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218 lines
7.8 KiB
218 lines
7.8 KiB
/*P:050 Lguest guests use a very simple bus for devices. It's a simple array
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* of device descriptors contained just above the top of normal memory. The
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* lguest bus is 80% tedious boilerplate code. :*/
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#include <linux/init.h>
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#include <linux/bootmem.h>
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#include <linux/lguest_bus.h>
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#include <asm/io.h>
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#include <asm/paravirt.h>
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static ssize_t type_show(struct device *_dev,
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struct device_attribute *attr, char *buf)
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{
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struct lguest_device *dev = container_of(_dev,struct lguest_device,dev);
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return sprintf(buf, "%hu", lguest_devices[dev->index].type);
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}
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static ssize_t features_show(struct device *_dev,
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struct device_attribute *attr, char *buf)
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{
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struct lguest_device *dev = container_of(_dev,struct lguest_device,dev);
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return sprintf(buf, "%hx", lguest_devices[dev->index].features);
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}
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static ssize_t pfn_show(struct device *_dev,
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struct device_attribute *attr, char *buf)
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{
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struct lguest_device *dev = container_of(_dev,struct lguest_device,dev);
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return sprintf(buf, "%u", lguest_devices[dev->index].pfn);
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}
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static ssize_t status_show(struct device *_dev,
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struct device_attribute *attr, char *buf)
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{
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struct lguest_device *dev = container_of(_dev,struct lguest_device,dev);
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return sprintf(buf, "%hx", lguest_devices[dev->index].status);
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}
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static ssize_t status_store(struct device *_dev, struct device_attribute *attr,
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const char *buf, size_t count)
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{
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struct lguest_device *dev = container_of(_dev,struct lguest_device,dev);
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if (sscanf(buf, "%hi", &lguest_devices[dev->index].status) != 1)
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return -EINVAL;
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return count;
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}
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static struct device_attribute lguest_dev_attrs[] = {
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__ATTR_RO(type),
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__ATTR_RO(features),
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__ATTR_RO(pfn),
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__ATTR(status, 0644, status_show, status_store),
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__ATTR_NULL
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};
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/*D:130 The generic bus infrastructure requires a function which says whether a
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* device matches a driver. For us, it is simple: "struct lguest_driver"
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* contains a "device_type" field which indicates what type of device it can
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* handle, so we just cast the args and compare: */
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static int lguest_dev_match(struct device *_dev, struct device_driver *_drv)
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{
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struct lguest_device *dev = container_of(_dev,struct lguest_device,dev);
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struct lguest_driver *drv = container_of(_drv,struct lguest_driver,drv);
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return (drv->device_type == lguest_devices[dev->index].type);
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}
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/*:*/
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struct lguest_bus {
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struct bus_type bus;
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struct device dev;
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};
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static struct lguest_bus lguest_bus = {
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.bus = {
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.name = "lguest",
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.match = lguest_dev_match,
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.dev_attrs = lguest_dev_attrs,
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},
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.dev = {
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.parent = NULL,
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.bus_id = "lguest",
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}
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};
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/*D:140 This is the callback which occurs once the bus infrastructure matches
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* up a device and driver, ie. in response to add_lguest_device() calling
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* device_register(), or register_lguest_driver() calling driver_register().
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*
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* At the moment it's always the latter: the devices are added first, since
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* scan_devices() is called from a "core_initcall", and the drivers themselves
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* called later as a normal "initcall". But it would work the other way too.
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*
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* So now we have the happy couple, we add the status bit to indicate that we
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* found a driver. If the driver truly loves the device, it will return
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* happiness from its probe function (ok, perhaps this wasn't my greatest
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* analogy), and we set the final "driver ok" bit so the Host sees it's all
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* green. */
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static int lguest_dev_probe(struct device *_dev)
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{
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int ret;
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struct lguest_device*dev = container_of(_dev,struct lguest_device,dev);
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struct lguest_driver*drv = container_of(dev->dev.driver,
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struct lguest_driver, drv);
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lguest_devices[dev->index].status |= LGUEST_DEVICE_S_DRIVER;
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ret = drv->probe(dev);
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if (ret == 0)
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lguest_devices[dev->index].status |= LGUEST_DEVICE_S_DRIVER_OK;
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return ret;
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}
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/* The last part of the bus infrastructure is the function lguest drivers use
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* to register themselves. Firstly, we do nothing if there's no lguest bus
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* (ie. this is not a Guest), otherwise we fill in the embedded generic "struct
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* driver" fields and call the generic driver_register(). */
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int register_lguest_driver(struct lguest_driver *drv)
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{
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if (!lguest_devices)
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return 0;
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drv->drv.bus = &lguest_bus.bus;
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drv->drv.name = drv->name;
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drv->drv.owner = drv->owner;
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drv->drv.probe = lguest_dev_probe;
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return driver_register(&drv->drv);
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}
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/* At the moment we build all the drivers into the kernel because they're so
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* simple: 8144 bytes for all three of them as I type this. And as the console
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* really needs to be built in, it's actually only 3527 bytes for the network
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* and block drivers.
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*
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* If they get complex it will make sense for them to be modularized, so we
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* need to explicitly export the symbol.
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*
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* I don't think non-GPL modules make sense, so it's a GPL-only export.
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*/
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EXPORT_SYMBOL_GPL(register_lguest_driver);
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/*D:120 This is the core of the lguest bus: actually adding a new device.
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* It's a separate function because it's neater that way, and because an
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* earlier version of the code supported hotplug and unplug. They were removed
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* early on because they were never used.
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*
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* As Andrew Tridgell says, "Untested code is buggy code".
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*
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* It's worth reading this carefully: we start with an index into the array of
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* "struct lguest_device_desc"s indicating the device which is new: */
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static void add_lguest_device(unsigned int index)
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{
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struct lguest_device *new;
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/* Each "struct lguest_device_desc" has a "status" field, which the
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* Guest updates as the device is probed. In the worst case, the Host
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* can look at these bits to tell what part of device setup failed,
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* even if the console isn't available. */
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lguest_devices[index].status |= LGUEST_DEVICE_S_ACKNOWLEDGE;
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new = kmalloc(sizeof(struct lguest_device), GFP_KERNEL);
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if (!new) {
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printk(KERN_EMERG "Cannot allocate lguest device %u\n", index);
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lguest_devices[index].status |= LGUEST_DEVICE_S_FAILED;
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return;
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}
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/* The "struct lguest_device" setup is pretty straight-forward example
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* code. */
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new->index = index;
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new->private = NULL;
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memset(&new->dev, 0, sizeof(new->dev));
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new->dev.parent = &lguest_bus.dev;
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new->dev.bus = &lguest_bus.bus;
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sprintf(new->dev.bus_id, "%u", index);
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/* device_register() causes the bus infrastructure to look for a
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* matching driver. */
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if (device_register(&new->dev) != 0) {
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printk(KERN_EMERG "Cannot register lguest device %u\n", index);
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lguest_devices[index].status |= LGUEST_DEVICE_S_FAILED;
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kfree(new);
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}
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}
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/*D:110 scan_devices() simply iterates through the device array. The type 0
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* is reserved to mean "no device", and anything else means we have found a
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* device: add it. */
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static void scan_devices(void)
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{
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unsigned int i;
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for (i = 0; i < LGUEST_MAX_DEVICES; i++)
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if (lguest_devices[i].type)
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add_lguest_device(i);
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}
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/*D:100 Fairly early in boot, lguest_bus_init() is called to set up the lguest
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* bus. We check that we are a Guest by checking paravirt_ops.name: there are
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* other ways of checking, but this seems most obvious to me.
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*
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* So we can access the array of "struct lguest_device_desc"s easily, we map
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* that memory and store the pointer in the global "lguest_devices". Then we
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* register the bus with the core. Doing two registrations seems clunky to me,
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* but it seems to be the correct sysfs incantation.
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*
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* Finally we call scan_devices() which adds all the devices found in the
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* "struct lguest_device_desc" array. */
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static int __init lguest_bus_init(void)
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{
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if (strcmp(paravirt_ops.name, "lguest") != 0)
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return 0;
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/* Devices are in a single page above top of "normal" mem */
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lguest_devices = lguest_map(max_pfn<<PAGE_SHIFT, 1);
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if (bus_register(&lguest_bus.bus) != 0
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|| device_register(&lguest_bus.dev) != 0)
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panic("lguest bus registration failed");
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scan_devices();
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return 0;
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}
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/* Do this after core stuff, before devices. */
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postcore_initcall(lguest_bus_init);
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