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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
#include <qpid/dispatch/iterator.h>
#include <qpid/dispatch/ctools.h>
#include <qpid/dispatch/alloc.h>
#include <qpid/dispatch/log.h>
#include "message_private.h"
#include <stdio.h>
#include <string.h>
//static const char *log_module = "FIELD";
typedef enum {
MODE_TO_END,
MODE_TO_SLASH
} parse_mode_t;
typedef struct {
dx_buffer_t *buffer;
unsigned char *cursor;
int length;
} pointer_t;
struct dx_field_iterator_t {
pointer_t start_pointer;
pointer_t view_start_pointer;
pointer_t pointer;
dx_iterator_view_t view;
parse_mode_t mode;
unsigned char prefix;
int at_prefix;
int view_prefix;
};
ALLOC_DECLARE(dx_field_iterator_t);
ALLOC_DEFINE(dx_field_iterator_t);
typedef enum {
STATE_START,
STATE_SLASH_LEFT,
STATE_SKIPPING_TO_NEXT_SLASH,
STATE_SCANNING,
STATE_COLON,
STATE_COLON_SLASH,
STATE_AT_NODE_ID
} state_t;
static char *my_area = "";
static char *my_router = "";
static void parse_address_view(dx_field_iterator_t *iter)
{
//
// This function starts with an iterator view that is identical to
// ITER_VIEW_NO_HOST. We will now further refine the view in order
// to aid the router in looking up addresses.
//
if (dx_field_iterator_prefix(iter, "_")) {
if (dx_field_iterator_prefix(iter, "local/")) {
iter->prefix = 'L';
iter->at_prefix = 1;
iter->view_prefix = 1;
return;
}
if (dx_field_iterator_prefix(iter, "topo/")) {
if (dx_field_iterator_prefix(iter, "all/") || dx_field_iterator_prefix(iter, my_area)) {
if (dx_field_iterator_prefix(iter, "all/") || dx_field_iterator_prefix(iter, my_router)) {
iter->prefix = 'L';
iter->at_prefix = 1;
iter->view_prefix = 1;
return;
}
iter->prefix = 'R';
iter->at_prefix = 1;
iter->view_prefix = 1;
iter->mode = MODE_TO_SLASH;
return;
}
iter->prefix = 'A';
iter->at_prefix = 1;
iter->view_prefix = 1;
iter->mode = MODE_TO_SLASH;
return;
}
}
iter->prefix = 'M';
iter->at_prefix = 1;
iter->view_prefix = 1;
}
static void view_initialize(dx_field_iterator_t *iter)
{
//
// The default behavior is for the view to *not* have a prefix.
// We'll add one if it's needed later.
//
iter->at_prefix = 0;
iter->view_prefix = 0;
iter->mode = MODE_TO_END;
if (iter->view == ITER_VIEW_ALL)
return;
//
// Advance to the node-id.
//
state_t state = STATE_START;
unsigned int octet;
pointer_t save_pointer = {0,0,0};
while (!dx_field_iterator_end(iter) && state != STATE_AT_NODE_ID) {
octet = dx_field_iterator_octet(iter);
switch (state) {
case STATE_START :
if (octet == '/')
state = STATE_SLASH_LEFT;
else
state = STATE_SCANNING;
break;
case STATE_SLASH_LEFT :
if (octet == '/')
state = STATE_SKIPPING_TO_NEXT_SLASH;
else
state = STATE_AT_NODE_ID;
break;
case STATE_SKIPPING_TO_NEXT_SLASH :
if (octet == '/')
state = STATE_AT_NODE_ID;
break;
case STATE_SCANNING :
if (octet == ':')
state = STATE_COLON;
break;
case STATE_COLON :
if (octet == '/') {
state = STATE_COLON_SLASH;
save_pointer = iter->pointer;
} else
state = STATE_SCANNING;
break;
case STATE_COLON_SLASH :
if (octet == '/')
state = STATE_SKIPPING_TO_NEXT_SLASH;
else {
state = STATE_AT_NODE_ID;
iter->pointer = save_pointer;
}
break;
case STATE_AT_NODE_ID :
break;
}
}
if (state != STATE_AT_NODE_ID) {
//
// The address string was relative, not absolute. The node-id
// is at the beginning of the string.
//
iter->pointer = iter->start_pointer;
}
//
// Cursor is now on the first octet of the node-id
//
if (iter->view == ITER_VIEW_NODE_ID) {
iter->mode = MODE_TO_SLASH;
return;
}
if (iter->view == ITER_VIEW_NO_HOST) {
iter->mode = MODE_TO_END;
return;
}
if (iter->view == ITER_VIEW_ADDRESS_HASH) {
iter->mode = MODE_TO_END;
parse_address_view(iter);
return;
}
if (iter->view == ITER_VIEW_NODE_SPECIFIC) {
iter->mode = MODE_TO_END;
while (!dx_field_iterator_end(iter)) {
octet = dx_field_iterator_octet(iter);
if (octet == '/')
break;
}
return;
}
}
void dx_field_iterator_set_address(const char *area, const char *router)
{
my_area = (char*) malloc(strlen(area) + 2);
strcpy(my_area, area);
strcat(my_area, "/");
my_router = (char*) malloc(strlen(router) + 2);
strcpy(my_router, router);
strcat(my_router, "/");
}
dx_field_iterator_t* dx_field_iterator_string(const char *text, dx_iterator_view_t view)
{
dx_field_iterator_t *iter = new_dx_field_iterator_t();
if (!iter)
return 0;
iter->start_pointer.buffer = 0;
iter->start_pointer.cursor = (unsigned char*) text;
iter->start_pointer.length = strlen(text);
dx_field_iterator_reset_view(iter, view);
return iter;
}
dx_field_iterator_t* dx_field_iterator_binary(const char *text, int length, dx_iterator_view_t view)
{
dx_field_iterator_t *iter = new_dx_field_iterator_t();
if (!iter)
return 0;
iter->start_pointer.buffer = 0;
iter->start_pointer.cursor = (unsigned char*) text;
iter->start_pointer.length = length;
dx_field_iterator_reset_view(iter, view);
return iter;
}
dx_field_iterator_t *dx_field_iterator_buffer(dx_buffer_t *buffer, int offset, int length, dx_iterator_view_t view)
{
dx_field_iterator_t *iter = new_dx_field_iterator_t();
if (!iter)
return 0;
iter->start_pointer.buffer = buffer;
iter->start_pointer.cursor = dx_buffer_base(buffer) + offset;
iter->start_pointer.length = length;
dx_field_iterator_reset_view(iter, view);
return iter;
}
void dx_field_iterator_free(dx_field_iterator_t *iter)
{
free_dx_field_iterator_t(iter);
}
void dx_field_iterator_reset(dx_field_iterator_t *iter)
{
iter->pointer = iter->view_start_pointer;
iter->at_prefix = iter->view_prefix;
}
void dx_field_iterator_reset_view(dx_field_iterator_t *iter, dx_iterator_view_t view)
{
iter->pointer = iter->start_pointer;
iter->view = view;
view_initialize(iter);
iter->view_start_pointer = iter->pointer;
}
unsigned char dx_field_iterator_octet(dx_field_iterator_t *iter)
{
if (iter->at_prefix) {
iter->at_prefix = 0;
return iter->prefix;
}
if (iter->pointer.length == 0)
return (unsigned char) 0;
unsigned char result = *(iter->pointer.cursor);
iter->pointer.cursor++;
iter->pointer.length--;
if (iter->pointer.length > 0) {
if (iter->pointer.buffer) {
if (iter->pointer.cursor - dx_buffer_base(iter->pointer.buffer) == dx_buffer_size(iter->pointer.buffer)) {
iter->pointer.buffer = iter->pointer.buffer->next;
if (iter->pointer.buffer == 0)
iter->pointer.length = 0;
iter->pointer.cursor = dx_buffer_base(iter->pointer.buffer);
}
}
}
if (iter->pointer.length && iter->mode == MODE_TO_SLASH && *(iter->pointer.cursor) == '/')
iter->pointer.length = 0;
return result;
}
int dx_field_iterator_end(dx_field_iterator_t *iter)
{
return iter->pointer.length == 0;
}
dx_field_iterator_t *dx_field_iterator_sub(dx_field_iterator_t *iter, uint32_t length)
{
dx_field_iterator_t *sub = new_dx_field_iterator_t();
if (!sub)
return 0;
sub->start_pointer = iter->pointer;
sub->start_pointer.length = length;
sub->view_start_pointer = sub->start_pointer;
sub->pointer = sub->start_pointer;
sub->view = iter->view;
sub->mode = iter->mode;
sub->at_prefix = 0;
sub->view_prefix = 0;
return sub;
}
void dx_field_iterator_advance(dx_field_iterator_t *iter, uint32_t length)
{
// TODO - Make this more efficient.
for (uint8_t idx = 0; idx < length && !dx_field_iterator_end(iter); idx++)
dx_field_iterator_octet(iter);
}
uint32_t dx_field_iterator_remaining(dx_field_iterator_t *iter)
{
return iter->pointer.length;
}
int dx_field_iterator_equal(dx_field_iterator_t *iter, const unsigned char *string)
{
dx_field_iterator_reset(iter);
while (!dx_field_iterator_end(iter) && *string) {
if (*string != dx_field_iterator_octet(iter))
return 0;
string++;
}
return (dx_field_iterator_end(iter) && (*string == 0));
}
int dx_field_iterator_prefix(dx_field_iterator_t *iter, const char *prefix)
{
pointer_t save_pointer = iter->pointer;
unsigned char *c = (unsigned char*) prefix;
while(*c) {
if (*c != dx_field_iterator_octet(iter))
break;
c++;
}
if (*c) {
iter->pointer = save_pointer;
return 0;
}
return 1;
}
unsigned char *dx_field_iterator_copy(dx_field_iterator_t *iter)
{
int length = 0;
int idx = 0;
unsigned char *copy;
dx_field_iterator_reset(iter);
while (!dx_field_iterator_end(iter)) {
dx_field_iterator_octet(iter);
length++;
}
dx_field_iterator_reset(iter);
copy = (unsigned char*) malloc(length + 1);
while (!dx_field_iterator_end(iter))
copy[idx++] = dx_field_iterator_octet(iter);
copy[idx] = '\0';
return copy;
}
dx_iovec_t *dx_field_iterator_iovec(const dx_field_iterator_t *iter)
{
assert(!iter->view_prefix); // Not supported for views with a prefix
//
// Count the number of buffers this field straddles
//
pointer_t pointer = iter->view_start_pointer;
int bufcnt = 1;
dx_buffer_t *buf = pointer.buffer;
size_t bufsize = dx_buffer_size(buf) - (pointer.cursor - dx_buffer_base(pointer.buffer));
ssize_t remaining = pointer.length - bufsize;
while (remaining > 0) {
bufcnt++;
buf = buf->next;
if (!buf)
return 0;
remaining -= dx_buffer_size(buf);
}
//
// Allocate an iovec object big enough to hold the number of buffers
//
dx_iovec_t *iov = dx_iovec(bufcnt);
if (!iov)
return 0;
//
// Build out the io vectors with pointers to the segments of the field in buffers
//
bufcnt = 0;
buf = pointer.buffer;
bufsize = dx_buffer_size(buf) - (pointer.cursor - dx_buffer_base(pointer.buffer));
void *base = pointer.cursor;
remaining = pointer.length;
while (remaining > 0) {
if (bufsize > remaining)
bufsize = remaining;
dx_iovec_array(iov)[bufcnt].iov_base = base;
dx_iovec_array(iov)[bufcnt].iov_len = bufsize;
bufcnt++;
remaining -= bufsize;
if (remaining > 0) {
buf = buf->next;
base = dx_buffer_base(buf);
bufsize = dx_buffer_size(buf);
}
}
return iov;
}
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