static void write_header(const char *fmt, const char *reason, int extra_fields) {
char buf[1024];
int len;
if (extra_fields) {
char hostname[256];
char date[256];
time_t t;
FILE *me;
*hostname = '\0';
if ((me = fopen("/var/qmail/control/me", "r"))) {
len = better_fgets(hostname, sizeof(hostname), me);
fclose(me);
}
if (!*hostname) strcpy(hostname, "UNKNOWN");
t = time(NULL);
if (!strftime(date, sizeof(date), "%F %T -0000", gmtime(&t))) *date = '\0';
snprintf(buf, sizeof(buf), fmt, hostname, date, reason);
} else {
snprintf(buf, sizeof(buf), fmt, reason);
}
len = strlen(buf);
if (write(qq_mail[1], buf, (size_t)len) != len) qq_done();
}
static char *addr2user(const char *addr) {
FILE *list;
static char buf[128];
const char *domain;
int len;
domain = strchr(addr, '@');
if (!domain) domain = addr;
list = fopen("/var/qmail/users/spam", "r");
if (!list) return NULL;
while ((len = better_fgets(buf, sizeof(buf), list))) {
char *sep = strchr(buf, ':');
if (buf[0] == '#' || !sep) continue;
*sep++ = '\0';
if (cmpaddr(addr, buf)) {
fclose(list);
if (*sep == '*') {
strlcpy(buf, addr, sizeof(buf));
sep = strchr(buf, '@');
if (sep) *sep = '\0';
sep = strchr(buf, '-');
if (sep) *sep = '\0';
return strdup(buf);
}
return strdup(sep);
}
}
fclose(list);
return NULL;
}
static void check_list(const char *addr) {
FILE *list;
static char buf[128];
const char *adomain;
unsigned int alocallen;
int len;
// fprintf(stderr, "Checking list for %s\n", addr);
adomain = strchr(addr, '@');
alocallen = adomain - addr;
if (!adomain || !alocallen) return;
list = fopen("/var/qmail/users/lists", "r");
if (!list) return;
while ((len = better_fgets(buf, sizeof(buf), list))) {
char *dir = strchr(buf, ':');
if (buf[0] == '#' || !dir) continue;
*dir++ = '\0';
char *domain = strchr(buf, '@');
if (domain && !strcmp(domain, adomain)) {
unsigned int locallen = domain - buf;
if (locallen && locallen <= alocallen
&& (addr[locallen] == '@' || addr[locallen] == '-')
&& !memcmp(addr, buf, locallen)) {
// Domain matches, local part in list is no
// longer than local part in address, they
// match up to that length, and the left
// over part is empty or begins with "-".
// IOW this will be handled by that list.
fclose(list);
const char *rest = addr + locallen;
if (!memcmp(rest, "-owner@", 7)
|| !memcmp(rest, "-subscribe", 10)
|| !memcmp(rest, "-sc.", 4)
|| !memcmp(rest, "-uc.", 4)
|| !memcmp(rest, "-help@", 6)
|| !memcmp(rest, "-info@", 6)
|| !memcmp(rest, "-faq@", 5)
|| !memcmp(rest, "-return-", 8)) {
// Never reject for these
return;
}
reject_list(dir);
return;
}
}
}
fclose(list);
}
bool ModelType::ParseObj(char *filename)
{
FILE *in_file;
char oneline[255];
char mtlname[255];
int currGroup = -1;
float x, y, z;
int iV1, iV2, iV3, iV4, iT1, iT2, iT3, iT4, iN1, iN2, iN3, iN4;
printf("Loading model %s: ", filename);
in_file = fopen(filename, "rt");
if (in_file == NULL)
{
printf("error, file not found!\n");
return false;
}
else
printf("done.\n");
tDispObj = (OBJModel*)malloc(sizeof(OBJModel));
tDispObj->NumVerts = 0;
tDispObj->NumTexts = 0;
tDispObj->NumNorms = 0;
tDispObj->NumTngls = 0;
tDispObj->NumQuads = 0;
for (int i = 0; i < objMaxNumMats; i++)
{
tDispObj->group[i].objTngls = NULL;
tDispObj->group[i].objQuads = NULL;
tDispObj->group[i].objEdges = NULL;
tDispObj->group[i].matID = -1;
tDispObj->mtrl[i].Name[0] = '\0';
tDispObj->mtrl[i].aTextName[0] = '\0';
tDispObj->mtrl[i].dTextName[0] = '\0';
tDispObj->mtrl[i].sTextName[0] = '\0';
tDispObj->mtrl[i].NormType = 0;
tDispObj->mtrl[i].SmthType = 0;
tDispObj->mtrl[i].aCol.x = 1.0f;
tDispObj->mtrl[i].aCol.y = 1.0f;
tDispObj->mtrl[i].aCol.z = 1.0f;
tDispObj->mtrl[i].dCol.x = 1.0f;
tDispObj->mtrl[i].dCol.y = 1.0f;
tDispObj->mtrl[i].dCol.z = 1.0f;
tDispObj->mtrl[i].sCol.x = 1.0f;
tDispObj->mtrl[i].sCol.y = 1.0f;
tDispObj->mtrl[i].sCol.z = 1.0f;
tDispObj->mtrl[i].Reflect = 1.0f;
tDispObj->mtrl[i].Opacity = 1.0f;
}
while (!feof(in_file))
{
if (better_fgets(oneline, 255, in_file) == NULL)
break;
// Caso tenha uma linha falando sobre mtllib
if (strncmp(oneline, "mtllib", 6) == 0)
{
// Manda carregar o mtllib
if (sscanf(oneline, "mtllib %s", mtlname) == 1)
ParseMtl(mtlname);
}
// Caso escolha um material ?
else if (strncmp(oneline, "usemtl", 6) == 0)
{
int matID = 0;
if ((sscanf(oneline, "usemtl %s", mtlname) == 1) && (numObjects != 0))
{
while (strncmp(mtlname, tDispObj->mtrl[matID].Name, 32) != 0)
{
matID++;
if (matID == numObjects)
break;
}
}
currGroup = matID;
tDispObj->group[currGroup].matID = matID;
}
// Caso leu um ponto
else if (sscanf(oneline, "v %f %f %f", &x, &y, &z) == 3)
{
x *= myScale;
y *= myScale;
z *= myScale;
tDispObj->objVerts[tDispObj->NumVerts].x = x;
tDispObj->objVerts[tDispObj->NumVerts].y = y;
tDispObj->objVerts[tDispObj->NumVerts].z = z;
tDispObj->NumVerts++;
if (x > maxVerts.x)
maxVerts.x = x;
if (y > maxVerts.y)
maxVerts.y = y;
if (z > maxVerts.z)
maxVerts.z = z;
if (x < minVerts.x)
minVerts.x = x;
if (y < minVerts.y)
minVerts.y = y;
if (z < minVerts.z)
minVerts.z = z;
}
// Caso leu uma coordenada tripla de textura
else if (sscanf(oneline, "vt %f %f %f", &x, &y, &z) == 3)
{
tDispObj->objTexts[tDispObj->NumTexts].u = x;
tDispObj->objTexts[tDispObj->NumTexts].v = y;
tDispObj->objTexts[tDispObj->NumTexts].w = z;
tDispObj->NumTexts++;
}
// Caso leu uma coordenada dupla de textura
else if (sscanf(oneline, "vt %f %f", &x, &y) == 2)
{
tDispObj->objTexts[tDispObj->NumTexts].u = x;
tDispObj->objTexts[tDispObj->NumTexts].v = y;
tDispObj->objTexts[tDispObj->NumTexts].w = 0.0f;
tDispObj->NumTexts++;
}
else if (sscanf(oneline, "vn %f %f %f", &x, &y, &z) == 3)
{
tDispObj->objNorms[tDispObj->NumNorms].x = x;
tDispObj->objNorms[tDispObj->NumNorms].y = y;
tDispObj->objNorms[tDispObj->NumNorms].z = z;
tDispObj->NumNorms++;
}
else if (sscanf(oneline, "f %d/%d/%d %d/%d/%d %d/%d/%d %d/%d/%d", &iV1, &iT1, &iN1, &iV2, &iT2, &iN2, &iV3, &iT3, &iN3, &iV4, &iT4, &iN4) == 12)
{
tDispObj->NumQuads++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = (iV4 < 0) ? (tDispObj->NumVerts + iV4) : --iV4;
newFace->t1 = (iT1 < 0) ? (tDispObj->NumTexts + iT1) : --iT1;
newFace->t2 = (iT2 < 0) ? (tDispObj->NumTexts + iT2) : --iT2;
newFace->t3 = (iT3 < 0) ? (tDispObj->NumTexts + iT3) : --iT3;
newFace->t4 = (iT4 < 0) ? (tDispObj->NumTexts + iT4) : --iT4;
newFace->n1 = (iN1 < 0) ? (tDispObj->NumNorms + iN1) : --iN1;
newFace->n2 = (iN2 < 0) ? (tDispObj->NumNorms + iN2) : --iN2;
newFace->n3 = (iN3 < 0) ? (tDispObj->NumNorms + iN3) : --iN3;
newFace->n4 = (iN4 < 0) ? (tDispObj->NumNorms + iN4) : --iN4;
newFace->NormType = 1;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objQuads == NULL)
tDispObj->group[currGroup].objQuads = newFace;
else
Insert_Face(tDispObj->group[currGroup].objQuads, newFace);
}
else if (sscanf(oneline, "f %d/%d/%d %d/%d/%d %d/%d/%d", &iV1, &iT1, &iN1, &iV2, &iT2, &iN2, &iV3, &iT3, &iN3) == 9)
{
tDispObj->NumTngls++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = -1;
newFace->t1 = (iT1 < 0) ? (tDispObj->NumTexts + iT1) : --iT1;
newFace->t2 = (iT2 < 0) ? (tDispObj->NumTexts + iT2) : --iT2;
newFace->t3 = (iT3 < 0) ? (tDispObj->NumTexts + iT3) : --iT3;
newFace->t4 = -1;
newFace->n1 = (iN1 < 0) ? (tDispObj->NumNorms + iN1) : --iN1;
newFace->n2 = (iN2 < 0) ? (tDispObj->NumNorms + iN2) : --iN2;
newFace->n3 = (iN3 < 0) ? (tDispObj->NumNorms + iN3) : --iN3;
newFace->n4 = -1;
newFace->NormType = 1;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objTngls == NULL)
tDispObj->group[currGroup].objTngls = newFace;
else
Insert_Face(tDispObj->group[currGroup].objTngls, newFace);
}
else if (sscanf(oneline, "f %d//%d %d//%d %d//%d %d//%d", &iV1, &iN1, &iV2, &iN2, &iV3, &iN3, &iV4, &iN4) == 8)
{
tDispObj->NumQuads++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = (iV4 < 0) ? (tDispObj->NumVerts + iV4) : --iV4;
newFace->t1 = -1;
newFace->t2 = -1;
newFace->t3 = -1;
newFace->t4 = -1;
newFace->n1 = (iN1 < 0) ? (tDispObj->NumNorms + iN1) : --iN1;
newFace->n2 = (iN2 < 0) ? (tDispObj->NumNorms + iN2) : --iN2;
newFace->n3 = (iN3 < 0) ? (tDispObj->NumNorms + iN3) : --iN3;
newFace->n4 = (iN4 < 0) ? (tDispObj->NumNorms + iN4) : --iN4;
newFace->NormType = 1;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objQuads == NULL)
tDispObj->group[currGroup].objQuads = newFace;
else
Insert_Face(tDispObj->group[currGroup].objQuads, newFace);
}
else if (sscanf(oneline, "f %d/%d %d/%d %d/%d %d/%d", &iV1, &iT1, &iV2, &iT2, &iV3, &iT3, &iV4, &iT4) == 8)
{
tDispObj->NumQuads++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = (iV4 < 0) ? (tDispObj->NumVerts + iV4) : --iV4;
newFace->t1 = (iT1 < 0) ? (tDispObj->NumTexts + iT1) : --iT1;
newFace->t2 = (iT2 < 0) ? (tDispObj->NumTexts + iT2) : --iT2;
newFace->t3 = (iT3 < 0) ? (tDispObj->NumTexts + iT3) : --iT3;
newFace->t4 = (iT4 < 0) ? (tDispObj->NumTexts + iT4) : --iT4;
newFace->n1 = -1;
newFace->n2 = -1;
newFace->n3 = -1;
newFace->n4 = -1;
newFace->NormType = 0;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objQuads == NULL)
tDispObj->group[currGroup].objQuads = newFace;
else
Insert_Face(tDispObj->group[currGroup].objQuads, newFace);
}
else if (sscanf(oneline, "f %d//%d %d//%d %d//%d", &iV1, &iN1, &iV2, &iN2, &iV3, &iN3) == 6)
{
tDispObj->NumTngls++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = -1;
newFace->t1 = -1;
newFace->t2 = -1;
newFace->t3 = -1;
newFace->t4 = -1;
newFace->n1 = (iN1 < 0) ? (tDispObj->NumNorms + iN1) : --iN1;
newFace->n2 = (iN2 < 0) ? (tDispObj->NumNorms + iN2) : --iN2;
newFace->n3 = (iN3 < 0) ? (tDispObj->NumNorms + iN3) : --iN3;
newFace->n4 = -1;
newFace->NormType = 1;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objTngls == NULL)
tDispObj->group[currGroup].objTngls = newFace;
else
Insert_Face(tDispObj->group[currGroup].objTngls, newFace);
}
else if (sscanf(oneline, "f %d/%d %d/%d %d/%d", &iV1, &iT1, &iV2, &iT2, &iV3, &iT3) == 6)
{
tDispObj->NumTngls++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = -1;
newFace->t1 = (iT1 < 0) ? (tDispObj->NumTexts + iT1) : --iT1;
newFace->t2 = (iT2 < 0) ? (tDispObj->NumTexts + iT2) : --iT2;
newFace->t3 = (iT3 < 0) ? (tDispObj->NumTexts + iT3) : --iT3;
newFace->t4 = -1;
newFace->n1 = -1;
newFace->n2 = -1;
newFace->n3 = -1;
newFace->n4 = -1;
newFace->NormType = 0;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objTngls == NULL)
tDispObj->group[currGroup].objTngls = newFace;
else
Insert_Face(tDispObj->group[currGroup].objTngls, newFace);
}
else if (sscanf(oneline, "f %d %d %d %d", &iV1, &iV2, &iV3, &iV4) == 4)
{
tDispObj->NumQuads++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = (iV4 < 0) ? (tDispObj->NumVerts + iV4) : --iV4;
newFace->t1 = -1;
newFace->t2 = -1;
newFace->t3 = -1;
newFace->t4 = -1;
newFace->n1 = -1;
newFace->n2 = -1;
newFace->n3 = -1;
newFace->n4 = -1;
newFace->NormType = 0;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objQuads == NULL)
tDispObj->group[currGroup].objQuads = newFace;
else
Insert_Face(tDispObj->group[currGroup].objQuads, newFace);
}
else if (sscanf(oneline, "f %d %d %d", &iV1, &iV2, &iV3) == 3)
{
tDispObj->NumTngls++;
OBJFace *newFace = (OBJFace*)malloc(sizeof(OBJFace));
newFace->next = NULL;
newFace->v1 = (iV1 < 0) ? (tDispObj->NumVerts + iV1) : --iV1;
newFace->v2 = (iV2 < 0) ? (tDispObj->NumVerts + iV2) : --iV2;
newFace->v3 = (iV3 < 0) ? (tDispObj->NumVerts + iV3) : --iV3;
newFace->v4 = -1;
newFace->t1 = -1;
newFace->t2 = -1;
newFace->t3 = -1;
newFace->t4 = -1;
newFace->n1 = -1;
newFace->n2 = -1;
newFace->n3 = -1;
newFace->n4 = -1;
newFace->NormType = 0;
if (currGroup == -1)
currGroup = numObjects;
if (tDispObj->group[currGroup].objTngls == NULL)
tDispObj->group[currGroup].objTngls = newFace;
else
Insert_Face(tDispObj->group[currGroup].objTngls, newFace);
}
}
fclose(in_file);
if (numObjects == 0)
numObjects++;
if (fabs(maxVerts.x) > myRadius)
myRadius = fabs(maxVerts.x);
if (fabs(maxVerts.y) > myRadius)
myRadius = fabs(maxVerts.y);
if (fabs(maxVerts.z) > myRadius)
myRadius = fabs(maxVerts.z);
if (fabs(minVerts.x) > myRadius)
myRadius = fabs(maxVerts.x);
if (fabs(minVerts.y) > myRadius)
myRadius = fabs(maxVerts.y);
if (fabs(minVerts.z) > myRadius)
myRadius = fabs(maxVerts.z);
printf("-> Number of vertices: %d\n", tDispObj->NumVerts);
printf("-> Number of normals: %d\n", tDispObj->NumNorms);
printf("-> Number of tex coords: %d\n", tDispObj->NumTexts);
printf("-> Number of triangles: %d\n", tDispObj->NumTngls);
printf("-> Number of quads: %d\n", tDispObj->NumQuads);
return true;
}
bool ModelType::ParseMtl(char *filename)
{
char temp[100] = {};
strcat(temp,PASTA);
strcat(temp,filename);
strcpy(filename,temp);
FILE *in_file;
char oneline[255];
int currMtrl = -1;
float cVal1, cVal2, cVal3;
int bVal;
printf("Loading material library %s: ", filename);
in_file = fopen(filename, "rt");
if (in_file == NULL)
{
printf("error, file not found!\n");
return false;
}
while (!feof(in_file))
{
if (better_fgets(oneline, 255, in_file) == NULL)
break;
if (strncmp(oneline, "newmtl", 6) == 0)
{
currMtrl++;
sscanf(oneline, "newmtl %s", tDispObj->mtrl[currMtrl].Name);
}
if (strncmp(oneline, "Ka", 2) == 0)
{
sscanf(oneline, "Ka %f %f %f", &cVal1, &cVal2, &cVal3);
tDispObj->mtrl[currMtrl].aCol.x = cVal1;
tDispObj->mtrl[currMtrl].aCol.y = cVal2;
tDispObj->mtrl[currMtrl].aCol.z = cVal3;
}
if (strncmp(oneline, "Kd", 2) == 0)
{
sscanf(oneline, "Kd %f %f %f", &cVal1, &cVal2, &cVal3);
tDispObj->mtrl[currMtrl].dCol.x = cVal1;
tDispObj->mtrl[currMtrl].dCol.y = cVal2;
tDispObj->mtrl[currMtrl].dCol.z = cVal3;
}
if (strncmp(oneline, "Ks", 2) == 0)
{
sscanf(oneline, "Ks %f %f %f", &cVal1, &cVal2, &cVal3);
tDispObj->mtrl[currMtrl].sCol.x = cVal1;
tDispObj->mtrl[currMtrl].sCol.y = cVal2;
tDispObj->mtrl[currMtrl].sCol.z = cVal3;
}
if (strncmp(oneline, "Tr", 2) == 0)
{
sscanf(oneline, "Tr %f", &cVal1);
tDispObj->mtrl[currMtrl].Opacity = cVal1;
}
if (strncmp(oneline, "Ns", 2) == 0)
{
sscanf(oneline, "Ns %f", &cVal1);
tDispObj->mtrl[currMtrl].Reflect = cVal1;
}
else if (strncmp(oneline, "map_Ka", 6) == 0)
sscanf(oneline, "map_Ka %s", tDispObj->mtrl[currMtrl].aTextName);
else if (strncmp(oneline, "map_Kd", 6) == 0)
sscanf(oneline, "map_Kd %s", tDispObj->mtrl[currMtrl].dTextName);
else if (strncmp(oneline, "map_Ks", 6) == 0)
sscanf(oneline, "map_Ks %s", tDispObj->mtrl[currMtrl].sTextName);
else if (sscanf(oneline, "Smooth %d", &bVal) == 1)
tDispObj->mtrl[currMtrl].SmthType = bVal;
else if (sscanf(oneline, "Normal %d", &bVal) == 1)
tDispObj->mtrl[currMtrl].NormType = bVal;
}
printf("done.\n");
printf("-> Number of materials: %d\n", ++currMtrl);
numObjects = currMtrl;
return true;
}
