scsi: mpt3sas: fix dma_addr_t casts
The newly added base_make_prp_nvme function triggers a build warning on
some 32-bit configurations:
drivers/scsi/mpt3sas/mpt3sas_base.c: In function 'base_make_prp_nvme':
drivers/scsi/mpt3sas/mpt3sas_base.c:1664:13: error: cast from pointer to integer of different size [-Werror=pointer-to-int-cast]
msg_phys = (dma_addr_t)mpt3sas_base_get_pcie_sgl_dma(ioc, smid);
After taking a closer look, I found that the problem is that the new
code mixes up pointers and dma_addr_t values unnecessarily.
This changes it to use the correct types consistently, which lets us get
rid of a lot of type casts in the process. I'm also renaming some
variables to avoid confusion between physical and dma address spaces
that are often distinct.
Fixes: 016d5c35e2 ("scsi: mpt3sas: SGL to PRP Translation for I/Os to NVMe devices")
Signed-off-by: Arnd Bergmann <arnd@arndb.de>
Acked-by: Sathya Prakash Veerichetty <sathya.prakash@broadcom.com>
Signed-off-by: Martin K. Petersen <martin.petersen@oracle.com>
This commit is contained in:
Arnd Bergmann
Martin K. Petersen
parent
d38c9a803b
commit
d8335ae2b4
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@ -1437,11 +1437,11 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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size_t data_in_sz)
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{
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int prp_size = NVME_PRP_SIZE;
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__le64 *prp_entry, *prp1_entry, *prp2_entry, *prp_entry_phys;
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__le64 *prp_page, *prp_page_phys;
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__le64 *prp_entry, *prp1_entry, *prp2_entry;
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__le64 *prp_page;
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dma_addr_t prp_entry_dma, prp_page_dma, dma_addr;
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u32 offset, entry_len;
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u32 page_mask_result, page_mask;
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dma_addr_t paddr;
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size_t length;
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/*
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@ -1465,7 +1465,7 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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* contiguous memory.
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*/
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prp_page = (__le64 *)mpt3sas_base_get_pcie_sgl(ioc, smid);
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prp_page_phys = (__le64 *)mpt3sas_base_get_pcie_sgl_dma(ioc, smid);
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prp_page_dma = mpt3sas_base_get_pcie_sgl_dma(ioc, smid);
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/*
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* Check if we are within 1 entry of a page boundary we don't
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@ -1476,21 +1476,21 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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if (!page_mask_result) {
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/* Bump up to next page boundary. */
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prp_page = (__le64 *)((u8 *)prp_page + prp_size);
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prp_page_phys = (__le64 *)((u8 *)prp_page_phys + prp_size);
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prp_page_dma = prp_page_dma + prp_size;
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}
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/*
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* Set PRP physical pointer, which initially points to the current PRP
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* DMA memory page.
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*/
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prp_entry_phys = prp_page_phys;
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prp_entry_dma = prp_page_dma;
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/* Get physical address and length of the data buffer. */
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if (data_in_sz) {
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paddr = data_in_dma;
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dma_addr = data_in_dma;
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length = data_in_sz;
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} else {
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paddr = data_out_dma;
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dma_addr = data_out_dma;
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length = data_out_sz;
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}
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@ -1500,8 +1500,7 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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* Check if we need to put a list pointer here if we are at
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* page boundary - prp_size (8 bytes).
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*/
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page_mask_result =
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(uintptr_t)((u8 *)prp_entry_phys + prp_size) & page_mask;
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page_mask_result = (prp_entry_dma + prp_size) & page_mask;
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if (!page_mask_result) {
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/*
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* This is the last entry in a PRP List, so we need to
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@ -1515,13 +1514,13 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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* contiguous, no need to get a new page - it's
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* just the next address.
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*/
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prp_entry_phys++;
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*prp_entry = cpu_to_le64((uintptr_t)prp_entry_phys);
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prp_entry_dma++;
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*prp_entry = cpu_to_le64(prp_entry_dma);
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prp_entry++;
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}
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/* Need to handle if entry will be part of a page. */
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offset = (u32)paddr & page_mask;
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offset = dma_addr & page_mask;
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entry_len = ioc->page_size - offset;
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if (prp_entry == prp1_entry) {
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@ -1529,7 +1528,7 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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* Must fill in the first PRP pointer (PRP1) before
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* moving on.
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*/
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*prp1_entry = cpu_to_le64((u64)paddr);
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*prp1_entry = cpu_to_le64(dma_addr);
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/*
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* Now point to the second PRP entry within the
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@ -1549,8 +1548,7 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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* list will start at the beginning of the
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* contiguous buffer.
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*/
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*prp2_entry =
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cpu_to_le64((uintptr_t)prp_entry_phys);
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*prp2_entry = cpu_to_le64(prp_entry_dma);
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/*
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* The next PRP Entry will be the start of the
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@ -1562,7 +1560,7 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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* After this, the PRP Entries are complete.
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* This command uses 2 PRP's and no PRP list.
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*/
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*prp2_entry = cpu_to_le64((u64)paddr);
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*prp2_entry = cpu_to_le64(dma_addr);
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}
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} else {
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/*
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@ -1572,16 +1570,16 @@ _base_build_nvme_prp(struct MPT3SAS_ADAPTER *ioc, u16 smid,
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* all remaining PRP entries in a PRP List, one per
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* each time through the loop.
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*/
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*prp_entry = cpu_to_le64((u64)paddr);
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*prp_entry = cpu_to_le64(dma_addr);
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prp_entry++;
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prp_entry_phys++;
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prp_entry_dma++;
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}
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/*
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* Bump the phys address of the command's data buffer by the
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* entry_len.
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*/
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paddr += entry_len;
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dma_addr += entry_len;
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/* Decrement length accounting for last partial page. */
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if (entry_len > length)
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@ -1610,11 +1608,10 @@ base_make_prp_nvme(struct MPT3SAS_ADAPTER *ioc,
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Mpi25SCSIIORequest_t *mpi_request,
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u16 smid, int sge_count)
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{
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int sge_len, offset, num_prp_in_chain = 0;
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int sge_len, num_prp_in_chain = 0;
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Mpi25IeeeSgeChain64_t *main_chain_element, *ptr_first_sgl;
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__le64 *curr_buff;
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dma_addr_t msg_phys;
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u64 sge_addr;
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dma_addr_t msg_dma, sge_addr, offset;
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u32 page_mask, page_mask_result;
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struct scatterlist *sg_scmd;
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u32 first_prp_len;
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@ -1661,9 +1658,9 @@ base_make_prp_nvme(struct MPT3SAS_ADAPTER *ioc,
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* page (4k).
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*/
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curr_buff = mpt3sas_base_get_pcie_sgl(ioc, smid);
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msg_phys = (dma_addr_t)mpt3sas_base_get_pcie_sgl_dma(ioc, smid);
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msg_dma = mpt3sas_base_get_pcie_sgl_dma(ioc, smid);
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main_chain_element->Address = cpu_to_le64(msg_phys);
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main_chain_element->Address = cpu_to_le64(msg_dma);
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main_chain_element->NextChainOffset = 0;
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main_chain_element->Flags = MPI2_IEEE_SGE_FLAGS_CHAIN_ELEMENT |
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MPI2_IEEE_SGE_FLAGS_SYSTEM_ADDR |
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@ -1675,7 +1672,7 @@ base_make_prp_nvme(struct MPT3SAS_ADAPTER *ioc,
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sge_addr = sg_dma_address(sg_scmd);
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sge_len = sg_dma_len(sg_scmd);
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offset = (u32)(sge_addr & page_mask);
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offset = sge_addr & page_mask;
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first_prp_len = nvme_pg_size - offset;
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ptr_first_sgl->Address = cpu_to_le64(sge_addr);
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@ -1693,7 +1690,7 @@ base_make_prp_nvme(struct MPT3SAS_ADAPTER *ioc,
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}
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for (;;) {
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offset = (u32)(sge_addr & page_mask);
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offset = sge_addr & page_mask;
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/* Put PRP pointer due to page boundary*/
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page_mask_result = (uintptr_t)(curr_buff + 1) & page_mask;
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@ -1701,15 +1698,15 @@ base_make_prp_nvme(struct MPT3SAS_ADAPTER *ioc,
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scmd_printk(KERN_NOTICE,
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scmd, "page boundary curr_buff: 0x%p\n",
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curr_buff);
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msg_phys += 8;
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*curr_buff = cpu_to_le64(msg_phys);
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msg_dma += 8;
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*curr_buff = cpu_to_le64(msg_dma);
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curr_buff++;
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num_prp_in_chain++;
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}
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*curr_buff = cpu_to_le64(sge_addr);
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curr_buff++;
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msg_phys += 8;
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msg_dma += 8;
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num_prp_in_chain++;
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sge_addr += nvme_pg_size;
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@ -2755,11 +2752,10 @@ mpt3sas_base_get_pcie_sgl(struct MPT3SAS_ADAPTER *ioc, u16 smid)
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*
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* Returns phys pointer to the address of the PCIe buffer.
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*/
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void *
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dma_addr_t
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mpt3sas_base_get_pcie_sgl_dma(struct MPT3SAS_ADAPTER *ioc, u16 smid)
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{
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return (void *)(uintptr_t)
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(ioc->scsi_lookup[smid - 1].pcie_sg_list.pcie_sgl_dma);
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return ioc->scsi_lookup[smid - 1].pcie_sg_list.pcie_sgl_dma;
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}
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/**
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@ -1395,7 +1395,7 @@ void *mpt3sas_base_get_sense_buffer(struct MPT3SAS_ADAPTER *ioc, u16 smid);
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__le32 mpt3sas_base_get_sense_buffer_dma(struct MPT3SAS_ADAPTER *ioc,
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u16 smid);
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void *mpt3sas_base_get_pcie_sgl(struct MPT3SAS_ADAPTER *ioc, u16 smid);
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void *mpt3sas_base_get_pcie_sgl_dma(struct MPT3SAS_ADAPTER *ioc, u16 smid);
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dma_addr_t mpt3sas_base_get_pcie_sgl_dma(struct MPT3SAS_ADAPTER *ioc, u16 smid);
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void mpt3sas_base_sync_reply_irqs(struct MPT3SAS_ADAPTER *ioc);
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/* hi-priority queue */
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