAS_PSWID_OFFSET 0x078
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#define VAS_PSWID_EA_HANDLE PPC_BITMASK(0, 31)
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#define VAS_SPARE1_OFFSET 0x080
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#define VAS_SPARE2_OFFSET 0x088
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#define VAS_SPARE3_OFFSET 0x090
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#define VAS_SPARE4_OFFSET 0x130
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#define VAS_SPARE5_OFFSET 0x160
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#define VAS_SPARE6_OFFSET 0x188
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#define VAS_LFIFO_BAR_OFFSET 0x0A0
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#define VAS_LFIFO_BAR PPC_BITMASK(8, 53)
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#define VAS_PAGE_MIGRATION_SELECT PPC_BITMASK(54, 56)
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#define VAS_LDATA_STAMP_CTL_OFFSET 0x0A8
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#define VAS_LDATA_STAMP PPC_BITMASK(0, 1)
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#define VAS_XTRA_WRITE PPC_BIT(2)
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#define VAS_LDMA_CACHE_CTL_OFFSET 0x0B0
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#define VAS_LDMA_TYPE PPC_BITMASK(0, 1)
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#define VAS_LDMA_FIFO_DISABLE PPC_BIT(2)
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#define VAS_LRFIFO_PUSH_OFFSET 0x0B8
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#define VAS_LRFIFO_PUSH PPC_BITMASK(0, 15)
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#define VAS_CURR_MSG_COUNT_OFFSET 0x0C0
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#define VAS_CURR_MSG_COUNT PPC_BITMASK(0, 7)
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#define VAS_LNOTIFY_AFTER_COUNT_OFFSET 0x0C8
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#define VAS_LNOTIFY_AFTER_COUNT PPC_BITMASK(0, 7)
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#define VAS_LRX_WCRED_OFFSET 0x0E0
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#define VAS_LRX_WCRED PPC_BITMASK(0, 15)
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#define VAS_LRX_WCRED_ADDER_OFFSET 0x190
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#define VAS_LRX_WCRED_ADDER PPC_BITMASK(0, 15)
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#define VAS_TX_WCRED_OFFSET 0x0F0
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#define VAS_TX_WCRED PPC_BITMASK(4, 15)
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#define VAS_TX_WCRED_ADDER_OFFSET 0x1A0
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#define VAS_TX_WCRED_ADDER PPC_BITMASK(4, 15)
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#define VAS_LFIFO_SIZE_OFFSET 0x100
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#define VAS_LFIFO_SIZE PPC_BITMASK(0, 3)
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#define VAS_WINCTL_OFFSET 0x108
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#define VAS_WINCTL_OPEN PPC_BIT(0)
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#define VAS_WINCTL_REJ_NO_CREDIT PPC_BIT(1)
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#define VAS_WINCTL_PIN PPC_BIT(2)
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#define VAS_WINCTL_TX_WCRED_MODE PPC_BIT(3)
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#define VAS_WINCTL_RX_WCRED_MODE PPC_BIT(4)
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#define VAS_WINCTL_TX_WORD_MODE PPC_BIT(5)
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#define VAS_WINCTL_RX_WORD_MODE PPC_BIT(6)
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#define VAS_WINCTL_RSVD_TXBUF PPC_BIT(7)
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#define VAS_WINCTL_THRESH_CTL PPC_BITMASK(8, 9)
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#define VAS_WINCTL_FAULT_WIN PPC_BIT(10)
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#define VAS_WINCTL_NX_WIN PPC_BIT(11)
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#define VAS_WIN_STATUS_OFFSET 0x110
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#define VAS_WIN_BUSY PPC_BIT(1)
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#define VAS_WIN_CTX_CACHING_CTL_OFFSET 0x118
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#define VAS_CASTOUT_REQ PPC_BIT(0)
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#define VAS_PUSH_TO_MEM PPC_BIT(1)
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#define VAS_WIN_CACHE_STATUS PPC_BIT(4)
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#define VAS_TX_RSVD_BUF_COUNT_OFFSET 0x120
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#define VAS_RXVD_BUF_COUNT PPC_BITMASK(58, 63)
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#define VAS_LRFIFO_WIN_PTR_OFFSET 0x128
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#define VAS_LRX_WIN_ID PPC_BITMASK(0, 15)
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/*
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* Local Notification Control Register controls what happens in _response_
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* to a paste command and hence applies only to receive windows.
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*/
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#define VAS_LNOTIFY_CTL_OFFSET 0x138
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#define VAS_NOTIFY_DISABLE PPC_BIT(0)
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#define VAS_INTR_DISABLE PPC_BIT(1)
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#define VAS_NOTIFY_EARLY PPC_BIT(2)
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#define VAS_NOTIFY_OSU_INTR PPC_BIT(3)
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#define VAS_LNOTIFY_PID_OFFSET 0x140
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#define VAS_LNOTIFY_PID PPC_BITMASK(0, 19)
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#define VAS_LNOTIFY_LPID_OFFSET 0x148
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#define VAS_LNOTIFY_LPID PPC_BITMASK(0, 11)
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#define VAS_LNOTIFY_TID_OFFSET 0x150
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#define VAS_LNOTIFY_TID PPC_BITMASK(0, 15)
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#define VAS_LNOTIFY_SCOPE_OFFSET 0x158
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#define VAS_LNOTIFY_MIN_SCOPE PPC_BITMASK(0, 1)
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#define VAS_LNOTIFY_MAX_SCOPE PPC_BITMASK(2, 3)
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#define VAS_NX_UTIL_OFFSET 0x1B0
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#define VAS_NX_UTIL PPC_BITMASK(0, 63)
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/* SE: Side effects */
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#define VAS_NX_UTIL_SE_OFFSET 0x1B8
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#define VAS_NX_UTIL_SE PPC_BITMASK(0, 63)
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#define VAS_NX_UTIL_ADDER_OFFSET 0x180
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#define VAS_NX_UTIL_ADDER PPC_BITMASK(32, 63)
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/*
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* VREG(x):
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* Expand a register's short name (eg: LPID) into two parameters:
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* - the register's short name in string form ("LPID"), and
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* - the name of the macro (eg: VAS_LPID_OFFSET), defining the
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* register's offset in the window context
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*/
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#define VREG_SFX(n, s) __stringify(n), VAS_##n##s
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#define VREG(r) VREG_SFX(r, _OFFSET)
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/*
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* Local Notify Scope Control Register. (Receive windows only).
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*/
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enum vas_notify_scope {
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VAS_SCOPE_LOCAL,
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VAS_SCOPE_GROUP,
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VAS_SCOPE_VECTORED_GROUP,
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VAS_SCOPE_UNUSED,
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};
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/*
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* Local DMA Cache Control Register (Receive windows only).
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*/
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enum vas_dma_type {
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VAS_DMA_TYPE_INJECT,
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VAS_DMA_TYPE_WRITE,
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};
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/*
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* Local Notify Scope Control Register. (Receive windows only).
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* Not applicable to NX receive windows.
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*/
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enum vas_notify_after_count {
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VAS_NOTIFY_AFTER_256 = 0,
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VAS_NOTIFY_NONE,
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VAS_NOTIFY_AFTER_2
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};
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/*
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* NX can generate an interrupt for multiple faults and expects kernel
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* to process all of them. So read all valid CRB entries until find the
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* invalid one. So use pswid which is pasted by NX and ccw[0] (reserved
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* bit in BE) to check valid CRB. CCW[0] will not be touched by user
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* space. Application gets CRB formt error if it updates this bit.
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*
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* Invalidate FIFO during allocation and process all entries from last
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* successful read until finds invalid pswid and ccw[0] values.
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* After reading each CRB entry from fault FIFO, the kernel invalidate
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* it by updating pswid with FIFO_INVALID_ENTRY and CCW[0] with
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* CCW0_INVALID.
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*/
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#define FIFO_INVALID_ENTRY 0xffffffff
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#define CCW0_INVALID 1
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/*
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* One per instance of VAS. Each instance will have a separate set of
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* receive windows, one per coprocessor type.
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*
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* See also function header of set_vinst_win() for details on ->windows[]
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* and ->rxwin[] tables.
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*/
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struct vas_instance {
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int vas_id;
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struct ida ida;
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struct list_head node;
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struct platform_device *pdev;
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u64 hvwc_bar_start;
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u64 uwc_bar_start;
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u64 paste_base_addr;
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u64 paste_win_id_shift;
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u64 irq_port;
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int virq;
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int fault_crbs;
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int fault_fifo_size;
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int fifo_in_progress; /* To wake up thread or return IRQ_HANDLED */
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spinlock_t fault_lock; /* Protects fifo_in_progress update */
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void *fault_fifo;
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struct pnv_vas_window *fault_win; /* Fault window */
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struct mutex mutex;
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struct pnv_vas_window *rxwin[VAS_COP_TYPE_MAX];
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struct pnv_vas_window *windows[VAS_WINDOWS_PER_CHIP];
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char *name;
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char *dbgname;
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struct dentry *dbgdir;
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};
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/*
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* In-kernel state a VAS window on PowerNV. One per window.
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*/
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struct pnv_vas_window {
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struct vas_window vas_win;
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/* Fields common to send and receive windows */
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struct vas_instance *vinst;
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bool tx_win; /* True if send window */
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bool nx_win; /* True if NX window */
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bool user_win; /* True if user space window */
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void *hvwc_map; /* HV window context */
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void *uwc_map; /* OS/User window context */
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/* Fields applicable only to send windows */
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void *paste_kaddr;
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char *paste_addr_name;
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struct pnv_vas_window *rxwin;
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/* Fields applicable only to receive windows */
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atomic_t num_txwins;
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};
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/*
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* Container for the hardware state of a window. One per-window.
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*
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* A VAS Window context is a 512-byte area in the hardware that contains
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* a set of 64-bit registers. Individual bit-fields in these registers
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* determine the configuration/operation of the hardware. struct vas_winctx
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* is a container for the register fields in the window context.
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*/
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struct vas_winctx {
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u64 rx_fifo;
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int rx_fifo_size;
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int wcreds_max;
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int rsvd_txbuf_count;
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bool user_win;
|
||
|
bool nx_win;
|
||
|
bool fault_win;
|
||
|
bool rsvd_txbuf_enable;
|
||
|
bool pin_win;
|
||
|
bool rej_no_credit;
|
||
|
bool tx_wcred_mode;
|
||
|
bool rx_wcred_mode;
|
||
|
bool tx_word_mode;
|
||
|
bool rx_word_mode;
|
||
|
bool data_stamp;
|
||
|
bool xtra_write;
|
||
|
bool notify_disable;
|
||
|
bool intr_disable;
|
||
|
bool fifo_disable;
|
||
|
bool notify_early;
|
||
|
bool notify_os_intr_reg;
|
||
|
|
||
|
int lpid;
|
||
|
int pidr; /* value from SPRN_PID, not linux pid */
|
||
|
int lnotify_lpid;
|
||
|
int lnotify_pid;
|
||
|
int lnotify_tid;
|
||
|
u32 pswid;
|
||
|
int rx_win_id;
|
||
|
int fault_win_id;
|
||
|
int tc_mode;
|
||
|
|
||
|
u64 irq_port;
|
||
|
|
||
|
enum vas_dma_type dma_type;
|
||
|
enum vas_notify_scope min_scope;
|
||
|
enum vas_notify_scope max_scope;
|
||
|
enum vas_notify_after_count notify_after_count;
|
||
|
};
|
||
|
|
||
|
extern struct mutex vas_mutex;
|
||
|
|
||
|
extern struct vas_instance *find_vas_instance(int vasid);
|
||
|
extern void vas_init_dbgdir(void);
|
||
|
extern void vas_instance_init_dbgdir(struct vas_instance *vinst);
|
||
|
extern void vas_window_init_dbgdir(struct pnv_vas_window *win);
|
||
|
extern void vas_window_free_dbgdir(struct pnv_vas_window *win);
|
||
|
extern int vas_setup_fault_window(struct vas_instance *vinst);
|
||
|
extern irqreturn_t vas_fault_thread_fn(int irq, void *data);
|
||
|
extern irqreturn_t vas_fault_handler(int irq, void *dev_id);
|
||
|
extern void vas_return_credit(struct pnv_vas_window *window, bool tx);
|
||
|
extern struct pnv_vas_window *vas_pswid_to_window(struct vas_instance *vinst,
|
||
|
uint32_t pswid);
|
||
|
extern void vas_win_paste_addr(struct pnv_vas_window *window, u64 *addr,
|
||
|
int *len);
|
||
|
|
||
|
static inline int vas_window_pid(struct vas_window *window)
|
||
|
{
|
||
|
return pid_vnr(window->task_ref.pid);
|
||
|
}
|
||
|
|
||
|
static inline void vas_log_write(struct pnv_vas_window *win, char *name,
|
||
|
void *regptr, u64 val)
|
||
|
{
|
||
|
if (val)
|
||
|
pr_debug("%swin #%d: %s reg %p, val 0x%016llx\n",
|
||
|
win->tx_win ? "Tx" : "Rx", win->vas_win.winid,
|
||
|
name, regptr, val);
|
||
|
}
|
||
|
|
||
|
static inline void write_uwc_reg(struct pnv_vas_window *win, char *name,
|
||
|
s32 reg, u64 val)
|
||
|
{
|
||
|
void *regptr;
|
||
|
|
||
|
regptr = win->uwc_map + reg;
|
||
|
vas_log_write(win, name, regptr, val);
|
||
|
|
||
|
out_be64(regptr, val);
|
||
|
}
|
||
|
|
||
|
static inline void write_hvwc_reg(struct pnv_vas_window *win, char *name,
|
||
|
s32 reg, u64 val)
|
||
|
{
|
||
|
void *regptr;
|
||
|
|
||
|
regptr = win->hvwc_map + reg;
|
||
|
vas_log_write(win, name, regptr, val);
|
||
|
|
||
|
out_be64(regptr, val);
|
||
|
}
|
||
|
|
||
|
static inline u64 read_hvwc_reg(struct pnv_vas_window *win,
|
||
|
char *name __maybe_unused, s32 reg)
|
||
|
{
|
||
|
return in_be64(win->hvwc_map+reg);
|
||
|
}
|
||
|
|
||
|
/*
|
||
|
* Encode/decode the Partition Send Window ID (PSWID) for a window in
|
||
|
* a way that we can uniquely identify any window in the system. i.e.
|
||
|
* we should be able to locate the 'struct vas_window' given the PSWID.
|
||
|
*
|
||
|
* Bits Usage
|
||
|
* 0:7 VAS id (8 bits)
|
||
|
* 8:15 Unused, 0 (3 bits)
|
||
|
* 16:31 Window id (16 bits)
|
||
|
*/
|
||
|
static inline u32 encode_pswid(int vasid, int winid)
|
||
|
{
|
||
|
return ((u32)winid | (vasid << (31 - 7)));
|
||
|
}
|
||
|
|
||
|
static inline void decode_pswid(u32 pswid, int *vasid, int *winid)
|
||
|
{
|
||
|
if (vasid)
|
||
|
*vasid = pswid >> (31 - 7) & 0xFF;
|
||
|
|
||
|
if (winid)
|
||
|
*winid = pswid & 0xFFFF;
|
||
|
}
|
||
|
#endif /* _VAS_H */
|