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Synchronize documentation with current interface. Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
551 lines
24 KiB
Plaintext
551 lines
24 KiB
Plaintext
Linux for S/390 and zSeries
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Common Device Support (CDS)
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Device Driver I/O Support Routines
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Authors : 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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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.txt.
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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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read_dev_chars()
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read device characteristics
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read_conf_data()
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read_conf_data_lpm()
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read configuration data.
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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()
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ccw_device_start_timeout()
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ccw_device_start_key()
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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: 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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General Information
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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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implementaion 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/include/asm-s390/irq.h.
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Overview of CDS interface concepts
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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 by 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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In order not to introduce a new I/O concept to the common Linux code,
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Linux/390 preserves the IRQ concept and semantically maps the ESA/390
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subchannels to Linux as IRQs. This allows Linux/390 to support up to 64k
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different IRQs, uniquely representig a single device each.
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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 can not exceed 65535. During driverfs
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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 the read_dev_chars() to retrieve device
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characteristics. This can be done without having to request device ownership
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previously.
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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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read_dev_chars() - Read Device Characteristics
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This routine returns the characteristics for the device specified.
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The function is meant to be called with an irq handler in place; that is,
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at earliest during set_online() processing.
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While the request is procesed synchronously, the device interrupt
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handler is called for final ending status. In case of error situations the
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interrupt handler may recover appropriately. The device irq handler can
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recognize the corresponding interrupts by the interruption parameter be
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0x00524443.The ccw_device must not be locked prior to calling read_dev_chars().
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The function may be called enabled or disabled.
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int read_dev_chars(struct ccw_device *cdev, void **buffer, int length );
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cdev - the ccw_device the information is requested for.
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buffer - pointer to a buffer pointer. The buffer pointer itself
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must contain a valid buffer area.
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length - length of the buffer provided.
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The read_dev_chars() function returns :
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0 - successful completion
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-ENODEV - cdev invalid
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-EINVAL - an invalid parameter was detected, or the function was called early.
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-EBUSY - an irrecoverable I/O error occurred or the device is not
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operational.
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read_conf_data(), read_conf_data_lpm() - Read Configuration Data
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Retrieve the device dependent configuration data. Please have a look at your
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device dependent I/O commands for the device specific layout of the node
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descriptor elements. read_conf_data_lpm() will retrieve the configuration data
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for a specific path.
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The function is meant to be called with the device already enabled; that is,
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at earliest during set_online() processing.
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The function may be called enabled or disabled, but the device must not be
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locked
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int read_conf_data(struct ccw_device, void **buffer, int *length);
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int read_conf_data_lpm(struct ccw_device, void **buffer, int *length, __u8 lpm);
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cdev - the ccw_device the data is requested for.
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buffer - Pointer to a buffer pointer. The read_conf_data() routine
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will allocate a buffer and initialize the buffer pointer
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accordingly. It's the device driver's responsibility to
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release the kernel memory if no longer needed.
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length - Length of the buffer allocated and retrieved.
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lpm - Logical path mask to be used for retrieving the data. If
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zero the data is retrieved on the next path available.
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The read_conf_data() function returns :
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0 - Successful completion
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-ENODEV - cdev invalid.
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-EINVAL - An invalid parameter was detected, or the function was called early.
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-EIO - An irrecoverable I/O error occurred or the device is
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not operational.
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-ENOMEM - The read_conf_data() routine couldn't obtain storage.
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-EOPNOTSUPP - The device doesn't support the read configuration
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data command.
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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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struct ciw *
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ccw_device_get_ciw(struct ccw_device *cdev, __u32 cmd);
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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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ccw_device_get_ciw() returns:
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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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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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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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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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Possible flag values are :
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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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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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CCW_FLAG_DC - data chaining
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CCW_FLAG_CC - command chaining
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CCW_FLAG_SLI - suppress incorrct 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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Via ccw_device_set_options(), the device driver may specify the following
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options for the device:
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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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The ccw_device_start() function returns :
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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 ther 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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When the I/O request completes, the CDS first level interrupt handler will
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accumalate 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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-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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If the concurrent sense flag in the extended status word in the irb is set, the
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field irb->scsw.count describes the numer of device specific sense bytes
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available in the extended control word irb->scsw.ecw[0]. No device sensing by
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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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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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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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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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The irb->scsw.dstat field provides the (accumulated) device status :
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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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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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Prior to call ccw_device_start() the device driver must assure disabled state,
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i.e. the I/O mask value in the PSW must be disabled. This can be accomplished
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by calling local_save_flags( flags). The current PSW flags are preserved and
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can be restored by local_irq_restore( flags) at a later time.
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If the device driver violates this rule while running in a uni-processor
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environment an interrupt might be presented prior to the ccw_device_start()
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routine returning to the device driver main path. In this case we will end in a
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deadlock situation as the interrupt handler will try to obtain the irq
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lock the device driver still owns (see below) !
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The driver must assure to hold the device specific lock. This can be
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accomplished by
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(i) spin_lock(get_ccwdev_lock(cdev)), or
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(ii) spin_lock_irqsave(get_ccwdev_lock(cdev), flags)
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Option (i) should be used if the calling routine is running disabled for
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I/O interrupts (see above) already. Option (ii) obtains the device gate und
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puts the CPU into I/O disabled state by preserving the current PSW flags.
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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 an non deterministicly 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
|
|
status is recognized.
|
|
|
|
If a device is able to recover from asynchronosly presented I/O errors, it can
|
|
perform overlapping I/O using the DOIO_EARLY_NOTIFICATION flag. While some
|
|
devices always report channel-end and device-end together, with a single
|
|
interrupt, others present primary status (channel-end) when the channel is
|
|
ready for the next I/O request and secondary status (device-end) when the data
|
|
transmission has been completed at the device.
|
|
|
|
Above flag allows to exploit this feature, e.g. for communication devices that
|
|
can handle lost data on the network to allow for enhanced I/O processing.
|
|
|
|
Unless the channel subsystem at any time presents a secondary status interrupt,
|
|
exploiting this feature will cause only primary status interrupts to be
|
|
presented to the device driver while overlapping I/O is performed. When a
|
|
secondary status without error (alert status) is presented, this indicates
|
|
successful completion for all overlapping ccw_device_start() requests that have
|
|
been issued since the last secondary (final) status.
|
|
|
|
Channel programs that intend to set the suspend flag on a channel command word
|
|
(CCW) must start the I/O operation with the DOIO_ALLOW_SUSPEND option or the
|
|
suspend flag will cause a channel program check. At the time the channel program
|
|
becomes suspended an intermediate interrupt will be generated by the channel
|
|
subsystem.
|
|
|
|
ccw_device_resume() - Resume Channel Program Execution
|
|
|
|
If a device driver chooses to suspend the current channel program execution by
|
|
setting the CCW suspend flag on a particular CCW, the channel program execution
|
|
is suspended. In order to resume channel program execution the CIO layer
|
|
provides the ccw_device_resume() routine.
|
|
|
|
int ccw_device_resume(struct ccw_device *cdev);
|
|
|
|
cdev - ccw_device the resume operation is requested for
|
|
|
|
The resume_IO() function returns:
|
|
|
|
0 - suspended channel program is resumed
|
|
-EBUSY - status pending
|
|
-ENODEV - cdev invalid or not-operational subchannel
|
|
-EINVAL - resume function not applicable
|
|
-ENOTCONN - there is no I/O request pending for completion
|
|
|
|
Usage Notes:
|
|
Please have a look at the ccw_device_start() usage notes for more details on
|
|
suspended channel programs.
|
|
|
|
ccw_device_halt() - Halt I/O Request Processing
|
|
|
|
Sometimes a device driver might need a possibility to stop the processing of
|
|
a long-running channel program or the device might require to initially issue
|
|
a halt subchannel (HSCH) I/O command. For those purposes the ccw_device_halt()
|
|
command is provided.
|
|
|
|
int ccw_device_halt(struct ccw_device *cdev,
|
|
unsigned long intparm);
|
|
|
|
cdev : ccw_device the halt operation is requested for
|
|
intparm : interruption parameter; value is only used if no I/O
|
|
is outstanding, otherwise the intparm associated with
|
|
the I/O request is returned
|
|
|
|
The ccw_device_halt() function returns :
|
|
|
|
0 - successful completion or 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.
|
|
|
|
|
|
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.
|