#include <stdint.h>
#include <string.h>
#include "lib/cbor.h"
/* String versions of type constants */
static const char *cbor_type_str_a[] = {
"POSINT",
"NEGINT",
"BYTES",
"TEXT",
"ARRAY",
"MAP",
"TAG",
"SPECIAL",
};
const char *
cbor_type_str(enum cbor_basic_type t)
{
return (t < ARRAY_SIZE(cbor_type_str_a)) ?
cbor_type_str_a[t] :
tmp_sprintf("(unknown: %u)", t);
}
/* Raw data writing */
bool cbor_put_check(struct cbor_writer *w, u64 amount)
{
return w->data.pos + amount <= w->data.end;
}
#define CBOR_PUT(amount) ({ \
byte *put = w->data.pos; \
if ((w->data.pos += (amount)) >= w->data.end) return false; \
put; })
bool cbor_put_raw_u8(struct cbor_writer *w, byte b)
{
*(CBOR_PUT(1)) = b;
return true;
}
bool cbor_put_raw_u16(struct cbor_writer *w, u16 val)
{
put_u16(CBOR_PUT(2), val);
return true;
}
bool cbor_put_raw_u32(struct cbor_writer *w, u32 val)
{
put_u32(CBOR_PUT(4), val);
return true;
}
bool cbor_put_raw_u64(struct cbor_writer *w, u64 val)
{
put_u64(CBOR_PUT(8), val);
return true;
}
bool cbor_put_raw_data(struct cbor_writer *w, const byte *block, u64 size)
{
memcpy(CBOR_PUT(size), block, size);
return true;
}
/* Basic value putting */
bool cbor_put(struct cbor_writer *w, enum cbor_basic_type type, u64 value)
{
ASSERT_DIE((type >= 0) && (type <= 8));
w->stack[w->stack_pos].items++;
byte tt = type << 5;
if (value < 0x18)
return
cbor_put_raw_u8(w, tt | value);
else if (value < 0x100)
return
cbor_put_raw_u8(w, tt | 0x18) &&
cbor_put_raw_u8(w, value);
else if (value < 0x10000)
return
cbor_put_raw_u8(w, tt | 0x19) &&
cbor_put_raw_u16(w, value);
else if (value < 0x100000000)
return
cbor_put_raw_u8(w, tt | 0x1a) &&
cbor_put_raw_u32(w, value);
else
return
cbor_put_raw_u8(w, tt | 0x1b) &&
cbor_put_raw_u64(w, value);
}
bool cbor_put_int(struct cbor_writer *w, int64_t value)
{
if (value >= 0)
return cbor_put(w, CBOR_POSINT, value);
else
return cbor_put(w, CBOR_NEGINT, -1-value);
}
/* Strings */
bool cbor_put_raw_bytes(struct cbor_writer *w, enum cbor_basic_type type, const byte *block, u64 size)
{
return
cbor_put(w, type, size) &&
cbor_put_raw_data(w, block, size);
}
/* Arrays and maps */
bool cbor_put_open(struct cbor_writer *w, enum cbor_basic_type type)
{
if (++w->stack_pos >= w->stack_max)
return false;
w->stack[w->stack_pos].head = w->data.pos;
w->stack[w->stack_pos].items = 0;
return cbor_put(w, type, ~0ULL);
}
bool cbor_put_close(struct cbor_writer *w, u64 actual_size, bool strict)
{
ASSERT_DIE(w->stack_pos > 0);
/* Pop the stack */
byte *head = w->stack[w->stack_pos].head;
u64 items = w->stack[w->stack_pos].items;
w->stack_pos--;
/* Check the original head position */
ASSERT_DIE((head[0] & 0x1f) == 0x1f);
ASSERT_DIE(w->data.pos >= w->data.start + 9);
switch (head[0] >> 5)
{
case CBOR_ARRAY:
if (strict && (items != actual_size))
bug("Inconsistent array item count");
break;
case CBOR_MAP:
if (strict && (items != actual_size * 2))
bug("Inconsistent map item count");
else if (items & 1)
bug("Trailing map key");
else
items /= 2;
break;
default:
bug("Head points to something other than array or map");
}
/* Move the data back */
if (items < 0x18)
{
memmove(head+1, head+9, w->data.pos - (head+9));
head[0] &= (0xe0 | items);
w->data.pos -= 8;
}
else if (items < 0x100)
{
memmove(head+2, head+9, w->data.pos - (head+9));
head[0] &= 0xf8;
head[1] = items;
w->data.pos -= 7;
}
else if (items < 0x10000)
{
memmove(head+3, head+9, w->data.pos - (head+9));
head[0] &= 0xf9;
put_u16(head+1, items);
w->data.pos -= 6;
}
else if (items < 0x100000000)
{
memmove(head+5, head+9, w->data.pos - (head+9));
head[0] &= 0xfa;
put_u32(head+1, items);
w->data.pos -= 4;
}
else
{
head[0] &= 0xfb;
put_u64(head+1, items);
}
return true;
}
/* Tags: TODO! */
#if 0
void cbor_epoch_time(struct cbor_writer *writer, int64_t time, int shift)
{
write_item(writer, 6, 1); // 6 is TAG, 1 is tag number for epoch time
cbor_relativ_time(writer, time, shift);
}
void cbor_relativ_time(struct cbor_writer *writer, int64_t time, int shift)
{
write_item(writer, 6, 4); // 6 is TAG, 4 is tag number for decimal fraction
cbor_open_list_with_length(writer, 2);
cbor_add_int(writer, shift);
cbor_add_int(writer, time);
}
void cbor_add_ipv4(struct cbor_writer *writer, ip4_addr addr)
{
write_item(writer, 6, 52); // 6 is TAG, 52 is tag number for ipv4
write_item(writer, 2, 4); // bytestring of length 4
put_ip4(&writer->cbor[writer->pt], addr);
writer->pt += 4;
}
void cbor_add_ipv6(struct cbor_writer *writer, ip6_addr addr)
{
write_item(writer, 6, 54); // 6 is TAG, 54 is tag number for ipv6
write_item(writer, 2, 16); // bytestring of length 16
put_ip6(&writer->cbor[writer->pt], addr);
writer->pt += 16;
}
void cbor_add_ipv4_prefix(struct cbor_writer *writer, net_addr_ip4 *n)
{
write_item(writer, 6, 52); // 6 is TAG, 52 is tag number for ipv4
cbor_open_block_with_length(writer, 2);
cbor_add_int(writer, n->pxlen);
write_item(writer, 2, 4); // bytestring of length 4
put_ip4(&writer->cbor[writer->pt], n->prefix);
writer->pt += 4;
}
void cbor_add_ipv6_prefix(struct cbor_writer *writer, net_addr_ip6 *n)
{
write_item(writer, 6, 54); // 6 is TAG, 54 is tag number for ipv6
cbor_open_block_with_length(writer, 2);
cbor_add_int(writer, n->pxlen);
write_item(writer, 2, 16);
put_ip6(&writer->cbor[writer->pt], n->prefix);
writer->pt += 16;
}
void cbor_add_uint(struct cbor_writer *writer, uint64_t item)
{
write_item(writer, 0, item);
}
void cbor_add_tag(struct cbor_writer *writer, int item)
{
write_item(writer, 6, item);
}
void cbor_add_string(struct cbor_writer *writer, const char *string)
{
int length = strlen(string);
write_item(writer, 3, length); // 3 is major, then goes length of string and string
check_memory(writer, length);
memcpy(writer->cbor+writer->pt, string, length);
writer->pt+=length;
}
void cbor_nonterminated_string(struct cbor_writer *writer, const char *string, uint32_t length)
{
write_item(writer, 3, length); // 3 is major, then goes length of string and string
check_memory(writer, length);
memcpy(writer->cbor+writer->pt, string, length);
writer->pt+=length;
}
void write_item(struct cbor_writer *writer, uint8_t major, uint64_t num)
{
//log("write major %i %li", major, num);
major = major<<5;
check_memory(writer, 10);
if (num > ((uint64_t)1<<(4*8))-1)
{ // We need 8 bytes to encode the num
major += 0x1b; // reserving those bytes
writer->cbor[writer->pt] = major;
writer->pt++;
for (int i = 7; i>=0; i--)
{ // write n-th byte of num
uint8_t to_write = (num>>(i*8)) & 0xff;
writer->cbor[writer->pt] = to_write;
writer->pt++;
}
return;
}
if (num > (1<<(2*8))-1)
{ // We need 4 bytes to encode the num
major += 0x1a; // reserving those bytes
writer->cbor[writer->pt] = major;
writer->pt++;
for (int i = 3; i>=0; i--)
{ // write n-th byte of num
uint8_t to_write = (num>>(i*8)) & 0xff;
writer->cbor[writer->pt] = to_write;
writer->pt++;
}
return;
}
if (num > (1<<(8))-1)
{ // We need 2 bytes to encode the num
major += 0x19; // reserving those bytes
writer->cbor[writer->pt] = major;
writer->pt++;
for (int i = 1; i>=0; i--)
{ // write n-th byte of num
uint8_t to_write = (num>>(i*8)) & 0xff;
writer->cbor[writer->pt] = to_write;
writer->pt++;
}
return;
}
if (num > 23)
{ // byte is enough, but aditional value would be too big
major += 0x18; // reserving that byte
writer->cbor[writer->pt] = major;
writer->pt++;
uint8_t to_write = num & 0xff;
writer->cbor[writer->pt] = to_write;
writer->pt++;
return;
}
//log("write item major %i num %i writer->pt %i writer->capacity %i writer %i", major, num, writer->pt, writer->capacity, writer);
major += num; // we can store the num as additional value
writer->cbor[writer->pt] = major;
writer->pt++;
}
void cbor_write_item_with_constant_val_length_4(struct cbor_writer *writer, uint8_t major, uint64_t num)
{
// this is only for headers which should be constantly long.
major = major<<5;
check_memory(writer, 10);
major += 0x1a; // reserving those bytes
writer->cbor[writer->pt] = major;
writer->pt++;
for (int i = 3; i>=0; i--)
{ // write n-th byte of num
uint8_t to_write = (num>>(i*8)) & 0xff;
writer->cbor[writer->pt] = to_write;
writer->pt++;
}
}
void rewrite_4bytes_int(struct cbor_writer *writer, int pt, int num)
{
for (int i = 3; i>=0; i--)
{
uint8_t to_write = (num>>(i*8)) & 0xff;
writer->cbor[pt] = to_write;
pt++;
}
}
void check_memory(struct cbor_writer *writer, int add_size)
{
if (writer->capacity - writer->pt-add_size < 0)
{
bug("There is not enough space for cbor response in given buffer");
}
}
#endif