forked from Minki/linux
69eea95c48
DMA addresses returned from map_page() are calculated by using an iommu bitmap plus a start_dma offset. The size of this bitmap is based on the main memory size. If we have more than (4 TB - start_dma) main memory, the DMA address calculation will also produce addresses > 4 TB. Such addresses cannot be inserted in the 3-level DMA page table, instead the entries modulo 4 TB will be overwritten. Fix this by restricting the iommu bitmap size to (4 TB - start_dma). Also set zdev->end_dma to the actual end address of the usable range, instead of the theoretical maximum as reported by the hardware, which fixes a sanity check in dma_map() and also the IOMMU API domain geometry aperture calculation. Signed-off-by: Gerald Schaefer <gerald.schaefer@de.ibm.com> Reviewed-by: Sebastian Ott <sebott@linux.vnet.ibm.com> Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
204 lines
5.7 KiB
C
204 lines
5.7 KiB
C
#ifndef _ASM_S390_PCI_DMA_H
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#define _ASM_S390_PCI_DMA_H
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/* I/O Translation Anchor (IOTA) */
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enum zpci_ioat_dtype {
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ZPCI_IOTA_STO = 0,
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ZPCI_IOTA_RTTO = 1,
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ZPCI_IOTA_RSTO = 2,
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ZPCI_IOTA_RFTO = 3,
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ZPCI_IOTA_PFAA = 4,
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ZPCI_IOTA_IOPFAA = 5,
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ZPCI_IOTA_IOPTO = 7
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};
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#define ZPCI_IOTA_IOT_ENABLED 0x800UL
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#define ZPCI_IOTA_DT_ST (ZPCI_IOTA_STO << 2)
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#define ZPCI_IOTA_DT_RT (ZPCI_IOTA_RTTO << 2)
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#define ZPCI_IOTA_DT_RS (ZPCI_IOTA_RSTO << 2)
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#define ZPCI_IOTA_DT_RF (ZPCI_IOTA_RFTO << 2)
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#define ZPCI_IOTA_DT_PF (ZPCI_IOTA_PFAA << 2)
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#define ZPCI_IOTA_FS_4K 0
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#define ZPCI_IOTA_FS_1M 1
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#define ZPCI_IOTA_FS_2G 2
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#define ZPCI_KEY (PAGE_DEFAULT_KEY << 5)
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#define ZPCI_TABLE_SIZE_RT (1UL << 42)
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#define ZPCI_IOTA_STO_FLAG (ZPCI_IOTA_IOT_ENABLED | ZPCI_KEY | ZPCI_IOTA_DT_ST)
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#define ZPCI_IOTA_RTTO_FLAG (ZPCI_IOTA_IOT_ENABLED | ZPCI_KEY | ZPCI_IOTA_DT_RT)
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#define ZPCI_IOTA_RSTO_FLAG (ZPCI_IOTA_IOT_ENABLED | ZPCI_KEY | ZPCI_IOTA_DT_RS)
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#define ZPCI_IOTA_RFTO_FLAG (ZPCI_IOTA_IOT_ENABLED | ZPCI_KEY | ZPCI_IOTA_DT_RF)
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#define ZPCI_IOTA_RFAA_FLAG (ZPCI_IOTA_IOT_ENABLED | ZPCI_KEY | ZPCI_IOTA_DT_PF | ZPCI_IOTA_FS_2G)
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/* I/O Region and segment tables */
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#define ZPCI_INDEX_MASK 0x7ffUL
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#define ZPCI_TABLE_TYPE_MASK 0xc
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#define ZPCI_TABLE_TYPE_RFX 0xc
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#define ZPCI_TABLE_TYPE_RSX 0x8
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#define ZPCI_TABLE_TYPE_RTX 0x4
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#define ZPCI_TABLE_TYPE_SX 0x0
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#define ZPCI_TABLE_LEN_RFX 0x3
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#define ZPCI_TABLE_LEN_RSX 0x3
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#define ZPCI_TABLE_LEN_RTX 0x3
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#define ZPCI_TABLE_OFFSET_MASK 0xc0
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#define ZPCI_TABLE_SIZE 0x4000
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#define ZPCI_TABLE_ALIGN ZPCI_TABLE_SIZE
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#define ZPCI_TABLE_ENTRY_SIZE (sizeof(unsigned long))
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#define ZPCI_TABLE_ENTRIES (ZPCI_TABLE_SIZE / ZPCI_TABLE_ENTRY_SIZE)
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#define ZPCI_TABLE_BITS 11
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#define ZPCI_PT_BITS 8
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#define ZPCI_ST_SHIFT (ZPCI_PT_BITS + PAGE_SHIFT)
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#define ZPCI_RT_SHIFT (ZPCI_ST_SHIFT + ZPCI_TABLE_BITS)
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#define ZPCI_RTE_FLAG_MASK 0x3fffUL
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#define ZPCI_RTE_ADDR_MASK (~ZPCI_RTE_FLAG_MASK)
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#define ZPCI_STE_FLAG_MASK 0x7ffUL
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#define ZPCI_STE_ADDR_MASK (~ZPCI_STE_FLAG_MASK)
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/* I/O Page tables */
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#define ZPCI_PTE_VALID_MASK 0x400
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#define ZPCI_PTE_INVALID 0x400
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#define ZPCI_PTE_VALID 0x000
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#define ZPCI_PT_SIZE 0x800
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#define ZPCI_PT_ALIGN ZPCI_PT_SIZE
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#define ZPCI_PT_ENTRIES (ZPCI_PT_SIZE / ZPCI_TABLE_ENTRY_SIZE)
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#define ZPCI_PT_MASK (ZPCI_PT_ENTRIES - 1)
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#define ZPCI_PTE_FLAG_MASK 0xfffUL
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#define ZPCI_PTE_ADDR_MASK (~ZPCI_PTE_FLAG_MASK)
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/* Shared bits */
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#define ZPCI_TABLE_VALID 0x00
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#define ZPCI_TABLE_INVALID 0x20
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#define ZPCI_TABLE_PROTECTED 0x200
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#define ZPCI_TABLE_UNPROTECTED 0x000
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#define ZPCI_TABLE_VALID_MASK 0x20
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#define ZPCI_TABLE_PROT_MASK 0x200
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static inline unsigned int calc_rtx(dma_addr_t ptr)
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{
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return ((unsigned long) ptr >> ZPCI_RT_SHIFT) & ZPCI_INDEX_MASK;
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}
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static inline unsigned int calc_sx(dma_addr_t ptr)
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{
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return ((unsigned long) ptr >> ZPCI_ST_SHIFT) & ZPCI_INDEX_MASK;
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}
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static inline unsigned int calc_px(dma_addr_t ptr)
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{
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return ((unsigned long) ptr >> PAGE_SHIFT) & ZPCI_PT_MASK;
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}
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static inline void set_pt_pfaa(unsigned long *entry, void *pfaa)
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{
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*entry &= ZPCI_PTE_FLAG_MASK;
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*entry |= ((unsigned long) pfaa & ZPCI_PTE_ADDR_MASK);
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}
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static inline void set_rt_sto(unsigned long *entry, void *sto)
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{
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*entry &= ZPCI_RTE_FLAG_MASK;
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*entry |= ((unsigned long) sto & ZPCI_RTE_ADDR_MASK);
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*entry |= ZPCI_TABLE_TYPE_RTX;
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}
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static inline void set_st_pto(unsigned long *entry, void *pto)
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{
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*entry &= ZPCI_STE_FLAG_MASK;
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*entry |= ((unsigned long) pto & ZPCI_STE_ADDR_MASK);
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*entry |= ZPCI_TABLE_TYPE_SX;
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}
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static inline void validate_rt_entry(unsigned long *entry)
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{
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*entry &= ~ZPCI_TABLE_VALID_MASK;
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*entry &= ~ZPCI_TABLE_OFFSET_MASK;
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*entry |= ZPCI_TABLE_VALID;
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*entry |= ZPCI_TABLE_LEN_RTX;
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}
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static inline void validate_st_entry(unsigned long *entry)
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{
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*entry &= ~ZPCI_TABLE_VALID_MASK;
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*entry |= ZPCI_TABLE_VALID;
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}
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static inline void invalidate_table_entry(unsigned long *entry)
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{
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*entry &= ~ZPCI_TABLE_VALID_MASK;
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*entry |= ZPCI_TABLE_INVALID;
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}
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static inline void invalidate_pt_entry(unsigned long *entry)
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{
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WARN_ON_ONCE((*entry & ZPCI_PTE_VALID_MASK) == ZPCI_PTE_INVALID);
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*entry &= ~ZPCI_PTE_VALID_MASK;
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*entry |= ZPCI_PTE_INVALID;
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}
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static inline void validate_pt_entry(unsigned long *entry)
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{
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WARN_ON_ONCE((*entry & ZPCI_PTE_VALID_MASK) == ZPCI_PTE_VALID);
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*entry &= ~ZPCI_PTE_VALID_MASK;
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*entry |= ZPCI_PTE_VALID;
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}
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static inline void entry_set_protected(unsigned long *entry)
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{
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*entry &= ~ZPCI_TABLE_PROT_MASK;
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*entry |= ZPCI_TABLE_PROTECTED;
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}
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static inline void entry_clr_protected(unsigned long *entry)
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{
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*entry &= ~ZPCI_TABLE_PROT_MASK;
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*entry |= ZPCI_TABLE_UNPROTECTED;
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}
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static inline int reg_entry_isvalid(unsigned long entry)
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{
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return (entry & ZPCI_TABLE_VALID_MASK) == ZPCI_TABLE_VALID;
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}
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static inline int pt_entry_isvalid(unsigned long entry)
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{
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return (entry & ZPCI_PTE_VALID_MASK) == ZPCI_PTE_VALID;
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}
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static inline int entry_isprotected(unsigned long entry)
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{
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return (entry & ZPCI_TABLE_PROT_MASK) == ZPCI_TABLE_PROTECTED;
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}
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static inline unsigned long *get_rt_sto(unsigned long entry)
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{
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return ((entry & ZPCI_TABLE_TYPE_MASK) == ZPCI_TABLE_TYPE_RTX)
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? (unsigned long *) (entry & ZPCI_RTE_ADDR_MASK)
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: NULL;
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}
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static inline unsigned long *get_st_pto(unsigned long entry)
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{
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return ((entry & ZPCI_TABLE_TYPE_MASK) == ZPCI_TABLE_TYPE_SX)
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? (unsigned long *) (entry & ZPCI_STE_ADDR_MASK)
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: NULL;
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}
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/* Prototypes */
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int zpci_dma_init_device(struct zpci_dev *);
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void zpci_dma_exit_device(struct zpci_dev *);
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void dma_free_seg_table(unsigned long);
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unsigned long *dma_alloc_cpu_table(void);
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void dma_cleanup_tables(unsigned long *);
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unsigned long *dma_walk_cpu_trans(unsigned long *rto, dma_addr_t dma_addr);
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void dma_update_cpu_trans(unsigned long *entry, void *page_addr, int flags);
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#endif
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