blender/extern/verse/dist/v_man_pack_node.c

496 lines
19 KiB
C

/*
**
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "v_cmd_gen.h"
#if !defined V_GENERATE_FUNC_MODE
#include "verse.h"
#include "v_cmd_buf.h"
#include "v_network_out_que.h"
#include "v_network.h"
#include "v_connection.h"
#include "v_encryption.h"
unsigned int v_unpack_connect(const char *buf, unsigned int buffer_length)
{
return -1; /* this command is illegal to send */
}
unsigned int v_unpack_connect_accept(const char *buf, unsigned int buffer_length)
{
return -1; /* this command is illegal to send */
}
extern void v_callback_connect_terminate(const char *bye);
unsigned int v_unpack_connect_terminate(const char *buf, unsigned int buffer_length)
{
unsigned int buffer_pos = 0;
char bye[512];
buffer_pos = vnp_raw_unpack_string(buf, bye, sizeof bye, buffer_length);
v_callback_connect_terminate(bye);
return buffer_pos;
}
static unsigned int pack_b_tile_set_head(VCMDBufHead *head, VNodeID node_id, VLayerID layer_id, uint16 tile_x, uint16 tile_y, uint16 z, VNBLayerType type, const VNBTile *tile)
{
unsigned int buffer_pos = 0;
uint8 *buf;
buf = ((VCMDBuffer30 *)head)->buf;
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], 83); /* Pack the command. */
#if defined V_PRINT_SEND_COMMANDS
printf("send: verse_send_b_tile_set(node_id = %u layer_id = %u tile_x = %u tile_y = %u z = %u type = %u tile = %p );\n", node_id, layer_id, tile_x, tile_y, z, type, tile);
#endif
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], node_id);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], layer_id);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], tile_x);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], tile_y);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], z);
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], (uint8)type);
return buffer_pos;
v_cmd_buf_set_address_size(head, 13);
v_cmd_buf_set_size(head, buffer_pos);
v_noq_send_buf(v_con_get_network_queue(), head);
}
void verse_send_b_tile_set(VNodeID node_id, VLayerID layer_id, uint16 tile_x, uint16 tile_y, uint16 z, VNBLayerType type, const VNBTile *tile)
{
uint8 *buf;
unsigned int buffer_pos = 0;
VCMDBufHead *head;
switch(type)
{
case VN_B_LAYER_UINT1 :
head = v_cmd_buf_allocate(VCMDBS_30);/* Allocating the buffer */
buf = ((VCMDBuffer30 *)head)->buf;
buffer_pos += pack_b_tile_set_head(head, node_id, layer_id, tile_x, tile_y, z, type, tile);
buffer_pos += vnp_raw_pack_uint8_vector(&buf[buffer_pos], tile->vuint1, VN_B_TILE_SIZE * VN_B_TILE_SIZE / 8);
break;
case VN_B_LAYER_UINT8 :
head = v_cmd_buf_allocate(VCMDBS_80);/* Allocating the buffer */
buf = ((VCMDBuffer80 *)head)->buf;
buffer_pos += pack_b_tile_set_head(head, node_id, layer_id, tile_x, tile_y, z, type, tile);
buffer_pos += vnp_raw_pack_uint8_vector(&buf[buffer_pos], tile->vuint8, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
case VN_B_LAYER_UINT16 :
head = v_cmd_buf_allocate(VCMDBS_160);/* Allocating the buffer */
buf = ((VCMDBuffer160 *)head)->buf;
buffer_pos += pack_b_tile_set_head(head, node_id, layer_id, tile_x, tile_y, z, type, tile);
buffer_pos += vnp_raw_pack_uint16_vector(&buf[buffer_pos], tile->vuint16, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
case VN_B_LAYER_REAL32 :
head = v_cmd_buf_allocate(VCMDBS_320);/* Allocating the buffer */
buf = ((VCMDBuffer320 *)head)->buf;
buffer_pos += pack_b_tile_set_head(head, node_id, layer_id, tile_x, tile_y, z, type, tile);
buffer_pos += vnp_raw_pack_real32_vector(&buf[buffer_pos], tile->vreal32, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
case VN_B_LAYER_REAL64 :
head = v_cmd_buf_allocate(VCMDBS_1500);/* Allocating the buffer */
buf = ((VCMDBuffer10 *)head)->buf;
buffer_pos += pack_b_tile_set_head(head, node_id, layer_id, tile_x, tile_y, z, type, tile);
buffer_pos += vnp_raw_pack_real64_vector(&buf[buffer_pos], tile->vreal64, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
}
v_cmd_buf_set_address_size(head, 13);
v_cmd_buf_set_size(head, buffer_pos);
v_noq_send_buf(v_con_get_network_queue(), head);
}
unsigned int v_unpack_b_tile_set(const char *buf, size_t buffer_length)
{
uint8 enum_temp;
unsigned int buffer_pos = 0;
void (* func_b_tile_set)(void *user_data, VNodeID node_id, VLayerID layer_id, uint16 tile_x, uint16 tile_y, uint16 z, VNBLayerType type, const VNBTile *tile);
VNodeID node_id;
VLayerID layer_id;
uint16 tile_x;
uint16 tile_y;
uint16 z;
VNBLayerType type;
const VNBTile *tile;
func_b_tile_set = v_fs_get_user_func(83);
if(buffer_length < 12)
return -1;
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &node_id);
buffer_pos += vnp_raw_unpack_uint16(&buf[buffer_pos], &layer_id);
buffer_pos += vnp_raw_unpack_uint16(&buf[buffer_pos], &tile_x);
buffer_pos += vnp_raw_unpack_uint16(&buf[buffer_pos], &tile_y);
buffer_pos += vnp_raw_unpack_uint16(&buf[buffer_pos], &z);
buffer_pos += vnp_raw_unpack_uint8(&buf[buffer_pos], &enum_temp);
type = (VNBLayerType)enum_temp;
#if defined V_PRINT_RECEIVE_COMMANDS
printf("receive: verse_send_b_tile_set(node_id = %u layer_id = %u tile_x = %u tile_y = %u z = %u type = %u ); callback = %p\n", node_id, layer_id, tile_x, tile_y, z, type, v_fs_get_user_func(83));
#endif
{
VNBTile tile;
switch(type)
{
case VN_B_LAYER_UINT1 :
buffer_pos += vnp_raw_unpack_uint8_vector(&buf[buffer_pos], tile.vuint1, VN_B_TILE_SIZE * VN_B_TILE_SIZE / 8);
break;
case VN_B_LAYER_UINT8 :
buffer_pos += vnp_raw_unpack_uint8_vector(&buf[buffer_pos], tile.vuint8, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
case VN_B_LAYER_UINT16 :
buffer_pos += vnp_raw_unpack_uint16_vector(&buf[buffer_pos], tile.vuint16, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
case VN_B_LAYER_REAL32 :
buffer_pos += vnp_raw_unpack_real32_vector(&buf[buffer_pos], tile.vreal32, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
case VN_B_LAYER_REAL64 :
buffer_pos += vnp_raw_unpack_real64_vector(&buf[buffer_pos], tile.vreal64, VN_B_TILE_SIZE * VN_B_TILE_SIZE);
break;
}
if(func_b_tile_set != NULL && type <= VN_B_LAYER_REAL64)
func_b_tile_set(v_fs_get_user_data(83), node_id, layer_id, tile_x, tile_y, z, type, &tile);
return buffer_pos;
}
if(func_b_tile_set != NULL)
func_b_tile_set(v_fs_get_user_data(83), node_id, layer_id, tile_x, tile_y, z, (VNBLayerType)type, tile);
return buffer_pos;
}
typedef struct VTempText VTempText;
struct VTempText {
VNodeID node_id;
VBufferID buffer_id;
uint32 pos;
uint32 length;
uint16 index;
char *text;
VTempText *next;
};
typedef struct {
VTempText *text_temp;
uint16 text_send_id;
uint16 text_receive_id;
} VOrderedStorage;
VOrderedStorage * v_create_ordered_storage(void)
{
VOrderedStorage *s;
s = malloc(sizeof *s);
s->text_temp = NULL;
s->text_send_id = 0;
s->text_receive_id = 0;
return s;
}
void v_destroy_ordered_storage(VOrderedStorage *s)
{
VTempText *line, *next;
for(line = s->text_temp; line != NULL; line = next)
{
next = line->next;
if(line->text != NULL)
free(line->text);
free(line);
}
free(s);
}
void verse_send_t_text_set(VNodeID node_id, VBufferID buffer_id, uint32 pos, uint32 length, const char *text)
{
uint8 *buf;
VOrderedStorage *s;
unsigned int buffer_pos = 0;
VCMDBufHead *head;
head = v_cmd_buf_allocate(VCMDBS_1500);/* Allocating the buffer */
buf = ((VCMDBuffer10 *)head)->buf;
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], 99);/* Packing the command */
#if defined V_PRINT_SEND_COMMANDS
printf("send: verse_send_t_text_set(node_id = %u buffer_id = %u pos = %u length = %u text = %s );\n", node_id, buffer_id, pos, length, text);
#endif
s = v_con_get_ordered_storage();
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], node_id);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], buffer_id);
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], pos);
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], length);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], s->text_send_id++);
if(text == NULL)
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], 0);
else
buffer_pos += vnp_raw_pack_string(&buf[buffer_pos], text, VN_T_MAX_TEXT_CMD_SIZE);
v_cmd_buf_set_unique_address_size(head, buffer_pos);
v_cmd_buf_set_size(head, buffer_pos);
v_noq_send_buf(v_con_get_network_queue(), head);
}
static void call_text_set(VTempText *line)
{
const char *t;
void (* func_t_text_set)(void *user_data, VNodeID node_id, VBufferID buffer_id, uint32 pos, uint16 length, const char *text);
func_t_text_set = v_fs_get_user_func(99);
#if defined V_PRINT_RECEIVE_COMMANDS
printf("receive: verse_send_t_text_set(node_id = %u buffer_id = %u pos = %u length = %u text = %s ); callback = %p\n", line->node_id, line->buffer_id, line->pos, line->length, line->text, v_fs_get_user_func(99));
#endif
if(line->text == NULL)
t = "";
else
t = line->text;
if(func_t_text_set != NULL)
func_t_text_set(v_fs_get_user_data(99), line->node_id, line->buffer_id, line->pos, line->length, t);
}
unsigned int v_unpack_t_text_set(const char *buf, size_t buffer_length)
{
unsigned int i, buffer_pos = 0;
VOrderedStorage *s;
VTempText l, *line, *past = NULL;
char text[1500];
if(buffer_length < 12)
return -1;
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &l.node_id);
buffer_pos += vnp_raw_unpack_uint16(&buf[buffer_pos], &l.buffer_id);
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &l.pos);
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &l.length);
buffer_pos += vnp_raw_unpack_uint16(&buf[buffer_pos], &l.index);
buffer_pos += vnp_raw_unpack_string(&buf[buffer_pos], text, sizeof text, buffer_length - buffer_pos);
if(text[0] == 0)
l.text = NULL;
else
l.text = text;
s = v_con_get_ordered_storage();
if(s->text_receive_id == l.index)
{
call_text_set(&l);
s->text_receive_id++;
line = s->text_temp;
while(line != NULL)
{
if(line->index == s->text_receive_id)
{
call_text_set(line);
if(past == NULL)
s->text_temp = line->next;
else
past->next = line->next;
if(line->text != NULL)
free(line->text);
past = NULL;
free(line);
line = s->text_temp;
s->text_receive_id++;
}
else
{
past = line;
line = line->next;
}
}
}
else
{
line = malloc(sizeof *line);
*line = l;
line->next = s->text_temp;
s->text_temp = line;
i = strlen(text);
if(i > 0)
{
line->text = malloc(i + 1);
strcpy(line->text, text);
}
else
line->text = NULL;
}
return buffer_pos;
}
void verse_send_c_key_set(VNodeID node_id, VLayerID curve_id, uint32 key_id, uint8 dimensions,
const real64 *pre_value, const uint32 *pre_pos,
const real64 *value, real64 pos,
const real64 *post_value, const uint32 *post_pos)
{
uint8 *buf;
unsigned int i, buffer_pos = 0;
VCMDBufHead *head;
head = v_cmd_buf_allocate(VCMDBS_1500);/* Allocating the buffer */
buf = ((VCMDBuffer10 *)head)->buf;
if(dimensions == 0 || dimensions > 4)
return;
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], 130);/* Packing the command */
#if defined V_PRINT_SEND_COMMANDS
switch(dimensions)
{
case 1:
printf("send: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = %f pre_pos = %u value = %f pos = %f, pre_value = %f pre_pos = %u ); callback = %p\n", node_id, curve_id, key_id, dimensions, pre_value[0], pre_pos[0], value[0], pos, pre_value[0], pre_pos[0], v_fs_get_user_func(130));
break;
case 2:
printf("sende: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = {%f, %f} pre_pos = {%u, %u} value = {%f, %f} pos = %f, pre_value = {%f, %f} pre_pos = {%u, %u}); callback = %p\n",
node_id, curve_id, key_id, dimensions,
pre_value[0], pre_value[1],
pre_pos[0], pre_pos[1],
value[0], value[1], pos,
pre_value[0], pre_value[1],
pre_pos[0], pre_pos[1], v_fs_get_user_func(130));
break;
case 3:
printf("send: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = {%f, %f, %f} pre_pos = {%u, %u, %u} value = {%f, %f, %f} pos = %f, pre_value = {%f, %f, %f} pre_pos = {%u, %u, %u}); callback = %p\n",
node_id, curve_id, key_id, dimensions,
pre_value[0], pre_value[1], pre_value[2],
pre_pos[0], pre_pos[1], pre_pos[2],
value[0], value[1], value[2], pos,
pre_value[0], pre_value[1], pre_value[2],
pre_pos[0], pre_pos[1], pre_pos[2], v_fs_get_user_func(130));
break;
case 4:
printf("send: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = {%f, %f, %f, %f} pre_pos = {%u, %u, %u, %u} value = {%f, %f, %f, %f} pos = %f, pre_value = {%f, %f, %f, %f} pre_pos = {%u, %u, %u, %u}); callback = %p\n",
node_id, curve_id, key_id, dimensions,
pre_value[0], pre_value[1], pre_value[2], pre_value[3],
pre_pos[0], pre_pos[1], pre_pos[2], pre_pos[3],
value[0], value[1], value[2], value[3], pos,
pre_value[0], pre_value[1], pre_value[2], pre_value[3],
pre_pos[0], pre_pos[1], pre_pos[2], pre_pos[3], v_fs_get_user_func(130));
break;
}
#endif
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], node_id);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], curve_id);
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], key_id);
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], dimensions);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_pack_real64(&buf[buffer_pos], pre_value[i]);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], pre_pos[i]);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_pack_real64(&buf[buffer_pos], value[i]);
buffer_pos += vnp_raw_pack_real64(&buf[buffer_pos], pos);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_pack_real64(&buf[buffer_pos], post_value[i]);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], post_pos[i]);
if(key_id == (uint32)(-1))
v_cmd_buf_set_unique_address_size(head, 11);
else
v_cmd_buf_set_address_size(head, 11);
v_cmd_buf_set_size(head, buffer_pos);
v_noq_send_buf(v_con_get_network_queue(), head);
}
void verse_send_c_key_destroy(VNodeID node_id, VLayerID curve_id, uint32 key_id)
{
uint8 *buf;
unsigned int buffer_pos = 0;
VCMDBufHead *head;
head = v_cmd_buf_allocate(VCMDBS_1500);/* Allocating the buffer */
buf = ((VCMDBuffer10 *)head)->buf;
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], 130);/* Packing the command */
#if defined V_PRINT_SEND_COMMANDS
printf("send: verse_send_c_key_destroy(node_id = %u curve_id = %u key_id = %u );\n", node_id, curve_id, key_id);
#endif
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], node_id);
buffer_pos += vnp_raw_pack_uint16(&buf[buffer_pos], curve_id);
buffer_pos += vnp_raw_pack_uint32(&buf[buffer_pos], key_id);
buffer_pos += vnp_raw_pack_uint8(&buf[buffer_pos], 0);
v_cmd_buf_set_address_size(head, 11);
v_cmd_buf_set_size(head, buffer_pos);
v_noq_send_buf(v_con_get_network_queue(), head);
}
unsigned int v_unpack_c_key_set(const char *buf, size_t buffer_length)
{
unsigned int i, buffer_pos = 0;
VNodeID node_id;
VLayerID curve_id;
uint32 key_id;
uint8 dimensions;
real64 pre_value[4], value[4], pos, post_value[4];
uint32 post_pos[4], pre_pos[4];
if(buffer_length < 11)
return -1;
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &node_id);
buffer_pos += vnp_raw_unpack_uint16(&buf[buffer_pos], &curve_id);
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &key_id);
buffer_pos += vnp_raw_unpack_uint8(&buf[buffer_pos], &dimensions);
if(dimensions != 0 && dimensions < 5)
{
void (* func_c_key_set)(void *user_data, VNodeID node_id, VLayerID curve_id, uint32 key_id, uint8 dimensions, real64 *pre_value, uint32 *pre_pos, real64 *value, real64 pos, real64 *post_value, uint32 *post_pos);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_unpack_real64(&buf[buffer_pos], &pre_value[i]);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &pre_pos[i]);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_unpack_real64(&buf[buffer_pos], &value[i]);
buffer_pos += vnp_raw_unpack_real64(&buf[buffer_pos], &pos);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_unpack_real64(&buf[buffer_pos], &post_value[i]);
for(i = 0; i < dimensions; i++)
buffer_pos += vnp_raw_unpack_uint32(&buf[buffer_pos], &post_pos[i]);
#if defined V_PRINT_RECEIVE_COMMANDS
switch(dimensions)
{
case 1:
printf("receive: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = %f pre_pos = %u value = %f pos = %f, pre_value = %f pre_pos = %u ); callback = %p\n", node_id, curve_id, key_id, dimensions, pre_value[0], pre_pos[0], value[0], pos, pre_value[0], pre_pos[0], v_fs_get_user_func(130));
break;
case 2:
printf("receive: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = {%f, %f} pre_pos = {%u, %u} value = {%f, %f} pos = %f, pre_value = {%f, %f} pre_pos = {%u, %u}); callback = %p\n",
node_id, curve_id, key_id, dimensions,
pre_value[0], pre_value[1],
pre_pos[0], pre_pos[1],
value[0], value[1], pos,
pre_value[0], pre_value[1],
pre_pos[0], pre_pos[1], v_fs_get_user_func(130));
break;
case 3:
printf("receive: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = {%f, %f, %f} pre_pos = {%u, %u, %u} value = {%f, %f, %f} pos = %f, pre_value = {%f, %f, %f} pre_pos = {%u, %u, %u}); callback = %p\n",
node_id, curve_id, key_id, dimensions,
pre_value[0], pre_value[1], pre_value[2],
pre_pos[0], pre_pos[1], pre_pos[2],
value[0], value[1], value[2], pos,
pre_value[0], pre_value[1], pre_value[2],
pre_pos[0], pre_pos[1], pre_pos[2], v_fs_get_user_func(130));
break;
case 4:
printf("receive: verse_send_c_key_set(node_id = %u curve_id = %u key_id = %u dimensions = %u pre_value = {%f, %f, %f, %f} pre_pos = {%u, %u, %u, %u} value = {%f, %f, %f, %f} pos = %f, pre_value = {%f, %f, %f, %f} pre_pos = {%u, %u, %u, %u}); callback = %p\n",
node_id, curve_id, key_id, dimensions,
pre_value[0], pre_value[1], pre_value[2], pre_value[3],
pre_pos[0], pre_pos[1], pre_pos[2], pre_pos[3],
value[0], value[1], value[2], value[3], pos,
pre_value[0], pre_value[1], pre_value[2], pre_value[3],
pre_pos[0], pre_pos[1], pre_pos[2], pre_pos[3], v_fs_get_user_func(130));
break;
}
#endif
func_c_key_set = v_fs_get_user_func(130);
if(func_c_key_set != NULL)
func_c_key_set(v_fs_get_user_data(130), node_id, curve_id, key_id, dimensions, pre_value, pre_pos, value, pos, post_value, post_pos);
return buffer_pos;
}else
{
void (* alias_c_key_destroy)(void *user_data, VNodeID node_id, VLayerID curve_id, uint32 key_id);
alias_c_key_destroy = v_fs_get_alias_user_func(130);
printf("receive: verse_send_c_key_destroy(node_id = %u curve_id = %u key_id = %u); callback = %p\n", node_id, curve_id, key_id, alias_c_key_destroy);
if(alias_c_key_destroy != NULL)
alias_c_key_destroy(v_fs_get_alias_user_data(130), node_id, curve_id, key_id);
return buffer_pos;
}
}
#endif