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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 | /* * linux/net/sunrpc/xdr.c * * Generic XDR support. * * Copyright (C) 1995, 1996 Olaf Kirch <okir@monad.swb.de> */ #include <linux/module.h> #include <linux/slab.h> #include <linux/types.h> #include <linux/string.h> #include <linux/kernel.h> #include <linux/pagemap.h> #include <linux/errno.h> #include <linux/sunrpc/xdr.h> #include <linux/sunrpc/msg_prot.h> /* * XDR functions for basic NFS types */ __be32 * xdr_encode_netobj(__be32 *p, const struct xdr_netobj *obj) { unsigned int quadlen = XDR_QUADLEN(obj->len); p[quadlen] = 0; /* zero trailing bytes */ *p++ = cpu_to_be32(obj->len); memcpy(p, obj->data, obj->len); return p + XDR_QUADLEN(obj->len); } EXPORT_SYMBOL_GPL(xdr_encode_netobj); __be32 * xdr_decode_netobj(__be32 *p, struct xdr_netobj *obj) { unsigned int len; if ((len = be32_to_cpu(*p++)) > XDR_MAX_NETOBJ) return NULL; obj->len = len; obj->data = (u8 *) p; return p + XDR_QUADLEN(len); } EXPORT_SYMBOL_GPL(xdr_decode_netobj); /** * xdr_encode_opaque_fixed - Encode fixed length opaque data * @p: pointer to current position in XDR buffer. * @ptr: pointer to data to encode (or NULL) * @nbytes: size of data. * * Copy the array of data of length nbytes at ptr to the XDR buffer * at position p, then align to the next 32-bit boundary by padding * with zero bytes (see RFC1832). * Note: if ptr is NULL, only the padding is performed. * * Returns the updated current XDR buffer position * */ __be32 *xdr_encode_opaque_fixed(__be32 *p, const void *ptr, unsigned int nbytes) { if (likely(nbytes != 0)) { unsigned int quadlen = XDR_QUADLEN(nbytes); unsigned int padding = (quadlen << 2) - nbytes; if (ptr != NULL) memcpy(p, ptr, nbytes); if (padding != 0) memset((char *)p + nbytes, 0, padding); p += quadlen; } return p; } EXPORT_SYMBOL_GPL(xdr_encode_opaque_fixed); /** * xdr_encode_opaque - Encode variable length opaque data * @p: pointer to current position in XDR buffer. * @ptr: pointer to data to encode (or NULL) * @nbytes: size of data. * * Returns the updated current XDR buffer position */ __be32 *xdr_encode_opaque(__be32 *p, const void *ptr, unsigned int nbytes) { *p++ = cpu_to_be32(nbytes); return xdr_encode_opaque_fixed(p, ptr, nbytes); } EXPORT_SYMBOL_GPL(xdr_encode_opaque); __be32 * xdr_encode_string(__be32 *p, const char *string) { return xdr_encode_array(p, string, strlen(string)); } EXPORT_SYMBOL_GPL(xdr_encode_string); __be32 * xdr_decode_string_inplace(__be32 *p, char **sp, unsigned int *lenp, unsigned int maxlen) { u32 len; len = be32_to_cpu(*p++); if (len > maxlen) return NULL; *lenp = len; *sp = (char *) p; return p + XDR_QUADLEN(len); } EXPORT_SYMBOL_GPL(xdr_decode_string_inplace); /** * xdr_terminate_string - '\0'-terminate a string residing in an xdr_buf * @buf: XDR buffer where string resides * @len: length of string, in bytes * */ void xdr_terminate_string(struct xdr_buf *buf, const u32 len) { char *kaddr; kaddr = kmap_atomic(buf->pages[0]); kaddr[buf->page_base + len] = '\0'; kunmap_atomic(kaddr); } EXPORT_SYMBOL_GPL(xdr_terminate_string); void xdr_inline_pages(struct xdr_buf *xdr, unsigned int offset, struct page **pages, unsigned int base, unsigned int len) { struct kvec *head = xdr->head; struct kvec *tail = xdr->tail; char *buf = (char *)head->iov_base; unsigned int buflen = head->iov_len; head->iov_len = offset; xdr->pages = pages; xdr->page_base = base; xdr->page_len = len; tail->iov_base = buf + offset; tail->iov_len = buflen - offset; xdr->buflen += len; } EXPORT_SYMBOL_GPL(xdr_inline_pages); /* * Helper routines for doing 'memmove' like operations on a struct xdr_buf */ /** * _shift_data_right_pages * @pages: vector of pages containing both the source and dest memory area. * @pgto_base: page vector address of destination * @pgfrom_base: page vector address of source * @len: number of bytes to copy * * Note: the addresses pgto_base and pgfrom_base are both calculated in * the same way: * if a memory area starts at byte 'base' in page 'pages[i]', * then its address is given as (i << PAGE_SHIFT) + base * Also note: pgfrom_base must be < pgto_base, but the memory areas * they point to may overlap. */ static void _shift_data_right_pages(struct page **pages, size_t pgto_base, size_t pgfrom_base, size_t len) { struct page **pgfrom, **pgto; char *vfrom, *vto; size_t copy; BUG_ON(pgto_base <= pgfrom_base); pgto_base += len; pgfrom_base += len; pgto = pages + (pgto_base >> PAGE_SHIFT); pgfrom = pages + (pgfrom_base >> PAGE_SHIFT); pgto_base &= ~PAGE_MASK; pgfrom_base &= ~PAGE_MASK; do { /* Are any pointers crossing a page boundary? */ if (pgto_base == 0) { pgto_base = PAGE_SIZE; pgto--; } if (pgfrom_base == 0) { pgfrom_base = PAGE_SIZE; pgfrom--; } copy = len; if (copy > pgto_base) copy = pgto_base; if (copy > pgfrom_base) copy = pgfrom_base; pgto_base -= copy; pgfrom_base -= copy; vto = kmap_atomic(*pgto); if (*pgto != *pgfrom) { vfrom = kmap_atomic(*pgfrom); memcpy(vto + pgto_base, vfrom + pgfrom_base, copy); kunmap_atomic(vfrom); } else memmove(vto + pgto_base, vto + pgfrom_base, copy); flush_dcache_page(*pgto); kunmap_atomic(vto); } while ((len -= copy) != 0); } /** * _copy_to_pages * @pages: array of pages * @pgbase: page vector address of destination * @p: pointer to source data * @len: length * * Copies data from an arbitrary memory location into an array of pages * The copy is assumed to be non-overlapping. */ static void _copy_to_pages(struct page **pages, size_t pgbase, const char *p, size_t len) { struct page **pgto; char *vto; size_t copy; pgto = pages + (pgbase >> PAGE_SHIFT); pgbase &= ~PAGE_MASK; for (;;) { copy = PAGE_SIZE - pgbase; if (copy > len) copy = len; vto = kmap_atomic(*pgto); memcpy(vto + pgbase, p, copy); kunmap_atomic(vto); len -= copy; if (len == 0) break; pgbase += copy; if (pgbase == PAGE_SIZE) { flush_dcache_page(*pgto); pgbase = 0; pgto++; } p += copy; } flush_dcache_page(*pgto); } /** * _copy_from_pages * @p: pointer to destination * @pages: array of pages * @pgbase: offset of source data * @len: length * * Copies data into an arbitrary memory location from an array of pages * The copy is assumed to be non-overlapping. */ void _copy_from_pages(char *p, struct page **pages, size_t pgbase, size_t len) { struct page **pgfrom; char *vfrom; size_t copy; pgfrom = pages + (pgbase >> PAGE_SHIFT); pgbase &= ~PAGE_MASK; do { copy = PAGE_SIZE - pgbase; if (copy > len) copy = len; vfrom = kmap_atomic(*pgfrom); memcpy(p, vfrom + pgbase, copy); kunmap_atomic(vfrom); pgbase += copy; if (pgbase == PAGE_SIZE) { pgbase = 0; pgfrom++; } p += copy; } while ((len -= copy) != 0); } EXPORT_SYMBOL_GPL(_copy_from_pages); /** * xdr_shrink_bufhead * @buf: xdr_buf * @len: bytes to remove from buf->head[0] * * Shrinks XDR buffer's header kvec buf->head[0] by * 'len' bytes. The extra data is not lost, but is instead * moved into the inlined pages and/or the tail. */ static void xdr_shrink_bufhead(struct xdr_buf *buf, size_t len) { struct kvec *head, *tail; size_t copy, offs; unsigned int pglen = buf->page_len; tail = buf->tail; head = buf->head; WARN_ON_ONCE(len > head->iov_len); if (len > head->iov_len) len = head->iov_len; /* Shift the tail first */ if (tail->iov_len != 0) { if (tail->iov_len > len) { copy = tail->iov_len - len; memmove((char *)tail->iov_base + len, tail->iov_base, copy); } /* Copy from the inlined pages into the tail */ copy = len; if (copy > pglen) copy = pglen; offs = len - copy; if (offs >= tail->iov_len) copy = 0; else if (copy > tail->iov_len - offs) copy = tail->iov_len - offs; if (copy != 0) _copy_from_pages((char *)tail->iov_base + offs, buf->pages, buf->page_base + pglen + offs - len, copy); /* Do we also need to copy data from the head into the tail ? */ if (len > pglen) { offs = copy = len - pglen; if (copy > tail->iov_len) copy = tail->iov_len; memcpy(tail->iov_base, (char *)head->iov_base + head->iov_len - offs, copy); } } /* Now handle pages */ if (pglen != 0) { if (pglen > len) _shift_data_right_pages(buf->pages, buf->page_base + len, buf->page_base, pglen - len); copy = len; if (len > pglen) copy = pglen; _copy_to_pages(buf->pages, buf->page_base, (char *)head->iov_base + head->iov_len - len, copy); } head->iov_len -= len; buf->buflen -= len; /* Have we truncated the message? */ if (buf->len > buf->buflen) buf->len = buf->buflen; } /** * xdr_shrink_pagelen * @buf: xdr_buf * @len: bytes to remove from buf->pages * * Shrinks XDR buffer's page array buf->pages by * 'len' bytes. The extra data is not lost, but is instead * moved into the tail. */ static void xdr_shrink_pagelen(struct xdr_buf *buf, size_t len) { struct kvec *tail; size_t copy; unsigned int pglen = buf->page_len; unsigned int tailbuf_len; tail = buf->tail; BUG_ON (len > pglen); tailbuf_len = buf->buflen - buf->head->iov_len - buf->page_len; /* Shift the tail first */ if (tailbuf_len != 0) { unsigned int free_space = tailbuf_len - tail->iov_len; if (len < free_space) free_space = len; tail->iov_len += free_space; copy = len; if (tail->iov_len > len) { char *p = (char *)tail->iov_base + len; memmove(p, tail->iov_base, tail->iov_len - len); } else copy = tail->iov_len; /* Copy from the inlined pages into the tail */ _copy_from_pages((char *)tail->iov_base, buf->pages, buf->page_base + pglen - len, copy); } buf->page_len -= len; buf->buflen -= len; /* Have we truncated the message? */ if (buf->len > buf->buflen) buf->len = buf->buflen; } void xdr_shift_buf(struct xdr_buf *buf, size_t len) { xdr_shrink_bufhead(buf, len); } EXPORT_SYMBOL_GPL(xdr_shift_buf); /** * xdr_stream_pos - Return the current offset from the start of the xdr_stream * @xdr: pointer to struct xdr_stream */ unsigned int xdr_stream_pos(const struct xdr_stream *xdr) { return (unsigned int)(XDR_QUADLEN(xdr->buf->len) - xdr->nwords) << 2; } EXPORT_SYMBOL_GPL(xdr_stream_pos); /** * xdr_init_encode - Initialize a struct xdr_stream for sending data. * @xdr: pointer to xdr_stream struct * @buf: pointer to XDR buffer in which to encode data * @p: current pointer inside XDR buffer * * Note: at the moment the RPC client only passes the length of our * scratch buffer in the xdr_buf's header kvec. Previously this * meant we needed to call xdr_adjust_iovec() after encoding the * data. With the new scheme, the xdr_stream manages the details * of the buffer length, and takes care of adjusting the kvec * length for us. */ void xdr_init_encode(struct xdr_stream *xdr, struct xdr_buf *buf, __be32 *p) { struct kvec *iov = buf->head; int scratch_len = buf->buflen - buf->page_len - buf->tail[0].iov_len; xdr_set_scratch_buffer(xdr, NULL, 0); BUG_ON(scratch_len < 0); xdr->buf = buf; xdr->iov = iov; xdr->p = (__be32 *)((char *)iov->iov_base + iov->iov_len); xdr->end = (__be32 *)((char *)iov->iov_base + scratch_len); BUG_ON(iov->iov_len > scratch_len); if (p != xdr->p && p != NULL) { size_t len; BUG_ON(p < xdr->p || p > xdr->end); len = (char *)p - (char *)xdr->p; xdr->p = p; buf->len += len; iov->iov_len += len; } } EXPORT_SYMBOL_GPL(xdr_init_encode); /** * xdr_commit_encode - Ensure all data is written to buffer * @xdr: pointer to xdr_stream * * We handle encoding across page boundaries by giving the caller a * temporary location to write to, then later copying the data into * place; xdr_commit_encode does that copying. * * Normally the caller doesn't need to call this directly, as the * following xdr_reserve_space will do it. But an explicit call may be * required at the end of encoding, or any other time when the xdr_buf * data might be read. */ void xdr_commit_encode(struct xdr_stream *xdr) { int shift = xdr->scratch.iov_len; void *page; if (shift == 0) return; page = page_address(*xdr->page_ptr); memcpy(xdr->scratch.iov_base, page, shift); memmove(page, page + shift, (void *)xdr->p - page); xdr->scratch.iov_len = 0; } EXPORT_SYMBOL_GPL(xdr_commit_encode); static __be32 *xdr_get_next_encode_buffer(struct xdr_stream *xdr, size_t nbytes) { static __be32 *p; int space_left; int frag1bytes, frag2bytes; if (nbytes > PAGE_SIZE) return NULL; /* Bigger buffers require special handling */ if (xdr->buf->len + nbytes > xdr->buf->buflen) return NULL; /* Sorry, we're totally out of space */ frag1bytes = (xdr->end - xdr->p) << 2; frag2bytes = nbytes - frag1bytes; if (xdr->iov) xdr->iov->iov_len += frag1bytes; else xdr->buf->page_len += frag1bytes; xdr->page_ptr++; xdr->iov = NULL; /* * If the last encode didn't end exactly on a page boundary, the * next one will straddle boundaries. Encode into the next * page, then copy it back later in xdr_commit_encode. We use * the "scratch" iov to track any temporarily unused fragment of * space at the end of the previous buffer: */ xdr->scratch.iov_base = xdr->p; xdr->scratch.iov_len = frag1bytes; p = page_address(*xdr->page_ptr); /* * Note this is where the next encode will start after we've * shifted this one back: */ xdr->p = (void *)p + frag2bytes; space_left = xdr->buf->buflen - xdr->buf->len; xdr->end = (void *)p + min_t(int, space_left, PAGE_SIZE); xdr->buf->page_len += frag2bytes; xdr->buf->len += nbytes; return p; } /** * xdr_reserve_space - Reserve buffer space for sending * @xdr: pointer to xdr_stream * @nbytes: number of bytes to reserve * * Checks that we have enough buffer space to encode 'nbytes' more * bytes of data. If so, update the total xdr_buf length, and * adjust the length of the current kvec. */ __be32 * xdr_reserve_space(struct xdr_stream *xdr, size_t nbytes) { __be32 *p = xdr->p; __be32 *q; xdr_commit_encode(xdr); /* align nbytes on the next 32-bit boundary */ nbytes += 3; nbytes &= ~3; q = p + (nbytes >> 2); if (unlikely(q > xdr->end || q < p)) return xdr_get_next_encode_buffer(xdr, nbytes); xdr->p = q; if (xdr->iov) xdr->iov->iov_len += nbytes; else xdr->buf->page_len += nbytes; xdr->buf->len += nbytes; return p; } EXPORT_SYMBOL_GPL(xdr_reserve_space); /** * xdr_truncate_encode - truncate an encode buffer * @xdr: pointer to xdr_stream * @len: new length of buffer * * Truncates the xdr stream, so that xdr->buf->len == len, * and xdr->p points at offset len from the start of the buffer, and * head, tail, and page lengths are adjusted to correspond. * * If this means moving xdr->p to a different buffer, we assume that * that the end pointer should be set to the end of the current page, * except in the case of the head buffer when we assume the head * buffer's current length represents the end of the available buffer. * * This is *not* safe to use on a buffer that already has inlined page * cache pages (as in a zero-copy server read reply), except for the * simple case of truncating from one position in the tail to another. * */ void xdr_truncate_encode(struct xdr_stream *xdr, size_t len) { struct xdr_buf *buf = xdr->buf; struct kvec *head = buf->head; struct kvec *tail = buf->tail; int fraglen; int new; if (len > buf->len) { WARN_ON_ONCE(1); return; } xdr_commit_encode(xdr); fraglen = min_t(int, buf->len - len, tail->iov_len); tail->iov_len -= fraglen; buf->len -= fraglen; if (tail->iov_len) { xdr->p = tail->iov_base + tail->iov_len; WARN_ON_ONCE(!xdr->end); WARN_ON_ONCE(!xdr->iov); return; } WARN_ON_ONCE(fraglen); fraglen = min_t(int, buf->len - len, buf->page_len); buf->page_len -= fraglen; buf->len -= fraglen; new = buf->page_base + buf->page_len; xdr->page_ptr = buf->pages + (new >> PAGE_SHIFT); if (buf->page_len) { xdr->p = page_address(*xdr->page_ptr); xdr->end = (void *)xdr->p + PAGE_SIZE; xdr->p = (void *)xdr->p + (new % PAGE_SIZE); WARN_ON_ONCE(xdr->iov); return; } if (fraglen) { xdr->end = head->iov_base + head->iov_len; xdr->page_ptr--; } /* (otherwise assume xdr->end is already set) */ head->iov_len = len; buf->len = len; xdr->p = head->iov_base + head->iov_len; xdr->iov = buf->head; } EXPORT_SYMBOL(xdr_truncate_encode); /** * xdr_restrict_buflen - decrease available buffer space * @xdr: pointer to xdr_stream * @newbuflen: new maximum number of bytes available * * Adjust our idea of how much space is available in the buffer. * If we've already used too much space in the buffer, returns -1. * If the available space is already smaller than newbuflen, returns 0 * and does nothing. Otherwise, adjusts xdr->buf->buflen to newbuflen * and ensures xdr->end is set at most offset newbuflen from the start * of the buffer. */ int xdr_restrict_buflen(struct xdr_stream *xdr, int newbuflen) { struct xdr_buf *buf = xdr->buf; int left_in_this_buf = (void *)xdr->end - (void *)xdr->p; int end_offset = buf->len + left_in_this_buf; if (newbuflen < 0 || newbuflen < buf->len) return -1; if (newbuflen > buf->buflen) return 0; if (newbuflen < end_offset) xdr->end = (void *)xdr->end + newbuflen - end_offset; buf->buflen = newbuflen; return 0; } EXPORT_SYMBOL(xdr_restrict_buflen); /** * xdr_write_pages - Insert a list of pages into an XDR buffer for sending * @xdr: pointer to xdr_stream * @pages: list of pages * @base: offset of first byte * @len: length of data in bytes * */ void xdr_write_pages(struct xdr_stream *xdr, struct page **pages, unsigned int base, unsigned int len) { struct xdr_buf *buf = xdr->buf; struct kvec *iov = buf->tail; buf->pages = pages; buf->page_base = base; buf->page_len = len; iov->iov_base = (char *)xdr->p; iov->iov_len = 0; xdr->iov = iov; if (len & 3) { unsigned int pad = 4 - (len & 3); BUG_ON(xdr->p >= xdr->end); iov->iov_base = (char *)xdr->p + (len & 3); iov->iov_len += pad; len += pad; *xdr->p++ = 0; } buf->buflen += len; buf->len += len; } EXPORT_SYMBOL_GPL(xdr_write_pages); static void xdr_set_iov(struct xdr_stream *xdr, struct kvec *iov, unsigned int len) { if (len > iov->iov_len) len = iov->iov_len; xdr->p = (__be32*)iov->iov_base; xdr->end = (__be32*)(iov->iov_base + len); xdr->iov = iov; xdr->page_ptr = NULL; } static int xdr_set_page_base(struct xdr_stream *xdr, unsigned int base, unsigned int len) { unsigned int pgnr; unsigned int maxlen; unsigned int pgoff; unsigned int pgend; void *kaddr; maxlen = xdr->buf->page_len; if (base >= maxlen) return -EINVAL; maxlen -= base; if (len > maxlen) len = maxlen; base += xdr->buf->page_base; pgnr = base >> PAGE_SHIFT; xdr->page_ptr = &xdr->buf->pages[pgnr]; kaddr = page_address(*xdr->page_ptr); pgoff = base & ~PAGE_MASK; xdr->p = (__be32*)(kaddr + pgoff); pgend = pgoff + len; if (pgend > PAGE_SIZE) pgend = PAGE_SIZE; xdr->end = (__be32*)(kaddr + pgend); xdr->iov = NULL; return 0; } static void xdr_set_next_page(struct xdr_stream *xdr) { unsigned int newbase; newbase = (1 + xdr->page_ptr - xdr->buf->pages) << PAGE_SHIFT; newbase -= xdr->buf->page_base; if (xdr_set_page_base(xdr, newbase, PAGE_SIZE) < 0) xdr_set_iov(xdr, xdr->buf->tail, xdr->nwords << 2); } static bool xdr_set_next_buffer(struct xdr_stream *xdr) { if (xdr->page_ptr != NULL) xdr_set_next_page(xdr); else if (xdr->iov == xdr->buf->head) { if (xdr_set_page_base(xdr, 0, PAGE_SIZE) < 0) xdr_set_iov(xdr, xdr->buf->tail, xdr->nwords << 2); } return xdr->p != xdr->end; } /** * xdr_init_decode - Initialize an xdr_stream for decoding data. * @xdr: pointer to xdr_stream struct * @buf: pointer to XDR buffer from which to decode data * @p: current pointer inside XDR buffer */ void xdr_init_decode(struct xdr_stream *xdr, struct xdr_buf *buf, __be32 *p) { xdr->buf = buf; xdr->scratch.iov_base = NULL; xdr->scratch.iov_len = 0; xdr->nwords = XDR_QUADLEN(buf->len); if (buf->head[0].iov_len != 0) xdr_set_iov(xdr, buf->head, buf->len); else if (buf->page_len != 0) xdr_set_page_base(xdr, 0, buf->len); else xdr_set_iov(xdr, buf->head, buf->len); if (p != NULL && p > xdr->p && xdr->end >= p) { xdr->nwords -= p - xdr->p; xdr->p = p; } } EXPORT_SYMBOL_GPL(xdr_init_decode); /** * xdr_init_decode - Initialize an xdr_stream for decoding data. * @xdr: pointer to xdr_stream struct * @buf: pointer to XDR buffer from which to decode data * @pages: list of pages to decode into * @len: length in bytes of buffer in pages */ void xdr_init_decode_pages(struct xdr_stream *xdr, struct xdr_buf *buf, struct page **pages, unsigned int len) { memset(buf, 0, sizeof(*buf)); buf->pages = pages; buf->page_len = len; buf->buflen = len; buf->len = len; xdr_init_decode(xdr, buf, NULL); } EXPORT_SYMBOL_GPL(xdr_init_decode_pages); static __be32 * __xdr_inline_decode(struct xdr_stream *xdr, size_t nbytes) { unsigned int nwords = XDR_QUADLEN(nbytes); __be32 *p = xdr->p; __be32 *q = p + nwords; if (unlikely(nwords > xdr->nwords || q > xdr->end || q < p)) return NULL; xdr->p = q; xdr->nwords -= nwords; return p; } /** * xdr_set_scratch_buffer - Attach a scratch buffer for decoding data. * @xdr: pointer to xdr_stream struct * @buf: pointer to an empty buffer * @buflen: size of 'buf' * * The scratch buffer is used when decoding from an array of pages. * If an xdr_inline_decode() call spans across page boundaries, then * we copy the data into the scratch buffer in order to allow linear * access. */ void xdr_set_scratch_buffer(struct xdr_stream *xdr, void *buf, size_t buflen) { xdr->scratch.iov_base = buf; xdr->scratch.iov_len = buflen; } EXPORT_SYMBOL_GPL(xdr_set_scratch_buffer); static __be32 *xdr_copy_to_scratch(struct xdr_stream *xdr, size_t nbytes) { __be32 *p; char *cpdest = xdr->scratch.iov_base; size_t cplen = (char *)xdr->end - (char *)xdr->p; if (nbytes > xdr->scratch.iov_len) return NULL; p = __xdr_inline_decode(xdr, cplen); if (p == NULL) return NULL; memcpy(cpdest, p, cplen); cpdest += cplen; nbytes -= cplen; if (!xdr_set_next_buffer(xdr)) return NULL; p = __xdr_inline_decode(xdr, nbytes); if (p == NULL) return NULL; memcpy(cpdest, p, nbytes); return xdr->scratch.iov_base; } /** * xdr_inline_decode - Retrieve XDR data to decode * @xdr: pointer to xdr_stream struct * @nbytes: number of bytes of data to decode * * Check if the input buffer is long enough to enable us to decode * 'nbytes' more bytes of data starting at the current position. * If so return the current pointer, then update the current * pointer position. */ __be32 * xdr_inline_decode(struct xdr_stream *xdr, size_t nbytes) { __be32 *p; if (nbytes == 0) return xdr->p; if (xdr->p == xdr->end && !xdr_set_next_buffer(xdr)) return NULL; p = __xdr_inline_decode(xdr, nbytes); if (p != NULL) return p; return xdr_copy_to_scratch(xdr, nbytes); } EXPORT_SYMBOL_GPL(xdr_inline_decode); static unsigned int xdr_align_pages(struct xdr_stream *xdr, unsigned int len) { struct xdr_buf *buf = xdr->buf; struct kvec *iov; unsigned int nwords = XDR_QUADLEN(len); unsigned int cur = xdr_stream_pos(xdr); if (xdr->nwords == 0) return 0; /* Realign pages to current pointer position */ iov = buf->head; if (iov->iov_len > cur) { xdr_shrink_bufhead(buf, iov->iov_len - cur); xdr->nwords = XDR_QUADLEN(buf->len - cur); } if (nwords > xdr->nwords) { nwords = xdr->nwords; len = nwords << 2; } if (buf->page_len <= len) len = buf->page_len; else if (nwords < xdr->nwords) { /* Truncate page data and move it into the tail */ xdr_shrink_pagelen(buf, buf->page_len - len); xdr->nwords = XDR_QUADLEN(buf->len - cur); } return len; } /** * xdr_read_pages - Ensure page-based XDR data to decode is aligned at current pointer position * @xdr: pointer to xdr_stream struct * @len: number of bytes of page data * * Moves data beyond the current pointer position from the XDR head[] buffer * into the page list. Any data that lies beyond current position + "len" * bytes is moved into the XDR tail[]. * * Returns the number of XDR encoded bytes now contained in the pages */ unsigned int xdr_read_pages(struct xdr_stream *xdr, unsigned int len) { struct xdr_buf *buf = xdr->buf; struct kvec *iov; unsigned int nwords; unsigned int end; unsigned int padding; len = xdr_align_pages(xdr, len); if (len == 0) return 0; nwords = XDR_QUADLEN(len); padding = (nwords << 2) - len; xdr->iov = iov = buf->tail; /* Compute remaining message length. */ end = ((xdr->nwords - nwords) << 2) + padding; if (end > iov->iov_len) end = iov->iov_len; /* * Position current pointer at beginning of tail, and * set remaining message length. */ xdr->p = (__be32 *)((char *)iov->iov_base + padding); xdr->end = (__be32 *)((char *)iov->iov_base + end); xdr->page_ptr = NULL; xdr->nwords = XDR_QUADLEN(end - padding); return len; } EXPORT_SYMBOL_GPL(xdr_read_pages); /** * xdr_enter_page - decode data from the XDR page * @xdr: pointer to xdr_stream struct * @len: number of bytes of page data * * Moves data beyond the current pointer position from the XDR head[] buffer * into the page list. Any data that lies beyond current position + "len" * bytes is moved into the XDR tail[]. The current pointer is then * repositioned at the beginning of the first XDR page. */ void xdr_enter_page(struct xdr_stream *xdr, unsigned int len) { len = xdr_align_pages(xdr, len); /* * Position current pointer at beginning of tail, and * set remaining message length. */ if (len != 0) xdr_set_page_base(xdr, 0, len); } EXPORT_SYMBOL_GPL(xdr_enter_page); static struct kvec empty_iov = {.iov_base = NULL, .iov_len = 0}; void xdr_buf_from_iov(struct kvec *iov, struct xdr_buf *buf) { buf->head[0] = *iov; buf->tail[0] = empty_iov; buf->page_len = 0; buf->buflen = buf->len = iov->iov_len; } EXPORT_SYMBOL_GPL(xdr_buf_from_iov); /** * xdr_buf_subsegment - set subbuf to a portion of buf * @buf: an xdr buffer * @subbuf: the result buffer * @base: beginning of range in bytes * @len: length of range in bytes * * sets @subbuf to an xdr buffer representing the portion of @buf of * length @len starting at offset @base. * * @buf and @subbuf may be pointers to the same struct xdr_buf. * * Returns -1 if base of length are out of bounds. */ int xdr_buf_subsegment(struct xdr_buf *buf, struct xdr_buf *subbuf, unsigned int base, unsigned int len) { subbuf->buflen = subbuf->len = len; if (base < buf->head[0].iov_len) { subbuf->head[0].iov_base = buf->head[0].iov_base + base; subbuf->head[0].iov_len = min_t(unsigned int, len, buf->head[0].iov_len - base); len -= subbuf->head[0].iov_len; base = 0; } else { base -= buf->head[0].iov_len; subbuf->head[0].iov_len = 0; } if (base < buf->page_len) { subbuf->page_len = min(buf->page_len - base, len); base += buf->page_base; subbuf->page_base = base & ~PAGE_MASK; subbuf->pages = &buf->pages[base >> PAGE_SHIFT]; len -= subbuf->page_len; base = 0; } else { base -= buf->page_len; subbuf->page_len = 0; } if (base < buf->tail[0].iov_len) { subbuf->tail[0].iov_base = buf->tail[0].iov_base + base; subbuf->tail[0].iov_len = min_t(unsigned int, len, buf->tail[0].iov_len - base); len -= subbuf->tail[0].iov_len; base = 0; } else { base -= buf->tail[0].iov_len; subbuf->tail[0].iov_len = 0; } if (base || len) return -1; return 0; } EXPORT_SYMBOL_GPL(xdr_buf_subsegment); /** * xdr_buf_trim - lop at most "len" bytes off the end of "buf" * @buf: buf to be trimmed * @len: number of bytes to reduce "buf" by * * Trim an xdr_buf by the given number of bytes by fixing up the lengths. Note * that it's possible that we'll trim less than that amount if the xdr_buf is * too small, or if (for instance) it's all in the head and the parser has * already read too far into it. */ void xdr_buf_trim(struct xdr_buf *buf, unsigned int len) { size_t cur; unsigned int trim = len; if (buf->tail[0].iov_len) { cur = min_t(size_t, buf->tail[0].iov_len, trim); buf->tail[0].iov_len -= cur; trim -= cur; if (!trim) goto fix_len; } if (buf->page_len) { cur = min_t(unsigned int, buf->page_len, trim); buf->page_len -= cur; trim -= cur; if (!trim) goto fix_len; } if (buf->head[0].iov_len) { cur = min_t(size_t, buf->head[0].iov_len, trim); buf->head[0].iov_len -= cur; trim -= cur; } fix_len: buf->len -= (len - trim); } EXPORT_SYMBOL_GPL(xdr_buf_trim); static void __read_bytes_from_xdr_buf(struct xdr_buf *subbuf, void *obj, unsigned int len) { unsigned int this_len; this_len = min_t(unsigned int, len, subbuf->head[0].iov_len); memcpy(obj, subbuf->head[0].iov_base, this_len); len -= this_len; obj += this_len; this_len = min_t(unsigned int, len, subbuf->page_len); if (this_len) _copy_from_pages(obj, subbuf->pages, subbuf->page_base, this_len); len -= this_len; obj += this_len; this_len = min_t(unsigned int, len, subbuf->tail[0].iov_len); memcpy(obj, subbuf->tail[0].iov_base, this_len); } /* obj is assumed to point to allocated memory of size at least len: */ int read_bytes_from_xdr_buf(struct xdr_buf *buf, unsigned int base, void *obj, unsigned int len) { struct xdr_buf subbuf; int status; status = xdr_buf_subsegment(buf, &subbuf, base, len); if (status != 0) return status; __read_bytes_from_xdr_buf(&subbuf, obj, len); return 0; } EXPORT_SYMBOL_GPL(read_bytes_from_xdr_buf); static void __write_bytes_to_xdr_buf(struct xdr_buf *subbuf, void *obj, unsigned int len) { unsigned int this_len; this_len = min_t(unsigned int, len, subbuf->head[0].iov_len); memcpy(subbuf->head[0].iov_base, obj, this_len); len -= this_len; obj += this_len; this_len = min_t(unsigned int, len, subbuf->page_len); if (this_len) _copy_to_pages(subbuf->pages, subbuf->page_base, obj, this_len); len -= this_len; obj += this_len; this_len = min_t(unsigned int, len, subbuf->tail[0].iov_len); memcpy(subbuf->tail[0].iov_base, obj, this_len); } /* obj is assumed to point to allocated memory of size at least len: */ int write_bytes_to_xdr_buf(struct xdr_buf *buf, unsigned int base, void *obj, unsigned int len) { struct xdr_buf subbuf; int status; status = xdr_buf_subsegment(buf, &subbuf, base, len); if (status != 0) return status; __write_bytes_to_xdr_buf(&subbuf, obj, len); return 0; } EXPORT_SYMBOL_GPL(write_bytes_to_xdr_buf); int xdr_decode_word(struct xdr_buf *buf, unsigned int base, u32 *obj) { __be32 raw; int status; status = read_bytes_from_xdr_buf(buf, base, &raw, sizeof(*obj)); if (status) return status; *obj = be32_to_cpu(raw); return 0; } EXPORT_SYMBOL_GPL(xdr_decode_word); int xdr_encode_word(struct xdr_buf *buf, unsigned int base, u32 obj) { __be32 raw = cpu_to_be32(obj); return write_bytes_to_xdr_buf(buf, base, &raw, sizeof(obj)); } EXPORT_SYMBOL_GPL(xdr_encode_word); /* If the netobj starting offset bytes from the start of xdr_buf is contained * entirely in the head or the tail, set object to point to it; otherwise * try to find space for it at the end of the tail, copy it there, and * set obj to point to it. */ int xdr_buf_read_netobj(struct xdr_buf *buf, struct xdr_netobj *obj, unsigned int offset) { struct xdr_buf subbuf; if (xdr_decode_word(buf, offset, &obj->len)) return -EFAULT; if (xdr_buf_subsegment(buf, &subbuf, offset + 4, obj->len)) return -EFAULT; /* Is the obj contained entirely in the head? */ obj->data = subbuf.head[0].iov_base; if (subbuf.head[0].iov_len == obj->len) return 0; /* ..or is the obj contained entirely in the tail? */ obj->data = subbuf.tail[0].iov_base; if (subbuf.tail[0].iov_len == obj->len) return 0; /* use end of tail as storage for obj: * (We don't copy to the beginning because then we'd have * to worry about doing a potentially overlapping copy. * This assumes the object is at most half the length of the * tail.) */ if (obj->len > buf->buflen - buf->len) return -ENOMEM; if (buf->tail[0].iov_len != 0) obj->data = buf->tail[0].iov_base + buf->tail[0].iov_len; else obj->data = buf->head[0].iov_base + buf->head[0].iov_len; __read_bytes_from_xdr_buf(&subbuf, obj->data, obj->len); return 0; } EXPORT_SYMBOL_GPL(xdr_buf_read_netobj); /* Returns 0 on success, or else a negative error code. */ static int xdr_xcode_array2(struct xdr_buf *buf, unsigned int base, struct xdr_array2_desc *desc, int encode) { char *elem = NULL, *c; unsigned int copied = 0, todo, avail_here; struct page **ppages = NULL; int err; if (encode) { if (xdr_encode_word(buf, base, desc->array_len) != 0) return -EINVAL; } else { if (xdr_decode_word(buf, base, &desc->array_len) != 0 || desc->array_len > desc->array_maxlen || (unsigned long) base + 4 + desc->array_len * desc->elem_size > buf->len) return -EINVAL; } base += 4; if (!desc->xcode) return 0; todo = desc->array_len * desc->elem_size; /* process head */ if (todo && base < buf->head->iov_len) { c = buf->head->iov_base + base; avail_here = min_t(unsigned int, todo, buf->head->iov_len - base); todo -= avail_here; while (avail_here >= desc->elem_size) { err = desc->xcode(desc, c); if (err) goto out; c += desc->elem_size; avail_here -= desc->elem_size; } if (avail_here) { if (!elem) { elem = kmalloc(desc->elem_size, GFP_KERNEL); err = -ENOMEM; if (!elem) goto out; } if (encode) { err = desc->xcode(desc, elem); if (err) goto out; memcpy(c, elem, avail_here); } else memcpy(elem, c, avail_here); copied = avail_here; } base = buf->head->iov_len; /* align to start of pages */ } /* process pages array */ base -= buf->head->iov_len; if (todo && base < buf->page_len) { unsigned int avail_page; avail_here = min(todo, buf->page_len - base); todo -= avail_here; base += buf->page_base; ppages = buf->pages + (base >> PAGE_SHIFT); base &= ~PAGE_MASK; avail_page = min_t(unsigned int, PAGE_SIZE - base, avail_here); c = kmap(*ppages) + base; while (avail_here) { avail_here -= avail_page; if (copied || avail_page < desc->elem_size) { unsigned int l = min(avail_page, desc->elem_size - copied); if (!elem) { elem = kmalloc(desc->elem_size, GFP_KERNEL); err = -ENOMEM; if (!elem) goto out; } if (encode) { if (!copied) { err = desc->xcode(desc, elem); if (err) goto out; } memcpy(c, elem + copied, l); copied += l; if (copied == desc->elem_size) copied = 0; } else { memcpy(elem + copied, c, l); copied += l; if (copied == desc->elem_size) { err = desc->xcode(desc, elem); if (err) goto out; copied = 0; } } avail_page -= l; c += l; } while (avail_page >= desc->elem_size) { err = desc->xcode(desc, c); if (err) goto out; c += desc->elem_size; avail_page -= desc->elem_size; } if (avail_page) { unsigned int l = min(avail_page, desc->elem_size - copied); if (!elem) { elem = kmalloc(desc->elem_size, GFP_KERNEL); err = -ENOMEM; if (!elem) goto out; } if (encode) { if (!copied) { err = desc->xcode(desc, elem); if (err) goto out; } memcpy(c, elem + copied, l); copied += l; if (copied == desc->elem_size) copied = 0; } else { memcpy(elem + copied, c, l); copied += l; if (copied == desc->elem_size) { err = desc->xcode(desc, elem); if (err) goto out; copied = 0; } } } if (avail_here) { kunmap(*ppages); ppages++; c = kmap(*ppages); } avail_page = min(avail_here, (unsigned int) PAGE_SIZE); } base = buf->page_len; /* align to start of tail */ } /* process tail */ base -= buf->page_len; if (todo) { c = buf->tail->iov_base + base; if (copied) { unsigned int l = desc->elem_size - copied; if (encode) memcpy(c, elem + copied, l); else { memcpy(elem + copied, c, l); err = desc->xcode(desc, elem); if (err) goto out; } todo -= l; c += l; } while (todo) { err = desc->xcode(desc, c); if (err) goto out; c += desc->elem_size; todo -= desc->elem_size; } } err = 0; out: kfree(elem); if (ppages) kunmap(*ppages); return err; } int xdr_decode_array2(struct xdr_buf *buf, unsigned int base, struct xdr_array2_desc *desc) { if (base >= buf->len) return -EINVAL; return xdr_xcode_array2(buf, base, desc, 0); } EXPORT_SYMBOL_GPL(xdr_decode_array2); int xdr_encode_array2(struct xdr_buf *buf, unsigned int base, struct xdr_array2_desc *desc) { if ((unsigned long) base + 4 + desc->array_len * desc->elem_size > buf->head->iov_len + buf->page_len + buf->tail->iov_len) return -EINVAL; return xdr_xcode_array2(buf, base, desc, 1); } EXPORT_SYMBOL_GPL(xdr_encode_array2); int xdr_process_buf(struct xdr_buf *buf, unsigned int offset, unsigned int len, int (*actor)(struct scatterlist *, void *), void *data) { int i, ret = 0; unsigned int page_len, thislen, page_offset; struct scatterlist sg[1]; sg_init_table(sg, 1); if (offset >= buf->head[0].iov_len) { offset -= buf->head[0].iov_len; } else { thislen = buf->head[0].iov_len - offset; if (thislen > len) thislen = len; sg_set_buf(sg, buf->head[0].iov_base + offset, thislen); ret = actor(sg, data); if (ret) goto out; offset = 0; len -= thislen; } if (len == 0) goto out; if (offset >= buf->page_len) { offset -= buf->page_len; } else { page_len = buf->page_len - offset; if (page_len > len) page_len = len; len -= page_len; page_offset = (offset + buf->page_base) & (PAGE_SIZE - 1); i = (offset + buf->page_base) >> PAGE_SHIFT; thislen = PAGE_SIZE - page_offset; do { if (thislen > page_len) thislen = page_len; sg_set_page(sg, buf->pages[i], thislen, page_offset); ret = actor(sg, data); if (ret) goto out; page_len -= thislen; i++; page_offset = 0; thislen = PAGE_SIZE; } while (page_len != 0); offset = 0; } if (len == 0) goto out; if (offset < buf->tail[0].iov_len) { thislen = buf->tail[0].iov_len - offset; if (thislen > len) thislen = len; sg_set_buf(sg, buf->tail[0].iov_base + offset, thislen); ret = actor(sg, data); len -= thislen; } if (len != 0) ret = -EINVAL; out: return ret; } EXPORT_SYMBOL_GPL(xdr_process_buf); |