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// Copyright (c) Athena Dev Teams - Licensed under GNU GPL
// For more information, see LICENCE in the main folder
// graph creation is enabled
// #define ENABLE_GRAPH
#ifdef ENABLE_GRAPH
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifndef _WIN32
#include <unistd.h>
#endif
#ifdef MINGW
#include <io.h>
#endif
#include "../common/core.h"
#include "../common/timer.h"
#include "../common/grfio.h"
#include "../common/malloc.h"
#include "graph.h"
struct graph {
int width;
int height;
int pallet_count;
int png_len;
int png_dirty;
unsigned char* raw_data;
unsigned char* png_data;
int * graph_value;
int graph_max;
};
void graph_write_dword(unsigned char* p,unsigned int v) {
p[0] = (unsigned char)((v >> 24) & 0xFF);
p[1] = (unsigned char)((v >> 16) & 0xFF);
p[2] = (unsigned char)((v >> 8) & 0xFF);
p[3] = (unsigned char)(v & 0xFF);
}
struct graph* graph_create(unsigned int x,unsigned int y) {
struct graph *g = (struct graph*)aCalloc(sizeof(struct graph),1);
if(g == NULL) return NULL;
// 256 * 3 : �p���b�g�f�[�^
// x * y * 2 : �C���[�W�̃o�b�t�@
// 256 : �`�����N�f�[�^�Ȃǂ̗\��
g->png_data = (unsigned char *) aMalloc(4 * 256 + (x + 1) * y * 2);
g->raw_data = (unsigned char *) aCalloc( (x + 1) * y , 1);
memcpy(
g->png_data,
"\x89\x50\x4E\x47\x0D\x0A\x1A\x0A\x00\x00\x00\x0D\x49\x48\x44\x52"
"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x08\x03\x00\x00\x00\xFF\xFF\xFF"
"\xFF\x00\x00\x00\x03\x50\x4C\x54\x45\xFF\xFF\xFF\xA7\xC4\x1B\xC8",0x30
);
graph_write_dword(g->png_data + 0x10,x);
graph_write_dword(g->png_data + 0x14,y);
graph_write_dword(g->png_data + 0x1D,grfio_crc32(g->png_data+0x0C,0x11));
g->pallet_count = 1;
g->width = x;
g->height = y;
g->png_dirty = 1;
g->graph_value = (int *) aCalloc(x,sizeof(int));
g->graph_max = 1;
return g;
}
void graph_pallet(struct graph* g, int index,unsigned long c) {
if(g == NULL || c >= 256) return;
if(g->pallet_count <= index) {
malloc_set(g->png_data + 0x29 + 3 * g->pallet_count,0,(index - g->pallet_count) * 3);
g->pallet_count = index + 1;
}
g->png_data[0x29 + index * 3 ] = (unsigned char)((c >> 16) & 0xFF); // R
g->png_data[0x29 + index * 3 + 1] = (unsigned char)((c >> 8) & 0xFF); // G
g->png_data[0x29 + index * 3 + 2] = (unsigned char)( c & 0xFF); // B
graph_write_dword(g->png_data + 0x21,g->pallet_count * 3);
graph_write_dword(
g->png_data + 0x29 + g->pallet_count * 3,
grfio_crc32(g->png_data + 0x25,g->pallet_count * 3 + 4)
);
g->png_dirty = 1;
}
void graph_setpixel(struct graph* g,int x,int y,int color) {
if(g == NULL || color >= 256) { return; }
if(x < 0) x = 0;
if(y < 0) y = 0;
if(x >= g->width) { x = g->width - 1; }
if(y >= g->height) { y = g->height - 1; }
if(color >= g->pallet_count) { graph_pallet(g,color,graph_rgb(0,0,0)); }
g->raw_data[y * (g->width + 1) + x + 1] = (unsigned char)color;
g->png_dirty = 1;
}
int graph_getpixel(struct graph* g,int x,int y) {
if(x < 0) x = 0;
if(y < 0) y = 0;
if(x >= g->width) { x = g->width - 1; }
if(y >= g->height) { y = g->height - 1; }
return g->raw_data[y * (g->width + 1) + x + 1];
}
const unsigned char* graph_output(struct graph* g,int *len) {
unsigned long inflate_len;
unsigned char *p;
if(g == NULL) return NULL;
if(g->png_dirty == 0) {
*len = g->png_len;
return g->png_data;
}
p = g->png_data + 0x2D + 3 * g->pallet_count;
inflate_len = 2 * (g->width + 1) * g->height;
memcpy(p + 4,"IDAT",4);
encode_zip(p + 8,&inflate_len,g->raw_data,(g->width + 1) * g->height);
graph_write_dword(p,inflate_len);
graph_write_dword(p + 8 + inflate_len,grfio_crc32(p + 4, inflate_len + 4));
p += 0x0C + inflate_len;
memcpy(p,"\x00\x00\x00\x00\x49\x45\x4E\x44\xAE\x42\x60\x82",0x0C);
p += 0x0C;
g->png_len = p - g->png_data;
g->png_dirty = 0;
*len = g->png_len;
return g->png_data;
}
void graph_free(struct graph* g) {
if(g != NULL) {
aFree(g->png_data);
aFree(g->raw_data);
aFree(g->graph_value);
aFree(g);
}
}
// �Ƃ肠�����s�����ŁB��قǏ��������\��
void graph_square(struct graph* g,int x,int y,int xe,int ye,int color) {
int i,j;
if(g == NULL) return;
if(x < 0) { x = 0; }
if(y < 0) { y = 0; }
if(xe > g->width) { xe = g->width; }
if(ye > g->height) { ye = g->height; }
for(i = y;i < ye ; i++) {
for(j = x; j < xe ; j++) {
graph_setpixel(g,j,i,color);
}
}
}
// �Ƃ肠�����s�����ŁB��قǏ��������\��
void graph_scroll(struct graph* g,int n,int color) {
int x,y;
if(g == NULL) return;
for(y = 0; y < g->height; y++) {
for(x = 0; x < g->width - n; x++) {
graph_setpixel(g,x,y,graph_getpixel(g,x + n,y));
}
for( ; x < g->width; x++) {
graph_setpixel(g,x,y,color);
}
}
}
void graph_data(struct graph* g,int value) {
int i, j, start;
if(g == NULL) return;
memmove(&g->graph_value[0],&g->graph_value[1],sizeof(int) * (g->width - 1));
g->graph_value[g->width - 1] = value;
if(value > g->graph_max) {
// �ő�l�����̂ōĕ`��
g->graph_max = value;
graph_square(g,0,0,g->width,g->height,0);
start = 0;
} else {
// �X�N���[�����ă|�C���g�ł�
graph_scroll(g,1,0);
start = g->width - 1;
}
for(i = start; i < g->width; i++) {
int h0 = (i == 0 ? 0 : g->graph_value[i - 1]) * g->height / g->graph_max;
int h1 = (g->graph_value[i] ) * g->height / g->graph_max;
int h2 = (h0 < h1 ? 1 : -1);
for(j = h0; j != h1; j += h2) {
graph_setpixel(g,i,g->height - 1 - j,1);
}
graph_setpixel(g,i,g->height - 1 - h1,1);
}
}
// ��̊��Q�𗘗p���āA�����I�ɃO���t���쐬����^�C�}�[�Q
#define GRP_WIDTH 300 // �O���t�̕�
#define GRP_HEIGHT 200 // �O���t�̍���
#define GRP_COLOR graph_rgb(0,0,255) // �O���t�̐F
#define GRP_INTERVEL 60*1000 // �O���t�̍X�V�Ԋu
#define GRP_PATH "httpd/"
struct graph_sensor {
struct graph* graph;
char* str;
char hash[32];
int scanid;
int drawid;
int interval;
unsigned int (*func)(void);
};
static struct graph_sensor *sensor;
static int sensor_max;
static int graph_scan_timer(int tid,unsigned int tick,int id,int data)
{
if(id >= 0 && id < sensor_max)
graph_data(sensor[id].graph,sensor[id].func());
return 0;
}
// modified by Celest -- i'm trying to separate it from httpd if possible ^^;
static int graph_draw_timer(int tid,unsigned int tick,int id,int data)
{
char png_file[24];
FILE *fp;
// create/update the png file
do {
const char *png_data;
int len;
sprintf (png_file, GRP_PATH"%s.png", sensor[id].hash);
fp = fopen(png_file, "w");
// if another png of the same hash exists
// (i.e 2nd login server with the same sensors)
// this will fail = not good >.<
if (fp == NULL)
break;
png_data = graph_output(sensor[id].graph, &len);
fwrite(png_data,1,len,fp);
fclose(fp);
} while (0);
// create/update text snippet
do {
char buf[8192], *p;
p = buf;
sprintf (png_file, GRP_PATH"%s.graph", sensor[id].hash);
fp = fopen(png_file, "w");
if (fp == NULL)
break;
p += sprintf(p,"<h2>%s</h2>\n\n",
sensor[id].str);
p += sprintf(p,"<p><img src=\"%s.png\" width=\"%d\" height=\"%d\"></p>\n",
sensor[id].hash, GRP_WIDTH,GRP_HEIGHT);
p += sprintf(p,"<p>Max: %d, Interval: %d sec</p>\n\n",
sensor[id].graph->graph_max, sensor[id].interval / 1000);
fprintf(fp, buf);
fclose(fp);
} while (0);
return 0;
}
void graph_add_sensor(const unsigned char* string, int interval, unsigned int (*callback_func)(void))
{
int draw_interval = interval * 2;
struct graph *g = graph_create(GRP_WIDTH,GRP_HEIGHT);
graph_pallet(g,1,GRP_COLOR);
sensor = (struct graph_sensor *) aRealloc(sensor, sizeof(struct graph_sensor) * (sensor_max + 1));
sensor[sensor_max].graph = g;
sensor[sensor_max].str = aStrdup(string);
// create crc32 hash of the sensor's name
sprintf (sensor[sensor_max].hash, "%lu%c", grfio_crc32(string,strlen(string)), 'a' + SERVER_TYPE);
sensor[sensor_max].func = callback_func;
sensor[sensor_max].scanid = add_timer_interval(gettick() + 500, graph_scan_timer, sensor_max, 0, interval);
sensor[sensor_max].drawid = add_timer_interval(gettick() + 1000, graph_draw_timer, sensor_max, 0, draw_interval < 60000 ? 60000 : draw_interval);
sensor[sensor_max].interval = interval;
sensor_max++;
}
void graph_final (void)
{
int i;
for(i = 0; i < sensor_max; i++) {
char png_file[24];
// remove the png and snippet file
sprintf (png_file, GRP_PATH"%s.png", sensor[i].hash);
unlink (png_file);
sprintf (png_file, GRP_PATH"%s.graph", sensor[i].hash);
unlink (png_file);
graph_free(sensor[i].graph);
aFree(sensor[i].str);
//delete_timer(sensor[i].scanid,graph_scan_timer);
//delete_timer(sensor[i].drawid,graph_draw_timer);
}
aFree(sensor);
sensor_max = 0;
}
void graph_init (void)
{
graph_add_sensor ("Memory Usage", 1000, malloc_usage);
add_timer_func_list(graph_scan_timer, "graph_scan_timer");
add_timer_func_list(graph_draw_timer, "graph_draw_timer");
}
#else
void graph_init (void) {}
void graph_final (void) {}
#endif
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