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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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x86, uaccess: introduce copy_from_iter_flushcache for pmem / cache-bypass operations
The pmem driver has a need to transfer data with a persistent memory destination and be able to rely on the fact that the destination writes are not cached. It is sufficient for the writes to be flushed to a cpu-store-buffer (non-temporal / "movnt" in x86 terms), as we expect userspace to call fsync() to ensure data-writes have reached a power-fail-safe zone in the platform. The fsync() triggers a REQ_FUA or REQ_FLUSH to the pmem driver which will turn around and fence previous writes with an "sfence". Implement a __copy_from_user_inatomic_flushcache, memcpy_page_flushcache, and memcpy_flushcache, that guarantee that the destination buffer is not dirty in the cpu cache on completion. The new copy_from_iter_flushcache and sub-routines will be used to replace the "pmem api" (include/linux/pmem.h + arch/x86/include/asm/pmem.h). The availability of copy_from_iter_flushcache() and memcpy_flushcache() are gated by the CONFIG_ARCH_HAS_UACCESS_FLUSHCACHE config symbol, and fallback to copy_from_iter_nocache() and plain memcpy() otherwise. This is meant to satisfy the concern from Linus that if a driver wants to do something beyond the normal nocache semantics it should be something private to that driver [1], and Al's concern that anything uaccess related belongs with the rest of the uaccess code [2]. The first consumer of this interface is a new 'copy_from_iter' dax operation so that pmem can inject cache maintenance operations without imposing this overhead on other dax-capable drivers. [1]: https://lists.01.org/pipermail/linux-nvdimm/2017-January/008364.html [2]: https://lists.01.org/pipermail/linux-nvdimm/2017-April/009942.html Cc: <x86@kernel.org> Cc: Jan Kara <jack@suse.cz> Cc: Jeff Moyer <jmoyer@redhat.com> Cc: Ingo Molnar <mingo@redhat.com> Cc: Christoph Hellwig <hch@lst.de> Cc: Toshi Kani <toshi.kani@hpe.com> Cc: "H. Peter Anvin" <hpa@zytor.com> Cc: Al Viro <viro@zeniv.linux.org.uk> Cc: Thomas Gleixner <tglx@linutronix.de> Cc: Matthew Wilcox <mawilcox@microsoft.com> Reviewed-by: Ross Zwisler <ross.zwisler@linux.intel.com> Signed-off-by: Dan Williams <dan.j.williams@intel.com>
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@ -54,6 +54,7 @@ config X86
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select ARCH_HAS_KCOV if X86_64
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select ARCH_HAS_MMIO_FLUSH
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select ARCH_HAS_PMEM_API if X86_64
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select ARCH_HAS_UACCESS_FLUSHCACHE if X86_64
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select ARCH_HAS_SET_MEMORY
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select ARCH_HAS_SG_CHAIN
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select ARCH_HAS_STRICT_KERNEL_RWX
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@ -109,6 +109,11 @@ memcpy_mcsafe(void *dst, const void *src, size_t cnt)
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return 0;
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}
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#ifdef CONFIG_ARCH_HAS_UACCESS_FLUSHCACHE
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#define __HAVE_ARCH_MEMCPY_FLUSHCACHE 1
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void memcpy_flushcache(void *dst, const void *src, size_t cnt);
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#endif
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#endif /* __KERNEL__ */
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#endif /* _ASM_X86_STRING_64_H */
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@ -171,6 +171,10 @@ unsigned long raw_copy_in_user(void __user *dst, const void __user *src, unsigne
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extern long __copy_user_nocache(void *dst, const void __user *src,
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unsigned size, int zerorest);
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extern long __copy_user_flushcache(void *dst, const void __user *src, unsigned size);
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extern void memcpy_page_flushcache(char *to, struct page *page, size_t offset,
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size_t len);
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static inline int
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__copy_from_user_inatomic_nocache(void *dst, const void __user *src,
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unsigned size)
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@ -179,6 +183,13 @@ __copy_from_user_inatomic_nocache(void *dst, const void __user *src,
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return __copy_user_nocache(dst, src, size, 0);
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}
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static inline int
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__copy_from_user_flushcache(void *dst, const void __user *src, unsigned size)
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{
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kasan_check_write(dst, size);
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return __copy_user_flushcache(dst, src, size);
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}
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unsigned long
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copy_user_handle_tail(char *to, char *from, unsigned len);
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@ -7,6 +7,7 @@
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*/
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#include <linux/export.h>
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#include <linux/uaccess.h>
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#include <linux/highmem.h>
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/*
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* Zero Userspace
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@ -73,3 +74,130 @@ copy_user_handle_tail(char *to, char *from, unsigned len)
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clac();
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return len;
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}
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#ifdef CONFIG_ARCH_HAS_UACCESS_FLUSHCACHE
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/**
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* clean_cache_range - write back a cache range with CLWB
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* @vaddr: virtual start address
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* @size: number of bytes to write back
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*
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* Write back a cache range using the CLWB (cache line write back)
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* instruction. Note that @size is internally rounded up to be cache
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* line size aligned.
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*/
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static void clean_cache_range(void *addr, size_t size)
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{
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u16 x86_clflush_size = boot_cpu_data.x86_clflush_size;
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unsigned long clflush_mask = x86_clflush_size - 1;
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void *vend = addr + size;
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void *p;
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for (p = (void *)((unsigned long)addr & ~clflush_mask);
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p < vend; p += x86_clflush_size)
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clwb(p);
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}
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long __copy_user_flushcache(void *dst, const void __user *src, unsigned size)
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{
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unsigned long flushed, dest = (unsigned long) dst;
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long rc = __copy_user_nocache(dst, src, size, 0);
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/*
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* __copy_user_nocache() uses non-temporal stores for the bulk
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* of the transfer, but we need to manually flush if the
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* transfer is unaligned. A cached memory copy is used when
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* destination or size is not naturally aligned. That is:
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* - Require 8-byte alignment when size is 8 bytes or larger.
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* - Require 4-byte alignment when size is 4 bytes.
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*/
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if (size < 8) {
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if (!IS_ALIGNED(dest, 4) || size != 4)
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clean_cache_range(dst, 1);
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} else {
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if (!IS_ALIGNED(dest, 8)) {
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dest = ALIGN(dest, boot_cpu_data.x86_clflush_size);
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clean_cache_range(dst, 1);
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}
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flushed = dest - (unsigned long) dst;
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if (size > flushed && !IS_ALIGNED(size - flushed, 8))
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clean_cache_range(dst + size - 1, 1);
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}
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return rc;
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}
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void memcpy_flushcache(void *_dst, const void *_src, size_t size)
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{
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unsigned long dest = (unsigned long) _dst;
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unsigned long source = (unsigned long) _src;
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/* cache copy and flush to align dest */
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if (!IS_ALIGNED(dest, 8)) {
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unsigned len = min_t(unsigned, size, ALIGN(dest, 8) - dest);
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memcpy((void *) dest, (void *) source, len);
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clean_cache_range((void *) dest, len);
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dest += len;
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source += len;
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size -= len;
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if (!size)
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return;
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}
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/* 4x8 movnti loop */
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while (size >= 32) {
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asm("movq (%0), %%r8\n"
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"movq 8(%0), %%r9\n"
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"movq 16(%0), %%r10\n"
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"movq 24(%0), %%r11\n"
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"movnti %%r8, (%1)\n"
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"movnti %%r9, 8(%1)\n"
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"movnti %%r10, 16(%1)\n"
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"movnti %%r11, 24(%1)\n"
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:: "r" (source), "r" (dest)
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: "memory", "r8", "r9", "r10", "r11");
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dest += 32;
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source += 32;
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size -= 32;
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}
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/* 1x8 movnti loop */
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while (size >= 8) {
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asm("movq (%0), %%r8\n"
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"movnti %%r8, (%1)\n"
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:: "r" (source), "r" (dest)
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: "memory", "r8");
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dest += 8;
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source += 8;
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size -= 8;
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}
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/* 1x4 movnti loop */
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while (size >= 4) {
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asm("movl (%0), %%r8d\n"
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"movnti %%r8d, (%1)\n"
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:: "r" (source), "r" (dest)
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: "memory", "r8");
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dest += 4;
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source += 4;
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size -= 4;
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}
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/* cache copy for remaining bytes */
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if (size) {
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memcpy((void *) dest, (void *) source, size);
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clean_cache_range((void *) dest, size);
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}
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}
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EXPORT_SYMBOL_GPL(memcpy_flushcache);
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void memcpy_page_flushcache(char *to, struct page *page, size_t offset,
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size_t len)
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{
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char *from = kmap_atomic(page);
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memcpy_flushcache(to, from + offset, len);
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kunmap_atomic(from);
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}
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#endif
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@ -1842,8 +1842,7 @@ static int acpi_nfit_blk_single_io(struct nfit_blk *nfit_blk,
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}
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if (rw)
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memcpy_to_pmem(mmio->addr.aperture + offset,
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iobuf + copied, c);
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memcpy_flushcache(mmio->addr.aperture + offset, iobuf + copied, c);
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else {
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if (nfit_blk->dimm_flags & NFIT_BLK_READ_FLUSH)
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mmio_flush_range((void __force *)
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@ -277,7 +277,7 @@ static int nsio_rw_bytes(struct nd_namespace_common *ndns,
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rc = -EIO;
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}
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memcpy_to_pmem(nsio->addr + offset, buf, size);
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memcpy_flushcache(nsio->addr + offset, buf, size);
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nvdimm_flush(to_nd_region(ndns->dev.parent));
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return rc;
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@ -29,6 +29,7 @@
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#include <linux/pfn_t.h>
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#include <linux/slab.h>
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#include <linux/pmem.h>
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#include <linux/uio.h>
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#include <linux/dax.h>
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#include <linux/nd.h>
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#include "pmem.h"
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@ -80,7 +81,7 @@ static void write_pmem(void *pmem_addr, struct page *page,
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{
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void *mem = kmap_atomic(page);
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memcpy_to_pmem(pmem_addr, mem + off, len);
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memcpy_flushcache(pmem_addr, mem + off, len);
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kunmap_atomic(mem);
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}
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@ -235,8 +236,15 @@ static long pmem_dax_direct_access(struct dax_device *dax_dev,
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return __pmem_direct_access(pmem, pgoff, nr_pages, kaddr, pfn);
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}
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static size_t pmem_copy_from_iter(struct dax_device *dax_dev, pgoff_t pgoff,
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void *addr, size_t bytes, struct iov_iter *i)
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{
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return copy_from_iter_flushcache(addr, bytes, i);
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}
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static const struct dax_operations pmem_dax_ops = {
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.direct_access = pmem_dax_direct_access,
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.copy_from_iter = pmem_copy_from_iter,
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};
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static void pmem_release_queue(void *q)
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@ -294,7 +302,8 @@ static int pmem_attach_disk(struct device *dev,
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dev_set_drvdata(dev, pmem);
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pmem->phys_addr = res->start;
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pmem->size = resource_size(res);
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if (nvdimm_has_flush(nd_region) < 0)
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if (!IS_ENABLED(CONFIG_ARCH_HAS_UACCESS_FLUSHCACHE)
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|| nvdimm_has_flush(nd_region) < 0)
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dev_warn(dev, "unable to guarantee persistence of writes\n");
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if (!devm_request_mem_region(dev, res->start, resource_size(res),
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* The first wmb() is needed to 'sfence' all previous writes
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* such that they are architecturally visible for the platform
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* buffer flush. Note that we've already arranged for pmem
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* writes to avoid the cache via arch_memcpy_to_pmem(). The
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* final wmb() ensures ordering for the NVDIMM flush write.
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* writes to avoid the cache via memcpy_flushcache(). The final
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* wmb() ensures ordering for the NVDIMM flush write.
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*/
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wmb();
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for (i = 0; i < nd_region->ndr_mappings; i++)
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*/
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long (*direct_access)(struct dax_device *, pgoff_t, long,
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void **, pfn_t *);
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/* copy_from_iter: dax-driver override for default copy_from_iter */
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size_t (*copy_from_iter)(struct dax_device *, pgoff_t, void *, size_t,
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struct iov_iter *);
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};
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#if IS_ENABLED(CONFIG_DAX)
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return 0;
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}
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#endif
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#ifndef __HAVE_ARCH_MEMCPY_FLUSHCACHE
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static inline void memcpy_flushcache(void *dst, const void *src, size_t cnt)
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{
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memcpy(dst, src, cnt);
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}
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#endif
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void *memchr_inv(const void *s, int c, size_t n);
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char *strreplace(char *s, char old, char new);
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size_t copy_from_iter(void *addr, size_t bytes, struct iov_iter *i);
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bool copy_from_iter_full(void *addr, size_t bytes, struct iov_iter *i);
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size_t copy_from_iter_nocache(void *addr, size_t bytes, struct iov_iter *i);
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#ifdef CONFIG_ARCH_HAS_UACCESS_FLUSHCACHE
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/*
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* Note, users like pmem that depend on the stricter semantics of
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* copy_from_iter_flushcache() than copy_from_iter_nocache() must check for
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* IS_ENABLED(CONFIG_ARCH_HAS_UACCESS_FLUSHCACHE) before assuming that the
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* destination is flushed from the cache on return.
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*/
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size_t copy_from_iter_flushcache(void *addr, size_t bytes, struct iov_iter *i);
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#else
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static inline size_t copy_from_iter_flushcache(void *addr, size_t bytes,
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struct iov_iter *i)
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{
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return copy_from_iter_nocache(addr, bytes, i);
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}
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#endif
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bool copy_from_iter_full_nocache(void *addr, size_t bytes, struct iov_iter *i);
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size_t iov_iter_zero(size_t bytes, struct iov_iter *);
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unsigned long iov_iter_alignment(const struct iov_iter *i);
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config ARCH_HAS_PMEM_API
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bool
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config ARCH_HAS_UACCESS_FLUSHCACHE
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bool
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config ARCH_HAS_MMIO_FLUSH
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bool
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}
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EXPORT_SYMBOL(copy_from_iter_nocache);
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#ifdef CONFIG_ARCH_HAS_UACCESS_FLUSHCACHE
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size_t copy_from_iter_flushcache(void *addr, size_t bytes, struct iov_iter *i)
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{
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char *to = addr;
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if (unlikely(i->type & ITER_PIPE)) {
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WARN_ON(1);
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return 0;
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}
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iterate_and_advance(i, bytes, v,
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__copy_from_user_flushcache((to += v.iov_len) - v.iov_len,
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v.iov_base, v.iov_len),
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memcpy_page_flushcache((to += v.bv_len) - v.bv_len, v.bv_page,
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v.bv_offset, v.bv_len),
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memcpy_flushcache((to += v.iov_len) - v.iov_len, v.iov_base,
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v.iov_len)
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)
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return bytes;
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}
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EXPORT_SYMBOL_GPL(copy_from_iter_flushcache);
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#endif
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bool copy_from_iter_full_nocache(void *addr, size_t bytes, struct iov_iter *i)
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{
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char *to = addr;
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