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raweas.c

来自「samba最新软件」· C语言代码 · 共 363 行
363 行
/*    Unix SMB/CIFS implementation.   parsing of EA (extended attribute) lists   Copyright (C) Andrew Tridgell 2003      This program is free software; you can redistribute it and/or modify   it under the terms of the GNU General Public License as published by   the Free Software Foundation; either version 3 of the License, or   (at your option) any later version.      This program is distributed in the hope that it will be useful,   but WITHOUT ANY WARRANTY; without even the implied warranty of   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the   GNU General Public License for more details.      You should have received a copy of the GNU General Public License   along with this program.  If not, see <http://www.gnu.org/licenses/>.*/#include "includes.h"#include "smb.h"#include "libcli/raw/libcliraw.h"/*  work out how many bytes on the wire a ea list will consume.   This assumes the names are strict ascii, which should be a  reasonable assumption*/size_t ea_list_size(uint_t num_eas, struct ea_struct *eas){	uint_t total = 4;	int i;	for (i=0;i<num_eas;i++) {		total += 4 + strlen(eas[i].name.s)+1 + eas[i].value.length;	}	return total;}/*  work out how many bytes on the wire a ea name list will consume. */static uint_t ea_name_list_size(uint_t num_names, struct ea_name *eas){	uint_t total = 4;	int i;	for (i=0;i<num_names;i++) {		total += 1 + strlen(eas[i].name.s) + 1;	}	return total;}/*  work out how many bytes on the wire a chained ea list will consume.  This assumes the names are strict ascii, which should be a  reasonable assumption*/size_t ea_list_size_chained(uint_t num_eas, struct ea_struct *eas, unsigned alignment){	uint_t total = 0;	int i;	for (i=0;i<num_eas;i++) {		uint_t len = 8 + strlen(eas[i].name.s)+1 + eas[i].value.length;		len = (len + (alignment-1)) & ~(alignment-1);		total += len;	}	return total;}/*  put a ea_list into a pre-allocated buffer - buffer must be at least  of size ea_list_size()*/void ea_put_list(uint8_t *data, uint_t num_eas, struct ea_struct *eas){	int i;	uint32_t ea_size;	ea_size = ea_list_size(num_eas, eas);	SIVAL(data, 0, ea_size);	data += 4;	for (i=0;i<num_eas;i++) {		uint_t nlen = strlen(eas[i].name.s);		SCVAL(data, 0, eas[i].flags);		SCVAL(data, 1, nlen);		SSVAL(data, 2, eas[i].value.length);		memcpy(data+4, eas[i].name.s, nlen+1);		memcpy(data+4+nlen+1, eas[i].value.data, eas[i].value.length);		data += 4+nlen+1+eas[i].value.length;	}}/*  put a chained ea_list into a pre-allocated buffer - buffer must be  at least of size ea_list_size()*/void ea_put_list_chained(uint8_t *data, uint_t num_eas, struct ea_struct *eas,			 unsigned alignment){	int i;	for (i=0;i<num_eas;i++) {		uint_t nlen = strlen(eas[i].name.s);		uint32_t len = 8+nlen+1+eas[i].value.length;		uint_t pad = ((len + (alignment-1)) & ~(alignment-1)) - len;		if (i == num_eas-1) {			SIVAL(data, 0, 0);		} else {			SIVAL(data, 0, len+pad);		}		SCVAL(data, 4, eas[i].flags);		SCVAL(data, 5, nlen);		SSVAL(data, 6, eas[i].value.length);		memcpy(data+8, eas[i].name.s, nlen+1);		memcpy(data+8+nlen+1, eas[i].value.data, eas[i].value.length);		memset(data+len, 0, pad);		data += len + pad;	}}/*  pull a ea_struct from a buffer. Return the number of bytes consumed*/uint_t ea_pull_struct(const DATA_BLOB *blob, 		      TALLOC_CTX *mem_ctx,		      struct ea_struct *ea){	uint8_t nlen;	uint16_t vlen;	if (blob->length < 6) {		return 0;	}	ea->flags = CVAL(blob->data, 0);	nlen = CVAL(blob->data, 1);	vlen = SVAL(blob->data, 2);	if (nlen+1+vlen > blob->length-4) {		return 0;	}	ea->name.s = talloc_strndup(mem_ctx, (const char *)(blob->data+4), nlen);	ea->name.private_length = nlen;	ea->value = data_blob_talloc(mem_ctx, NULL, vlen+1);	if (!ea->value.data) return 0;	if (vlen) {		memcpy(ea->value.data, blob->data+4+nlen+1, vlen);	}	ea->value.data[vlen] = 0;	ea->value.length--;	return 4 + nlen+1 + vlen;}/*  pull a ea_list from a buffer*/NTSTATUS ea_pull_list(const DATA_BLOB *blob, 		      TALLOC_CTX *mem_ctx,		      uint_t *num_eas, struct ea_struct **eas){	int n;	uint32_t ea_size, ofs;	if (blob->length < 4) {		return NT_STATUS_INFO_LENGTH_MISMATCH;	}	ea_size = IVAL(blob->data, 0);	if (ea_size > blob->length) {		return NT_STATUS_INVALID_PARAMETER;	}	ofs = 4;	n = 0;	*num_eas = 0;	*eas = NULL;	while (ofs < ea_size) {		uint_t len;		DATA_BLOB blob2;		blob2.data = blob->data + ofs;		blob2.length = ea_size - ofs;		*eas = talloc_realloc(mem_ctx, *eas, struct ea_struct, n+1);		if (! *eas) return NT_STATUS_NO_MEMORY;		len = ea_pull_struct(&blob2, mem_ctx, &(*eas)[n]);		if (len == 0) {			return NT_STATUS_INVALID_PARAMETER;		}		ofs += len;		n++;	}	*num_eas = n;	return NT_STATUS_OK;}/*  pull a chained ea_list from a buffer*/NTSTATUS ea_pull_list_chained(const DATA_BLOB *blob, 			      TALLOC_CTX *mem_ctx,			      uint_t *num_eas, struct ea_struct **eas){	int n;	uint32_t ofs;	if (blob->length < 4) {		return NT_STATUS_INFO_LENGTH_MISMATCH;	}	ofs = 0;	n = 0;	*num_eas = 0;	*eas = NULL;	while (ofs < blob->length) {		uint_t len;		DATA_BLOB blob2;		uint32_t next_ofs = IVAL(blob->data, ofs);		blob2.data = blob->data + ofs + 4;		blob2.length = blob->length - (ofs + 4);		*eas = talloc_realloc(mem_ctx, *eas, struct ea_struct, n+1);		if (! *eas) return NT_STATUS_NO_MEMORY;		len = ea_pull_struct(&blob2, mem_ctx, &(*eas)[n]);		if (len == 0) {			return NT_STATUS_INVALID_PARAMETER;		}		ofs += next_ofs;		if (ofs+4 > blob->length) {			return NT_STATUS_INVALID_PARAMETER;		}		n++;		if (next_ofs == 0) break;	}	*num_eas = n;	return NT_STATUS_OK;}/*  pull a ea_name from a buffer. Return the number of bytes consumed*/static uint_t ea_pull_name(const DATA_BLOB *blob, 			   TALLOC_CTX *mem_ctx,			   struct ea_name *ea){	uint8_t nlen;	if (blob->length < 2) {		return 0;	}	nlen = CVAL(blob->data, 0);	if (nlen+2 > blob->length) {		return 0;	}	ea->name.s = talloc_strndup(mem_ctx, (const char *)(blob->data+1), nlen);	ea->name.private_length = nlen;	return nlen+2;}/*  pull a ea_name list from a buffer*/NTSTATUS ea_pull_name_list(const DATA_BLOB *blob, 			   TALLOC_CTX *mem_ctx,			   uint_t *num_names, struct ea_name **ea_names){	int n;	uint32_t ea_size, ofs;	if (blob->length < 4) {		return NT_STATUS_INFO_LENGTH_MISMATCH;	}	ea_size = IVAL(blob->data, 0);	if (ea_size > blob->length) {		return NT_STATUS_INVALID_PARAMETER;	}	ofs = 4;	n = 0;	*num_names = 0;	*ea_names = NULL;	while (ofs < ea_size) {		uint_t len;		DATA_BLOB blob2;		blob2.data = blob->data + ofs;		blob2.length = ea_size - ofs;		*ea_names = talloc_realloc(mem_ctx, *ea_names, struct ea_name, n+1);		if (! *ea_names) return NT_STATUS_NO_MEMORY;		len = ea_pull_name(&blob2, mem_ctx, &(*ea_names)[n]);		if (len == 0) {			return NT_STATUS_INVALID_PARAMETER;		}		ofs += len;		n++;	}	*num_names = n;	return NT_STATUS_OK;}/*  put a ea_name list into a data blob*/bool ea_push_name_list(TALLOC_CTX *mem_ctx,		       DATA_BLOB *data, uint_t num_names, struct ea_name *eas){	int i;	uint32_t ea_size;	uint32_t off;	ea_size = ea_name_list_size(num_names, eas);	*data = data_blob_talloc(mem_ctx, NULL, ea_size);	if (data->data == NULL) {		return false;	}	SIVAL(data->data, 0, ea_size);	off = 4;	for (i=0;i<num_names;i++) {		uint_t nlen = strlen(eas[i].name.s);		SCVAL(data->data, off, nlen);		memcpy(data->data+off+1, eas[i].name.s, nlen+1);		off += 1+nlen+1;	}	return true;}
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