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authorRussell King <linux@arm.linux.org.uk>2012-03-05 23:07:25 (GMT)
committerThomas Gleixner <tglx@linutronix.de>2012-03-06 12:33:27 (GMT)
commita09b659cd68c10ec6a30cb91ebd2c327fcd5bfe5 (patch)
treeea0b9390262eb337db89514e492968b92dc3dc04 /kernel/Kconfig.locks
parent986cb48c5a4de0085db94d343b4e7dcf54355ec1 (diff)
downloadlinux-fsl-qoriq-a09b659cd68c10ec6a30cb91ebd2c327fcd5bfe5.tar.xz
genirq: Fix long-term regression in genirq irq_set_irq_type() handling
In 2008, commit 0c5d1eb77a8be ("genirq: record trigger type") modified the way set_irq_type() handles the 'no trigger' condition. However, this has an adverse effect on PCMCIA support on Intel StrongARM and probably PXA platforms. PCMCIA has several status signals on the socket which can trigger interrupts; some of these status signals depend on the card's mode (whether it is configured in memory or IO mode). For example, cards have a 'Ready/IRQ' signal: in memory mode, this provides an indication to PCMCIA that the card has finished its power up initialization. In IO mode, it provides the device interrupt signal. Other status signals switch between on-board battery status and loud speaker output. In classical PCMCIA implementations, where you have a specific socket controller, the controller provides a method to mask interrupts from the socket, and importantly ignore any state transitions on the pins which correspond with interrupts once masked. This masking prevents unwanted events caused by the removal and application of socket power being forwarded. However, on platforms where there is no socket controller, the PCMCIA status and interrupt signals are routed to standard edge-triggered GPIOs. These GPIOs can be configured to interrupt on rising edge, falling edge, or never. This is where the problems start. Edge triggered interrupts are required to record events while disabled via the usual methods of {free,request,disable,enable}_irq() to prevent problems with dropped interrupts (eg, the 8390 driver uses disable_irq() to defer the delivery of interrupts). As a result, these interfaces can not be used to implement the desired behaviour. The side effect of this is that if the 'Ready/IRQ' GPIO is disabled via disable_irq() on suspend, and enabled via enable_irq() after resume, we will record the state transitions caused by powering events as valid interrupts, and foward them to the card driver, which may attempt to access a card which is not powered up. This leads delays resume while drivers spin in their interrupt handlers, and complaints from drivers before they realize what's happened. Moreover, in the case of the 'Ready/IRQ' signal, this is requested and freed by the card driver itself; the PCMCIA core has no idea whether the interrupt is requested, and, therefore, whether a call to disable_irq() would be valid. (We tried this around 2.4.17 / 2.5.1 kernel era, and ended up throwing it out because of this problem.) Therefore, it was decided back in around 2002 to disable the edge triggering instead, resulting in all state transitions on the GPIO being ignored. That's what we actually need the hardware to do. The commit above changes this behaviour; it explicitly prevents the 'no trigger' state being selected. The reason that request_irq() does not accept the 'no trigger' state is for compatibility with existing drivers which do not provide their desired triggering configuration. The set_irq_type() function is 'new' and not used by non-trigger aware drivers. Therefore, revert this change, and restore previously working platforms back to their former state. Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk> Cc: linux@arm.linux.org.uk Cc: Ingo Molnar <mingo@elte.hu> Cc: stable@vger.kernel.org Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Thomas Gleixner <tglx@linutronix.de>
Diffstat (limited to 'kernel/Kconfig.locks')
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