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sms.c
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sms.c
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//
// Convert CDMA SMS to GSM and vice versa.
// By Martin Johnson <M.J.Johnson@massey.ac.nz>
// GPL
//
#include <stdio.h>
#include <string.h>
#include "sms_gsm.h"
#ifndef nodroid
#define LOG_TAG "SMS_RIL"
#include <utils/Log.h>
/* backwards compatibility for pre-JB */
#ifndef ALOGD
#define ALOGD LOGD
#define ALOGE LOGE
#define ALOGI LOGI
#endif
#else
#define ALOGD printf
#define ALOGE printf
#define ALOGI printf
#endif
int hex2int(char c) {
if(c>'9') return c-'A'+10;
return c-'0';
}
int getbit(char *s,int b) {
int byte=b/4;
int bit=b%4;
int data=hex2int(s[byte]);
if(data&(1<<(3-bit))) return 1;
else return 0;
}
const char hextable[17]="0123456789ABCDEF";
void setbit(char *s,int b, int val) {
int byte=b/4;
int bit=b%4;
s[byte]=hextable[hex2int(s[byte]) | (val<<(3-bit))] ;
}
int getbits(char *s,int startbit,int nbits) {
int val=0;
int i;
for(i=0;i<nbits;i++)
val = val | (getbit(s,startbit+i)<<(nbits-i-1));
return val;
}
void setbits(char *s,int startbit,int nbits,int val) {
int i;
for(i=0;i<nbits;i++)
setbit(s,startbit+i,(val>>(nbits-i-1))&1);
}
const char decode_table[17]=".1234567890*#...";
void decode_number(char *msg, int length, char *no) {
int ndigits=getbits(msg,2,8);
int j,digit;
for(j=0;j<ndigits;j++)
*no++=decode_table[getbits(msg,10+j*4,4)];
*no=0;
}
int encode_digit(int d) {
int i;
for(i=0;i<16;i++)
if(decode_table[i]==d)
return i;
return 0;
}
int encode_number(char *msg, char *no) {
unsigned int i;
int digit;
setbits(msg, 0, 2, 0);
setbits(msg, 2, 8, strlen(no));
for(i=0;i<strlen(no);i++)
setbits(msg,10+i*4, 4, encode_digit(no[i]));
return (10+i*4+7)/8;
}
void get_code_and_length(char *msg, int *code, int *length) {
*code=hex2int(msg[0])*16+hex2int(msg[1]);
*length=hex2int(msg[2])*16+hex2int(msg[3]);
}
void decode_bearer_data(char *msg, int length, char *message, int *is_vm) {
int i=0,j;
int code,sublength;
while(i<length) {
get_code_and_length(msg+i*2,&code,&sublength);
if(code==1) {
int encoding=getbits(msg+i*2+4,0,5);
int nchars=getbits(msg+i*2+4,5,8);
if(encoding==2 || encoding==3) {
for(j=0;j<nchars;j++)
*message++=getbits(msg+i*2+4,13+7*j,7);
} else
if(encoding==8 || encoding==0) {
for(j=0;j<nchars;j++)
*message++=getbits(msg+i*2+4,13+8*j,8);
} else
if(encoding==4) {
for(j=0;j<nchars;j++)
*message++=getbits(msg+i*2+6,13+16*j,8);
} else {
strcpy(message,"bad SMS encoding");
ALOGE("Bad encoding: %d",encoding);
message+=16;
}
*message=0;
} else if (code == 11 && sublength == 1) {
int msgs;
if (is_vm) {
*is_vm = 1;
msgs = hex2int(msg[i*2+4])+16*hex2int(msg[i*2+5]);
if (msgs)
*is_vm |= 0x10;
}
}
i+=sublength+2;
}
}
int encode_bearer_data(char *msg, char *data) {
int msgid=0;
unsigned int i;
int b;
char *start=msg;
for(i=0;i<strlen(data);i++)
msgid+=data[i];
setbits(msg,0,8,0); // message id
setbits(msg,8,8,3); // 3 bytes
setbits(msg,16,4,2); // 2 means send
setbits(msg,20,16,msgid); // use message sum for id
msg+=10;
setbits(msg,0,8,01); // user data
setbits(msg,16,5,02); // set encoding
setbits(msg,21,8,strlen(data)); // length
b=29;
for(i=0;i<strlen(data);i++) {
setbits(msg,b,7,data[i]);
b=b+7;
}
setbits(msg,8,8,(b+7)/8-2);
msg=msg+2*((b+7)/8);
setbits(msg,0,24,0x80100);
setbits(msg,24,24,0x0D0100);
msg=msg+12;
return (msg-start)/2;
}
void decode_cdma_sms(char *pdu, char *from, char *message, int *is_vm) {
unsigned int i=1;
int code,length;
strcpy(from,"000000"); // in case something fails
strcpy(message,"UNKNOWN");
if (is_vm)
*is_vm = 0;
while(i*2<strlen(pdu)) {
get_code_and_length(pdu+i*2,&code,&length);
if(code==2) // from
decode_number(pdu+i*2+4,length,from);
if(code==8) // bearer_data
decode_bearer_data(pdu+i*2+4,length,message,is_vm);
i+=length+2;
}
}
void encode_cdma_sms(char *pdu, char *to, char *message) {
int i;
int length;
if(strlen(message)>160) ALOGE("Error: Message String too long");
for(i=0;i<512;i++)
pdu[i]='0';
setbits(pdu,0,16,0);
setbits(pdu,16,24,0x021002);
pdu=pdu+10;
setbits(pdu,0,8,0x04);
length=encode_number(pdu+4, to);
setbits(pdu,8,8,length);
pdu=pdu+length*2+4;
setbits(pdu,0,24,0x060100);
pdu=pdu+6;
setbits(pdu,0,8,0x08);
length=encode_bearer_data(pdu+4, message);
if(length>255) ALOGE("Error: Message Hex too long");
setbits(pdu,8,8,length);
pdu=pdu+length*2+4;
*pdu=0;
}
char **cdma_to_gsmpdu(char *msg) {
char from[256];
char message[256];
static char hexpdu[1024];
static char *hexpdus[16];
int i=0;
int is_vm=0;
decode_cdma_sms(msg,from,message,&is_vm);
// if(strlen(message)>=160) message[159]=0;
ALOGD("CDMA Message:%s From:%s\n",message,from);
SmsAddressRec smsaddr;
SmsTimeStampRec smstime;
if (is_vm) {
/* voicemail notifications must have a 4 byte address */
if (is_vm & 0x10) {
/* set message waiting indicator */
strcpy(from, "1100");
} else {
/* clear message waiting indicator */
strcpy(from, "0100");
}
}
sms_address_from_str(&smsaddr,from,strlen(from));
if (is_vm) {
/* voicemail notifications have a clear bottom nibble in toa
* and an alphanumeric address type */
smsaddr.toa = 0xd0;
}
sms_timestamp_now(&smstime);
SmsPDU *pdu=smspdu_create_deliver_utf8((const unsigned char *)message,strlen(message),&smsaddr,&smstime);
//hexpdu=malloc(512);
char *s=hexpdu;
while(*pdu) {
smspdu_to_hex(*pdu, s,512);
hexpdus[i]=s;
s=s+strlen(s)+2;
smspdu_free(*pdu);
i++;
pdu++;
}
hexpdus[i]=0;
return hexpdus;
}
char *gsm_to_cdmapdu(char *msg) {
char to[256];
char message[256];
static char hexpdu[512];
SmsAddressRec smsaddr;
sms_address_from_str(&smsaddr,"000000",6);
SmsPDU pdu=smspdu_create_from_hex( msg, strlen(msg) );
if(smspdu_get_receiver_address(pdu,&smsaddr)<0) {
ALOGE("Error: no receiver address");
smspdu_get_sender_address(pdu,&smsaddr);
}
sms_address_to_str(&smsaddr,to,256);
if(to[0]=='+') { // convert + to 00 otherwise international sms doesn't work
memmove(to+1,to,255);
to[0]='0';
to[1]='0';
}
int length=smspdu_get_text_message(pdu, message, 256);
message[length]=0;
smspdu_free(pdu);
ALOGD("GSM Message:%s To:%s\n",message,to);
encode_cdma_sms(hexpdu,to,message);
return hexpdu;
}