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Gregory Burd 2024-05-23 19:59:24 -04:00
parent 7ecd2e5dc2
commit f7fd8eed9a
3 changed files with 1 additions and 653 deletions
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141
include/bencode.h
View file

@ -1,141 +0,0 @@
// https://github.com/willemt/heapless-bencode
//
#ifndef BENCODE_H_
#define BENCODE_H_
typedef struct
{
const char *str;
const char *start;
void *parent;
int val;
int len;
} bencode_t;
/**
* Initialise a bencode object.
* @param be The bencode object
* @param str Buffer we expect input from
* @param len Length of buffer
*/
void bencode_init(
bencode_t * be,
const char *str,
int len
);
/**
* @return 1 if the bencode object is an int; otherwise 0.
*/
int bencode_is_int(
const bencode_t * be
);
/**
* @return 1 if the bencode object is a string; otherwise 0.
*/
int bencode_is_string(
const bencode_t * be
);
/**
* @return 1 if the bencode object is a list; otherwise 0.
*/
int bencode_is_list(
const bencode_t * be
);
/**
* @return 1 if the bencode object is a dict; otherwise 0.
*/
int bencode_is_dict(
const bencode_t * be
);
/**
* Obtain value from integer bencode object.
* @param val Long int we are writing the result to
* @return 1 on success, otherwise 0
*/
int bencode_int_value(
bencode_t * be,
long int *val
);
/**
* @return 1 if there is another item on this dict; otherwise 0.
*/
int bencode_dict_has_next(
bencode_t * be
);
/**
* Get the next item within this dictionary.
* @param be_item Next item.
* @param key Const pointer to key string of next item.
* @param klen Length of the key of next item.
* @return 1 on success; otherwise 0.
*/
int bencode_dict_get_next(
bencode_t * be,
bencode_t * be_item,
const char **key,
int *klen
);
/**
* Get the string value from this bencode object.
* The buffer returned is stored on the stack.
* @param be The bencode object.
* @param str Const pointer to the buffer.
* @param slen Length of the buffer we are outputting.
* @return 1 on success; otherwise 0
*/
int bencode_string_value(
bencode_t * be,
const char **str,
int *len
);
/**
* Tell if there is another item within this list.
* @param be The bencode object
* @return 1 if another item exists on the list; 0 otherwise; -1 on invalid processing
*/
int bencode_list_has_next(
bencode_t * be
);
/**
* Get the next item within this list.
* @param be The bencode object
* @param be_item The next bencode object that we are going to initiate.
* @return return 0 on end; 1 on have next; -1 on error
*/
int bencode_list_get_next(
bencode_t * be,
bencode_t * be_item
);
/**
* Copy bencode object into other bencode object
*/
void bencode_clone(
bencode_t * be,
bencode_t * output
);
/**
* Get the start and end position of this dictionary
* @param be Bencode object
* @param start Starting string
* @param len Length of the dictionary
* @return 0 on success
*/
int bencode_dict_get_start_and_len(
bencode_t * be,
const char **start,
int *len
);
#endif /* BENCODE_H_ */

511
lib/bencode.c
View file

@ -1,511 +0,0 @@
/**
* Copyright (c) 2014, Willem-Hendrik Thiart
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*
* @file
* @brief Read bencoded data
* @author Willem Thiart himself@willemthiart.com
* @version 0.1
* https://github.com/willemt/heapless-bencode
*/
#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "bencode.h"
/**
* Carry length over to a new bencode object.
* This is done so that we don't exhaust the buffer */
static int __carry_length(
bencode_t * be,
const char *pos
)
{
assert(0 < be->len);
return be->len - (pos - be->str);
}
/**
* @param end The point that we read out to
* @param val Output of number represented by string
* @return 0 if error; otherwise 1 */
static long int __read_string_int(
const char *sp,
const char **end,
long int *val
)
{
*val = 0;
int sign = 1;
/* negative */
if ('-' == *sp)
{
sign = -1;
sp++;
}
if (!isdigit(*sp))
return 0;
/* work out number */
do
{
*val *= 10;
*val += *sp - '0';
sp++;
}
while (isdigit(*sp));
*val *= sign;
*end = sp;
return 1;
}
int bencode_is_dict(
const bencode_t * be
)
{
return be->str && *be->str == 'd';
}
int bencode_is_int(
const bencode_t * be
)
{
return be->str && *be->str == 'i';
}
int bencode_is_list(
const bencode_t * be
)
{
return be->str && *be->str == 'l';
}
int bencode_is_string(
const bencode_t * be
)
{
const char *sp;
sp = be->str;
assert(sp);
if (!isdigit(*sp))
return 0;
do sp++;
while (isdigit(*sp));
return *sp == ':';
}
/**
* Move to next item
* @param sp The bencode string we are processing
* @return Pointer to string on success, otherwise NULL */
static const char *__iterate_to_next_string_pos(
bencode_t * be,
const char *sp
)
{
bencode_t iter;
bencode_init(&iter, sp, __carry_length(be, sp));
if (bencode_is_dict(&iter))
{
/* navigate to the end of the dictionary */
while (bencode_dict_has_next(&iter))
{
/* ERROR: input string is invalid */
if (0 == bencode_dict_get_next(&iter, NULL, NULL, NULL))
return NULL;
}
/* special case for empty dict */
if (*iter.str == 'd' && *(iter.str + 1) == 'e')
return iter.str + 2;
return iter.str + 1;
}
else if (bencode_is_list(&iter))
{
/* navigate to the end of the list */
while (bencode_list_has_next(&iter))
{
/* ERROR: input string is invalid */
if (-1 == bencode_list_get_next(&iter, NULL))
return NULL;
}
return iter.str + 1;
}
else if (bencode_is_string(&iter))
{
int len;
const char *str;
/* ERROR: input string is invalid */
if (0 == bencode_string_value(&iter, &str, &len))
return NULL;
return str + len;
}
else if (bencode_is_int(&iter))
{
const char *end;
long int val;
if (0 == __read_string_int(&iter.str[1], &end, &val))
return NULL;
assert(end[0] == 'e');
return end + 1;
}
/* input string is invalid */
return NULL;
}
static const char *__read_string_len(
const char *sp,
int *slen
)
{
*slen = 0;
if (!isdigit(*sp))
return NULL;
do
{
*slen *= 10;
*slen += *sp - '0';
sp++;
}
while (isdigit(*sp));
assert(*sp == ':');
assert(0 <= *slen);
return sp + 1;
}
void bencode_init(
bencode_t * be,
const char *str,
const int len
)
{
memset(be, 0, sizeof(bencode_t));
be->str = be->start = str;
be->str = str;
be->len = len;
/* assert(0 < be->len); */
}
int bencode_int_value(
bencode_t * be,
long int *val
)
{
const char *end;
if (0 == __read_string_int(&be->str[1], &end, val))
return 0;
assert(end[0] == 'e');
return 1;
}
int bencode_dict_has_next(
bencode_t * be
)
{
const char *sp = be->str;
assert(be);
if (!sp
/* at end of dict */
|| *sp == 'e'
/* at end of string */
|| *sp == '\0'
|| *sp == '\r'
/* empty dict */
|| (*sp == 'd' && *(sp + 1) == 'e')
/* at the end of the input string */
|| be->str >= be->start + be->len - 1)
{
return 0;
}
return 1;
}
int bencode_dict_get_next(
bencode_t * be,
bencode_t * be_item,
const char **key,
int *klen
)
{
const char *sp = be->str;
const char *keyin;
int len;
assert(*sp != 'e');
/* if at start increment to 1st key */
if (*sp == 'd')
{
sp++;
}
/* can't get the next item if we are at the end of the dict */
if (*sp == 'e')
{
return 0;
}
/* 1. find out what the key's length is */
keyin = __read_string_len(sp, &len);
/* 2. if we have a value bencode, lets put the value inside */
if (be_item)
{
*klen = len;
bencode_init(be_item, keyin + len, __carry_length(be, keyin + len));
}
/* 3. iterate to next dict key, or move to next item in parent */
if (!(be->str = __iterate_to_next_string_pos(be, keyin + len)))
{
/* if there isn't anything else or we are at the end of the string */
return 0;
}
#if 0
/* if at the end of bencode, check that the 'e' terminator is there */
if (be->str == be->start + be->len - 1 && *be->str != 'e')
{
be->str = NULL;
return 0;
}
#endif
assert(be->str);
if (key)
{
*key = keyin;
}
return 1;
}
int bencode_string_value(
bencode_t * be,
const char **str,
int *slen
)
{
const char *sp;
*slen = 0;
assert(bencode_is_string(be));
sp = __read_string_len(be->str, slen);
assert(sp);
assert(0 < be->len);
/* make sure we still fit within the buffer */
if (sp + *slen > be->start + (long int) be->len)
{
*str = NULL;
return 0;
}
*str = sp;
return 1;
}
int bencode_list_has_next(
bencode_t * be
)
{
const char *sp;
sp = be->str;
/* empty list */
if (*sp == 'l' &&
sp == be->start &&
*(sp + 1) == 'e')
{
be->str++;
return 0;
}
/* end of list */
if (*sp == 'e')
{
return 0;
}
return 1;
}
int bencode_list_get_next(
bencode_t * be,
bencode_t * be_item
)
{
const char *sp;
sp = be->str;
#if 0 /* debugging */
printf("%.*s\n", (int)(be->len - (be->str - be->start)), be->str);
#endif
/* we're at the end */
if (!sp || *sp == 'e')
return 0;
if (*sp == 'l')
{
/* just move off the start of this list */
if (be->start == be->str)
{
sp++;
}
}
/* can't get the next item if we are at the end of the list */
if (*sp == 'e')
{
be->str = sp;
return 0;
}
/* populate the be_item if it is available */
if (be_item)
{
bencode_init(be_item, sp, __carry_length(be, sp));
}
/* iterate to next value */
if (!(be->str = __iterate_to_next_string_pos(be, sp)))
{
return -1;
}
return 1;
}
void bencode_clone(
bencode_t * be,
bencode_t * output
)
{
memcpy(output, be, sizeof(bencode_t));
}
int bencode_dict_get_start_and_len(
bencode_t * be,
const char **start,
int *len
)
{
bencode_t ben, ben2;
const char *ren;
int tmplen;
bencode_clone(be, &ben);
*start = ben.str;
while (bencode_dict_has_next(&ben))
bencode_dict_get_next(&ben, &ben2, &ren, &tmplen);
*len = ben.str - *start + 1;
return 0;
}
static int __validate(bencode_t *ben)
{
if (bencode_is_dict(ben))
{
while (bencode_dict_has_next(ben))
{
int klen;
const char *key;
bencode_t benk;
if (0 == bencode_dict_get_next(ben, &benk, &key, &klen))
return -1;
int ret = __validate(&benk);
if (0 != ret)
return ret;
}
}
else if (bencode_is_list(ben))
{
while (bencode_list_has_next(ben))
{
bencode_t benl;
if (-1 == bencode_list_get_next(ben, &benl))
return -1;
int ret = __validate(&benl);
if (0 != ret)
return ret;
}
}
else if (bencode_is_string(ben))
{
const char *str;
int len;
if (0 == bencode_string_value(ben, &str, &len))
return -1;
}
else if (bencode_is_int(ben))
{
long int val;
if (0 == bencode_int_value(ben, &val))
return -1;
}
else
return -1;
return 0;
}
int bencode_validate(char* buf, int len)
{
bencode_t ben;
if (0 == len)
return 0;
bencode_init(&ben, buf, len);
return __validate(&ben);
}

2
tests/soak.c
View file

@ -95,7 +95,7 @@ typedef struct container {
} is_span_stats;
#define timed_is_span(fn) (bool (*)(void *, pgno_t, unsigned)) __stats_is_span, .is_span_stats.is_span = fn
/* are the pgno in the span [pg, pg+ len) notn in the container? */
/* are the pgno in the span [pg, pg+ len) not in the container? */
bool (*is_empty)(void *handle, pgno_t pg, unsigned len);
struct {
td_histogram_t *td;