8b4a503d65
Convert all text files with s390 documentation to ReST format. Tried to preserve as much as possible the original document format. Still, some of the files required some work in order for it to be visible on both plain text and after converted to html. The conversion is actually: - add blank lines and identation in order to identify paragraphs; - fix tables markups; - add some lists markups; - mark literal blocks; - adjust title markups. At its new index.rst, let's add a :orphan: while this is not linked to the main index.rst file, in order to avoid build warnings. Signed-off-by: Mauro Carvalho Chehab <mchehab+samsung@kernel.org> Signed-off-by: Heiko Carstens <heiko.carstens@de.ibm.com>
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===========================
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Linux for S/390 and zSeries
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===========================
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Common Device Support (CDS)
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Device Driver I/O Support Routines
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Authors:
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- Ingo Adlung
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- Cornelia Huck
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Copyright, IBM Corp. 1999-2002
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Introduction
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============
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This document describes the common device support routines for Linux/390.
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Different than other hardware architectures, ESA/390 has defined a unified
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I/O access method. This gives relief to the device drivers as they don't
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have to deal with different bus types, polling versus interrupt
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processing, shared versus non-shared interrupt processing, DMA versus port
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I/O (PIO), and other hardware features more. However, this implies that
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either every single device driver needs to implement the hardware I/O
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attachment functionality itself, or the operating system provides for a
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unified method to access the hardware, providing all the functionality that
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every single device driver would have to provide itself.
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The document does not intend to explain the ESA/390 hardware architecture in
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every detail.This information can be obtained from the ESA/390 Principles of
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Operation manual (IBM Form. No. SA22-7201).
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In order to build common device support for ESA/390 I/O interfaces, a
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functional layer was introduced that provides generic I/O access methods to
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the hardware.
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The common device support layer comprises the I/O support routines defined
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below. Some of them implement common Linux device driver interfaces, while
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some of them are ESA/390 platform specific.
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Note:
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In order to write a driver for S/390, you also need to look into the interface
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described in Documentation/s390/driver-model.rst.
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Note for porting drivers from 2.4:
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The major changes are:
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* The functions use a ccw_device instead of an irq (subchannel).
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* All drivers must define a ccw_driver (see driver-model.txt) and the associated
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functions.
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* request_irq() and free_irq() are no longer done by the driver.
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* The oper_handler is (kindof) replaced by the probe() and set_online() functions
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of the ccw_driver.
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* The not_oper_handler is (kindof) replaced by the remove() and set_offline()
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functions of the ccw_driver.
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* The channel device layer is gone.
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* The interrupt handlers must be adapted to use a ccw_device as argument.
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Moreover, they don't return a devstat, but an irb.
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* Before initiating an io, the options must be set via ccw_device_set_options().
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* Instead of calling read_dev_chars()/read_conf_data(), the driver issues
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the channel program and handles the interrupt itself.
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ccw_device_get_ciw()
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get commands from extended sense data.
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ccw_device_start(), ccw_device_start_timeout(), ccw_device_start_key(), ccw_device_start_key_timeout()
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initiate an I/O request.
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ccw_device_resume()
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resume channel program execution.
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ccw_device_halt()
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terminate the current I/O request processed on the device.
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do_IRQ()
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generic interrupt routine. This function is called by the interrupt entry
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routine whenever an I/O interrupt is presented to the system. The do_IRQ()
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routine determines the interrupt status and calls the device specific
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interrupt handler according to the rules (flags) defined during I/O request
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initiation with do_IO().
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The next chapters describe the functions other than do_IRQ() in more details.
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The do_IRQ() interface is not described, as it is called from the Linux/390
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first level interrupt handler only and does not comprise a device driver
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callable interface. Instead, the functional description of do_IO() also
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describes the input to the device specific interrupt handler.
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Note:
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All explanations apply also to the 64 bit architecture s390x.
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Common Device Support (CDS) for Linux/390 Device Drivers
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========================================================
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General Information
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-------------------
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The following chapters describe the I/O related interface routines the
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Linux/390 common device support (CDS) provides to allow for device specific
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driver implementations on the IBM ESA/390 hardware platform. Those interfaces
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intend to provide the functionality required by every device driver
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implementation to allow to drive a specific hardware device on the ESA/390
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platform. Some of the interface routines are specific to Linux/390 and some
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of them can be found on other Linux platforms implementations too.
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Miscellaneous function prototypes, data declarations, and macro definitions
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can be found in the architecture specific C header file
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linux/arch/s390/include/asm/irq.h.
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Overview of CDS interface concepts
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----------------------------------
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Different to other hardware platforms, the ESA/390 architecture doesn't define
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interrupt lines managed by a specific interrupt controller and bus systems
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that may or may not allow for shared interrupts, DMA processing, etc.. Instead,
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the ESA/390 architecture has implemented a so called channel subsystem, that
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provides a unified view of the devices physically attached to the systems.
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Though the ESA/390 hardware platform knows about a huge variety of different
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peripheral attachments like disk devices (aka. DASDs), tapes, communication
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controllers, etc. they can all be accessed by a well defined access method and
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they are presenting I/O completion a unified way : I/O interruptions. Every
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single device is uniquely identified to the system by a so called subchannel,
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where the ESA/390 architecture allows for 64k devices be attached.
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Linux, however, was first built on the Intel PC architecture, with its two
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cascaded 8259 programmable interrupt controllers (PICs), that allow for a
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maximum of 15 different interrupt lines. All devices attached to such a system
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share those 15 interrupt levels. Devices attached to the ISA bus system must
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not share interrupt levels (aka. IRQs), as the ISA bus bases on edge triggered
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interrupts. MCA, EISA, PCI and other bus systems base on level triggered
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interrupts, and therewith allow for shared IRQs. However, if multiple devices
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present their hardware status by the same (shared) IRQ, the operating system
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has to call every single device driver registered on this IRQ in order to
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determine the device driver owning the device that raised the interrupt.
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Up to kernel 2.4, Linux/390 used to provide interfaces via the IRQ (subchannel).
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For internal use of the common I/O layer, these are still there. However,
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device drivers should use the new calling interface via the ccw_device only.
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During its startup the Linux/390 system checks for peripheral devices. Each
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of those devices is uniquely defined by a so called subchannel by the ESA/390
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channel subsystem. While the subchannel numbers are system generated, each
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subchannel also takes a user defined attribute, the so called device number.
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Both subchannel number and device number cannot exceed 65535. During sysfs
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initialisation, the information about control unit type and device types that
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imply specific I/O commands (channel command words - CCWs) in order to operate
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the device are gathered. Device drivers can retrieve this set of hardware
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information during their initialization step to recognize the devices they
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support using the information saved in the struct ccw_device given to them.
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This methods implies that Linux/390 doesn't require to probe for free (not
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armed) interrupt request lines (IRQs) to drive its devices with. Where
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applicable, the device drivers can use issue the READ DEVICE CHARACTERISTICS
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ccw to retrieve device characteristics in its online routine.
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In order to allow for easy I/O initiation the CDS layer provides a
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ccw_device_start() interface that takes a device specific channel program (one
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or more CCWs) as input sets up the required architecture specific control blocks
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and initiates an I/O request on behalf of the device driver. The
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ccw_device_start() routine allows to specify whether it expects the CDS layer
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to notify the device driver for every interrupt it observes, or with final status
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only. See ccw_device_start() for more details. A device driver must never issue
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ESA/390 I/O commands itself, but must use the Linux/390 CDS interfaces instead.
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For long running I/O request to be canceled, the CDS layer provides the
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ccw_device_halt() function. Some devices require to initially issue a HALT
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SUBCHANNEL (HSCH) command without having pending I/O requests. This function is
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also covered by ccw_device_halt().
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get_ciw() - get command information word
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This call enables a device driver to get information about supported commands
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from the extended SenseID data.
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::
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struct ciw *
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ccw_device_get_ciw(struct ccw_device *cdev, __u32 cmd);
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==== ========================================================
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cdev The ccw_device for which the command is to be retrieved.
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cmd The command type to be retrieved.
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==== ========================================================
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ccw_device_get_ciw() returns:
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===== ================================================================
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NULL No extended data available, invalid device or command not found.
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!NULL The command requested.
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===== ================================================================
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::
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ccw_device_start() - Initiate I/O Request
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The ccw_device_start() routines is the I/O request front-end processor. All
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device driver I/O requests must be issued using this routine. A device driver
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must not issue ESA/390 I/O commands itself. Instead the ccw_device_start()
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routine provides all interfaces required to drive arbitrary devices.
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This description also covers the status information passed to the device
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driver's interrupt handler as this is related to the rules (flags) defined
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with the associated I/O request when calling ccw_device_start().
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::
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int ccw_device_start(struct ccw_device *cdev,
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struct ccw1 *cpa,
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unsigned long intparm,
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__u8 lpm,
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unsigned long flags);
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int ccw_device_start_timeout(struct ccw_device *cdev,
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struct ccw1 *cpa,
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unsigned long intparm,
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__u8 lpm,
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unsigned long flags,
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int expires);
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int ccw_device_start_key(struct ccw_device *cdev,
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struct ccw1 *cpa,
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unsigned long intparm,
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__u8 lpm,
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__u8 key,
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unsigned long flags);
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int ccw_device_start_key_timeout(struct ccw_device *cdev,
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struct ccw1 *cpa,
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unsigned long intparm,
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__u8 lpm,
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__u8 key,
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unsigned long flags,
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int expires);
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============= =============================================================
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cdev ccw_device the I/O is destined for
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cpa logical start address of channel program
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user_intparm user specific interrupt information; will be presented
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back to the device driver's interrupt handler. Allows a
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device driver to associate the interrupt with a
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particular I/O request.
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lpm defines the channel path to be used for a specific I/O
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request. A value of 0 will make cio use the opm.
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key the storage key to use for the I/O (useful for operating on a
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storage with a storage key != default key)
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flag defines the action to be performed for I/O processing
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expires timeout value in jiffies. The common I/O layer will terminate
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the running program after this and call the interrupt handler
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with ERR_PTR(-ETIMEDOUT) as irb.
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============= =============================================================
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Possible flag values are:
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========================= =============================================
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DOIO_ALLOW_SUSPEND channel program may become suspended
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DOIO_DENY_PREFETCH don't allow for CCW prefetch; usually
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this implies the channel program might
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become modified
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DOIO_SUPPRESS_INTER don't call the handler on intermediate status
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========================= =============================================
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The cpa parameter points to the first format 1 CCW of a channel program::
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struct ccw1 {
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__u8 cmd_code;/* command code */
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__u8 flags; /* flags, like IDA addressing, etc. */
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__u16 count; /* byte count */
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__u32 cda; /* data address */
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} __attribute__ ((packed,aligned(8)));
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with the following CCW flags values defined:
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=================== =========================
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CCW_FLAG_DC data chaining
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CCW_FLAG_CC command chaining
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CCW_FLAG_SLI suppress incorrect length
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CCW_FLAG_SKIP skip
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CCW_FLAG_PCI PCI
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CCW_FLAG_IDA indirect addressing
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CCW_FLAG_SUSPEND suspend
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=================== =========================
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Via ccw_device_set_options(), the device driver may specify the following
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options for the device:
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========================= ======================================
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DOIO_EARLY_NOTIFICATION allow for early interrupt notification
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DOIO_REPORT_ALL report all interrupt conditions
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========================= ======================================
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The ccw_device_start() function returns:
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======== ======================================================================
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0 successful completion or request successfully initiated
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-EBUSY The device is currently processing a previous I/O request, or there is
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a status pending at the device.
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-ENODEV cdev is invalid, the device is not operational or the ccw_device is
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not online.
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======== ======================================================================
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When the I/O request completes, the CDS first level interrupt handler will
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accumulate the status in a struct irb and then call the device interrupt handler.
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The intparm field will contain the value the device driver has associated with a
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particular I/O request. If a pending device status was recognized,
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intparm will be set to 0 (zero). This may happen during I/O initiation or delayed
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by an alert status notification. In any case this status is not related to the
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current (last) I/O request. In case of a delayed status notification no special
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interrupt will be presented to indicate I/O completion as the I/O request was
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never started, even though ccw_device_start() returned with successful completion.
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The irb may contain an error value, and the device driver should check for this
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first:
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========== =================================================================
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-ETIMEDOUT the common I/O layer terminated the request after the specified
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timeout value
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-EIO the common I/O layer terminated the request due to an error state
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========== =================================================================
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If the concurrent sense flag in the extended status word (esw) in the irb is
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set, the field erw.scnt in the esw describes the number of device specific
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sense bytes available in the extended control word irb->scsw.ecw[]. No device
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sensing by the device driver itself is required.
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The device interrupt handler can use the following definitions to investigate
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the primary unit check source coded in sense byte 0 :
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======================= ====
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SNS0_CMD_REJECT 0x80
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SNS0_INTERVENTION_REQ 0x40
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SNS0_BUS_OUT_CHECK 0x20
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SNS0_EQUIPMENT_CHECK 0x10
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SNS0_DATA_CHECK 0x08
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SNS0_OVERRUN 0x04
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SNS0_INCOMPL_DOMAIN 0x01
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======================= ====
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Depending on the device status, multiple of those values may be set together.
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Please refer to the device specific documentation for details.
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The irb->scsw.cstat field provides the (accumulated) subchannel status :
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========================= ============================
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SCHN_STAT_PCI program controlled interrupt
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SCHN_STAT_INCORR_LEN incorrect length
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SCHN_STAT_PROG_CHECK program check
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SCHN_STAT_PROT_CHECK protection check
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SCHN_STAT_CHN_DATA_CHK channel data check
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SCHN_STAT_CHN_CTRL_CHK channel control check
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SCHN_STAT_INTF_CTRL_CHK interface control check
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SCHN_STAT_CHAIN_CHECK chaining check
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========================= ============================
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The irb->scsw.dstat field provides the (accumulated) device status :
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===================== =================
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DEV_STAT_ATTENTION attention
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DEV_STAT_STAT_MOD status modifier
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DEV_STAT_CU_END control unit end
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DEV_STAT_BUSY busy
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DEV_STAT_CHN_END channel end
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DEV_STAT_DEV_END device end
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DEV_STAT_UNIT_CHECK unit check
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DEV_STAT_UNIT_EXCEP unit exception
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===================== =================
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Please see the ESA/390 Principles of Operation manual for details on the
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individual flag meanings.
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Usage Notes:
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ccw_device_start() must be called disabled and with the ccw device lock held.
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The device driver is allowed to issue the next ccw_device_start() call from
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within its interrupt handler already. It is not required to schedule a
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bottom-half, unless a non deterministically long running error recovery procedure
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or similar needs to be scheduled. During I/O processing the Linux/390 generic
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I/O device driver support has already obtained the IRQ lock, i.e. the handler
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must not try to obtain it again when calling ccw_device_start() or we end in a
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deadlock situation!
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If a device driver relies on an I/O request to be completed prior to start the
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next it can reduce I/O processing overhead by chaining a NoOp I/O command
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CCW_CMD_NOOP to the end of the submitted CCW chain. This will force Channel-End
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and Device-End status to be presented together, with a single interrupt.
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However, this should be used with care as it implies the channel will remain
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busy, not being able to process I/O requests for other devices on the same
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channel. Therefore e.g. read commands should never use this technique, as the
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result will be presented by a single interrupt anyway.
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In order to minimize I/O overhead, a device driver should use the
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DOIO_REPORT_ALL only if the device can report intermediate interrupt
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information prior to device-end the device driver urgently relies on. In this
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case all I/O interruptions are presented to the device driver until final
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status is recognized.
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If a device is able to recover from asynchronously presented I/O errors, it can
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perform overlapping I/O using the DOIO_EARLY_NOTIFICATION flag. While some
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devices always report channel-end and device-end together, with a single
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interrupt, others present primary status (channel-end) when the channel is
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ready for the next I/O request and secondary status (device-end) when the data
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transmission has been completed at the device.
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Above flag allows to exploit this feature, e.g. for communication devices that
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can handle lost data on the network to allow for enhanced I/O processing.
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Unless the channel subsystem at any time presents a secondary status interrupt,
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exploiting this feature will cause only primary status interrupts to be
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presented to the device driver while overlapping I/O is performed. When a
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secondary status without error (alert status) is presented, this indicates
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successful completion for all overlapping ccw_device_start() requests that have
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been issued since the last secondary (final) status.
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Channel programs that intend to set the suspend flag on a channel command word
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(CCW) must start the I/O operation with the DOIO_ALLOW_SUSPEND option or the
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suspend flag will cause a channel program check. At the time the channel program
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becomes suspended an intermediate interrupt will be generated by the channel
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subsystem.
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ccw_device_resume() - Resume Channel Program Execution
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If a device driver chooses to suspend the current channel program execution by
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setting the CCW suspend flag on a particular CCW, the channel program execution
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is suspended. In order to resume channel program execution the CIO layer
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provides the ccw_device_resume() routine.
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::
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int ccw_device_resume(struct ccw_device *cdev);
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==== ================================================
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cdev ccw_device the resume operation is requested for
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==== ================================================
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The ccw_device_resume() function returns:
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========= ==============================================
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0 suspended channel program is resumed
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-EBUSY status pending
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-ENODEV cdev invalid or not-operational subchannel
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-EINVAL resume function not applicable
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-ENOTCONN there is no I/O request pending for completion
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========= ==============================================
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Usage Notes:
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Please have a look at the ccw_device_start() usage notes for more details on
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suspended channel programs.
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ccw_device_halt() - Halt I/O Request Processing
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Sometimes a device driver might need a possibility to stop the processing of
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a long-running channel program or the device might require to initially issue
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a halt subchannel (HSCH) I/O command. For those purposes the ccw_device_halt()
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command is provided.
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ccw_device_halt() must be called disabled and with the ccw device lock held.
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::
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int ccw_device_halt(struct ccw_device *cdev,
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unsigned long intparm);
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======= =====================================================
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cdev ccw_device the halt operation is requested for
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intparm interruption parameter; value is only used if no I/O
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is outstanding, otherwise the intparm associated with
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the I/O request is returned
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======= =====================================================
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The ccw_device_halt() function returns:
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======= ==============================================================
|
|
0 request successfully initiated
|
|
-EBUSY the device is currently busy, or status pending.
|
|
-ENODEV cdev invalid.
|
|
-EINVAL The device is not operational or the ccw device is not online.
|
|
======= ==============================================================
|
|
|
|
Usage Notes:
|
|
|
|
A device driver may write a never-ending channel program by writing a channel
|
|
program that at its end loops back to its beginning by means of a transfer in
|
|
channel (TIC) command (CCW_CMD_TIC). Usually this is performed by network
|
|
device drivers by setting the PCI CCW flag (CCW_FLAG_PCI). Once this CCW is
|
|
executed a program controlled interrupt (PCI) is generated. The device driver
|
|
can then perform an appropriate action. Prior to interrupt of an outstanding
|
|
read to a network device (with or without PCI flag) a ccw_device_halt()
|
|
is required to end the pending operation.
|
|
|
|
::
|
|
|
|
ccw_device_clear() - Terminage I/O Request Processing
|
|
|
|
In order to terminate all I/O processing at the subchannel, the clear subchannel
|
|
(CSCH) command is used. It can be issued via ccw_device_clear().
|
|
|
|
ccw_device_clear() must be called disabled and with the ccw device lock held.
|
|
|
|
::
|
|
|
|
int ccw_device_clear(struct ccw_device *cdev, unsigned long intparm);
|
|
|
|
======= ===============================================
|
|
cdev ccw_device the clear operation is requested for
|
|
intparm interruption parameter (see ccw_device_halt())
|
|
======= ===============================================
|
|
|
|
The ccw_device_clear() function returns:
|
|
|
|
======= ==============================================================
|
|
0 request successfully initiated
|
|
-ENODEV cdev invalid
|
|
-EINVAL The device is not operational or the ccw device is not online.
|
|
======= ==============================================================
|
|
|
|
Miscellaneous Support Routines
|
|
------------------------------
|
|
|
|
This chapter describes various routines to be used in a Linux/390 device
|
|
driver programming environment.
|
|
|
|
get_ccwdev_lock()
|
|
|
|
Get the address of the device specific lock. This is then used in
|
|
spin_lock() / spin_unlock() calls.
|
|
|
|
::
|
|
|
|
__u8 ccw_device_get_path_mask(struct ccw_device *cdev);
|
|
|
|
Get the mask of the path currently available for cdev.
|