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gerrit.named-data.net / ndnSIM / c115fba6644bf0e2895fda9f58c41e1ed402eb45 / . / model / ccn_buf_decoder.cc
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/*
* ccn_buf_decoder.cc
* Abstraction
*
* Created by Ilya on 7/29/11.
* Copyright 2011 __MyCompanyName__. All rights reserved.
*
*/
#include <string.h>
#include <stdlib.h>
#include "ccn_ccn.h"
#include "ccn_charbuf.h"
#include "ccn_coding.h"
#include "ccn_indexbuf.h"
/**
* @file ccn_buf_decoder.c
* @brief Support for Interest and ContentObject decoding.
*
* Part of the CCNx C Library.
*
* Copyright (C) 2008, 2009, 2010 Palo Alto Research Center, Inc.
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License version 2.1
* as published by the Free Software Foundation.
* This library 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
* Lesser General Public License for more details. You should have received
* a copy of the GNU Lesser General Public License along with this library;
* if not, write to the Free Software Foundation, Inc., 51 Franklin Street,
* Fifth Floor, Boston, MA 02110-1301 USA.
*/
struct ccn_buf_decoder *
ccn_buf_decoder_start(struct ccn_buf_decoder *d,
const unsigned char *buf, size_t size)
{
memset(&d->decoder, 0, sizeof(d->decoder));
d->decoder.state |= CCN_DSTATE_PAUSE;
d->buf = buf;
d->size = size;
ccn_skeleton_decode(&d->decoder, buf, size);
return(d);
}
void
ccn_buf_advance(struct ccn_buf_decoder *d)
{
ccn_skeleton_decode(&d->decoder,
d->buf + d->decoder.index,
d->size - d->decoder.index);
}
int
ccn_buf_match_dtag(struct ccn_buf_decoder *d, enum ccn_dtag dtag)
{
return (d->decoder.state >= 0 &&
CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_DTAG &&
(int)d->decoder.numval == dtag);
}
int
ccn_buf_match_some_dtag(struct ccn_buf_decoder *d)
{
return(d->decoder.state >= 0 &&
CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_DTAG);
}
int
ccn_buf_match_some_blob(struct ccn_buf_decoder *d)
{
return(d->decoder.state >= 0 &&
CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_BLOB);
}
int
ccn_buf_match_blob(struct ccn_buf_decoder *d,
const unsigned char **bufp, size_t *sizep)
{
if (ccn_buf_match_some_blob(d)) {
if (bufp != NULL)
*bufp = d->buf + d->decoder.index;
if (sizep != NULL)
*sizep = d->decoder.numval;
return (1);
}
if (bufp != NULL)
*bufp = d->buf + d->decoder.token_index;
if (sizep != NULL)
*sizep = 0;
return(0);
}
int
ccn_buf_match_udata(struct ccn_buf_decoder *d, const char *s)
{
size_t len = strlen(s);
return (d->decoder.state >= 0 &&
CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_UDATA &&
d->decoder.numval == len &&
0 == memcmp(d->buf + d->decoder.index, s, len));
}
int
ccn_buf_match_attr(struct ccn_buf_decoder *d, const char *s)
{
size_t len = strlen(s);
return (d->decoder.state >= 0 &&
CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_ATTR &&
d->decoder.numval == len &&
0 == memcmp(d->buf + d->decoder.index, s, len));
}
void
ccn_buf_check_close(struct ccn_buf_decoder *d)
{
if (d->decoder.state >= 0) {
if (CCN_GET_TT_FROM_DSTATE(d->decoder.state) != CCN_NO_TOKEN)
d->decoder.state = CCN_DSTATE_ERR_NEST;
else
ccn_buf_advance(d);
}
}
int
ccn_buf_advance_past_element(struct ccn_buf_decoder *d)
{
enum ccn_tt tt;
int nest;
if (d->decoder.state < 0)
return(d->decoder.state);
tt = (ccn_tt)CCN_GET_TT_FROM_DSTATE(d->decoder.state);
if (tt == CCN_DTAG || tt == CCN_TAG) {
nest = d->decoder.nest;
ccn_buf_advance(d);
while (d->decoder.state >= 0 && d->decoder.nest >= nest)
ccn_buf_advance(d);
/* The nest decrements before the closer is consumed */
ccn_buf_check_close(d);
}
else
return(-1);
if (d->decoder.state < 0)
return(d->decoder.state);
return (0);
}
int
ccn_parse_required_tagged_BLOB(struct ccn_buf_decoder *d, enum ccn_dtag dtag,
int minlen, int maxlen)
{
int res = -1;
size_t len = 0;
if (ccn_buf_match_dtag(d, dtag)) {
res = d->decoder.element_index;
ccn_buf_advance(d);
if (ccn_buf_match_some_blob(d)) {
len = d->decoder.numval;
ccn_buf_advance(d);
}
ccn_buf_check_close(d);
if ((int)len < minlen || (maxlen >= 0 && (int)len > maxlen)) {
d->decoder.state = -__LINE__;
}
}
else
d->decoder.state = -__LINE__;
if (d->decoder.state < 0)
return (d->decoder.state);
return(res);
}
int
ccn_parse_optional_tagged_BLOB(struct ccn_buf_decoder *d, enum ccn_dtag dtag,
int minlen, int maxlen)
{
if (ccn_buf_match_dtag(d, dtag))
return(ccn_parse_required_tagged_BLOB(d, dtag, minlen, maxlen));
return(-1);
}
uintmax_t
ccn_parse_required_tagged_binary_number(struct ccn_buf_decoder *d,
enum ccn_dtag dtag,
int minlen, int maxlen)
{
uintmax_t value = 0;
const unsigned char *p = NULL;
size_t len = 0;
int i;
if (0 <= minlen && minlen <= maxlen && maxlen <= (int)sizeof(value) &&
ccn_buf_match_dtag(d, dtag)) {
ccn_buf_advance(d);
if (ccn_buf_match_blob(d, &p, &len))
ccn_buf_advance(d);
ccn_buf_check_close(d);
if (d->decoder.state < 0)
return(value);
if (minlen <= (int)len && (int)len <= maxlen)
for (i = 0; i < (int)len; i++)
value = (value << 8) + p[i];
else
d->decoder.state = -__LINE__;
}
else
d->decoder.state = -__LINE__;
return(value);
}
uintmax_t
ccn_parse_optional_tagged_binary_number(struct ccn_buf_decoder *d, enum ccn_dtag dtag,
int minlen, int maxlen, uintmax_t default_value)
{
if (ccn_buf_match_dtag(d, dtag))
return(ccn_parse_required_tagged_binary_number(d, dtag, minlen, maxlen));
return(default_value);
}
int
ccn_parse_required_tagged_UDATA(struct ccn_buf_decoder *d, enum ccn_dtag dtag)
{
int res = -1;
if (ccn_buf_match_dtag(d, dtag)) {
res = d->decoder.element_index;
ccn_buf_advance(d);
if (d->decoder.state >= 0 &&
CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_UDATA)
ccn_buf_advance(d);
else
d->decoder.state = -__LINE__;
ccn_buf_check_close(d);
}
else
d->decoder.state = -__LINE__;
if (d->decoder.state < 0)
return (-1);
return(res);
}
int
ccn_parse_optional_tagged_UDATA(struct ccn_buf_decoder *d, enum ccn_dtag dtag)
{
if (ccn_buf_match_dtag(d, dtag))
return(ccn_parse_required_tagged_UDATA(d, dtag));
return(-1);
}
/**
* Parses a ccnb-encoded element expected to contain a UDATA string.
* @param d is the decoder
* @param dtag is the expected dtag value
* @param store - on success, the string value is appended to store,
* with null termination.
* @returns the offset into the store buffer of the copied value, or -1 for error.
* If a parse error occurs, d->decoder.state is set to a negative value.
* If the element is not present, -1 is returned but no parse error
* is indicated.
*/
int
ccn_parse_tagged_string(struct ccn_buf_decoder *d, enum ccn_dtag dtag, struct ccn_charbuf *store)
{
const unsigned char *p = NULL;
size_t size = 0;
int res;
if (ccn_buf_match_dtag(d, dtag)) {
ccn_buf_advance(d);
if (d->decoder.state >= 0 &&
CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_UDATA) {
res = store->length;
p = d->buf + d->decoder.index;
size = d->decoder.numval;
ccn_buf_advance(d);
}
ccn_buf_check_close(d);
if (d->decoder.state >= 0) {
// XXX - should check for valid utf-8 data.
res = store->length;
if (size > 0)
ccn_charbuf_append(store, p, size);
ccn_charbuf_append_value(store, 0, 1);
return(res);
}
}
return(-1);
}
/**
* Parses a ccnb-encoded name
* @param d is the decoder
* @param components may be NULL, otherwise is filled in with the
* Component boundary offsets
* @returns the number of Components in the Name, or -1 if there is an error.
*/
int
ccn_parse_Name(struct ccn_buf_decoder *d, struct ccn_indexbuf *components)
{
int ncomp = 0;
if (ccn_buf_match_dtag(d, CCN_DTAG_Name)) {
if (components != NULL) components->n = 0;
ccn_buf_advance(d);
while (ccn_buf_match_dtag(d, CCN_DTAG_Component)) {
if (components != NULL)
ccn_indexbuf_append_element(components, d->decoder.token_index);
ncomp += 1;
ccn_buf_advance(d);
if (ccn_buf_match_blob(d, NULL, NULL))
ccn_buf_advance(d);
ccn_buf_check_close(d);
}
if (components != NULL)
ccn_indexbuf_append_element(components, d->decoder.token_index);
ccn_buf_check_close(d);
}
else
d->decoder.state = -__LINE__;
if (d->decoder.state < 0)
return(-1);
else
return(ncomp);
}
int
ccn_parse_PublisherID(struct ccn_buf_decoder *d, struct ccn_parsed_interest *pi)
{
int res = -1;
int iskey = 0;
unsigned pubstart = d->decoder.token_index;
unsigned keystart = pubstart;
unsigned keyend = pubstart;
unsigned pubend = pubstart;
iskey = ccn_buf_match_dtag(d, CCN_DTAG_PublisherPublicKeyDigest);
if (iskey ||
ccn_buf_match_dtag(d, CCN_DTAG_PublisherCertificateDigest) ||
ccn_buf_match_dtag(d, CCN_DTAG_PublisherIssuerKeyDigest) ||
ccn_buf_match_dtag(d, CCN_DTAG_PublisherIssuerCertificateDigest)) {
res = d->decoder.element_index;
ccn_buf_advance(d);
keystart = d->decoder.token_index;
if (!ccn_buf_match_some_blob(d))
return (d->decoder.state = -__LINE__);
ccn_buf_advance(d);
keyend = d->decoder.token_index;
ccn_buf_check_close(d);
pubend = d->decoder.token_index;
}
if (d->decoder.state < 0)
return (d->decoder.state);
if (pi != NULL) {
pi->offset[CCN_PI_B_PublisherID] = pubstart;
pi->offset[CCN_PI_B_PublisherIDKeyDigest] = keystart;
pi->offset[CCN_PI_E_PublisherIDKeyDigest] = iskey ? keyend : keystart;
pi->offset[CCN_PI_E_PublisherID] = pubend;
}
return(res);
}
static int
ccn_parse_optional_Any_or_Bloom(struct ccn_buf_decoder *d)
{
int res;
res = ccn_parse_optional_tagged_BLOB(d, CCN_DTAG_Bloom, 1, 1024+8);
if (res >= 0)
return(res);
if (ccn_buf_match_dtag(d, CCN_DTAG_Any)) {
ccn_buf_advance(d);
ccn_buf_check_close(d);
res = 0;
}
if (d->decoder.state < 0)
return (d->decoder.state);
return(res);
}
int
ccn_parse_Exclude(struct ccn_buf_decoder *d)
{
int res = -1;
if (ccn_buf_match_dtag(d, CCN_DTAG_Exclude)) {
res = d->decoder.element_index;
ccn_buf_advance(d);
ccn_parse_optional_Any_or_Bloom(d);
while (ccn_buf_match_dtag(d, CCN_DTAG_Component)) {
ccn_parse_required_tagged_BLOB(d, CCN_DTAG_Component, 0, -1);
ccn_parse_optional_Any_or_Bloom(d);
}
ccn_buf_check_close(d);
}
if (d->decoder.state < 0)
return (d->decoder.state);
return(res);
}
int
ccn_parse_nonNegativeInteger(struct ccn_buf_decoder *d)
{
const unsigned char *p;
int i;
int n;
int val;
int newval;
unsigned char c;
if (d->decoder.state < 0)
return(d->decoder.state);
if (CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_UDATA) {
p = d->buf + d->decoder.index;
n = d->decoder.numval;
if (n < 1)
return(d->decoder.state = -__LINE__);
val = 0;
for (i = 0; i < n; i++) {
c = p[i];
if ('0' <= c && c <= '9') {
newval = val * 10 + (c - '0');
if (newval < val)
return(d->decoder.state = -__LINE__);
val = newval;
}
else
return(d->decoder.state = -__LINE__);
}
ccn_buf_advance(d);
return(val);
}
return(d->decoder.state = -__LINE__);
}
/**
* Parse a potentially large non-negative integer.
*
* @returns 0 for success, and the value is place in *result; for an error
* a negative value is returned and *result is unchanged.
*/
int
ccn_parse_uintmax(struct ccn_buf_decoder *d, uintmax_t *result)
{
const unsigned char *p;
int i;
int n;
uintmax_t val;
uintmax_t newval;
unsigned char c;
if (d->decoder.state < 0)
return(d->decoder.state);
if (CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_UDATA) {
p = d->buf + d->decoder.index;
n = d->decoder.numval;
if (n < 1)
return(d->decoder.state = -__LINE__);
val = 0;
for (i = 0; i < n; i++) {
c = p[i];
if ('0' <= c && c <= '9') {
newval = val * 10 + (c - '0');
if (newval < val)
return(d->decoder.state = -__LINE__);
val = newval;
}
else
return(d->decoder.state = -__LINE__);
}
ccn_buf_advance(d);
*result = val;
return(0);
}
return(d->decoder.state = -__LINE__);
}
int
ccn_parse_timestamp(struct ccn_buf_decoder *d)
{
const unsigned char dlm[] = "--T::.Z";
const unsigned char *p;
int i;
int k;
int n;
if (d->decoder.state < 0)
return(d->decoder.state);
if (CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_BLOB) {
/* New-style binary timestamp, 12-bit fraction */
n = d->decoder.numval;
if (n < 3 || n > 7)
return(d->decoder.state = -__LINE__);
ccn_buf_advance(d);
return(0);
}
if (CCN_GET_TT_FROM_DSTATE(d->decoder.state) == CCN_UDATA) {
/* This is for some temporary back-compatibility */
p = d->buf + d->decoder.index;
n = d->decoder.numval;
if (n < 8 || n > 40)
return(d->decoder.state = -__LINE__);
if (p[n - 1] != 'Z')
return(d->decoder.state = -__LINE__);
for (i = 0, k = 0; i < n && '0' <= p[i] && p[i] <= '9';) {
i++;
if (i < n && p[i] == dlm[k]) {
if (dlm[k++] == 0)
return(d->decoder.state = -__LINE__);
i++;
}
}
if (k < 5)
return(d->decoder.state = -__LINE__);
if (!(i == n || i == n - 1))
return(d->decoder.state = -__LINE__);
ccn_buf_advance(d);
return(0);
}
return(d->decoder.state = -__LINE__);
}
int
ccn_parse_required_tagged_timestamp(struct ccn_buf_decoder *d, enum ccn_dtag dtag)
{
int res = -1;
if (ccn_buf_match_dtag(d, dtag)) {
res = d->decoder.element_index;
ccn_buf_advance(d);
ccn_parse_timestamp(d);
ccn_buf_check_close(d);
}
else
d->decoder.state = -__LINE__;
if (d->decoder.state < 0)
return (-1);
return(res);
}
int
ccn_parse_optional_tagged_nonNegativeInteger(struct ccn_buf_decoder *d, enum ccn_dtag dtag)
{
int res = -1;
if (ccn_buf_match_dtag(d, dtag)) {
ccn_buf_advance(d);
res = ccn_parse_nonNegativeInteger(d);
ccn_buf_check_close(d);
}
if (d->decoder.state < 0)
return (d->decoder.state);
return(res);
}
int
ccn_fetch_tagged_nonNegativeInteger(enum ccn_dtag tt,
const unsigned char *buf,
size_t start, size_t stop)
{
struct ccn_buf_decoder decoder;
struct ccn_buf_decoder *d;
int result = -1;
if (stop < start) return(-1);
d = ccn_buf_decoder_start(&decoder, buf + start, stop - start);
if (ccn_buf_match_dtag(d, tt)) {
ccn_buf_advance(d);
result = ccn_parse_nonNegativeInteger(d);
ccn_buf_check_close(d);
}
if (result < 0)
return(-1);
return(result);
}
int
ccn_parse_interest(const unsigned char *msg, size_t size,
struct ccn_parsed_interest *interest,
struct ccn_indexbuf *components)
{
struct ccn_buf_decoder decoder;
struct ccn_buf_decoder *d = ccn_buf_decoder_start(&decoder, msg, size);
int magic = 0;
int ncomp = 0;
int res;
if (ccn_buf_match_dtag(d, CCN_DTAG_Interest)) {
if (components == NULL) {
/* We need to have the component offsets. */
components = ccn_indexbuf_create();
if (components == NULL) return(-1);
res = ccn_parse_interest(msg, size, interest, components);
ccn_indexbuf_destroy(&components);
return(res);
}
ccn_buf_advance(d);
interest->offset[CCN_PI_B_Name] = d->decoder.element_index;
interest->offset[CCN_PI_B_Component0] = d->decoder.index;
ncomp = ccn_parse_Name(d, components);
if (d->decoder.state < 0) {
memset(interest->offset, 0, sizeof(interest->offset));
return(d->decoder.state);
}
interest->offset[CCN_PI_E_ComponentLast] = d->decoder.token_index - 1;
interest->offset[CCN_PI_E_Name] = d->decoder.token_index;
interest->prefix_comps = ncomp;
interest->offset[CCN_PI_B_LastPrefixComponent] = components->buf[(ncomp > 0) ? (ncomp - 1) : 0];
interest->offset[CCN_PI_E_LastPrefixComponent] = components->buf[ncomp];
/* optional MinSuffixComponents, MaxSuffixComponents */
interest->min_suffix_comps = 0;
interest->max_suffix_comps = 32767;
interest->offset[CCN_PI_B_MinSuffixComponents] = d->decoder.token_index;
res = ccn_parse_optional_tagged_nonNegativeInteger(d,
CCN_DTAG_MinSuffixComponents);
interest->offset[CCN_PI_E_MinSuffixComponents] = d->decoder.token_index;
if (res >= 0)
interest->min_suffix_comps = res;
interest->offset[CCN_PI_B_MaxSuffixComponents] = d->decoder.token_index;
res = ccn_parse_optional_tagged_nonNegativeInteger(d,
CCN_DTAG_MaxSuffixComponents);
interest->offset[CCN_PI_E_MaxSuffixComponents] = d->decoder.token_index;
if (res >= 0)
interest->max_suffix_comps = res;
if (interest->max_suffix_comps < interest->min_suffix_comps)
return (d->decoder.state = -__LINE__);
/* optional PublisherID */
res = ccn_parse_PublisherID(d, interest);
/* optional Exclude element */
interest->offset[CCN_PI_B_Exclude] = d->decoder.token_index;
res = ccn_parse_Exclude(d);
interest->offset[CCN_PI_E_Exclude] = d->decoder.token_index;
/* optional ChildSelector */
interest->offset[CCN_PI_B_ChildSelector] = d->decoder.token_index;
res = ccn_parse_optional_tagged_nonNegativeInteger(d,
CCN_DTAG_ChildSelector);
if (res < 0)
res = 0;
interest->orderpref = res;
interest->offset[CCN_PI_E_ChildSelector] = d->decoder.token_index;
if (interest->orderpref > 5)
return (d->decoder.state = -__LINE__);
/* optional AnswerOriginKind */
interest->offset[CCN_PI_B_AnswerOriginKind] = d->decoder.token_index;
interest->answerfrom = ccn_parse_optional_tagged_nonNegativeInteger(d,
CCN_DTAG_AnswerOriginKind);
interest->offset[CCN_PI_E_AnswerOriginKind] = d->decoder.token_index;
if (interest->answerfrom == -1)
interest->answerfrom = CCN_AOK_DEFAULT;
else if ((interest->answerfrom & CCN_AOK_NEW) != 0 &&
(interest->answerfrom & CCN_AOK_CS) == 0)
return (d->decoder.state = -__LINE__);
/* optional Scope */
interest->offset[CCN_PI_B_Scope] = d->decoder.token_index;
interest->scope = ccn_parse_optional_tagged_nonNegativeInteger(d,
CCN_DTAG_Scope);
interest->offset[CCN_PI_E_Scope] = d->decoder.token_index;
if (interest->scope > 9)
return (d->decoder.state = -__LINE__);
if ((interest->answerfrom & CCN_AOK_EXPIRE) != 0 &&
interest->scope != 0)
return (d->decoder.state = -__LINE__);
/* optional InterestLifetime */
interest->offset[CCN_PI_B_InterestLifetime] = d->decoder.token_index;
res = ccn_parse_optional_tagged_BLOB(d, CCN_DTAG_InterestLifetime, 1, 8);
if (res >= 0)
magic |= 20100401;
interest->offset[CCN_PI_E_InterestLifetime] = d->decoder.token_index;
/* optional Nonce */
interest->offset[CCN_PI_B_Nonce] = d->decoder.token_index;
res = ccn_parse_optional_tagged_BLOB(d, CCN_DTAG_Nonce, 4, 64);
interest->offset[CCN_PI_E_Nonce] = d->decoder.token_index;
/* Allow for no experimental stuff */
interest->offset[CCN_PI_B_OTHER] = d->decoder.token_index;
interest->offset[CCN_PI_E_OTHER] = d->decoder.token_index;
ccn_buf_check_close(d);
interest->offset[CCN_PI_E] = d->decoder.index;
}
else
return (d->decoder.state = -__LINE__);
if (d->decoder.state < 0)
return (d->decoder.state);
if (d->decoder.index != (int)size || !CCN_FINAL_DSTATE(d->decoder.state))
return (CCN_DSTATE_ERR_CODING);
if (magic == 0)
magic = 20090701;
if (!(magic == 20090701 || magic == 20100401))
return (d->decoder.state = -__LINE__);
interest->magic = magic;
return (ncomp);
}
struct parsed_KeyName {
int Name;
int endName;
int PublisherID;
int endPublisherID;
};
static int
ccn_parse_KeyName(struct ccn_buf_decoder *d, struct parsed_KeyName *x)
{
int res = -1;
if (ccn_buf_match_dtag(d, CCN_DTAG_KeyName)) {
res = d->decoder.element_index;
ccn_buf_advance(d);
x->Name = d->decoder.token_index;
ccn_parse_Name(d, NULL);
x->endName = d->decoder.token_index;
x->PublisherID = ccn_parse_PublisherID(d, NULL);
x->endPublisherID = d->decoder.token_index;
ccn_buf_check_close(d);
}
else
d->decoder.state = -__LINE__;
if (d->decoder.state < 0)
return (d->decoder.state);
return(res);
}
static int
ccn_parse_Signature(struct ccn_buf_decoder *d, struct ccn_parsed_ContentObject *x)
{
int res = -1;
int i;
struct ccn_parsed_ContentObject dummy;
if (x == NULL)
x = &dummy;
for (i = CCN_PCO_B_Signature; i <= CCN_PCO_E_Signature; i++) {
x->offset[i] = d->decoder.token_index;
}
if (ccn_buf_match_dtag(d, CCN_DTAG_Signature)) {
res = d->decoder.element_index;
ccn_buf_advance(d);
x->offset[CCN_PCO_B_DigestAlgorithm] = d->decoder.token_index;
ccn_parse_optional_tagged_UDATA(d, CCN_DTAG_DigestAlgorithm);
x->offset[CCN_PCO_E_DigestAlgorithm] = d->decoder.token_index;
x->offset[CCN_PCO_B_Witness] = d->decoder.token_index;
ccn_parse_optional_tagged_BLOB(d, CCN_DTAG_Witness, 8, -1);
x->offset[CCN_PCO_E_Witness] = d->decoder.token_index;
x->offset[CCN_PCO_B_SignatureBits] = d->decoder.token_index;
ccn_parse_required_tagged_BLOB(d, CCN_DTAG_SignatureBits, 16, -1);
x->offset[CCN_PCO_E_SignatureBits] = d->decoder.token_index;
ccn_buf_check_close(d);
x->offset[CCN_PCO_E_Signature] = d->decoder.token_index;
}
if (d->decoder.state < 0)
return (d->decoder.state);
return(res);
}
static int
ccn_parse_SignedInfo(struct ccn_buf_decoder *d, struct ccn_parsed_ContentObject *x)
{
x->offset[CCN_PCO_B_SignedInfo] = d->decoder.token_index;
if (ccn_buf_match_dtag(d, CCN_DTAG_SignedInfo)) {
ccn_buf_advance(d);
x->offset[CCN_PCO_B_PublisherPublicKeyDigest] = d->decoder.token_index;
ccn_parse_required_tagged_BLOB(d, CCN_DTAG_PublisherPublicKeyDigest, 16, 64);
x->offset[CCN_PCO_E_PublisherPublicKeyDigest] = d->decoder.token_index;
x->offset[CCN_PCO_B_Timestamp] = d->decoder.token_index;
ccn_parse_required_tagged_timestamp(d, CCN_DTAG_Timestamp);
x->offset[CCN_PCO_E_Timestamp] = d->decoder.token_index;
x->offset[CCN_PCO_B_Type] = d->decoder.token_index;
x->type = CCN_CONTENT_DATA;
x->type = (ccn_content_type)ccn_parse_optional_tagged_binary_number(d, CCN_DTAG_Type, 3, 3, CCN_CONTENT_DATA);
x->offset[CCN_PCO_E_Type] = d->decoder.token_index;
x->offset[CCN_PCO_B_FreshnessSeconds] = d->decoder.token_index;
ccn_parse_optional_tagged_nonNegativeInteger(d, CCN_DTAG_FreshnessSeconds);
x->offset[CCN_PCO_E_FreshnessSeconds] = d->decoder.token_index;
x->offset[CCN_PCO_B_FinalBlockID] = d->decoder.token_index;
ccn_parse_optional_tagged_BLOB(d, CCN_DTAG_FinalBlockID, 1, -1);
x->offset[CCN_PCO_E_FinalBlockID] = d->decoder.token_index;
x->offset[CCN_PCO_B_KeyLocator] = d->decoder.token_index;
x->offset[CCN_PCO_B_Key_Certificate_KeyName] = d->decoder.token_index;
x->offset[CCN_PCO_E_Key_Certificate_KeyName] = d->decoder.token_index;
x->offset[CCN_PCO_B_KeyName_Name] = d->decoder.token_index;
x->offset[CCN_PCO_E_KeyName_Name] = d->decoder.token_index;
x->offset[CCN_PCO_B_KeyName_Pub] = d->decoder.token_index;
x->offset[CCN_PCO_E_KeyName_Pub] = d->decoder.token_index;
if (ccn_buf_match_dtag(d, CCN_DTAG_KeyLocator)) {
ccn_buf_advance(d);
x->offset[CCN_PCO_B_Key_Certificate_KeyName] = d->decoder.token_index;
if (ccn_buf_match_dtag(d, CCN_DTAG_Key)) {
(void)ccn_parse_required_tagged_BLOB(d, CCN_DTAG_Key, 0, -1);
}
else if (ccn_buf_match_dtag(d, CCN_DTAG_Certificate)) {
(void)ccn_parse_required_tagged_BLOB(d, CCN_DTAG_Certificate, 0, -1);
}
else {
struct parsed_KeyName keyname = {-1, -1, -1, -1};
if (ccn_parse_KeyName(d, &keyname) >= 0) {
if (keyname.Name >= 0) {
x->offset[CCN_PCO_B_KeyName_Name] = keyname.Name;
x->offset[CCN_PCO_E_KeyName_Name] = keyname.endName;
}
if (keyname.PublisherID >= 0) {
x->offset[CCN_PCO_B_KeyName_Pub] = keyname.PublisherID;
x->offset[CCN_PCO_E_KeyName_Pub] = keyname.endPublisherID;
}
}
}
x->offset[CCN_PCO_E_Key_Certificate_KeyName] = d->decoder.token_index;
ccn_buf_check_close(d);
}
x->offset[CCN_PCO_E_KeyLocator] = d->decoder.token_index;
ccn_buf_check_close(d);
}
else
d->decoder.state = -__LINE__;
x->offset[CCN_PCO_E_SignedInfo] = d->decoder.token_index;
if (d->decoder.state < 0)
return (d->decoder.state);
return(0);
}
int
ccn_parse_ContentObject(const unsigned char *msg, size_t size,
struct ccn_parsed_ContentObject *x,
struct ccn_indexbuf *components)
{
struct ccn_buf_decoder decoder;
struct ccn_buf_decoder *d = ccn_buf_decoder_start(&decoder, msg, size);
int res;
x->magic = 20090415;
x->digest_bytes = 0;
if (ccn_buf_match_dtag(d, CCN_DTAG_ContentObject)) {
ccn_buf_advance(d);
res = ccn_parse_Signature(d, x);
x->offset[CCN_PCO_B_Name] = d->decoder.token_index;
x->offset[CCN_PCO_B_Component0] = d->decoder.index;
res = ccn_parse_Name(d, components);
if (res < 0)
d->decoder.state = -__LINE__;
x->name_ncomps = res;
x->offset[CCN_PCO_E_ComponentLast] = d->decoder.token_index - 1;
x->offset[CCN_PCO_E_Name] = d->decoder.token_index;
ccn_parse_SignedInfo(d, x);
x->offset[CCN_PCO_B_Content] = d->decoder.token_index;
ccn_parse_required_tagged_BLOB(d, CCN_DTAG_Content, 0, -1);
x->offset[CCN_PCO_E_Content] = d->decoder.token_index;
ccn_buf_check_close(d);
x->offset[CCN_PCO_E] = d->decoder.index;
}
else
d->decoder.state = -__LINE__;
if (d->decoder.index != (int)size || !CCN_FINAL_DSTATE(d->decoder.state))
return (CCN_DSTATE_ERR_CODING);
return(0);
}
int
ccn_ref_tagged_BLOB(enum ccn_dtag tt,
const unsigned char *buf, size_t start, size_t stop,
const unsigned char **presult, size_t *psize)
{
struct ccn_buf_decoder decoder;
struct ccn_buf_decoder *d;
if (stop < start) return(-1);
d = ccn_buf_decoder_start(&decoder, buf + start, stop - start);
if (ccn_buf_match_dtag(d, tt)) {
ccn_buf_advance(d);
if (ccn_buf_match_blob(d, presult, psize))
ccn_buf_advance(d);
ccn_buf_check_close(d);
}
else
return(-1);
if (d->decoder.index != (int)d->size || !CCN_FINAL_DSTATE(d->decoder.state))
return (CCN_DSTATE_ERR_CODING);
return(0);
}
static struct ccn_buf_decoder *
ccn_buf_decoder_start_at_components(struct ccn_buf_decoder *d,
const unsigned char *buf, size_t buflen)
{
ccn_buf_decoder_start(d, buf, buflen);
while (ccn_buf_match_dtag(d, CCN_DTAG_Name) ||
ccn_buf_match_dtag(d, CCN_DTAG_Interest) ||
ccn_buf_match_dtag(d, CCN_DTAG_ContentObject)
) {
ccn_buf_advance(d);
ccn_parse_Signature(d, NULL);
}
return(d);
}
int
ccn_content_get_value(const unsigned char *data, size_t data_size,
const struct ccn_parsed_ContentObject *content,
const unsigned char **value, size_t *value_size)
{
int res;
res = ccn_ref_tagged_BLOB(CCN_DTAG_Content, data,
content->offset[CCN_PCO_B_Content],
content->offset[CCN_PCO_E_Content],
value, value_size);
return(res);
}
int
ccn_compare_names(const unsigned char *a, size_t asize,
const unsigned char *b, size_t bsize)
{
struct ccn_buf_decoder a_decoder;
struct ccn_buf_decoder b_decoder;
struct ccn_buf_decoder *aa =
ccn_buf_decoder_start_at_components(&a_decoder, a, asize);
struct ccn_buf_decoder *bb =
ccn_buf_decoder_start_at_components(&b_decoder, b, bsize);
const unsigned char *acp = NULL;
const unsigned char *bcp = NULL;
size_t acsize;
size_t bcsize;
int cmp = 0;
int more_a;
for (;;) {
more_a = ccn_buf_match_dtag(aa, CCN_DTAG_Component);
cmp = more_a - ccn_buf_match_dtag(bb, CCN_DTAG_Component);
if (more_a == 0 || cmp != 0)
break;
ccn_buf_advance(aa);
ccn_buf_advance(bb);
acsize = bcsize = 0;
if (ccn_buf_match_blob(aa, &acp, &acsize))
ccn_buf_advance(aa);
if (ccn_buf_match_blob(bb, &bcp, &bcsize))
ccn_buf_advance(bb);
cmp = acsize - bcsize;
if (cmp != 0)
break;
cmp = memcmp(acp, bcp, acsize);
if (cmp != 0)
break;
ccn_buf_check_close(aa);
ccn_buf_check_close(bb);
}
return (cmp);
}