问个算法
循环向a函数每次发送200个字节长度(这个是固定的)的buffer,a函数中需要将循环传进来的buffer,组成240字节(也是固定的)的新buffer进行处理,在处理的时候每次从新组成buffer去两个字节打印。。就是这样
[解决办法]
- C/C++ code
#include <stdio.h>#include <stdlib.h>#include <string.h>#include <windows.h>#include <process.h>#include <io.h>//Log{#define MAXLOGSIZE 1000000000#define ARRSIZE(x) (sizeof(x)/sizeof(x[0]))#include <time.h>#include <sys/timeb.h>#include <stdarg.h>char logfilename1[]="MyLog1.log";char logfilename2[]="MyLog2.log";char logstr[16000];char datestr[16];char timestr[16];char mss[4];CRITICAL_SECTION cs_log;FILE *flog;void Lock(CRITICAL_SECTION *l) { EnterCriticalSection(l);}void Unlock(CRITICAL_SECTION *l) { LeaveCriticalSection(l);}void sleep_ms(int ms) { Sleep(ms);}void LogV(const char *pszFmt,va_list argp) { struct tm *now; struct timeb tb; if (NULL==pszFmt||0==pszFmt[0]) return; if (-1==_vsnprintf(logstr,ARRSIZE(logstr),pszFmt,argp)) logstr[ARRSIZE(logstr)-1]=0; ftime(&tb); now=localtime(&tb.time); sprintf(datestr,"%04d-%02d-%02d",now->tm_year+1900,now->tm_mon+1,now->tm_mday); sprintf(timestr,"%02d:%02d:%02d",now->tm_hour ,now->tm_min ,now->tm_sec ); sprintf(mss,"%03d",tb.millitm); printf("%s %s.%s %s",datestr,timestr,mss,logstr); flog=fopen(logfilename1,"a"); if (NULL!=flog) { fprintf(flog,"%s %s.%s %s",datestr,timestr,mss,logstr); if (ftell(flog)>MAXLOGSIZE) { fclose(flog); if (rename(logfilename1,logfilename2)) { remove(logfilename2); rename(logfilename1,logfilename2); } flog=fopen(logfilename1,"a"); if (NULL==flog) return; } fclose(flog); }}void Log(const char *pszFmt,...) { va_list argp; Lock(&cs_log); va_start(argp,pszFmt); LogV(pszFmt,argp); va_end(argp); Unlock(&cs_log);}//Log}#define MAX_STR_LEN_2 80#define MAX_R_BUFSIZE 240#define GAP_WAIT 1000 //ms gap of wait#define MAX_WAIT_COUNT 3600 //max wait count for log bypass#define ASIZE 200#define BSIZE 240#define CSIZE 2char Abuf[ASIZE];char Cbuf[CSIZE];CRITICAL_SECTION cs_HEX ;CRITICAL_SECTION cs_BBB ;struct R_BUFFER { int head; int tail; int size; char data[MAX_R_BUFSIZE];} BBB;int No_Loop=0;void HexDump(int cn,char *buf,int len) { int i,j,k; char binstr[MAX_STR_LEN_2]; Lock(&cs_HEX); for (i=0;i<len;i++) { if (0==(i%16)) { sprintf(binstr,"%03d %04x -",cn,i); sprintf(binstr,"%s %02x",binstr,(unsigned char)buf[i]); } else if (15==(i%16)) { sprintf(binstr,"%s %02x",binstr,(unsigned char)buf[i]); sprintf(binstr,"%s ",binstr); for (j=i-15;j<=i;j++) { sprintf(binstr,"%s%c",binstr,('!'<buf[j]&&buf[j]<='~')?buf[j]:'.'); } Log("%s\n",binstr); } else { sprintf(binstr,"%s %02x",binstr,(unsigned char)buf[i]); } } if (0!=(i%16)) { k=16-(i%16); for (j=0;j<k;j++) { sprintf(binstr,"%s ",binstr); } sprintf(binstr,"%s ",binstr); k=16-k; for (j=i-k;j<i;j++) { sprintf(binstr,"%s%c",binstr,('!'<buf[j]&&buf[j]<='~')?buf[j]:'.'); } Log("%s\n",binstr); } Unlock(&cs_HEX);}int GetFromRBuf(int cn,CRITICAL_SECTION *cs,R_BUFFER *rbuf,char *buf,int len,int SIZE) { int lent,len1,len2; lent=0; Lock(cs); if (rbuf->size>=len) { lent=len; if (rbuf->head+lent>SIZE) { len1=SIZE-rbuf->head; memcpy(buf ,rbuf->data+rbuf->head,len1); len2=lent-len1; memcpy(buf+len1,rbuf->data ,len2); rbuf->head=len2; } else { memcpy(buf ,rbuf->data+rbuf->head,lent); rbuf->head+=lent; } rbuf->size-=lent; } Unlock(cs); return lent;}void thdB(void *pcn) { char *recv_buf; int recv_nbytes; int cn; int wc; int pb; cn=(int)pcn; Log("%03d thdB thread begin...\n",cn); while (1) { sleep_ms(10); recv_buf=(char *)Cbuf; recv_nbytes=CSIZE; wc=0; while (1) { pb=GetFromRBuf(cn,&cs_BBB,&BBB,recv_buf,recv_nbytes,BSIZE); if (pb) { Log("%03d recv %d bytes\n",cn,pb); HexDump(cn,recv_buf,pb); sleep_ms(1); } else { sleep_ms(GAP_WAIT); } if (No_Loop) break;// wc++; if (wc>MAX_WAIT_COUNT) Log("%03d %d==wc>MAX_WAIT_COUNT==%d!\n",cn,wc,MAX_WAIT_COUNT); } if (No_Loop) break;// }}int PutToRBuf(int cn,CRITICAL_SECTION *cs,R_BUFFER *rbuf,char *buf,int len,int SIZE) { int lent,len1,len2; Lock(cs); lent=len; if (rbuf->size+lent>SIZE) { lent=SIZE-rbuf->size; } if (rbuf->tail+lent>SIZE) { len1=SIZE-rbuf->tail; memcpy(rbuf->data+rbuf->tail,buf ,len1); len2=lent-len1; memcpy(rbuf->data ,buf+len1,len2); rbuf->tail=len2; } else { memcpy(rbuf->data+rbuf->tail,buf ,lent); rbuf->tail+=lent; } rbuf->size+=lent; Unlock(cs); return lent;}void thdA(void *pcn) { char *send_buf; int send_nbytes; int cn; int wc; int a; int pa; cn=(int)pcn; Log("%03d thdA thread begin...\n",cn); a=0; while (1) { sleep_ms(100); memset(Abuf,a,ASIZE); a=(a+1)%256; if (16==a) {No_Loop=1;break;}//去掉这句可以让程序一直循环直到按Ctrl+C或Ctrl+Break或当前目录下存在文件No_Loop send_buf=(char *)Abuf; send_nbytes=ASIZE; Log("%03d sending %d bytes\n",cn,send_nbytes); HexDump(cn,send_buf,send_nbytes); wc=0; while (1) { pa=PutToRBuf(cn,&cs_BBB,&BBB,send_buf,send_nbytes,BSIZE); Log("%03d sent %d bytes\n",cn,pa); HexDump(cn,send_buf,pa); send_buf+=pa; send_nbytes-=pa; if (send_nbytes<=0) break;// sleep_ms(GAP_WAIT); if (No_Loop) break;// wc++; if (wc>MAX_WAIT_COUNT) Log("%03d %d==wc>MAX_WAIT_COUNT==%d!\n",cn,wc,MAX_WAIT_COUNT); } if (No_Loop) break;// }}int main() { InitializeCriticalSection(&cs_log ); Log("================================================================\n"); InitializeCriticalSection(&cs_HEX ); InitializeCriticalSection(&cs_BBB ); BBB.head=0; BBB.tail=0; BBB.size=0; _beginthread((void(__cdecl *)(void *))thdA,0,(void *)1); _beginthread((void(__cdecl *)(void *))thdB,0,(void *)2); if (!access("No_Loop",0)) { remove("No_Loop");//删除当前目录下文件No_Loop if (!access("No_Loop",0)) { No_Loop=1; } } while (1) { Sleep(1000); if (No_Loop) break;// if (!access("No_Loop",0)) {//当前目录下存在文件No_Loop则退出 No_Loop=1; } } Sleep(3000); DeleteCriticalSection(&cs_BBB ); DeleteCriticalSection(&cs_HEX ); Log("================================================================\n"); DeleteCriticalSection(&cs_log ); return 0;}