/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * MLRPC server-side NDR stream (PDU) operations. Stream operations * should return TRUE (non-zero) on success or FALSE (zero or a null * pointer) on failure. When an operation returns FALSE, including * mlndo_malloc() returning NULL, it should set the mlnds->error to * indicate what went wrong. * * When available, the relevant ndr_reference is passed to the * operation but keep in mind that it may be a null pointer. * * Functions mlndo_get_pdu(), mlndo_put_pdu(), and mlndo_pad_pdu() * must never grow the PDU data. A request for out-of-bounds data is * an error. The swap_bytes flag is 1 if NDR knows that the byte- * order in the PDU is different from the local system. */ #include #include #include #include #include #include #include #include #include #include #include #include #define NDOBUFSZ 128 #define NDR_PDU_BLOCK_SIZE (4*1024) #define NDR_PDU_BLOCK_MASK (NDR_PDU_BLOCK_SIZE - 1) #define NDR_PDU_ALIGN(N) \ (((N) + NDR_PDU_BLOCK_SIZE) & ~NDR_PDU_BLOCK_MASK) #define NDR_PDU_MAX_SIZE (64*1024*1024) static char *mlndo_malloc(struct mlndr_stream *, unsigned, struct ndr_reference *); static int mlndo_free(struct mlndr_stream *, char *, struct ndr_reference *); static int mlndo_grow_pdu(struct mlndr_stream *, unsigned long, struct ndr_reference *); static int mlndo_pad_pdu(struct mlndr_stream *, unsigned long, unsigned long, struct ndr_reference *); static int mlndo_get_pdu(struct mlndr_stream *, unsigned long, unsigned long, char *, int, struct ndr_reference *); static int mlndo_put_pdu(struct mlndr_stream *, unsigned long, unsigned long, char *, int, struct ndr_reference *); static void mlndo_tattle(struct mlndr_stream *, char *, struct ndr_reference *); static void mlndo_tattle_error(struct mlndr_stream *, struct ndr_reference *); static int mlndo_reset(struct mlndr_stream *); static void mlndo_destruct(struct mlndr_stream *); static void mlndo_hexfmt(uint8_t *, int, int, char *, int); /* * The mlndr stream operations table. */ static struct mlndr_stream_ops mlnds_ops = { mlndo_malloc, mlndo_free, mlndo_grow_pdu, mlndo_pad_pdu, mlndo_get_pdu, mlndo_put_pdu, mlndo_tattle, mlndo_tattle_error, mlndo_reset, mlndo_destruct }; /* * mlnds_bswap * * Copies len bytes from src to dst such that dst contains the bytes * from src in reverse order. * * We expect to be dealing with bytes, words, dwords etc. So the * length must be non-zero and a power of 2. */ void mlnds_bswap(void *srcbuf, void *dstbuf, size_t len) { uint8_t *src = (uint8_t *)srcbuf; uint8_t *dst = (uint8_t *)dstbuf; if ((len != 0) && ((len & (len - 1)) == 0)) { src += len; while (len--) *dst++ = *(--src); } } /* * mlnds_initialize * * Initialize a stream. Sets up the PDU parameters and assigns the stream * operations and the reference to the heap. An external heap is provided * to the stream, rather than each stream creating its own heap. */ int mlnds_initialize(struct mlndr_stream *mlnds, unsigned pdu_size_hint, int composite_op, mlrpc_heap_t *heap) { unsigned size; assert(mlnds); assert(heap); bzero(mlnds, sizeof (*mlnds)); if (pdu_size_hint > NDR_PDU_MAX_SIZE) return (0); size = (pdu_size_hint == 0) ? NDR_PDU_BLOCK_SIZE : pdu_size_hint; mlnds->pdu_base_addr = malloc(size); assert(mlnds->pdu_base_addr); mlnds->pdu_max_size = size; mlnds->pdu_size = 0; mlnds->pdu_base_offset = (unsigned long)mlnds->pdu_base_addr; mlnds->mlndo = &mlnds_ops; mlnds->heap = (struct mlrpc_heap *)heap; mlnds->m_op = composite_op & 0x0F; mlnds->dir = composite_op & 0xF0; mlnds->outer_queue_tailp = &mlnds->outer_queue_head; return (1); } int mlnds_finalize(struct mlndr_stream *mlnds, uint8_t *buf, uint32_t buflen) { ndr_frag_t *frag; uint32_t size = 0; for (frag = mlnds->head; frag; frag = frag->next) size += frag->len; if (size == 0 || size >= NDR_PDU_MAX_SIZE || size > buflen) return (0); for (frag = mlnds->head; frag; frag = frag->next) { bcopy(frag->buf, buf, frag->len); buf += frag->len; } return (size); } /* * mlnds_destruct * * Destroy a stream. This is an external interface to provide access to * the stream's destruct operation. */ void mlnds_destruct(struct mlndr_stream *mlnds) { MLNDS_DESTRUCT(mlnds); } /* * mlndo_malloc * * Allocate memory from the stream heap. */ /*ARGSUSED*/ static char * mlndo_malloc(struct mlndr_stream *mlnds, unsigned len, struct ndr_reference *ref) { return (mlrpc_heap_malloc((mlrpc_heap_t *)mlnds->heap, len)); } /* * mlndo_free * * Always succeeds: cannot free individual stream allocations. */ /*ARGSUSED*/ static int mlndo_free(struct mlndr_stream *mlnds, char *p, struct ndr_reference *ref) { return (1); } /* * mlndo_grow_pdu * * This is the only place that should change the size of the PDU. If the * desired offset is beyond the current PDU size, we realloc the PDU * buffer to accommodate the request. For efficiency, the PDU is always * extended to a NDR_PDU_BLOCK_SIZE boundary. Requests to grow the PDU * beyond NDR_PDU_MAX_SIZE are rejected. * * Returns 1 to indicate success. Otherwise 0 to indicate failure. */ static int mlndo_grow_pdu(struct mlndr_stream *mlnds, unsigned long want_end_offset, struct ndr_reference *ref) { unsigned char *pdu_addr; unsigned pdu_max_size; mlndo_printf(mlnds, ref, "grow %d", want_end_offset); pdu_max_size = mlnds->pdu_max_size; if (want_end_offset > pdu_max_size) { pdu_max_size = NDR_PDU_ALIGN(want_end_offset); if (pdu_max_size >= NDR_PDU_MAX_SIZE) return (0); pdu_addr = realloc(mlnds->pdu_base_addr, pdu_max_size); if (pdu_addr == 0) return (0); mlnds->pdu_max_size = pdu_max_size; mlnds->pdu_base_addr = pdu_addr; mlnds->pdu_base_offset = (unsigned long)pdu_addr; } mlnds->pdu_size = want_end_offset; return (1); } static int mlndo_pad_pdu(struct mlndr_stream *mlnds, unsigned long pdu_offset, unsigned long n_bytes, struct ndr_reference *ref) { unsigned char *data; data = (unsigned char *)mlnds->pdu_base_offset; data += pdu_offset; mlndo_printf(mlnds, ref, "pad %d@%-3d", n_bytes, pdu_offset); bzero(data, n_bytes); return (1); } /* * mlndo_get_pdu * * The swap flag is 1 if NDR knows that the byte-order in the PDU * is different from the local system. * * Returns 1 on success or 0 to indicate failure. */ static int mlndo_get_pdu(struct mlndr_stream *mlnds, unsigned long pdu_offset, unsigned long n_bytes, char *buf, int swap_bytes, struct ndr_reference *ref) { unsigned char *data; char hexbuf[NDOBUFSZ]; data = (unsigned char *)mlnds->pdu_base_offset; data += pdu_offset; mlndo_hexfmt(data, n_bytes, swap_bytes, hexbuf, NDOBUFSZ); mlndo_printf(mlnds, ref, "get %d@%-3d = %s", n_bytes, pdu_offset, hexbuf); if (!swap_bytes) bcopy(data, buf, n_bytes); else mlnds_bswap(data, (unsigned char *)buf, n_bytes); return (1); } /* * mlndo_put_pdu * * This is a receiver makes right protocol. So we do not need * to be concerned about the byte-order of an outgoing PDU. */ /*ARGSUSED*/ static int mlndo_put_pdu(struct mlndr_stream *mlnds, unsigned long pdu_offset, unsigned long n_bytes, char *buf, int swap_bytes, struct ndr_reference *ref) { unsigned char *data; char hexbuf[NDOBUFSZ]; data = (unsigned char *)mlnds->pdu_base_offset; data += pdu_offset; mlndo_hexfmt((uint8_t *)buf, n_bytes, 0, hexbuf, NDOBUFSZ); mlndo_printf(mlnds, ref, "put %d@%-3d = %s", n_bytes, pdu_offset, hexbuf); bcopy(buf, data, n_bytes); return (1); } static void mlndo_tattle(struct mlndr_stream *mlnds, char *what, struct ndr_reference *ref) { mlndo_printf(mlnds, ref, what); } static void mlndo_tattle_error(struct mlndr_stream *mlnds, struct ndr_reference *ref) { unsigned char *data; char hexbuf[NDOBUFSZ]; data = (unsigned char *)mlnds->pdu_base_offset; if (ref) data += ref->pdu_offset; else data += mlnds->pdu_scan_offset; mlndo_hexfmt(data, 16, 0, hexbuf, NDOBUFSZ); mlndo_printf(mlnds, ref, "ERROR=%d REF=%d OFFSET=%d SIZE=%d/%d", mlnds->error, mlnds->error_ref, mlnds->pdu_scan_offset, mlnds->pdu_size, mlnds->pdu_max_size); mlndo_printf(mlnds, ref, " %s", hexbuf); } /* * mlndo_reset * * Reset a stream: zap the outer_queue. We don't need to tamper * with the stream heap: it's handled externally to the stream. */ static int mlndo_reset(struct mlndr_stream *mlnds) { mlndo_printf(mlnds, 0, "reset"); mlnds->pdu_size = 0; mlnds->pdu_scan_offset = 0; mlnds->outer_queue_head = 0; mlnds->outer_current = 0; mlnds->outer_queue_tailp = &mlnds->outer_queue_head; return (1); } /* * mlndo_destruct * * Destruct a stream: zap the outer_queue. * Note: heap management (creation/destruction) is external to the stream. */ static void mlndo_destruct(struct mlndr_stream *mlnds) { ndr_frag_t *frag; mlndo_printf(mlnds, 0, "destruct"); if (mlnds->pdu_base_addr != NULL) { free(mlnds->pdu_base_addr); mlnds->pdu_base_addr = NULL; mlnds->pdu_base_offset = 0; } while ((frag = mlnds->head) != NULL) { mlnds->head = frag->next; free(frag); } mlnds->head = NULL; mlnds->tail = NULL; mlnds->outer_queue_head = 0; mlnds->outer_current = 0; mlnds->outer_queue_tailp = &mlnds->outer_queue_head; } /* * Printf style formatting for NDR operations. */ void mlndo_printf(struct mlndr_stream *mlnds, struct ndr_reference *ref, const char *fmt, ...) { va_list ap; char buf[NDOBUFSZ]; va_start(ap, fmt); (void) vsnprintf(buf, NDOBUFSZ, fmt, ap); va_end(ap); if (mlnds) mlndo_fmt(mlnds, ref, buf); else mlndo_trace(buf); } /* * Main output formatter for NDR operations. * * UI 03 ... rpc_vers get 1@0 = 5 {05} * UI 03 ... rpc_vers_minor get 1@1 = 0 {00} * * U Marshalling flag (M=marshal, U=unmarshal) * I Direction flag (I=in, O=out) * ... Field name * get PDU operation (get or put) * 1@0 Bytes @ offset (i.e. 1 byte at offset 0) * {05} Value */ void mlndo_fmt(struct mlndr_stream *mlnds, struct ndr_reference *ref, char *note) { struct ndr_reference *p; int indent; char ref_name[NDOBUFSZ]; char buf[NDOBUFSZ]; int m_op_c = '?', dir_c = '?'; switch (mlnds->m_op) { case 0: m_op_c = '-'; break; case NDR_M_OP_MARSHALL: m_op_c = 'M'; break; case NDR_M_OP_UNMARSHALL: m_op_c = 'U'; break; default: m_op_c = '?'; break; } switch (mlnds->dir) { case 0: dir_c = '-'; break; case NDR_DIR_IN: dir_c = 'I'; break; case NDR_DIR_OUT: dir_c = 'O'; break; default: dir_c = '?'; break; } for (indent = 0, p = ref; p; p = p->enclosing) indent++; if (ref && ref->name) { if (*ref->name == '[' && ref->enclosing) { indent--; (void) snprintf(ref_name, NDOBUFSZ, "%s%s", ref->enclosing->name, ref->name); } else { (void) strlcpy(ref_name, ref->name, NDOBUFSZ); } } else { (void) strlcpy(ref_name, "----", NDOBUFSZ); } (void) snprintf(buf, NDOBUFSZ, "%c%c %02d %-.*s %-*s %s", m_op_c, dir_c, indent, indent, "....+....+....+....+....+....", 20 - indent, ref_name, note); mlndo_trace(buf); } /*ARGSUSED*/ void mlndo_trace(const char *s) { /* * Temporary fbt for dtrace until user space sdt enabled. */ } /* * Format data as hex bytes (limit is 10 bytes): * * 1188689424 {10 f6 d9 46} * * If the input data is greater than 10 bytes, an ellipsis will * be inserted before the closing brace. */ static void mlndo_hexfmt(uint8_t *data, int size, int swap_bytes, char *buf, int len) { char *p = buf; int interp = 1; uint32_t c; int n; int i; n = (size > 10) ? 10 : size; if (n > len-1) n = len-1; switch (size) { case 1: c = *(uint8_t *)data; break; case 2: if (swap_bytes == 0) /*LINTED E_BAD_PTR_CAST_ALIGN*/ c = *(uint16_t *)data; else c = (data[0] << 8) | data[1]; break; case 4: if (swap_bytes == 0) { /*LINTED E_BAD_PTR_CAST_ALIGN*/ c = *(uint32_t *)data; } else { c = (data[0] << 24) | (data[1] << 16) | (data[2] << 8) | data[3]; } break; default: c = 0; interp = 0; break; } if (interp) p += sprintf(p, "%4u {", c); else p += sprintf(p, " {"); p += sprintf(p, "%02x", data[0]); for (i = 1; i < n; i++) p += sprintf(p, " %02x", data[i]); if (size > 10) p += sprintf(p, " ...}"); else p += sprintf(p, "}"); /* * Show c if it's a printable character or wide-char. */ if (size < 4 && isprint((uint8_t)c)) (void) sprintf(p, " %c", (uint8_t)c); }