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eco2d/code/game/src/packet.c

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C
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#include "packet_utils.h"
#include "compress.h"
#include "cwpack/cwpack.h"
// NOTE(zaklaus): packets
#include "packets/pkt_00_init.h"
#include "packets/pkt_01_welcome.h"
#include "packets/pkt_send_keystate.h"
#include "packets/pkt_send_librg_update.h"
#define PKT_HEADER_ELEMENTS 3
pkt_handler pkt_handlers[] = {
{.id = MSG_ID_00_INIT, .handler = pkt_00_init_handler},
{.id = MSG_ID_01_WELCOME, .handler = pkt_01_welcome_handler},
{.id = MSG_ID_LIBRG_UPDATE, .handler = pkt_send_librg_update_handler},
{.id = MSG_ID_SEND_KEYSTATE, .handler = pkt_send_keystate_handler},
};
uint8_t pkt_buffer[PKT_BUFSIZ];
int32_t pkt_header_encode(pkt_messages id, uint16_t view_id, void *data, size_t datalen) {
cw_pack_context pc = {0};
pkt_pack_msg(&pc, PKT_HEADER_ELEMENTS);
cw_pack_unsigned(&pc, id);
cw_pack_unsigned(&pc, view_id);
cw_pack_bin(&pc, data, datalen);
return pkt_pack_msg_size(&pc);
}
int32_t pkt_header_decode(pkt_header *table, void *data, size_t datalen) {
cw_unpack_context uc = {0};
pkt_unpack_msg_raw(&uc, data, datalen, PKT_HEADER_ELEMENTS);
cw_unpack_next(&uc);
if (uc.item.type != CWP_ITEM_POSITIVE_INTEGER || uc.item.as.u64 > UINT16_MAX) {
return -1; // invalid packet id
}
uint16_t pkt_id = (uint16_t)uc.item.as.u64;
cw_unpack_next(&uc);
if (uc.item.type != CWP_ITEM_POSITIVE_INTEGER || uc.item.as.u64 > UINT16_MAX) {
return -1; // invalid view id
}
uint16_t view_id = (uint16_t)uc.item.as.u64;
cw_unpack_next(&uc);
const void *packed_blob = uc.item.as.bin.start;
uint32_t packed_size = uc.item.as.bin.length;
table->id = pkt_id;
table->view_id = view_id;
table->data = packed_blob;
table->datalen = packed_size;
table->ok = 1;
return pkt_validate_eof_msg(&uc) != -1;
}
int32_t pkt_unpack_struct(cw_unpack_context *uc, pkt_desc *desc, void *raw_blob, uint32_t blob_size) {
uint8_t *blob = (uint8_t*)raw_blob;
for (pkt_desc *field = desc; field->type != CWP_NOT_AN_ITEM; ++field) {
cw_unpack_next(uc);
if (field->skip_count != 0) {
if (uc->item.type != CWP_ITEM_POSITIVE_INTEGER) return -1; // unexpected field
field += uc->item.as.u64;
continue;
}
if (uc->item.type != field->type) return -1; // unexpected field
if (blob + field->offset + field->size > blob + blob_size) return -1; // field does not fit
switch (field->type) {
case CWP_ITEM_DOUBLE: {
zpl_memcopy(blob + field->offset, (uint8_t*)&uc->item.as.long_real, field->size);
}break;
case CWP_ITEM_FLOAT: {
zpl_memcopy(blob + field->offset, (uint8_t*)&uc->item.as.real, field->size);
} break;
case CWP_ITEM_NEGATIVE_INTEGER: {
zpl_memcopy(blob + field->offset, (uint8_t*)&uc->item.as.i64, field->size);
}break;
case CWP_ITEM_POSITIVE_INTEGER: {
zpl_memcopy(blob + field->offset, (uint8_t*)&uc->item.as.u64, field->size);
}break;
case CWP_ITEM_BIN: {
if (uc->item.as.bin.length >= PKT_BUFSIZ) return -1; // bin blob too big
static uint8_t bin_buf[PKT_BUFSIZ] = {0};
uint32_t actual_size = decompress_rle(uc->item.as.bin.start, uc->item.as.bin.length, bin_buf);
if (actual_size != field->size) return -1; // bin size mismatch
zpl_memcopy(blob + field->offset, bin_buf, actual_size);
}break;
default: {
zpl_printf("[WARN] unsupported pkt field type %lld !\n", field->type);
return -1; // unsupported field
}break;
}
}
return 0;
}
int32_t pkt_pack_struct(cw_pack_context *pc, pkt_desc *desc, void *raw_blob, uint32_t blob_size) {
uint8_t *blob = (uint8_t*)raw_blob;
for (pkt_desc *field = desc; field->type != CWP_NOT_AN_ITEM; ++field) {
if (field->skip_count != 0) {
uint8_t val = *(uint8_t*)(blob + field->offset);
if ((field->skip_count > 0 && val == field->skip_eq) ||
(field->skip_count < 0 && val != field->skip_eq)) {
cw_pack_unsigned(pc, zpl_abs(field->skip_count));
field += zpl_abs(field->skip_count);
} else {
cw_pack_unsigned(pc, 0);
}
continue;
}
switch (field->type) {
case CWP_ITEM_BIN: {
if (field->size >= PKT_BUFSIZ) return -1; // bin blob too big
static uint8_t bin_buf[PKT_BUFSIZ] = {0};
uint32_t size = compress_rle(blob + field->offset, field->size, bin_buf);
cw_pack_bin(pc, bin_buf, size);
}break;
case CWP_ITEM_POSITIVE_INTEGER: {
uint64_t num;
zpl_memcopy(&num, blob + field->offset, field->size);
cw_pack_unsigned(pc, num);
}break;
case CWP_ITEM_NEGATIVE_INTEGER: {
int64_t num;
zpl_memcopy(&num, blob + field->offset, field->size);
cw_pack_signed(pc, num);
}break;
case CWP_ITEM_DOUBLE: {
double num;
zpl_memcopy(&num, blob + field->offset, field->size);
cw_pack_double(pc, num);
}break;
case CWP_ITEM_FLOAT: {
float num;
zpl_memcopy(&num, blob + field->offset, field->size);
cw_pack_float(pc, num);
}break;
default: {
zpl_printf("[WARN] unsupported pkt field type %lld !\n", field->type);
return -1; // unsupported field
}break;
}
}
return 0;
}
void pkt_dump_struct(pkt_desc *desc, void* raw_blob, uint32_t blob_size) {
uint8_t *blob = (uint8_t*)raw_blob;
zpl_printf("{\n");
for (pkt_desc *field = desc; field->type != CWP_NOT_AN_ITEM; ++field) {
if (field->skip_count) {
uint8_t val = *(uint8_t*)(blob + field->offset);
if (val == field->skip_eq) {
field += field->skip_count;
}
continue;
}
zpl_printf(" \"%s\": ", field->name);
switch (field->type) {
case CWP_ITEM_BIN: {
// TODO(zaklaus): print memory dump as array of hex bytes
}break;
case CWP_ITEM_POSITIVE_INTEGER: {
zpl_printf("%u\n", *(uint64_t*)(blob + field->offset));
}break;
case CWP_ITEM_NEGATIVE_INTEGER: {
zpl_printf("%d\n", *(int64_t*)(blob + field->offset));
}break;
case CWP_ITEM_FLOAT: {
zpl_printf("%f\n", *(float*)(blob + field->offset));
}break;
case CWP_ITEM_DOUBLE: {
zpl_printf("%f\n", *(double*)(blob + field->offset));
}break;
default: {
zpl_printf("[WARN] unsupported pkt field type %lld !\n", field->type);
return; // unsupported field
}break;
}
}
zpl_printf("}\n");
}
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