#include #include #include #include #include #include #include #include "jamlib/jam.h" char *baseindir = NULL; char *baseoutdir = NULL; char *config_file; int imhub = 0; struct msgarea_t { int id; int hub; char *basedir; int *links; int link_count; }; struct msg_t { int area; char from[32]; char to[32]; char subject[64]; uint32_t timedate; int oaddr; int daddr; int type; char reply[36]; } __attribute__ ((packed)); struct msgarea_t **areas; int area_count; int mynode = 0; int hubnode = 0; int copy_file(char *src, char *dest) { FILE *src_file; FILE *dest_file; char c; src_file = fopen(src, "rb"); if (!src_file) { return -1; } dest_file = fopen(dest, "wb"); if (!dest_file) { fclose(src_file); return -1; } while(1) { c = fgetc(src_file); if (!feof(src_file)) { fputc(c, dest_file); } else { break; } } fclose(src_file); fclose(dest_file); return 0; } s_JamBase *open_jam_base(char *path) { int ret; s_JamBase *jb; ret = JAM_OpenMB((char *)path, &jb); if (ret != 0) { if (ret == JAM_IO_ERROR) { free(jb); ret = JAM_CreateMB((char *)path, 1, &jb); if (ret != 0) { free(jb); return NULL; } } else { free(jb); return NULL; } } return jb; } size_t trimwhitespace(char *out, size_t len, const char *str) { if(len == 0) return 0; const char *end; size_t out_size; // Trim leading space while(isspace((unsigned char)*str)) str++; if(*str == 0) { *out = 0; return 1; } // Trim trailing space end = str + strlen(str) - 1; while(end > str && isspace((unsigned char)*end)) end--; end++; // Set output size to minimum of trimmed string length and buffer size minus 1 out_size = (end - str) < len-1 ? (end - str) : len-1; // Copy trimmed string and add null terminator memcpy(out, str, out_size); out[out_size] = 0; return out_size; } int parse_config_file(char *filename) { FILE *fptr; char buffer[256]; char bufferw[256]; char *ptr; struct msgarea_t *newarea; area_count = 0; fptr = fopen(filename, "r"); if (!fptr) { return 0; } fgets(buffer, 256, fptr); while (!feof(fptr)) { if (buffer[0] != ';') { if (buffer[strlen(buffer) - 1] == '\n'){ buffer[strlen(buffer) - 1] = '\0'; if (strncasecmp(buffer, "IMHUB", 5) == 0) { trimwhitespace(bufferw, 256, &buffer[6]); if (strcasecmp(bufferw, "TRUE") == 0) { imhub = 1; } } else if (strncasecmp(buffer, "UPLINK", 6) == 0) { trimwhitespace(bufferw, 256, &buffer[7]); hubnode = atoi(bufferw); } else if (strncasecmp(buffer, "INDIR", 5) == 0) { trimwhitespace(bufferw, 256, &buffer[6]); baseindir = strdup(bufferw); } else if (strncasecmp(buffer, "OUTDIR", 6) == 0) { trimwhitespace(bufferw, 256, &buffer[7]); baseoutdir = strdup(bufferw); } else if (strncasecmp(buffer, "MYNODE", 6) == 0) { trimwhitespace(bufferw, 256, &buffer[7]); mynode = atoi(bufferw); } else if (strncasecmp(buffer, "MSGAREA", 7) == 0) { newarea = NULL; ptr = strtok(&buffer[8], ","); if (ptr != NULL) { newarea = (struct msgarea_t *)malloc(sizeof(struct msgarea_t)); trimwhitespace(bufferw, 256, ptr); newarea->id = atoi(bufferw); newarea->link_count = 0; ptr = strtok(NULL, ","); if (ptr != NULL) { trimwhitespace(bufferw, 256, ptr); newarea->hub = atoi(bufferw); ptr = strtok(NULL, ","); if (ptr != NULL) { trimwhitespace(bufferw, 256, ptr); newarea->basedir = strdup(bufferw); ptr = strtok(NULL, ","); while (ptr != NULL) { trimwhitespace(bufferw, 256, ptr); if (newarea->link_count == 0) { newarea->links = (int *)malloc(sizeof(int)); } else { newarea->links = (int *)realloc(newarea->links, sizeof(int) * (newarea->link_count + 1)); } newarea->links[newarea->link_count] = atoi(bufferw); newarea->link_count++; ptr = strtok(NULL, ","); } } } } if (newarea != NULL) { if (area_count == 0) { areas = (struct msgarea_t **)malloc(sizeof(struct msgarea_t *)); } else { areas = (struct msgarea_t **)realloc(areas, sizeof(struct msgarea_t *) * (area_count + 1)); } areas[area_count] = newarea; area_count++; } } } else { fclose(fptr); return 0; } } fgets(buffer, 256, fptr); } fclose(fptr); return 1; } int isdupe(struct msg_t *msg, char *uuid) { s_JamBase *jb; s_JamBaseHeader jbh; s_JamMsgHeader jmh; s_JamSubPacket* jsp; int areaid; int i; int z; for (i=0;iarea == areas[i]->id) { areaid = i; break; } } jb = open_jam_base(areas[areaid]->basedir); if (!jb) { return -1; } JAM_ReadMBHeader(jb, &jbh); if (jbh.ActiveMsgs > 0) { for (i=0;iNumFields;z++) { if (jsp->Fields[z]->LoID == JAMSFLD_MSGID) { if (strncasecmp(uuid, jsp->Fields[z]->Buffer, 36) == 0) { JAM_DelSubPacket(jsp); JAM_CloseMB(jb); free(jb); return 1; } } } } } JAM_CloseMB(jb); free(jb); return 0; } void update_config_file_area(int areaid) { char backup[PATH_MAX]; char buffer[256]; char bufferc[256]; char bufferw[256]; FILE *fptr1; FILE *fptr2; char *ptr; int id; int i; snprintf(backup, PATH_MAX, "%s.bak", config_file); fptr1 = fopen(config_file, "r"); fptr2 = fopen(backup, "w"); fgets(buffer, 256, fptr1); while (!feof(fptr1)) { if (strncasecmp(buffer, "MSGAREA", 7) == 0) { strcpy(bufferc, buffer); ptr = strtok(&bufferc[8], ","); if (ptr != NULL) { trimwhitespace(bufferw, 256, ptr); id = atoi(bufferw); if (id == areas[areaid]->id) { fprintf(fptr2, "MSGAREA %d, %d, %s", areas[areaid]->id, areas[areaid]->hub, areas[areaid]->basedir); for (i=0;ilink_count;i++) { fprintf(fptr2, ", %d", areas[areaid]->links[i]); } fprintf(fptr2, "\n"); } else { fputs(buffer, fptr2); } } } else { fputs(buffer, fptr2); } fgets(buffer, 256, fptr1); } fclose(fptr1); fclose(fptr2); unlink(config_file); rename(backup, config_file); } int import(char *filename) { FILE *fptr; char buffer[PATH_MAX]; char buffer2[PATH_MAX]; char uuid[37]; struct msg_t msg; int ret; int areaid; struct stat st; int z; int i; int j; char *body; s_JamBase *jb; s_JamBaseHeader jbh; s_JamMsgHeader jmh; s_JamSubPacket* jsp; s_JamSubfield jsf; snprintf(buffer, PATH_MAX, "%s/%s", baseindir, filename); strncpy(uuid, strchr(filename, '-') + 1, 36); uuid[36] = '\0'; if (stat(buffer, &st) != 0) { return 0; } fptr = fopen(buffer, "rb"); if (!fptr) { return 0; } fread(&msg, sizeof(struct msg_t), 1, fptr); body = malloc(st.st_size - sizeof(struct msg_t) + 1); memset(body, 0, st.st_size - sizeof(struct msg_t) + 1); fread(body, st.st_size - sizeof(struct msg_t), 1, fptr); fclose(fptr); if (msg.daddr != mynode) { if (imhub) { snprintf(buffer2, PATH_MAX, "%s/%d/%s", baseoutdir, msg.daddr, filename); copy_file(buffer, buffer2); } return 1; } else { for (i=0;iid) { areaid = i; break; } } if (areas[areaid]->hub == mynode) { if (msg.type == 1) { if (strncasecmp(body, "ADD", 3) == 0) { for (i=0;ilink_count;i++) { if (areas[areaid]->links[i] == msg.oaddr) { // already subscribed return 1; } } if (areas[areaid]->link_count == 0) { areas[areaid]->links = (int *)malloc(sizeof(int)); } else { areas[areaid]->links = (int *)realloc(areas[areaid]->links, sizeof(int) * (areas[areaid]->link_count + 1)); } areas[areaid]->links[areas[areaid]->link_count] = msg.oaddr; areas[areaid]->link_count++; // update_config_file_area(areaid); } else if (strncasecmp(body, "REMOVE", 6) == 0) { for (i=0;ilink_count;i++) { if (areas[areaid]->links[i] == msg.oaddr) { if (areas[areaid]->link_count == 1) { free(areas[areaid]->links); areas[areaid]->link_count = 0; } else { for (j=i;jlink_count-1;j++) { areas[areaid]->links[j] = areas[areaid]->links[j+1]; } areas[areaid]->links = (int *)realloc(areas[areaid]->links, sizeof(int) * (areas[areaid]->link_count - 1)); areas[areaid]->link_count--; } update_config_file_area(areaid); return 1; } } } return 1; } for (i=0;ilink_count;i++) { if (areas[areaid]->links[i] == msg.oaddr) { continue; } if (imhub) { snprintf(buffer2, PATH_MAX, "%s/%d/", baseoutdir, areas[areaid]->links[i]); } else { snprintf(buffer2, PATH_MAX, "%s/%d/", baseoutdir, hubnode); } if (stat(buffer2, &st) != 0) { if (mkdir(buffer2, 0755) != 0) { fprintf(stderr, "Error making directory %s\n", buffer2); continue; } } if (imhub) { snprintf(buffer2, PATH_MAX, "%s/%d/%d-%s", baseoutdir, areas[areaid]->links[i], areas[areaid]->links[i], filename); } else { snprintf(buffer2, PATH_MAX, "%s/%d/%d-%s", baseoutdir, hubnode, areas[areaid]->links[i], filename); } copy_file(buffer, buffer2); } } } ret = isdupe(&msg, uuid); if (ret == -1) { free(body); fclose(fptr); return 0; } else if (ret == 1) { free(body); fclose(fptr); return 1; } JAM_ClearMsgHeader(&jmh); jmh.DateWritten = msg.timedate; jmh.Attribute |= JAM_MSG_TYPEECHO; jsp = JAM_NewSubPacket(); jsf.LoID = JAMSFLD_SENDERNAME; jsf.HiID = 0; jsf.DatLen = strlen(msg.from); jsf.Buffer = msg.from; JAM_PutSubfield(jsp, &jsf); jsf.LoID = JAMSFLD_RECVRNAME; jsf.HiID = 0; jsf.DatLen = strlen(msg.to); jsf.Buffer = msg.to; JAM_PutSubfield(jsp, &jsf); jsf.LoID = JAMSFLD_SUBJECT; jsf.HiID = 0; jsf.DatLen = strlen(msg.subject); jsf.Buffer = msg.subject; JAM_PutSubfield(jsp, &jsf); sprintf(buffer, "%d", msg.oaddr); jsf.LoID = JAMSFLD_OADDRESS; jsf.HiID = 0; jsf.DatLen = strlen(buffer); jsf.Buffer = buffer; JAM_PutSubfield(jsp, &jsf); jsf.LoID = JAMSFLD_MSGID; jsf.HiID = 0; jsf.DatLen = strlen(uuid); jsf.Buffer = uuid; JAM_PutSubfield(jsp, &jsf); if (strlen(msg.reply)> 0) { jsf.LoID = JAMSFLD_REPLYID; jsf.HiID = 0; jsf.DatLen = strlen(msg.reply); jsf.Buffer = msg.reply; JAM_PutSubfield(jsp, &jsf); jmh.ReplyCRC = JAM_Crc32(msg.reply, strlen(msg.reply)); } jb = open_jam_base(areas[areaid]->basedir); if (!jb) { return 0; } while (1) { z = JAM_LockMB(jb, 100); if (z == 0) { break; } else if (z == JAM_LOCK_FAILED) { sleep(1); } else { free(body); JAM_DelSubPacket(jsp); JAM_CloseMB(jb); free(jb); fprintf(stderr, "Error locking JAM base!\n"); return 0; } } if (JAM_AddMessage(jb, &jmh, jsp, body, strlen(body))) { JAM_UnlockMB(jb); JAM_DelSubPacket(jsp); JAM_CloseMB(jb); free(jb); fprintf(stderr, "Error Adding Message!\n"); free(body); return 0; } JAM_UnlockMB(jb); JAM_DelSubPacket(jsp); JAM_CloseMB(jb); free(jb); free(body); return 1; } int main(int argc, char **argv) { int i; int l; int processed = 0; DIR *indir; struct dirent *dent; char buffer[PATH_MAX]; if (argc < 2) { fprintf(stderr, "Usage ./mnettoss mnet.cfg\n"); return -1; } if (!parse_config_file(argv[1])) { fprintf(stderr, "Error parsing config file: %s\n", argv[1]); return -1; } config_file = argv[1]; if (baseoutdir == NULL) { fprintf(stderr, "OUTDIR must be defined\n"); return -1; } if (baseindir == NULL) { fprintf(stderr, "INDIR must be defined\n"); return -1; } printf("In Base Dir: %s\n", baseindir); indir = opendir(baseindir); if (!indir) { fprintf(stderr, "Error opening inbound directory!\n"); return -1; } while ((dent = readdir(indir)) != NULL) { if (strlen(dent->d_name) < 8) { continue; } if (strcasecmp(&dent->d_name[strlen(dent->d_name) - 8], ".message") == 0) { if (import(dent->d_name)) { processed++; snprintf(buffer, PATH_MAX, "%s/%s", baseindir, dent->d_name); unlink(buffer); rewinddir(indir); } } } closedir(indir); printf("Processed %d Messages\n", processed); return 0; }