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Currently we assume userspace pages are always writable when doing memory pinning. This is not true, specially since userspace applications may allocate their memory the way they want, we have no control over it. If a read-only page is set for pinning, currently the driver fails due to get_user_pages_fast() refusing to map read-only pages as writable. This patch changes this behavior, by taking the permission flags of the pages into account in both pinning/unpinning process, as well as in the DMA data copy-back to userpace (which we shouldn't try to do blindly, since it will fail in case of read-only-pages). Signed-off-by: Frank Haverkamp <haver@linux.vnet.ibm.com> Signed-off-by: Guilherme G. Piccoli <gpiccoli@linux.vnet.ibm.com> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
588 lines
19 KiB
C
588 lines
19 KiB
C
#ifndef __CARD_BASE_H__
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#define __CARD_BASE_H__
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/**
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* IBM Accelerator Family 'GenWQE'
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*
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* (C) Copyright IBM Corp. 2013
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*
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* Author: Frank Haverkamp <haver@linux.vnet.ibm.com>
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* Author: Joerg-Stephan Vogt <jsvogt@de.ibm.com>
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* Author: Michael Jung <mijung@gmx.net>
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* Author: Michael Ruettger <michael@ibmra.de>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License (version 2 only)
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* as published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*/
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/*
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* Interfaces within the GenWQE module. Defines genwqe_card and
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* ddcb_queue as well as ddcb_requ.
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*/
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#include <linux/kernel.h>
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#include <linux/types.h>
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#include <linux/cdev.h>
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#include <linux/stringify.h>
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#include <linux/pci.h>
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#include <linux/semaphore.h>
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#include <linux/uaccess.h>
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#include <linux/io.h>
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#include <linux/debugfs.h>
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#include <linux/slab.h>
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#include <linux/genwqe/genwqe_card.h>
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#include "genwqe_driver.h"
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#define GENWQE_MSI_IRQS 4 /* Just one supported, no MSIx */
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#define GENWQE_MAX_VFS 15 /* maximum 15 VFs are possible */
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#define GENWQE_MAX_FUNCS 16 /* 1 PF and 15 VFs */
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#define GENWQE_CARD_NO_MAX (16 * GENWQE_MAX_FUNCS)
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/* Compile parameters, some of them appear in debugfs for later adjustment */
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#define genwqe_ddcb_max 32 /* DDCBs on the work-queue */
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#define genwqe_polling_enabled 0 /* in case of irqs not working */
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#define genwqe_ddcb_software_timeout 10 /* timeout per DDCB in seconds */
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#define genwqe_kill_timeout 8 /* time until process gets killed */
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#define genwqe_vf_jobtimeout_msec 250 /* 250 msec */
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#define genwqe_pf_jobtimeout_msec 8000 /* 8 sec should be ok */
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#define genwqe_health_check_interval 4 /* <= 0: disabled */
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/* Sysfs attribute groups used when we create the genwqe device */
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extern const struct attribute_group *genwqe_attribute_groups[];
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/*
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* Config space for Genwqe5 A7:
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* 00:[14 10 4b 04]40 00 10 00[00 00 00 12]00 00 00 00
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* 10: 0c 00 00 f0 07 3c 00 00 00 00 00 00 00 00 00 00
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* 20: 00 00 00 00 00 00 00 00 00 00 00 00[14 10 4b 04]
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* 30: 00 00 00 00 50 00 00 00 00 00 00 00 00 00 00 00
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*/
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#define PCI_DEVICE_GENWQE 0x044b /* Genwqe DeviceID */
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#define PCI_SUBSYSTEM_ID_GENWQE5 0x035f /* Genwqe A5 Subsystem-ID */
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#define PCI_SUBSYSTEM_ID_GENWQE5_NEW 0x044b /* Genwqe A5 Subsystem-ID */
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#define PCI_CLASSCODE_GENWQE5 0x1200 /* UNKNOWN */
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#define PCI_SUBVENDOR_ID_IBM_SRIOV 0x0000
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#define PCI_SUBSYSTEM_ID_GENWQE5_SRIOV 0x0000 /* Genwqe A5 Subsystem-ID */
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#define PCI_CLASSCODE_GENWQE5_SRIOV 0x1200 /* UNKNOWN */
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#define GENWQE_SLU_ARCH_REQ 2 /* Required SLU architecture level */
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/**
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* struct genwqe_reg - Genwqe data dump functionality
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*/
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struct genwqe_reg {
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u32 addr;
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u32 idx;
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u64 val;
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};
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/*
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* enum genwqe_dbg_type - Specify chip unit to dump/debug
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*/
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enum genwqe_dbg_type {
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GENWQE_DBG_UNIT0 = 0, /* captured before prev errs cleared */
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GENWQE_DBG_UNIT1 = 1,
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GENWQE_DBG_UNIT2 = 2,
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GENWQE_DBG_UNIT3 = 3,
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GENWQE_DBG_UNIT4 = 4,
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GENWQE_DBG_UNIT5 = 5,
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GENWQE_DBG_UNIT6 = 6,
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GENWQE_DBG_UNIT7 = 7,
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GENWQE_DBG_REGS = 8,
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GENWQE_DBG_DMA = 9,
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GENWQE_DBG_UNITS = 10, /* max number of possible debug units */
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};
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/* Software error injection to simulate card failures */
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#define GENWQE_INJECT_HARDWARE_FAILURE 0x00000001 /* injects -1 reg reads */
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#define GENWQE_INJECT_BUS_RESET_FAILURE 0x00000002 /* pci_bus_reset fail */
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#define GENWQE_INJECT_GFIR_FATAL 0x00000004 /* GFIR = 0x0000ffff */
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#define GENWQE_INJECT_GFIR_INFO 0x00000008 /* GFIR = 0xffff0000 */
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/*
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* Genwqe card description and management data.
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*
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* Error-handling in case of card malfunction
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* ------------------------------------------
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*
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* If the card is detected to be defective the outside environment
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* will cause the PCI layer to call deinit (the cleanup function for
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* probe). This is the same effect like doing a unbind/bind operation
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* on the card.
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*
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* The genwqe card driver implements a health checking thread which
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* verifies the card function. If this detects a problem the cards
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* device is being shutdown and restarted again, along with a reset of
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* the card and queue.
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*
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* All functions accessing the card device return either -EIO or -ENODEV
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* code to indicate the malfunction to the user. The user has to close
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* the file descriptor and open a new one, once the card becomes
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* available again.
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*
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* If the open file descriptor is setup to receive SIGIO, the signal is
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* genereated for the application which has to provide a handler to
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* react on it. If the application does not close the open
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* file descriptor a SIGKILL is send to enforce freeing the cards
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* resources.
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*
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* I did not find a different way to prevent kernel problems due to
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* reference counters for the cards character devices getting out of
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* sync. The character device deallocation does not block, even if
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* there is still an open file descriptor pending. If this pending
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* descriptor is closed, the data structures used by the character
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* device is reinstantiated, which will lead to the reference counter
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* dropping below the allowed values.
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*
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* Card recovery
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* -------------
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*
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* To test the internal driver recovery the following command can be used:
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* sudo sh -c 'echo 0xfffff > /sys/class/genwqe/genwqe0_card/err_inject'
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*/
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/**
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* struct dma_mapping_type - Mapping type definition
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*
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* To avoid memcpying data arround we use user memory directly. To do
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* this we need to pin/swap-in the memory and request a DMA address
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* for it.
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*/
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enum dma_mapping_type {
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GENWQE_MAPPING_RAW = 0, /* contignous memory buffer */
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GENWQE_MAPPING_SGL_TEMP, /* sglist dynamically used */
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GENWQE_MAPPING_SGL_PINNED, /* sglist used with pinning */
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};
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/**
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* struct dma_mapping - Information about memory mappings done by the driver
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*/
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struct dma_mapping {
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enum dma_mapping_type type;
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void *u_vaddr; /* user-space vaddr/non-aligned */
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void *k_vaddr; /* kernel-space vaddr/non-aligned */
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dma_addr_t dma_addr; /* physical DMA address */
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struct page **page_list; /* list of pages used by user buff */
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dma_addr_t *dma_list; /* list of dma addresses per page */
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unsigned int nr_pages; /* number of pages */
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unsigned int size; /* size in bytes */
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struct list_head card_list; /* list of usr_maps for card */
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struct list_head pin_list; /* list of pinned memory for dev */
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int write; /* writable map? useful in unmapping */
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};
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static inline void genwqe_mapping_init(struct dma_mapping *m,
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enum dma_mapping_type type)
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{
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memset(m, 0, sizeof(*m));
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m->type = type;
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m->write = 1; /* Assume the maps we create are R/W */
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}
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/**
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* struct ddcb_queue - DDCB queue data
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* @ddcb_max: Number of DDCBs on the queue
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* @ddcb_next: Next free DDCB
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* @ddcb_act: Next DDCB supposed to finish
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* @ddcb_seq: Sequence number of last DDCB
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* @ddcbs_in_flight: Currently enqueued DDCBs
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* @ddcbs_completed: Number of already completed DDCBs
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* @return_on_busy: Number of -EBUSY returns on full queue
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* @wait_on_busy: Number of waits on full queue
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* @ddcb_daddr: DMA address of first DDCB in the queue
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* @ddcb_vaddr: Kernel virtual address of first DDCB in the queue
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* @ddcb_req: Associated requests (one per DDCB)
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* @ddcb_waitqs: Associated wait queues (one per DDCB)
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* @ddcb_lock: Lock to protect queuing operations
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* @ddcb_waitq: Wait on next DDCB finishing
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*/
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struct ddcb_queue {
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int ddcb_max; /* amount of DDCBs */
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int ddcb_next; /* next available DDCB num */
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int ddcb_act; /* DDCB to be processed */
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u16 ddcb_seq; /* slc seq num */
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unsigned int ddcbs_in_flight; /* number of ddcbs in processing */
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unsigned int ddcbs_completed;
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unsigned int ddcbs_max_in_flight;
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unsigned int return_on_busy; /* how many times -EBUSY? */
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unsigned int wait_on_busy;
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dma_addr_t ddcb_daddr; /* DMA address */
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struct ddcb *ddcb_vaddr; /* kernel virtual addr for DDCBs */
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struct ddcb_requ **ddcb_req; /* ddcb processing parameter */
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wait_queue_head_t *ddcb_waitqs; /* waitqueue per ddcb */
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spinlock_t ddcb_lock; /* exclusive access to queue */
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wait_queue_head_t busy_waitq; /* wait for ddcb processing */
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/* registers or the respective queue to be used */
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u32 IO_QUEUE_CONFIG;
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u32 IO_QUEUE_STATUS;
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u32 IO_QUEUE_SEGMENT;
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u32 IO_QUEUE_INITSQN;
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u32 IO_QUEUE_WRAP;
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u32 IO_QUEUE_OFFSET;
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u32 IO_QUEUE_WTIME;
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u32 IO_QUEUE_ERRCNTS;
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u32 IO_QUEUE_LRW;
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};
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/*
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* GFIR, SLU_UNITCFG, APP_UNITCFG
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* 8 Units with FIR/FEC + 64 * 2ndary FIRS/FEC.
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*/
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#define GENWQE_FFDC_REGS (3 + (8 * (2 + 2 * 64)))
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struct genwqe_ffdc {
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unsigned int entries;
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struct genwqe_reg *regs;
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};
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/**
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* struct genwqe_dev - GenWQE device information
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* @card_state: Card operation state, see above
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* @ffdc: First Failure Data Capture buffers for each unit
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* @card_thread: Working thread to operate the DDCB queue
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* @card_waitq: Wait queue used in card_thread
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* @queue: DDCB queue
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* @health_thread: Card monitoring thread (only for PFs)
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* @health_waitq: Wait queue used in health_thread
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* @pci_dev: Associated PCI device (function)
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* @mmio: Base address of 64-bit register space
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* @mmio_len: Length of register area
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* @file_lock: Lock to protect access to file_list
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* @file_list: List of all processes with open GenWQE file descriptors
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*
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* This struct contains all information needed to communicate with a
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* GenWQE card. It is initialized when a GenWQE device is found and
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* destroyed when it goes away. It holds data to maintain the queue as
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* well as data needed to feed the user interfaces.
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*/
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struct genwqe_dev {
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enum genwqe_card_state card_state;
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spinlock_t print_lock;
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int card_idx; /* card index 0..CARD_NO_MAX-1 */
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u64 flags; /* general flags */
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/* FFDC data gathering */
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struct genwqe_ffdc ffdc[GENWQE_DBG_UNITS];
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/* DDCB workqueue */
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struct task_struct *card_thread;
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wait_queue_head_t queue_waitq;
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struct ddcb_queue queue; /* genwqe DDCB queue */
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unsigned int irqs_processed;
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/* Card health checking thread */
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struct task_struct *health_thread;
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wait_queue_head_t health_waitq;
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int use_platform_recovery; /* use platform recovery mechanisms */
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/* char device */
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dev_t devnum_genwqe; /* major/minor num card */
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struct class *class_genwqe; /* reference to class object */
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struct device *dev; /* for device creation */
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struct cdev cdev_genwqe; /* char device for card */
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struct dentry *debugfs_root; /* debugfs card root directory */
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struct dentry *debugfs_genwqe; /* debugfs driver root directory */
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/* pci resources */
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struct pci_dev *pci_dev; /* PCI device */
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void __iomem *mmio; /* BAR-0 MMIO start */
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unsigned long mmio_len;
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int num_vfs;
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u32 vf_jobtimeout_msec[GENWQE_MAX_VFS];
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int is_privileged; /* access to all regs possible */
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/* config regs which we need often */
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u64 slu_unitcfg;
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u64 app_unitcfg;
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u64 softreset;
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u64 err_inject;
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u64 last_gfir;
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char app_name[5];
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spinlock_t file_lock; /* lock for open files */
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struct list_head file_list; /* list of open files */
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/* debugfs parameters */
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int ddcb_software_timeout; /* wait until DDCB times out */
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int skip_recovery; /* circumvention if recovery fails */
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int kill_timeout; /* wait after sending SIGKILL */
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};
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/**
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* enum genwqe_requ_state - State of a DDCB execution request
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*/
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enum genwqe_requ_state {
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GENWQE_REQU_NEW = 0,
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GENWQE_REQU_ENQUEUED = 1,
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GENWQE_REQU_TAPPED = 2,
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GENWQE_REQU_FINISHED = 3,
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GENWQE_REQU_STATE_MAX,
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};
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/**
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* struct genwqe_sgl - Scatter gather list describing user-space memory
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* @sgl: scatter gather list needs to be 128 byte aligned
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* @sgl_dma_addr: dma address of sgl
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* @sgl_size: size of area used for sgl
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* @user_addr: user-space address of memory area
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* @user_size: size of user-space memory area
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* @page: buffer for partial pages if needed
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* @page_dma_addr: dma address partial pages
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* @write: should we write it back to userspace?
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*/
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struct genwqe_sgl {
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dma_addr_t sgl_dma_addr;
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struct sg_entry *sgl;
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size_t sgl_size; /* size of sgl */
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void __user *user_addr; /* user-space base-address */
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size_t user_size; /* size of memory area */
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int write;
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unsigned long nr_pages;
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unsigned long fpage_offs;
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size_t fpage_size;
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size_t lpage_size;
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void *fpage;
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dma_addr_t fpage_dma_addr;
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void *lpage;
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dma_addr_t lpage_dma_addr;
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};
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int genwqe_alloc_sync_sgl(struct genwqe_dev *cd, struct genwqe_sgl *sgl,
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void __user *user_addr, size_t user_size, int write);
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int genwqe_setup_sgl(struct genwqe_dev *cd, struct genwqe_sgl *sgl,
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dma_addr_t *dma_list);
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int genwqe_free_sync_sgl(struct genwqe_dev *cd, struct genwqe_sgl *sgl);
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/**
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* struct ddcb_requ - Kernel internal representation of the DDCB request
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* @cmd: User space representation of the DDCB execution request
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*/
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struct ddcb_requ {
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/* kernel specific content */
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enum genwqe_requ_state req_state; /* request status */
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int num; /* ddcb_no for this request */
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struct ddcb_queue *queue; /* associated queue */
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struct dma_mapping dma_mappings[DDCB_FIXUPS];
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struct genwqe_sgl sgls[DDCB_FIXUPS];
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/* kernel/user shared content */
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struct genwqe_ddcb_cmd cmd; /* ddcb_no for this request */
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struct genwqe_debug_data debug_data;
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};
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/**
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* struct genwqe_file - Information for open GenWQE devices
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*/
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struct genwqe_file {
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struct genwqe_dev *cd;
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struct genwqe_driver *client;
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struct file *filp;
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struct fasync_struct *async_queue;
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struct task_struct *owner;
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struct list_head list; /* entry in list of open files */
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spinlock_t map_lock; /* lock for dma_mappings */
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struct list_head map_list; /* list of dma_mappings */
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spinlock_t pin_lock; /* lock for pinned memory */
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struct list_head pin_list; /* list of pinned memory */
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};
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int genwqe_setup_service_layer(struct genwqe_dev *cd); /* for PF only */
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int genwqe_finish_queue(struct genwqe_dev *cd);
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int genwqe_release_service_layer(struct genwqe_dev *cd);
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/**
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* genwqe_get_slu_id() - Read Service Layer Unit Id
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* Return: 0x00: Development code
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* 0x01: SLC1 (old)
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* 0x02: SLC2 (sept2012)
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* 0x03: SLC2 (feb2013, generic driver)
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*/
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static inline int genwqe_get_slu_id(struct genwqe_dev *cd)
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{
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return (int)((cd->slu_unitcfg >> 32) & 0xff);
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}
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int genwqe_ddcbs_in_flight(struct genwqe_dev *cd);
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u8 genwqe_card_type(struct genwqe_dev *cd);
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int genwqe_card_reset(struct genwqe_dev *cd);
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int genwqe_set_interrupt_capability(struct genwqe_dev *cd, int count);
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void genwqe_reset_interrupt_capability(struct genwqe_dev *cd);
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int genwqe_device_create(struct genwqe_dev *cd);
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int genwqe_device_remove(struct genwqe_dev *cd);
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/* debugfs */
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int genwqe_init_debugfs(struct genwqe_dev *cd);
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void genqwe_exit_debugfs(struct genwqe_dev *cd);
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int genwqe_read_softreset(struct genwqe_dev *cd);
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/* Hardware Circumventions */
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int genwqe_recovery_on_fatal_gfir_required(struct genwqe_dev *cd);
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int genwqe_flash_readback_fails(struct genwqe_dev *cd);
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/**
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* genwqe_write_vreg() - Write register in VF window
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* @cd: genwqe device
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* @reg: register address
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* @val: value to write
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* @func: 0: PF, 1: VF0, ..., 15: VF14
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*/
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int genwqe_write_vreg(struct genwqe_dev *cd, u32 reg, u64 val, int func);
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/**
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* genwqe_read_vreg() - Read register in VF window
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* @cd: genwqe device
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* @reg: register address
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* @func: 0: PF, 1: VF0, ..., 15: VF14
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*
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* Return: content of the register
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*/
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u64 genwqe_read_vreg(struct genwqe_dev *cd, u32 reg, int func);
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/* FFDC Buffer Management */
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int genwqe_ffdc_buff_size(struct genwqe_dev *cd, int unit_id);
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int genwqe_ffdc_buff_read(struct genwqe_dev *cd, int unit_id,
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struct genwqe_reg *regs, unsigned int max_regs);
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int genwqe_read_ffdc_regs(struct genwqe_dev *cd, struct genwqe_reg *regs,
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unsigned int max_regs, int all);
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int genwqe_ffdc_dump_dma(struct genwqe_dev *cd,
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struct genwqe_reg *regs, unsigned int max_regs);
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int genwqe_init_debug_data(struct genwqe_dev *cd,
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struct genwqe_debug_data *d);
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void genwqe_init_crc32(void);
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int genwqe_read_app_id(struct genwqe_dev *cd, char *app_name, int len);
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/* Memory allocation/deallocation; dma address handling */
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int genwqe_user_vmap(struct genwqe_dev *cd, struct dma_mapping *m,
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void *uaddr, unsigned long size,
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struct ddcb_requ *req);
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int genwqe_user_vunmap(struct genwqe_dev *cd, struct dma_mapping *m,
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struct ddcb_requ *req);
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static inline bool dma_mapping_used(struct dma_mapping *m)
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{
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if (!m)
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return 0;
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return m->size != 0;
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}
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/**
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* __genwqe_execute_ddcb() - Execute DDCB request with addr translation
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*
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* This function will do the address translation changes to the DDCBs
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* according to the definitions required by the ATS field. It looks up
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* the memory allocation buffer or does vmap/vunmap for the respective
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* user-space buffers, inclusive page pinning and scatter gather list
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* buildup and teardown.
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*/
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int __genwqe_execute_ddcb(struct genwqe_dev *cd,
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struct genwqe_ddcb_cmd *cmd, unsigned int f_flags);
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/**
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* __genwqe_execute_raw_ddcb() - Execute DDCB request without addr translation
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*
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* This version will not do address translation or any modification of
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* the DDCB data. It is used e.g. for the MoveFlash DDCB which is
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* entirely prepared by the driver itself. That means the appropriate
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* DMA addresses are already in the DDCB and do not need any
|
|
* modification.
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*/
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int __genwqe_execute_raw_ddcb(struct genwqe_dev *cd,
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struct genwqe_ddcb_cmd *cmd,
|
|
unsigned int f_flags);
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int __genwqe_enqueue_ddcb(struct genwqe_dev *cd,
|
|
struct ddcb_requ *req,
|
|
unsigned int f_flags);
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|
|
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int __genwqe_wait_ddcb(struct genwqe_dev *cd, struct ddcb_requ *req);
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int __genwqe_purge_ddcb(struct genwqe_dev *cd, struct ddcb_requ *req);
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|
|
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/* register access */
|
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int __genwqe_writeq(struct genwqe_dev *cd, u64 byte_offs, u64 val);
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|
u64 __genwqe_readq(struct genwqe_dev *cd, u64 byte_offs);
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int __genwqe_writel(struct genwqe_dev *cd, u64 byte_offs, u32 val);
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u32 __genwqe_readl(struct genwqe_dev *cd, u64 byte_offs);
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|
|
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void *__genwqe_alloc_consistent(struct genwqe_dev *cd, size_t size,
|
|
dma_addr_t *dma_handle);
|
|
void __genwqe_free_consistent(struct genwqe_dev *cd, size_t size,
|
|
void *vaddr, dma_addr_t dma_handle);
|
|
|
|
/* Base clock frequency in MHz */
|
|
int genwqe_base_clock_frequency(struct genwqe_dev *cd);
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|
|
|
/* Before FFDC is captured the traps should be stopped. */
|
|
void genwqe_stop_traps(struct genwqe_dev *cd);
|
|
void genwqe_start_traps(struct genwqe_dev *cd);
|
|
|
|
/* Hardware circumvention */
|
|
bool genwqe_need_err_masking(struct genwqe_dev *cd);
|
|
|
|
/**
|
|
* genwqe_is_privileged() - Determine operation mode for PCI function
|
|
*
|
|
* On Intel with SRIOV support we see:
|
|
* PF: is_physfn = 1 is_virtfn = 0
|
|
* VF: is_physfn = 0 is_virtfn = 1
|
|
*
|
|
* On Systems with no SRIOV support _and_ virtualized systems we get:
|
|
* is_physfn = 0 is_virtfn = 0
|
|
*
|
|
* Other vendors have individual pci device ids to distinguish between
|
|
* virtual function drivers and physical function drivers. GenWQE
|
|
* unfortunately has just on pci device id for both, VFs and PF.
|
|
*
|
|
* The following code is used to distinguish if the card is running in
|
|
* privileged mode, either as true PF or in a virtualized system with
|
|
* full register access e.g. currently on PowerPC.
|
|
*
|
|
* if (pci_dev->is_virtfn)
|
|
* cd->is_privileged = 0;
|
|
* else
|
|
* cd->is_privileged = (__genwqe_readq(cd, IO_SLU_BITSTREAM)
|
|
* != IO_ILLEGAL_VALUE);
|
|
*/
|
|
static inline int genwqe_is_privileged(struct genwqe_dev *cd)
|
|
{
|
|
return cd->is_privileged;
|
|
}
|
|
|
|
#endif /* __CARD_BASE_H__ */
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