/* Serval Distributed Numbering Architecture (DNA) Copyright (C) 2010 Paul Gardner-Stephen This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "mphlr.h" #include char *gatewayspec=NULL; char *outputtemplate=NULL; char *instrumentation_file=NULL; char *importFile=NULL; int debug=0; int timeout=3000; /* 3000ms request timeout */ int serverMode=0; int clientMode=0; int hexdigit[16]={'0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F'}; struct mphlr_variable vars[]={ /* Variables that can have only a single value */ {VAR_EOR,"eor","Marks end of record"}, {VAR_CREATETIME,"createtime","Time HLR record was created"}, {VAR_CREATOR,"creator","Device that created this HLR record"}, {VAR_REVISION,"revision","Revision number of this HLR record"}, {VAR_REVISOR,"revisor","Device that revised this HLR record"}, {VAR_PIN,"pin","Secret PIN for this HLR record"}, /* GSM encoded audio, so a 16KB MPHLR maximum size shouldn't pose a problem. 8KB = ~4.5 seconds, which is a long time to say your name in, leaving 8KB for other variables. */ {VAR_VOICESIG,"voicesig","Voice signature of this subscriber"}, {VAR_HLRMASTER,"hlrmaster","Location where the master copy of this HLR record is maintained."}, /* Variables that can take multiple values */ {VAR_DIDS,"dids","Numbers claimed by this subscriber"}, {VAR_LOCATIONS,"locations","Locations where this subscriber wishes to receive calls"}, {VAR_IEMIS,"iemis","GSM IEMIs claimed by this subscriber"}, {VAR_TEMIS,"temis","GSM TEMIs claimed by this subscriber"}, /* Each entry here has a flag byte (unread, ...) */ {VAR_CALLS_IN,"callsin","Calls received by this subscriber"}, {VAR_CALLS_MISSED,"callsmissed","Calls missed by this subscriber"}, {VAR_CALLS_OUT,"callsout","Calls made by this subscriber"}, {VAR_SMESSAGES,"smessages","SMS received by this subscriber"}, {VAR_DID2SUBSCRIBER,"did2subscriber","Preferred subscribers for commonly called DIDs"}, {VAR_HLRBACKUPS,"hlrbackups","Locations where backups of this HLR record are maintained."}, {VAR_NOTE,"note","Free-form notes on this HLR record"}, {0x00,NULL,NULL} }; int sock; #ifndef HAVE_BZERO /* OpenWRT doesn't have bzero */ void bzero(void *m,size_t len) { unsigned char *c=m; int i; for(i=0;i=' '&&addr[i+j]<0x7f?addr[i+j]:'.'); fprintf(stderr,"\n"); } return 0; } int dumpResponses(struct response_set *responses) { struct response *r; if (!responses) {fprintf(stderr,"Response set is NULL\n"); return 0; } fprintf(stderr,"Response set claims to contain %d entries.\n",responses->response_count); r=responses->responses; while(r) { fprintf(stderr," response code 0x%02x\n",r->code); if (r->next) if (r->next->prev!=r) fprintf(stderr," !! response chain is broken\n"); r=r->next; } return 0; } int setReason(char *fmt, ...) { va_list ap,ap2; char msg[8192]; va_start(ap,fmt); va_copy(ap2,ap); vsnprintf(msg,8192,fmt,ap2); msg[8191]=0; va_end(ap); fprintf(stderr,"Error: %s\n",msg); return -1; } int hexvalue(unsigned char c) { if (c>='0'&&c<='9') return c-'0'; if (c>='A'&&c<='F') return c-'A'+10; if (c>='a'&&c<='f') return c-'a'+10; return setReason("Invalid hex digit in SID"); } int parseAssignment(unsigned char *text,int *var_id,unsigned char *value,int *value_len) { /* Parse an assignment. Valid formats are: var=@file - value comes from named file. var=[[$]value] - value comes from string, and may be empty. $ means value is in hex Values are length limited to 65535 bytes. */ int i,v; int max_len=*value_len; int vlen=0; int tlen=strlen((char *)text); if (tlen>3072) { return setReason("Variable assignment string is too long, use =@file to read value from a file"); } /* Identify which variable */ for(i=0;i=tlen) return setReason("Variable value has an odd number of hex digits."); b|=hexvalue(text[i++]); if (b<0) return setReason("That doesn't look like hex to me"); if (vlen>=max_len) return setReason("Variable hex value too long"); value[vlen++]=b; } *value_len=vlen; return 0; break; case '@': /* file */ { FILE *f=fopen((char *)&text[i+1],"r"); int flen; fseek(f,0,SEEK_END); flen=ftell(f); if (flen>max_len) return setReason("Variable value from file too long"); fseek(f,0,SEEK_SET); vlen=fread(value,1,flen,f); if (vlen!=flen) return setReason("Could not read all of file"); fclose(f); *value_len=vlen; return 0; } break; default: /* literal string */ vlen=strlen((char *)&text[i]); if (vlen>max_len) return setReason("Variable value too long"); bcopy(&text[i],value,vlen); *value_len=vlen; return 0; } return 0; } int usage(char *complaint) { fprintf(stderr,"dna: %s\n",complaint); fprintf(stderr,"usage:\n"); fprintf(stderr," dna [-v ...] -S [-f HLR backing file] [-I import.txt] [-N interface,...] [-G gateway specification]\n"); fprintf(stderr,"or\n"); fprintf(stderr," dna [-v ...] -f -E \n"); fprintf(stderr,"or\n"); fprintf(stderr," dna <-d|-s> id -A\n"); fprintf(stderr,"or\n"); fprintf(stderr," dna <-d|-s> id [-p pin] [-i variable instance] <-R variable[=value]>\n"); fprintf(stderr," [-v ...] [-t request timeout in ms] [-O output file name template]\n"); fprintf(stderr,"or\n"); fprintf(stderr," dna <-d|-s> id [-p pin] [-i variable instance] <-W|-U|-D variable[=[$|@]value]>\n"); fprintf(stderr," [-v ...] [-t request timeout in ms]\n"); fprintf(stderr,"or\n"); fprintf(stderr," dna [-v ...] [-t timeout] -d did -C\n"); fprintf(stderr,"or\n"); fprintf(stderr," dna [-v ...] -f -E \n"); fprintf(stderr,"\n"); fprintf(stderr," -v - increase verbosity.\n"); fprintf(stderr," -E - Export specified HLR database into specified flat text file.\n"); fprintf(stderr," -I - Import a previously exported HLR database into this one.\n"); fprintf(stderr," -A - Ask for address of subscriber.\n"); fprintf(stderr," -b - Specify BATMAN socket to obtain peer list (flaky).\n"); fprintf(stderr," -l - Specify BATMAN socket to obtain peer list (better, but requires Serval patched BATMAN).\n"); fprintf(stderr," -L - Log mesh statistics to specified file.\n"); fprintf(stderr," -n - Do not detach from foreground in server mode.\n"); fprintf(stderr," -S - Run in server mode with an HLR of the specified size.\n"); fprintf(stderr," -f - Use the specified file as a permanent store for HLR data.\n"); fprintf(stderr," -d - Search by Direct Inward Dial (DID) number.\n"); fprintf(stderr," -s - Search by Subscriber ID (SID) number.\n"); fprintf(stderr," -p - Specify additional DNA nodes to query.\n"); fprintf(stderr," -P - Authenticate using the supplied pin.\n"); fprintf(stderr," -R - Read a variable value.\n"); fprintf(stderr," -O - Place read variable value into files using argument as a template.\n"); fprintf(stderr," The following template codes can be used (interpretted by sprintf):\n"); fprintf(stderr," %%1$s - Subscriber ID\n"); fprintf(stderr," %%2$d - Variable ID (0-255)\n"); fprintf(stderr," %%3$d - Variable instance number (0-255)\n"); fprintf(stderr," -W - Write a variable value, keeping previous values.\n"); fprintf(stderr," -U - Update a variable value, replacing the previous value.\n"); fprintf(stderr," -D - Delete a variable value.\n"); fprintf(stderr," $value means interpret value as hexidecimal bytes.\n"); fprintf(stderr," @value means read value from file called value.\n"); fprintf(stderr," -C - Request the creation of a new subscriber with the specified DID.\n"); fprintf(stderr," -t - Specify the request timeout period.\n"); fprintf(stderr," -G - Offer gateway services. Argument specifies locations of necessary files.\n"); fprintf(stderr," Use -G [potato|android|custom:...] to set defaults for your device type.\n"); fprintf(stderr," -N - Specify one or more interfaces for the DNA overlay mesh to operate.\n"); fprintf(stderr," Interface specifications take the form <+|->[interface[=type][,...]\n"); fprintf(stderr," e.g., -N -en0,+ to use all interfaces except en0\n"); fprintf(stderr,"\n"); exit(-1); } #ifndef DNA_NO_MAIN int main(int argc,char **argv) { int c; char *pin=NULL; char *did=NULL; char *sid=NULL; char *hlr_file=NULL; int instance=-1; int foregroundMode=0; #if defined WIN32 WSADATA wsa_data; WSAStartup(MAKEWORD(1,1), &wsa_data); #endif srandomdev(); while((c=getopt(argc,argv,"Ab:B:E:G:I:S:f:d:i:l:L:np:P:s:t:vR:W:U:D:CO:N:")) != -1 ) { switch(c) { case 'N': /* Ask for overlay network to setup one or more interfaces */ if (overlay_interface_args(optarg)) return WHY("Invalid interface specification(s) passed to -N"); overlayMode=1; break; case 'G': /* Offer gateway services */ gatewayspec=strdup(optarg); if(prepareGateway(gatewayspec)) return usage("Invalid gateway specification"); break; case 'E': /* Export HLR into plain text file that can be imported later */ if (!hlr_file) usage("You must specify an HLR file to export from, i.e., dna -f hlr.dat -E hlr.txt"); return exportHlr((unsigned char*)hlr_file,optarg); break; case 'I': /* Import HLR data from a plain text file into current HLR */ if (importFile) usage("-I multiply specified."); importFile=optarg; if (!hlr_file||!serverMode) usage("-I requires -S and -f."); if (openHlrFile(hlr_file,hlr_size)) exit(setReason("Failed to open HLR database")); importHlr(importFile); return 0; break; case 'n': /* don't detach from foreground in server mode */ foregroundMode=1; break; case 'b': /* talk peers on a BATMAN mesh */ batman_socket=strdup(optarg); break; case 'l': /* talk peers on a BATMAN mesh */ batman_peerfile=strdup(optarg); break; case 'L': instrumentation_file=strdup(optarg); break; case 'B': /* Set simulated Bit Error Rate for bench-testing */ simulatedBER=atof(optarg); fprintf(stderr,"WARNING: Bit error injection enabled -- this will cause packet loss and is intended only for testing.\n"); break; case 'S': if (atof(optarg)<0.1||atof(optarg)>16384) usage("HLR must be 0.1MB - 16384MB in size."); hlr_size=(int)(atof(optarg)*1048576.0); serverMode=1; break; case 'i': instance=atoi(optarg); if (instance<-1||instance>255) usage("Illegal variable instance ID."); break; case 'f': if (clientMode) usage("Only servers use backing files"); hlr_file=strdup(optarg); break; case 'p': /* additional peers to query */ if (additionalPeer(optarg)) exit(-3); break; case 'P': /* Supply pin */ pin=strdup(optarg); clientMode=1; break; case 'd': /* Ask by DID */ clientMode=1; did=strdup(optarg); break; case 's': /* Ask by subscriber ID */ clientMode=1; sid=strdup(optarg); break; case 't': /* request timeout (ms) */ timeout=atoi(optarg); break; case 'v': /* Increase verbosity */ debug++; break; case 'A': /* get address (IP or otherwise) of a given peer */ peerAddress(did,sid,3 /* 1 = print list of addresses to stdout, 2 = set peer list to responders */); break; case 'R': /* read a variable */ { unsigned char buffer[65535]; int len=0; requestItem(did,sid,(char *)optarg,instance,buffer,sizeof(buffer),&len,NULL); } break; case 'W': /* write a variable */ { int var_id; unsigned char value[65536]; int value_len=65535; if (parseAssignment((unsigned char *)optarg,&var_id,value,&value_len)) return -1; value[value_len]=0; return writeItem(did?did:sid,var_id,instance,value,0,value_len,SET_NOREPLACE,NULL); } break; case 'U': /* write or update a variable */ { int var_id; unsigned char value[65536]; int value_len=65535; if (parseAssignment((unsigned char *)optarg,&var_id,value,&value_len)) return -1; value[value_len]=0; return writeItem(did?did:sid,var_id,instance,value,0,value_len,SET_REPLACE,NULL); } break; case 'C': /* create a new HLR entry */ { if (optind=80) return WHY("quantity string >=80 characters"); if (sscanf(q,"%d%s",&m,units)==2) { if (units[1]) return WHY("Units should be single character"); switch(units[0]) { case 'k': return m*1000LL; case 'K': return m*1024LL; case 'm': return m*1000LL*1000LL; case 'M': return m*1024LL*1024LL; case 'g': return m*1000LL*1000LL*1000LL; case 'G': return m*1024LL*1024LL*1024LL; default: return WHY("Illegal unit: should be k,K,m,M,g, or G."); } } if (sscanf(q,"%d",&m)==1) { return m; } else { return WHY("Could not parse quantity"); } }