s390/pci_dma: improve lazy flush for unmap
Lazy unmap (defer tlb flush after unmap until dma address reuse) can greatly reduce the number of RPCIT instructions in the best case. In reality we are often far away from the best case scenario because our implementation suffers from the following problem: To create dma addresses we maintain an iommu bitmap and a pointer into that bitmap to mark the start of the next search. That pointer moves from the start to the end of that bitmap and we issue a global tlb flush once that pointer wraps around. To prevent address reuse before we issue the tlb flush we even have to move the next pointer during unmaps - when clearing a bit > next. This could lead to a situation where we only use the rear part of that bitmap and issue more tlb flushes than expected. To fix this we no longer clear bits during unmap but maintain a 2nd bitmap which we use to mark addresses that can't be reused until we issue the global tlb flush after wrap around. Signed-off-by: Sebastian Ott <sebott@linux.vnet.ibm.com> Reviewed-by: Gerald Schaefer <gerald.schaefer@de.ibm.com> Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
This commit is contained in:
Sebastian Ott
Martin Schwidefsky
parent
1f166e9e5c
commit
13954fd691
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@ -118,6 +118,7 @@ struct zpci_dev {
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spinlock_t iommu_bitmap_lock;
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unsigned long *iommu_bitmap;
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unsigned long *lazy_bitmap;
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unsigned long iommu_size;
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unsigned long iommu_pages;
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unsigned int next_bit;
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@ -257,20 +257,28 @@ static dma_addr_t dma_alloc_address(struct device *dev, int size)
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spin_lock_irqsave(&zdev->iommu_bitmap_lock, flags);
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offset = __dma_alloc_iommu(dev, zdev->next_bit, size);
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if (offset == -1) {
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if (!zdev->tlb_refresh && !s390_iommu_strict) {
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/* global flush before DMA addresses are reused */
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if (zpci_refresh_global(zdev))
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goto out_error;
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bitmap_andnot(zdev->iommu_bitmap, zdev->iommu_bitmap,
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zdev->lazy_bitmap, zdev->iommu_pages);
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bitmap_zero(zdev->lazy_bitmap, zdev->iommu_pages);
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}
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/* wrap-around */
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offset = __dma_alloc_iommu(dev, 0, size);
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if (offset == -1) {
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spin_unlock_irqrestore(&zdev->iommu_bitmap_lock, flags);
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return DMA_ERROR_CODE;
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}
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if (!zdev->tlb_refresh && !s390_iommu_strict)
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/* global flush after wrap-around with lazy unmap */
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zpci_refresh_global(zdev);
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if (offset == -1)
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goto out_error;
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}
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zdev->next_bit = offset + size;
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spin_unlock_irqrestore(&zdev->iommu_bitmap_lock, flags);
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return zdev->start_dma + offset * PAGE_SIZE;
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out_error:
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spin_unlock_irqrestore(&zdev->iommu_bitmap_lock, flags);
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return DMA_ERROR_CODE;
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}
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static void dma_free_address(struct device *dev, dma_addr_t dma_addr, int size)
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@ -283,13 +291,12 @@ static void dma_free_address(struct device *dev, dma_addr_t dma_addr, int size)
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spin_lock_irqsave(&zdev->iommu_bitmap_lock, flags);
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if (!zdev->iommu_bitmap)
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goto out;
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bitmap_clear(zdev->iommu_bitmap, offset, size);
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/*
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* Lazy flush for unmap: need to move next_bit to avoid address re-use
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* until wrap-around.
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*/
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if (!s390_iommu_strict && offset >= zdev->next_bit)
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zdev->next_bit = offset + size;
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if (zdev->tlb_refresh || s390_iommu_strict)
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bitmap_clear(zdev->iommu_bitmap, offset, size);
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else
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bitmap_set(zdev->lazy_bitmap, offset, size);
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out:
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spin_unlock_irqrestore(&zdev->iommu_bitmap_lock, flags);
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}
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@ -557,7 +564,14 @@ int zpci_dma_init_device(struct zpci_dev *zdev)
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rc = -ENOMEM;
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goto free_dma_table;
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}
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if (!zdev->tlb_refresh && !s390_iommu_strict) {
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zdev->lazy_bitmap = vzalloc(zdev->iommu_pages / 8);
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if (!zdev->lazy_bitmap) {
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rc = -ENOMEM;
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goto free_bitmap;
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}
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}
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rc = zpci_register_ioat(zdev, 0, zdev->start_dma, zdev->end_dma,
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(u64) zdev->dma_table);
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if (rc)
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@ -567,6 +581,8 @@ int zpci_dma_init_device(struct zpci_dev *zdev)
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free_bitmap:
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vfree(zdev->iommu_bitmap);
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zdev->iommu_bitmap = NULL;
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vfree(zdev->lazy_bitmap);
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zdev->lazy_bitmap = NULL;
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free_dma_table:
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dma_free_cpu_table(zdev->dma_table);
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zdev->dma_table = NULL;
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@ -588,6 +604,9 @@ void zpci_dma_exit_device(struct zpci_dev *zdev)
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zdev->dma_table = NULL;
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vfree(zdev->iommu_bitmap);
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zdev->iommu_bitmap = NULL;
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vfree(zdev->lazy_bitmap);
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zdev->lazy_bitmap = NULL;
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zdev->next_bit = 0;
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}
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