📄 tc35.c
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#include <stdio.h>
#include<string.h>
#include "tc35.h"
#include "common.h"
#include <MSP430X44X.h>
// 初始化
int ATE(char pBuf[])
{
pBuf[0] = 'A';
pBuf[1] = 'T';
pBuf[2] = 'E';
pBuf[3] = '0';
pBuf[4] = 13;//HUI
return 5;
}
// 设置短信中心地址
int CSCA(char pBuf[],char phone[])
{
int offset;
int i;
pBuf[0] = 'A';
pBuf[1] = 'T';
pBuf[2] = '+';
pBuf[3] = 'C';
pBuf[4] = 'S';
pBuf[5] = 'C';
pBuf[6] = 'A';
pBuf[7] = '=';
pBuf[8] = '"';
offset = 9;
for(i = 0;i < 14;i++)
{
pBuf[offset + i] = phone[i];
}
offset += 14;
pBuf[8] = '"';
offset += 1;
pBuf[offset] = ',';
offset += 1;
pBuf[offset] = '1';
offset += 1;
pBuf[offset] = '4';
offset += 1;
pBuf[offset] = '9';
offset += 1;
pBuf[offset] = 13;
offset += 1;
return offset;
}
//设置短消息格式
int CMGF(char pBuf[],int format)
{
pBuf[0] = 'A';
pBuf[1] = 'T';
pBuf[2] = '+';
pBuf[3] = 'C';
pBuf[4] = 'M';
pBuf[5] = 'G';
pBuf[6] = 'F';
pBuf[7] = '=';
pBuf[8] = (char)('0' + format);
pBuf[9] = 13;
return 10;
}
//删除短消息
int CMGD(char pBuf[],char index)
{
pBuf[0] = 'A';
pBuf[1] = 'T';
pBuf[2] = '+';
pBuf[3] = 'C';
pBuf[4] = 'M';
pBuf[5] = 'G';
pBuf[6] = 'D';
pBuf[7] = '=';
if(index >= 10)
{
pBuf[8] = (index/10) + 0x30;
pBuf[9] = (index%10) + 0x30;
pBuf[10] = 13;
return 11;
}
else
{
pBuf[8] = index + 0x30;
pBuf[9] = 13;
return 10;
}
}
//设置模式参数
int CSMP(char pBuf[],char index)
{
pBuf[0] = 'A';
pBuf[1] = 'T';
pBuf[2] = '+';
pBuf[3] = 'C';
pBuf[4] = 'S';
pBuf[5] = 'M';
pBuf[6] = 'P';
pBuf[7] = '=';
pBuf[8] = '1';
pBuf[9] = '7';
pBuf[10] = ',';
pBuf[11] = '1';
pBuf[12] = '6';
pBuf[13] = '7';
pBuf[14] = ',';
pBuf[15] = '0';
pBuf[16] = ',';
pBuf[17] = index + 0x30;
pBuf[18] = 13;
return 19;
}
//接收短消息
int CMGR(char pBuf[],char index)
{
pBuf[0] = 'A';
pBuf[1] = 'T';
pBuf[2] = '+';
pBuf[3] = 'C';
pBuf[4] = 'M';
pBuf[5] = 'G';
pBuf[6] = 'R';
pBuf[7] = '=';
if(index >= 10)
{
pBuf[8] = (index/10) + 0x30;
pBuf[9] = (index%10) + 0x30;
pBuf[10] = 13;
return 11;
}
else
{
pBuf[8] = index + 0x30; // 变换为asccii码
pBuf[9] = 13;
return 10;
}
}
//发送短消息
void packSms_pdu(char pPhone[],int phonelen,char pData[],int nLen,
int *nTXLen1,int *nTXLen2,char *pout1,char *pout2)
{
char strHead[12] = {'0','0','1','1','0','0',
'0','D','9','1','6','8'};
char chrInfo[7] = {'0','0','0','8','0','1'};
char chrTmp[12];
char phoneTemp[12];
char nTemp[100];
int i;
int n;
for(i = 0;i < phonelen;i++)
{
chrTmp[i] = pPhone[i];
}
chrTmp[phonelen] = 'F';
phonelen += 1;
// 将电话号码按照规范的顺序作成
n = 0;
for(i = 0;i < phonelen / 2;i++)
{
phoneTemp[n++] = chrTmp[2 * i + 1];
phoneTemp[n++] = chrTmp[2 * i];
}//算法忒好了 采用一半
copy(pout2,0,strHead,0,12);
copy(pout2,12,phoneTemp,0,phonelen);//将电话号码 加载到Unicode码中
copy(pout2,24,chrInfo,0,6);
pout2[30]= nLen/10 + 0x30;
pout2[31]= nLen%10 + 0x30;
copy(pout2,32,pData,0,nLen*2);//定义发送的数据量时为2个字符一个
pout2[32+nLen*2]=26;
*nTXLen2=33+nLen*2;
//封装长度信息
nTemp[0] = 'A';
nTemp[1] = 'T';
nTemp[2] = '+';
nTemp[3] = 'C';
nTemp[4] = 'M';
nTemp[5] = 'G';
nTemp[6] = 'S';
nTemp[7] = '=';
nTemp[8] = (15+nLen)/10 + 0x30;
nTemp[9] = (15+nLen)%10 + 0x30;
nTemp[10] = 13;
for(i = 0; i < 11;i++)
{
pout1[i] = nTemp[i];
}
*nTXLen1 =11;
}
void packSms_text(char pPhone[],int phonelen,char pData[],int nLen,
int *nTXLen1,int *nTXLen2,char pOut1[],char pOut2[])
{
int nOffset;
char nTemp[100];
int i;
nOffset = 0;
nTemp[0] = 'A';
nTemp[1] = 'T';
nTemp[2] = '+';
nTemp[3] = 'C';
nTemp[4] = 'M';
nTemp[5] = 'G';
nTemp[6] = 'S';
nTemp[7] = '=';
nTemp[8] = '"';
//处理电话号码
nOffset = 9;
for(i = 0;i < phonelen;i++)
{
nTemp[nOffset + i] = pPhone[i];
}
nOffset += nLen;
nTemp[nOffset] = '"';
nOffset += 1;
nTemp[nOffset] = 13;//13表示回车
nOffset += 1;
for(i = 0; i < nOffset;i++)
{
pOut1[i] = nTemp[i];
}
*nTXLen1 = nOffset;
//处理发送数据
for(i = 0; i < nLen;i++)
{
pOut2[i] = pData[i];
}
pOut2[nLen] = 26;//26表示ctrl+z
*nTXLen2 = nLen + 1;
}
char getSendResponse(char buf[],char res[])
{char re=0;
char *p;
delay(100);//延时一下
p=strstr(buf,res);
if(p!=NULL)
re=1;
else
re=0;
return re;
}
//将源数组的内容拷贝到目的数组
void copy(char pDest[],int nOrg,char pOrg[],int nStart,int nLen)
{
int i;
for(i = 0;i < nLen;i++)
{
pDest[nOrg + i] = pOrg[i + nStart];
}
}
// 将字节处理成字符串
/*void ByteToChar(char nInPut[],char Out[],int nLen)
{
int i;
char chrTemp;
for(i = 0;i < nLen;i++)
{
// 高字节
chrTemp = (char)((nInPut[i] >> 4) & 0x0f);
if((chrTemp >= 0) && (chrTemp <= 9)) chrTemp += 48;
else chrTemp += 55;
Out[i] = chrTemp;
// 低字节
chrTemp = (char)(nInPut[i] & 0x0f);
if((chrTemp >= 0) && (chrTemp <= 9)) chrTemp += 48;
else chrTemp += 55;
Out[i] = chrTemp;
}
return;
}*/
// 数的范围为250以内
int IntToChar(int n,char Out[])
{
char chrTemp1;
char chrTemp2;
char chrTemp3;
int nLen;
chrTemp1 = n / 100;
chrTemp2 = (n - chrTemp1 * 100) / 10;
chrTemp3 = n - chrTemp1 * 100 - chrTemp2 * 10;
if(chrTemp1 != 0)
{
nLen = 3;
Out[0] = chrTemp1 + 0x30;
Out[1] = chrTemp2 + 0x30;
Out[2] = chrTemp3 + 0x30;
}
else
{
if(chrTemp2 != 0)
{
nLen = 2;
Out[0] = chrTemp2 + 0x30;
Out[1] = chrTemp3 + 0x30;
}
else
{
nLen = 1;
Out[0] = chrTemp3 + 0x30;
}
}
return nLen;
}
// 编码函数
void Encode(char in[],char out[],int nLen)
{
int nOrigin = 0;
int nCode = 0;
while(1)
{
if(nOrigin >= nLen) break;
out[nCode] = in[nOrigin];
if((nOrigin + 1) >= nLen) break;
out[nCode] |= (char)((in[nOrigin + 1] & 0x01) << 7);
out[nCode + 1] = (char)((in[nOrigin + 1] >> 1) & 0xff);
if((nOrigin + 2) >= nLen) break;
out[nCode + 1] |= (char)((in[nOrigin + 2] & 0x03) << 6);
out[nCode + 2] = (char)((in[nOrigin + 2] >> 2) & 0xff);
if((nOrigin + 3) >= nLen) break;
out[nCode + 2] |= (char)((in[nOrigin + 3] & 0x07) << 5);
out[nCode + 3] = (char)((in[nOrigin + 3] >> 3) & 0xff);
if((nOrigin + 4) >= nLen) break;
out[nCode + 3] |= (char)((in[nOrigin + 4] & 0x0f) << 4);
out[nCode + 4] = (char)((in[nOrigin + 4] >> 4) & 0xff);
if((nOrigin + 5) >= nLen) break;
out[nCode + 4] |= (char)((in[nOrigin + 5] & 0x1f) << 3);
out[nCode + 5] = (char)((in[nOrigin + 5] >> 5) & 0xff);
if((nOrigin + 6) >= nLen) break;
out[nCode + 5] |= (char)((in[nOrigin + 6] & 0x3f) << 2);
out[nCode + 6] = (char)((in[nOrigin + 6] >> 6) & 0xff);
if((nOrigin + 7) >= nLen) break;
out[nCode + 6] |= (char)((in[nOrigin + 7] & 0x7f) << 1);
nCode += 7;
nOrigin += 8;
}
}
int FindERROR(char in[],int nLen)
{
int nOffset,i;
nOffset = -1;if(nLen < 5) return nOffset;
for(i = 0;i < nLen;i++)
{
if((in[i] == 'R') && (in[i - 1] == 'O') && (in[i - 2] == 'R')
&& (in[i - 3] == 'R') && (in[i - 4] == 'E'))
{
nOffset = i - 4;
break;
}
}
return nOffset;
}
int FindCMGR(char in[],int nLen)
{
int nOffset,i;
nOffset = -1;
if(nLen < 5) return nOffset;
for(i = 0;i < nLen;i++)
{
if((in[i] == 'R') && (in[i - 1] == 'G') && (in[i - 2] == 'M')
&& (in[i - 3] == 'C') && (in[i - 4] == '+'))
{
nOffset = i - 4;
break;
}
}
return nOffset;
}
int FindOK(char in[],int nLen)
{
int nOffset,i;
nOffset = -1;
if(nLen < 2) return nOffset;
for(i = 0;i < nLen;i++)
{
if((in[i] == 'K') && (in[i - 1] == 'K'))
{
nOffset = i - 1;
break;
}
}
return nOffset;
}
void CharToByte(char in[],char out[],int nLen)
{
char chrHi,chrLow;
for(int i = 0;i < nLen / 2;i++)
{
chrHi = in[2 * i];
if(chrHi >= 48 && chrHi <= 57)
chrHi = (char)(chrHi - 48);
else if(chrHi >= 65 && chrHi <= 70)
chrHi = (char)(chrHi - 55);
else if(chrHi >= 97 && chrHi <= 102)
chrHi = (char)(chrHi - 87);
chrLow = in[2 * i + 1];
if(chrLow >= 48 && chrLow <= 57)
chrLow = (char)(chrLow - 48);
else if(chrLow >= 65 && chrLow <= 70)
chrLow = (char)(chrLow - 55);
else if(chrLow >= 97 && chrLow <= 102)
chrLow = (char)(chrLow - 87);
out[i] = (char)(chrHi * 16 + chrLow);
}
return;
}
int Decode(char in[],char out[],int nLen)
{
int nOrigin = 0;
int nCode = 0;
int nLenTemp = nLen * 8 / 7;
while(1)
{
if(nOrigin >= nLen) break;
out[nCode] = (char)(in[nOrigin] & 0x7f);
if((nOrigin + 1) >= nLen) break;
out[nCode + 1] = (char)((in[nOrigin + 1] & 0x3f) << 1);
out[nCode + 1] += (char)((in[nOrigin] & 0x80) >> 7);
if((nOrigin + 2) >= nLen) break;
out[nCode + 2] = (char)((in[nOrigin + 2] & 0x1f) << 2);
out[nCode + 2] += (char)((in[nOrigin + 1] & 0xc0) >> 6);
if((nOrigin + 3) >= nLen) break;
out[nCode + 3] = (char)((in[nOrigin + 3] & 0x0f) << 3);
out[nCode + 3] += (char)((in[nOrigin + 2] & 0xe0) >> 5);
if((nOrigin + 4) >= nLen) break;
out[nCode + 4] = (char)((in[nOrigin + 4] & 0x07) << 4);
out[nCode + 4] += (char)((in[nOrigin + 3] & 0xf0) >> 4);
if((nOrigin + 5) >= nLen) break;
out[nCode + 5] = (char)((in[nOrigin + 5] & 0x03) << 5);
out[nCode + 5] += (char)((in[nOrigin + 4] & 0xf8) >> 3);
if((nOrigin + 6) >= nLen) break;
out[nCode + 6] = (char)((in[nOrigin + 6] & 0x01) << 6);
out[nCode + 6] += (char)((in[nOrigin + 5] & 0xfc) >> 2);
out[nCode + 7] = (char)((in[nOrigin + 6] & 0xfe) >> 1);
nCode += 8;
nOrigin += 7;
}
return nLenTemp;
}
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