Added utilities

pull/9/head
Ondřej Hruška 7 years ago
parent aadbb0f89e
commit 978eabfb92
Signed by: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 100
      utilities/payload_builder.c
  2. 110
      utilities/payload_builder.h
  3. 121
      utilities/payload_parser.c
  4. 143
      utilities/payload_parser.h
  5. 32
      utilities/type_coerce.h

@ -0,0 +1,100 @@
#include <string.h>
#include "payload_builder.h"
#define pb_check_capacity(pb, needed) \
if ((pb)->current + (needed) > (pb)->end) { \
if ((pb)->full_handler == NULL || !(pb)->full_handler(pb, needed)) (pb)->ok = 0; \
}
/** Write from a buffer */
bool pb_buf(PayloadBuilder *pb, const uint8_t *buf, uint32_t len)
{
pb_check_capacity(pb, len);
if (!pb->ok) return false;
memcpy(pb->current, buf, len);
pb->current += len;
return true;
}
/** Write s zero terminated string */
bool pb_string(PayloadBuilder *pb, const char *str)
{
uint32_t len = (uint32_t) strlen(str);
pb_check_capacity(pb, len+1);
if (!pb->ok) return false;
memcpy(pb->current, str, len+1);
pb->current += len+1;
return true;
}
/** Write uint8_t to the buffer */
bool pb_u8(PayloadBuilder *pb, uint8_t byte)
{
pb_check_capacity(pb, 1);
if (!pb->ok) return false;
*pb->current++ = byte;
return true;
}
/** Write uint16_t to the buffer. */
bool pb_u16(PayloadBuilder *pb, uint16_t word)
{
pb_check_capacity(pb, 2);
if (!pb->ok) return false;
if (pb->bigendian) {
*pb->current++ = (uint8_t) ((word >> 8) & 0xFF);
*pb->current++ = (uint8_t) (word & 0xFF);
} else {
*pb->current++ = (uint8_t) (word & 0xFF);
*pb->current++ = (uint8_t) ((word >> 8) & 0xFF);
}
return true;
}
/** Write uint32_t to the buffer. */
bool pb_u32(PayloadBuilder *pb, uint32_t word)
{
pb_check_capacity(pb, 4);
if (!pb->ok) return false;
if (pb->bigendian) {
*pb->current++ = (uint8_t) ((word >> 24) & 0xFF);
*pb->current++ = (uint8_t) ((word >> 16) & 0xFF);
*pb->current++ = (uint8_t) ((word >> 8) & 0xFF);
*pb->current++ = (uint8_t) (word & 0xFF);
} else {
*pb->current++ = (uint8_t) (word & 0xFF);
*pb->current++ = (uint8_t) ((word >> 8) & 0xFF);
*pb->current++ = (uint8_t) ((word >> 16) & 0xFF);
*pb->current++ = (uint8_t) ((word >> 24) & 0xFF);
}
return true;
}
/** Write int8_t to the buffer. */
bool pb_i8(PayloadBuilder *pb, int8_t byte)
{
return pb_u8(pb, ((union conv8){.i8 = byte}).u8);
}
/** Write int16_t to the buffer. */
bool pb_i16(PayloadBuilder *pb, int16_t word)
{
return pb_u16(pb, ((union conv16){.i16 = word}).u16);
}
/** Write int32_t to the buffer. */
bool pb_i32(PayloadBuilder *pb, int32_t word)
{
return pb_u32(pb, ((union conv32){.i32 = word}).u32);
}
/** Write 4-byte float to the buffer. */
bool pb_float(PayloadBuilder *pb, float f)
{
return pb_u32(pb, ((union conv32){.f32 = f}).u32);
}

@ -0,0 +1,110 @@
#ifndef PAYLOAD_BUILDER_H
#define PAYLOAD_BUILDER_H
/**
* PayloadBuilder, part of the TinyFrame utilities collection
*
* (c) Ondřej Hruška, 2014-2017. MIT license.
*
* The builder supports big and little endian which is selected when
* initializing it or by accessing the bigendian struct field.
*
* This module helps you with building payloads (not only for TinyFrame)
*
* The builder performs bounds checking and calls the provided handler when
* the requested write wouldn't fit. Use the handler to realloc / flush the buffer
* or report an error.
*/
#include <stdint.h>
#include <stdbool.h>
#include <stddef.h>
#include "type_coerce.h"
typedef struct PayloadBuilder_ PayloadBuilder;
/**
* Full buffer handler.
*
* 'needed' more bytes should be written but the end of the buffer was reached.
*
* Return true if the problem was solved (e.g. buffer was flushed and the
* 'current' pointer moved to the beginning).
*
* If false is returned, the 'ok' flag on the struct is set to false
* and all following writes are discarded.
*/
typedef bool (*pb_full_handler)(PayloadBuilder *pb, uint32_t needed);
struct PayloadBuilder_ {
uint8_t *start; //!< Pointer to the beginning of the buffer
uint8_t *current; //!< Pointer to the next byte to be read
uint8_t *end; //!< Pointer to the end of the buffer (start + length)
pb_full_handler full_handler; //!< Callback for buffer overrun
bool bigendian; //!< Flag to use big-endian parsing
bool ok; //!< Indicates that all reads were successful
};
// --- initializer helper macros ---
/** Start the builder. */
#define pb_start_e(buf, capacity, bigendian, full_handler) ((PayloadBuilder){buf, buf, (buf)+(capacity), full_handler, bigendian, 1})
/** Start the builder in big-endian mode */
#define pb_start_be(buf, capacity, full_handler) pb_start_e(buf, capacity, 1, full_handler)
/** Start the builder in little-endian mode */
#define pb_start_le(buf, capacity, full_handler) pb_start_e(buf, capacity, 0, full_handler)
/** Start the parser in little-endian mode (default) */
#define pb_start(buf, capacity, full_handler) pb_start_le(buf, capacity, full_handler)
// --- utilities ---
/** Get already used bytes count */
#define pb_length(pb) ((pb)->current - (pb)->start)
/** Reset the current pointer to start */
#define pb_rewind(pb) do { pb->current = pb->start; } while (0)
/** Write from a buffer */
bool pb_buf(PayloadBuilder *pb, const uint8_t *buf, uint32_t len);
/** Write a zero terminated string */
bool pb_string(PayloadBuilder *pb, const char *str);
/** Write uint8_t to the buffer */
bool pb_u8(PayloadBuilder *pb, uint8_t byte);
/** Write boolean to the buffer. */
static inline bool pb_bool(PayloadBuilder *pb, bool b)
{
return pb_u8(pb, (uint8_t) b);
}
/** Write uint16_t to the buffer. */
bool pb_u16(PayloadBuilder *pb, uint16_t word);
/** Write uint32_t to the buffer. */
bool pb_u32(PayloadBuilder *pb, uint32_t word);
/** Write int8_t to the buffer. */
bool pb_i8(PayloadBuilder *pb, int8_t byte);
/** Write char (int8_t) to the buffer. */
static inline bool pb_char(PayloadBuilder *pb, char c)
{
return pb_i8(pb, c);
}
/** Write int16_t to the buffer. */
bool pb_i16(PayloadBuilder *pb, int16_t word);
/** Write int32_t to the buffer. */
bool pb_i32(PayloadBuilder *pb, int32_t word);
/** Write 4-byte float to the buffer. */
bool pb_float(PayloadBuilder *pb, float f);
#endif // PAYLOAD_BUILDER_H

@ -0,0 +1,121 @@
#include "payload_parser.h"
#define pp_check_capacity(pp, needed) \
if ((pp)->current + (needed) > (pp)->end) { \
if ((pp)->empty_handler == NULL || !(pp)->empty_handler(pp, needed)) {(pp)->ok = 0;} ; \
}
void pp_skip(PayloadParser *pp, uint32_t num)
{
pp->current += num;
}
uint8_t pp_u8(PayloadParser *pp)
{
pp_check_capacity(pp, 1);
if (!pp->ok) return 0;
return *pp->current++;
}
uint16_t pp_u16(PayloadParser *pp)
{
pp_check_capacity(pp, 2);
if (!pp->ok) return 0;
uint16_t x = 0;
if (pp->bigendian) {
x |= *pp->current++ << 8;
x |= *pp->current++;
} else {
x |= *pp->current++;
x |= *pp->current++ << 8;
}
return x;
}
uint32_t pp_u32(PayloadParser *pp)
{
pp_check_capacity(pp, 4);
if (!pp->ok) return 0;
uint32_t x = 0;
if (pp->bigendian) {
x |= (uint32_t) (*pp->current++ << 24);
x |= (uint32_t) (*pp->current++ << 16);
x |= (uint32_t) (*pp->current++ << 8);
x |= *pp->current++;
} else {
x |= *pp->current++;
x |= (uint32_t) (*pp->current++ << 8);
x |= (uint32_t) (*pp->current++ << 16);
x |= (uint32_t) (*pp->current++ << 24);
}
return x;
}
const uint8_t *pp_tail(PayloadParser *pp, uint32_t *length)
{
int32_t len = (int) (pp->end - pp->current);
if (!pp->ok || len <= 0) {
if (length != NULL) *length = 0;
return NULL;
}
if (length != NULL) {
*length = (uint32_t) len;
}
return pp->current;
}
/** Read int8_t from the payload. */
int8_t pp_i8(PayloadParser *pp)
{
return ((union conv8) {.u8 = pp_u8(pp)}).i8;
}
/** Read int16_t from the payload. */
int16_t pp_i16(PayloadParser *pp)
{
return ((union conv16) {.u16 = pp_u16(pp)}).i16;
}
/** Read int32_t from the payload. */
int32_t pp_i32(PayloadParser *pp)
{
return ((union conv32) {.u32 = pp_u32(pp)}).i32;
}
/** Read 4-byte float from the payload. */
float pp_float(PayloadParser *pp)
{
return ((union conv32) {.u32 = pp_u32(pp)}).f32;
}
/** Read a zstring */
uint32_t pp_string(PayloadParser *pp, char *buffer, uint32_t maxlen)
{
pp_check_capacity(pp, 1);
uint32_t len = 0;
while (len < maxlen-1 && pp->current != pp->end) {
char c = *buffer++ = *pp->current++;
if (c == 0) break;
len++;
}
*buffer = 0;
return len;
}
/** Read a buffer */
uint32_t pp_buf(PayloadParser *pp, uint8_t *buffer, uint32_t maxlen)
{
uint32_t len = 0;
while (len < maxlen && pp->current != pp->end) {
*buffer++ = *pp->current++;
len++;
}
return len;
}

@ -0,0 +1,143 @@
#ifndef PAYLOAD_PARSER_H
#define PAYLOAD_PARSER_H
/**
* PayloadParser, part of the TinyFrame utilities collection
*
* (c) Ondřej Hruška, 2016-2017. MIT license.
*
* This module helps you with parsing payloads (not only from TinyFrame).
*
* The parser supports big and little-endian which is selected when
* initializing it or by accessing the bigendian struct field.
*
* The parser performs bounds checking and calls the provided handler when
* the requested read doesn't have enough data. Use the callback to take
* appropriate action, e.g. report an error.
*
* If the handler function is not defined, the pb->ok flag is set to false
* (use this to check for success), and further reads won't have any effect
* and always result in 0 or empty array.
*/
#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
#include "type_coerce.h"
typedef struct PayloadParser_ PayloadParser;
/**
* Empty buffer handler.
*
* 'needed' more bytes should be read but the end was reached.
*
* Return true if the problem was solved (e.g. new data loaded into
* the buffer and the 'current' pointer moved to the beginning).
*
* If false is returned, the 'ok' flag on the struct is set to false
* and all following reads will fail / return 0.
*/
typedef bool (*pp_empty_handler)(PayloadParser *pp, uint32_t needed);
struct PayloadParser_ {
uint8_t *start; //!< Pointer to the beginning of the buffer
uint8_t *current; //!< Pointer to the next byte to be read
uint8_t *end; //!< Pointer to the end of the buffer (start + length)
pp_empty_handler empty_handler; //!< Callback for buffer underrun
bool bigendian; //!< Flag to use big-endian parsing
bool ok; //!< Indicates that all reads were successful
};
// --- initializer helper macros ---
/** Start the parser. */
#define pp_start_e(buf, length, bigendian, empty_handler) ((PayloadParser){buf, buf, (buf)+(length), empty_handler, bigendian, 1})
/** Start the parser in big-endian mode */
#define pp_start_be(buf, length, empty_handler) pp_start_e(buf, length, 1, empty_handler)
/** Start the parser in little-endian mode */
#define pp_start_le(buf, length, empty_handler) pp_start_e(buf, length, 0, empty_handler)
/** Start the parser in little-endian mode (default) */
#define pp_start(buf, length, empty_handler) pp_start_le(buf, length, empty_handler)
// --- utilities ---
/** Get remaining length */
#define pp_length(pp) ((pp)->end - (pp)->current)
/** Reset the current pointer to start */
#define pp_rewind(pp) do { pp->current = pp->start; } while (0)
/**
* @brief Get the remainder of the buffer.
*
* Returns NULL and sets 'length' to 0 if there are no bytes left.
*
* @param pp
* @param length : here the buffer length will be stored. NULL to do not store.
* @return the remaining portion of the input buffer
*/
const uint8_t *pp_tail(PayloadParser *pp, uint32_t *length);
/** Read uint8_t from the payload. */
uint8_t pp_u8(PayloadParser *pp);
/** Read bool from the payload. */
static inline int8_t pp_bool(PayloadParser *pp)
{
return pp_u8(pp) != 0;
}
/** Skip bytes */
void pp_skip(PayloadParser *pp, uint32_t num);
/** Read uint16_t from the payload. */
uint16_t pp_u16(PayloadParser *pp);
/** Read uint32_t from the payload. */
uint32_t pp_u32(PayloadParser *pp);
/** Read int8_t from the payload. */
int8_t pp_i8(PayloadParser *pp);
/** Read char (int8_t) from the payload. */
static inline int8_t pp_char(PayloadParser *pp)
{
return pp_i8(pp);
}
/** Read int16_t from the payload. */
int16_t pp_i16(PayloadParser *pp);
/** Read int32_t from the payload. */
int32_t pp_i32(PayloadParser *pp);
/** Read 4-byte float from the payload. */
float pp_float(PayloadParser *pp);
/**
* Parse a zero-terminated string
*
* @param pp - parser
* @param buffer - target buffer
* @param maxlen - buffer size
* @return actual number of bytes, excluding terminator
*/
uint32_t pp_string(PayloadParser *pp, char *buffer, uint32_t maxlen);
/**
* Parse a buffer
*
* @param pp - parser
* @param buffer - target buffer
* @param maxlen - buffer size
* @return actual number of bytes, excluding terminator
*/
uint32_t pp_buf(PayloadParser *pp, uint8_t *buffer, uint32_t maxlen);
#endif // PAYLOAD_PARSER_H

@ -0,0 +1,32 @@
#ifndef TYPE_COERCE_H
#define TYPE_COERCE_H
/**
* Structs for conversion between types,
* part of the TinyFrame utilities collection
*
* (c) Ondřej Hruška, 2016-2017. MIT license.
*
* This is a support header file for PayloadParser and PayloadBuilder.
*/
#include <stdint.h>
#include <stddef.h>
union conv8 {
uint8_t u8;
int8_t i8;
};
union conv16 {
uint16_t u16;
int16_t i16;
};
union conv32 {
uint32_t u32;
int32_t i32;
float f32;
};
#endif // TYPE_COERCE_H
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