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[IA64-SGI] Fix sn_flush_device_kernel & spinlock initialization
This patch separates the sn_flush_device_list struct into kernel and common (both kernel and PROM accessible) structures. As it was, if the size of a spinlock_t changed (due to additional CONFIG options, etc.) the sal call which populated the sn_flush_device_list structs would erroneously write data (and cause memory corruption and/or a panic). This patch does the following: 1. Removes sn_flush_device_list and adds sn_flush_device_common and sn_flush_device_kernel. 2. Adds a new SAL call to populate a sn_flush_device_common struct per device, not per widget as previously done. 3. Correctly initializes each device's sn_flush_device_kernel spinlock_t struct (before it was only doing each widget's first device). Signed-off-by: Prarit Bhargava <prarit@sgi.com> Signed-off-by: Tony Luck <tony.luck@intel.com>
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@ -26,11 +26,14 @@
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#define IIO_NUM_ITTES 7
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#define HUB_NUM_BIG_WINDOW (IIO_NUM_ITTES - 1)
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struct sn_flush_device_list {
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/* This struct is shared between the PROM and the kernel.
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* Changes to this struct will require corresponding changes to the kernel.
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*/
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struct sn_flush_device_common {
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int sfdl_bus;
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int sfdl_slot;
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int sfdl_pin;
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struct bar_list {
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struct common_bar_list {
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unsigned long start;
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unsigned long end;
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} sfdl_bar_list[6];
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@ -40,14 +43,19 @@ struct sn_flush_device_list {
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uint32_t sfdl_persistent_busnum;
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uint32_t sfdl_persistent_segment;
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struct pcibus_info *sfdl_pcibus_info;
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};
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/* This struct is kernel only and is not used by the PROM */
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struct sn_flush_device_kernel {
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spinlock_t sfdl_flush_lock;
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struct sn_flush_device_common *common;
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};
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/*
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* **widget_p - Used as an array[wid_num][device] of sn_flush_device_list.
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* **widget_p - Used as an array[wid_num][device] of sn_flush_device_kernel.
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*/
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struct sn_flush_nasid_entry {
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struct sn_flush_device_list **widget_p; /* Used as a array of wid_num */
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struct sn_flush_device_kernel **widget_p; // Used as an array of wid_num
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uint64_t iio_itte[8];
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};
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@ -76,11 +76,12 @@ static struct sn_pcibus_provider sn_pci_default_provider = {
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};
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/*
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* Retrieve the DMA Flush List given nasid. This list is needed
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* to implement the WAR - Flush DMA data on PIO Reads.
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* Retrieve the DMA Flush List given nasid, widget, and device.
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* This list is needed to implement the WAR - Flush DMA data on PIO Reads.
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*/
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static inline uint64_t
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sal_get_widget_dmaflush_list(u64 nasid, u64 widget_num, u64 address)
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static inline u64
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sal_get_device_dmaflush_list(u64 nasid, u64 widget_num, u64 device_num,
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u64 address)
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{
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struct ia64_sal_retval ret_stuff;
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@ -88,17 +89,17 @@ sal_get_widget_dmaflush_list(u64 nasid, u64 widget_num, u64 address)
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ret_stuff.v0 = 0;
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SAL_CALL_NOLOCK(ret_stuff,
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(u64) SN_SAL_IOIF_GET_WIDGET_DMAFLUSH_LIST,
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(u64) nasid, (u64) widget_num, (u64) address, 0, 0, 0,
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0);
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return ret_stuff.v0;
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(u64) SN_SAL_IOIF_GET_DEVICE_DMAFLUSH_LIST,
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(u64) nasid, (u64) widget_num,
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(u64) device_num, (u64) address, 0, 0, 0);
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return ret_stuff.status;
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}
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/*
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* Retrieve the hub device info structure for the given nasid.
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*/
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static inline uint64_t sal_get_hubdev_info(u64 handle, u64 address)
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static inline u64 sal_get_hubdev_info(u64 handle, u64 address)
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{
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struct ia64_sal_retval ret_stuff;
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@ -114,7 +115,7 @@ static inline uint64_t sal_get_hubdev_info(u64 handle, u64 address)
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/*
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* Retrieve the pci bus information given the bus number.
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*/
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static inline uint64_t sal_get_pcibus_info(u64 segment, u64 busnum, u64 address)
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static inline u64 sal_get_pcibus_info(u64 segment, u64 busnum, u64 address)
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{
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struct ia64_sal_retval ret_stuff;
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@ -130,7 +131,7 @@ static inline uint64_t sal_get_pcibus_info(u64 segment, u64 busnum, u64 address)
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/*
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* Retrieve the pci device information given the bus and device|function number.
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*/
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static inline uint64_t
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static inline u64
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sal_get_pcidev_info(u64 segment, u64 bus_number, u64 devfn, u64 pci_dev,
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u64 sn_irq_info)
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{
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@ -170,12 +171,12 @@ sn_pcidev_info_get(struct pci_dev *dev)
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*/
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static void sn_fixup_ionodes(void)
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{
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struct sn_flush_device_list *sn_flush_device_list;
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struct sn_flush_device_kernel *sn_flush_device_kernel;
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struct sn_flush_device_kernel *dev_entry;
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struct hubdev_info *hubdev;
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uint64_t status;
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uint64_t nasid;
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int i, widget;
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u64 status;
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u64 nasid;
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int i, widget, device;
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/*
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* Get SGI Specific HUB chipset information.
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@ -186,7 +187,7 @@ static void sn_fixup_ionodes(void)
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nasid = cnodeid_to_nasid(i);
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hubdev->max_segment_number = 0xffffffff;
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hubdev->max_pcibus_number = 0xff;
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status = sal_get_hubdev_info(nasid, (uint64_t) __pa(hubdev));
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status = sal_get_hubdev_info(nasid, (u64) __pa(hubdev));
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if (status)
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continue;
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@ -213,38 +214,49 @@ static void sn_fixup_ionodes(void)
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hubdev->hdi_flush_nasid_list.widget_p =
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kmalloc((HUB_WIDGET_ID_MAX + 1) *
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sizeof(struct sn_flush_device_list *), GFP_KERNEL);
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sizeof(struct sn_flush_device_kernel *),
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GFP_KERNEL);
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memset(hubdev->hdi_flush_nasid_list.widget_p, 0x0,
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(HUB_WIDGET_ID_MAX + 1) *
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sizeof(struct sn_flush_device_list *));
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sizeof(struct sn_flush_device_kernel *));
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for (widget = 0; widget <= HUB_WIDGET_ID_MAX; widget++) {
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sn_flush_device_list = kmalloc(DEV_PER_WIDGET *
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sizeof(struct
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sn_flush_device_list),
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GFP_KERNEL);
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memset(sn_flush_device_list, 0x0,
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sn_flush_device_kernel = kmalloc(DEV_PER_WIDGET *
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sizeof(struct
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sn_flush_device_kernel),
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GFP_KERNEL);
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if (!sn_flush_device_kernel)
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BUG();
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memset(sn_flush_device_kernel, 0x0,
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DEV_PER_WIDGET *
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sizeof(struct sn_flush_device_list));
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sizeof(struct sn_flush_device_kernel));
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status =
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sal_get_widget_dmaflush_list(nasid, widget,
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(uint64_t)
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__pa
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(sn_flush_device_list));
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if (status) {
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kfree(sn_flush_device_list);
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continue;
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dev_entry = sn_flush_device_kernel;
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for (device = 0; device < DEV_PER_WIDGET;
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device++,dev_entry++) {
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dev_entry->common = kmalloc(sizeof(struct
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sn_flush_device_common),
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GFP_KERNEL);
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if (!dev_entry->common)
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BUG();
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memset(dev_entry->common, 0x0, sizeof(struct
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sn_flush_device_common));
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status = sal_get_device_dmaflush_list(nasid,
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widget,
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device,
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(u64)(dev_entry->common));
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if (status)
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BUG();
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spin_lock_init(&dev_entry->sfdl_flush_lock);
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}
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spin_lock_init(&sn_flush_device_list->sfdl_flush_lock);
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hubdev->hdi_flush_nasid_list.widget_p[widget] =
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sn_flush_device_list;
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}
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if (sn_flush_device_kernel)
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hubdev->hdi_flush_nasid_list.widget_p[widget] =
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sn_flush_device_kernel;
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}
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}
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}
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/*
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@ -218,7 +218,9 @@ void sn_dma_flush(uint64_t addr)
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uint64_t flags;
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uint64_t itte;
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struct hubdev_info *hubinfo;
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volatile struct sn_flush_device_list *p;
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volatile struct sn_flush_device_kernel *p;
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volatile struct sn_flush_device_common *common;
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struct sn_flush_nasid_entry *flush_nasid_list;
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if (!sn_ioif_inited)
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@ -268,17 +270,17 @@ void sn_dma_flush(uint64_t addr)
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p = &flush_nasid_list->widget_p[wid_num][0];
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/* find a matching BAR */
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for (i = 0; i < DEV_PER_WIDGET; i++) {
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for (i = 0; i < DEV_PER_WIDGET; i++,p++) {
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common = p->common;
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for (j = 0; j < PCI_ROM_RESOURCE; j++) {
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if (p->sfdl_bar_list[j].start == 0)
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if (common->sfdl_bar_list[j].start == 0)
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break;
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if (addr >= p->sfdl_bar_list[j].start
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&& addr <= p->sfdl_bar_list[j].end)
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if (addr >= common->sfdl_bar_list[j].start
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&& addr <= common->sfdl_bar_list[j].end)
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break;
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}
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if (j < PCI_ROM_RESOURCE && p->sfdl_bar_list[j].start != 0)
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if (j < PCI_ROM_RESOURCE && common->sfdl_bar_list[j].start != 0)
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break;
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p++;
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}
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/* if no matching BAR, return without doing anything. */
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@ -304,24 +306,24 @@ void sn_dma_flush(uint64_t addr)
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if ((1 << XWIDGET_PART_REV_NUM_REV(revnum)) & PV907516) {
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return;
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} else {
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pcireg_wrb_flush_get(p->sfdl_pcibus_info,
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(p->sfdl_slot - 1));
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pcireg_wrb_flush_get(common->sfdl_pcibus_info,
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(common->sfdl_slot - 1));
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}
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} else {
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spin_lock_irqsave(&((struct sn_flush_device_list *)p)->
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sfdl_flush_lock, flags);
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*p->sfdl_flush_addr = 0;
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spin_lock_irqsave((spinlock_t *)&p->sfdl_flush_lock,
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flags);
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*common->sfdl_flush_addr = 0;
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/* force an interrupt. */
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*(volatile uint32_t *)(p->sfdl_force_int_addr) = 1;
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*(volatile uint32_t *)(common->sfdl_force_int_addr) = 1;
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/* wait for the interrupt to come back. */
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while (*(p->sfdl_flush_addr) != 0x10f)
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while (*(common->sfdl_flush_addr) != 0x10f)
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cpu_relax();
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/* okay, everything is synched up. */
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spin_unlock_irqrestore((spinlock_t *)&p->sfdl_flush_lock, flags);
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spin_unlock_irqrestore((spinlock_t *)&p->sfdl_flush_lock,
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flags);
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}
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return;
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}
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@ -92,7 +92,8 @@ pcibr_bus_fixup(struct pcibus_bussoft *prom_bussoft, struct pci_controller *cont
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cnodeid_t near_cnode;
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struct hubdev_info *hubdev_info;
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struct pcibus_info *soft;
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struct sn_flush_device_list *sn_flush_device_list;
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struct sn_flush_device_kernel *sn_flush_device_kernel;
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struct sn_flush_device_common *common;
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if (! IS_PCI_BRIDGE_ASIC(prom_bussoft->bs_asic_type)) {
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return NULL;
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@ -137,20 +138,19 @@ pcibr_bus_fixup(struct pcibus_bussoft *prom_bussoft, struct pci_controller *cont
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hubdev_info = (struct hubdev_info *)(NODEPDA(cnode)->pdinfo);
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if (hubdev_info->hdi_flush_nasid_list.widget_p) {
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sn_flush_device_list = hubdev_info->hdi_flush_nasid_list.
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sn_flush_device_kernel = hubdev_info->hdi_flush_nasid_list.
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widget_p[(int)soft->pbi_buscommon.bs_xid];
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if (sn_flush_device_list) {
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if (sn_flush_device_kernel) {
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for (j = 0; j < DEV_PER_WIDGET;
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j++, sn_flush_device_list++) {
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if (sn_flush_device_list->sfdl_slot == -1)
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j++, sn_flush_device_kernel++) {
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common = sn_flush_device_kernel->common;
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if (common->sfdl_slot == -1)
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continue;
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if ((sn_flush_device_list->
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sfdl_persistent_segment ==
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if ((common->sfdl_persistent_segment ==
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soft->pbi_buscommon.bs_persist_segment) &&
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(sn_flush_device_list->
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sfdl_persistent_busnum ==
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(common->sfdl_persistent_busnum ==
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soft->pbi_buscommon.bs_persist_busnum))
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sn_flush_device_list->sfdl_pcibus_info =
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common->sfdl_pcibus_info =
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soft;
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}
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}
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@ -75,7 +75,8 @@
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#define SN_SAL_IOIF_GET_HUBDEV_INFO 0x02000055
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#define SN_SAL_IOIF_GET_PCIBUS_INFO 0x02000056
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#define SN_SAL_IOIF_GET_PCIDEV_INFO 0x02000057
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#define SN_SAL_IOIF_GET_WIDGET_DMAFLUSH_LIST 0x02000058
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#define SN_SAL_IOIF_GET_WIDGET_DMAFLUSH_LIST 0x02000058 // deprecated
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#define SN_SAL_IOIF_GET_DEVICE_DMAFLUSH_LIST 0x0200005a
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#define SN_SAL_HUB_ERROR_INTERRUPT 0x02000060
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#define SN_SAL_BTE_RECOVER 0x02000061
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