Fast and efficient data serializer for the C programming language.
Install debug or release version, in this example we will install the release version.
$ cd Release
Compile qpack
$ make all
Install qpack
$ sudo make install
Note: run
sudo make uninstall
for removal.
The following data structure will be packed and unpacked to illustrate how qpack can be used:
{
"What is the answer to life the universe and everything?": 42
}
First we start to pack the data.
#include <qpack.h>
#include <assert.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <inttypes.h>
const char * q = "What is the answer to life the universe and everything?";
const int a = 42;
int main(void)
{
qp_packer_t * packer = qp_packer_create(512);
if (packer == NULL) {
abort();
}
/* Open a map. */
qp_add_map(&packer);
/* Add a key. We will add the question. Note that the question will be
* packed without the teminator (null) character. */
qp_add_raw(packer, q, strlen(q));
/* Add a value. QPack only supports signed intergers. */
qp_add_int64(packer, (int64_t) a);
/* Close the map. Note that in a map an even number of items must be placed
* which represent key/value pairs. */
qp_close_map(packer);
/* Print the packed data */
qp_packer_print(packer);
/* cleanup the packer */
qp_packer_destroy(packer);
return 0;
}
Now we create some code to unpack the data.
void print_qa(const unsigned char * data, size_t len)
{
qp_unpacker_t unpacker;
qp_res_t * res;
int rc;
/* Initialize the unpacker */
qp_unpacker_init(&unpacker, data, len);
/* We can get the data from the unpacker in two ways. One is to step over
* the data using qp_next() and the other is to unpack all to a qp_res_t
* object. The last option is probably easier and is what we will use in
* this example but note that it consumes more memory and is potentially
* slower compared to qp_next() for some use cases. One more important
* difference is that qp_res_t contains null terminated copies for raw data
* which mean that this function cannot be used in case raw data contains
* null characters by themself. */
res = qp_unpacker_res(&unpacker, &rc);
if (rc) {
fprintf(stderr, "error: %s\n", qp_strerror(rc));
} else {
/* Usually you should check your response not with assertions */
assert (res->tp == QP_RES_MAP);
assert (res->via.map->n == 1); /* one key/value pair */
assert (res->via.map->keys[0].tp == QP_RES_STR); /* key */
assert (res->via.map->values[0].tp == QP_RES_INT64); /* val */
printf(
"Unpacked:\n"
" Question: %s\n"
" Answer : %" PRId64 "\n",
res->via.map->keys[0].via.str,
res->via.map->values[0].via.int64);
/* cleanup res */
qp_res_destroy(res);
}
}
/* Call the function from main (see packer example for full code) */
int main(void)
{
// ... see packer example for full code
/* Call print_qa() before destroying the packer using member property
* qp_packer_t.buffer which contains the packer data and qp_packer_t.len
* for the size of the data */
print_qa(packer->buffer, packer->len);
/* cleanup the packer */
qp_packer_destroy(packer);
return 0;
}
Object which is used to pack data.
Public members
unsigned char * qp_packer_t.buffer
: contains the packed data (readonly)size_t qp_packer_t.len
: the length of the data (readonly)
Create and return a new packer instance. Argument alloc_size
should be at
least greather than 0 since this value is used to allocate memory. When more
memory is required while packing data the size will grow in steps of
alloc_size
.
Cleaunup packer instance.
Add raw data to the packer.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Example:
int rc;
const char * s = "some string";
/* We use strlen(s) so the string will be packed without the terminator (null)
* character. */
if ((rc = qp_add_raw(packer, s, strlen(s)))) {
fprintf(stderr, "error: %s\n", qp_strerror(rc));
}
Add an integer value to the packer. Note that only signed integers are
supported by QPack so unsigned integers should be casted. This function
accepts only int64_t
but tries to pack the value as small as possible.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Add a double value to the packer.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Add boolean value TRUE
to the packer.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Add boolean value FALSE
to the packer.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Add NULL
to the packer.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Add an ARRAY
to the packer. Do not forget to close the array using
qp_close_array()
although closing is not required by qpack in case
no other values need to be added after the array.
Note: this function needs a pointer-pointer to a packer since the function might re-allocate memory for the packer.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Add an MAP
to the packer for storing key/value pairs. Do not forget to close
the map using qp_close_map()
although closing is not required by qpack in case
no other values need to be added after the map. Always add an even number of
items which represent key/value pairs.
Note: this function needs a pointer-pointer to a packer since the function might re-allocate memory for the packer.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated.
Close an array.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated. QP_ERR_NO_OPEN_ARRAY
can be returned in case no open
array was found.
Close a map.
Returns 0 if successful or QP_ERR_ALLOC
in case more memory is required which
cannot be allocated. QP_ERR_NO_OPEN_MAP
can be returned in case no open
map was found or QP_ERR_MISSING_VALUE
is returned (and the map will not be
closed) if the map contains a key without value.
Macro function for printing packer content to stdout.
Object which is used to unpack data.
Public members
const unsigned char * qp_unpacker_t.pt
: pointer to the current position in the dataconst unsigned char * qp_unpacker_t.start
: pointer to data start (readonly)const unsigned char * qp_unpacker_t.end
: pointer to data end (readonly)
Initialize an qp_unpacker_t
instance. No additional clean is required.
Used walk over an unpacker instance step-by-step. After calling the function,
qp_obj
points to the current item in the unpacker. qp_obj.tp
is always equal
to the return value of this function but note that qp_obj
is allowed to be
NULL
in which case you only have the return value. Because a qp_obj_t
instance can point to the raw data in the unpacker, the unpacker/data must
not be destroyed as long as the qp_obj_t
is in use.
Example (this code can replace the print_qa()
code in
the unpacker example:
qp_obj_t question, answer;
assert (qp_is_map(qp_next(&unpacker, NULL)));
assert (qp_is_raw(qp_next(&unpacker, &question)));
assert (qp_is_int(qp_next(&unpacker, &answer)));
printf(
"Unpacked:\n"
" Question: %.*s\n"
" Answer : %" PRId64 "\n",
(int) question.len, question.via.raw,
answer.via.int64);
Returns a pointer to a qp_res_t instance or NULL
in case of an
error. When successful the original data (unpacker) is no longer required and
can be destroyed.
Argument rc
is 0 when successful or QP_ERR_ALLOC
in case required memory
cannot be allocated. The value of rc
is QP_ERR_CORRUPT
when the unpacker
contains data which cannot be unpacked. rc
is not required and is allowed to
be NULL
.
Note: Each raw value will be copied to a NULL terminated string which means that this function cannot be used in case your raw data contains NULL characters. In the latter case you need to use
qp_next()
to unpack the data.
Macro function for printing unpacker content to stdout.
Object which contains unpacked data. An instance of qp_res_t
is created with
the qp_unpacker_t function qp_unpacker_res()
.
Public members
qp_res_tp qp_res_t.tp
: Type of the result (readonly)QP_RES_MAP
QP_RES_ARRAY
QP_RES_INT64
QP_RES_REAL
QP_RES_STR
QP_RES_BOOL
QP_RES_NULL
qp_res_via_t qp_res_t.via
: Union containing the actual data (readonly)qp_map_t * map
qp_array_t * array
char * str
(null terminated string)int64_t int64
double real
int bool
(0=FALSE or 1=TRUE)void * null
(set to the actualNULL
pointer)
Cleanup result instance.
Object is accesible via qp_res_t.via.map.
Public members
size_t qp_map_t.n
: Number of keys and values in the map (readonly)qp_res_t * qp_map_t.keys
: Keys (readonly)qp_res_t * qp_map_t.values
: Values (readonly)
Object is accesible via qp_res_t.via.array.
Public members
size_t qp_map_t.n
: Number of values in the array (readonly)qp_res_t * qp_map_t.values
: Values (readonly)
Object is used together with the qp_next()
function and can point to
data from an unpacker object.
Public members
uint8_t qp_obj_t.tp
: Type for the object (readonly)QP_END
(equal to 0 and indicates end of unpacker)QP_ERR
(error while reading from unpacker)QP_RAW
(raw data)QP_HOOK
(hook for custom implementations)QP_INT64
( signed 64bit interger)QP_DOUBLE
(double value)QP_ARRAY0
(empty array)QP_ARRAY1
(array with 1 item)QP_ARRAY2
(array with 2 items)QP_ARRAY3
(array with 3 items)QP_ARRAY4
(array with 4 items)QP_ARRAY5
(array with 5 items)QP_MAP0
(empty map)QP_MAP1
(map with 1 item)QP_MAP2
(map with 2 items)QP_MAP3
(map with 3 items)QP_MAP4
(map with 4 items)QP_MAP5
(map with 5 items)QP_TRUE
(boolean true)QP_FALSE
(boolean false)QP_NULL
(null)QP_ARRAY_OPEN
(open a new array)QP_MAP_OPEN
(open a new map)QP_ARRAY_CLOSE
(close array)QP_MAP_CLOSE
(close map)
size_t qp_obj_t.len
: Length of data. (readonly, only used when tp=QP_RAW)qp_via_t qp_obj_t.via
: Union type (readonly, only used when tp=QP_RAW, QP_INT64 or QP_DOUBLE)int64_t int64
double real
const char * raw
Returns the error message for a given error code.
Returns the version of qpack.