procpil.c

MINIWEB 0.75, 可以用于嵌入式系统设计。

#ifdef WIN32
#include <windows.h>
#endif
#include <stdio.h>
#include <fcntl.h>
#include <io.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "procpil.h"

#define SHELL_BUFFER_SIZE 256

#ifdef WIN32
const int w32Priority[]={
	IDLE_PRIORITY_CLASS,
	BELOW_NORMAL_PRIORITY_CLASS,
	NORMAL_PRIORITY_CLASS,
	ABOVE_NORMAL_PRIORITY_CLASS,
	HIGH_PRIORITY_CLASS,
	REALTIME_PRIORITY_CLASS,
};
#endif

int ShellRead(SHELL_PARAM* param)
{
	int offset=0;
	int ret;
#ifdef WIN32
	DWORD dwRead;
#else
	fd_set fds;
	struct timeval tv;
#endif

	if (!param->buffer || !param->iBufferSize) {
		param->flags|=SHELL_ALLOC;
		param->buffer=malloc(SHELL_BUFFER_SIZE);
		param->iBufferSize=SHELL_BUFFER_SIZE;
	}

#ifndef WIN32
	FD_ZERO(&fds);
	FD_SET(param->fdRead,&fds);
	tv.tv_sec=3;
	tv.tv_usec=0;
#endif

	for(;;) {
#ifdef WIN32
		ret=ReadFile( (HANDLE)param->fdRead, param->buffer+offset, 1, &dwRead, NULL);
		if (!ret) break;
#else
		ret=select(param->fdRead+1,&fds,NULL,NULL,&tv);
		if (ret<1) break;
		ret=read(param->fdRead,param->buffer+offset,1);
		if (ret<1) break;;
#endif
		if ((int)param->buffer[offset++]==param->iDelimiter) break;
		if (offset==param->iBufferSize-1) {
			if  (!(param->flags & SHELL_ALLOC)) break;
			param->iBufferSize+=SHELL_BUFFER_SIZE;
			param->buffer=realloc(param->buffer,param->iBufferSize);
		}
	}
	param->buffer[offset]=0;
	return (ret>0)?offset:-1;
}

int ShellTerminate(SHELL_PARAM* param)
{
	int ret;
#ifdef WIN32
	if (!param->piProcInfo.hProcess) return -1;
	ret=TerminateProcess(param->piProcInfo.hProcess,0)?0:-1;
#else
	if (!param->pid) return 0;
	ret=kill(param->pid,SIGSTOP);
	param->pid=0;
#endif
	return ret;
}

void ShellClean(SHELL_PARAM* param)
{
#ifdef WIN32
	//CloseHandle((HANDLE)param->fdRead);
	//CloseHandle((HANDLE)param->fdWrite);
	CloseHandle(param->piProcInfo.hProcess);
	CloseHandle(param->piProcInfo.hThread);
	param->piProcInfo.hProcess=NULL;
#else
	close(param->fdRead);
	close(param->fdWrite);
	param->pid=0;
#endif
	param->fdRead=0;
	param->fdWrite=0;
	if (param->flags & SHELL_ALLOC) {
		free(param->buffer);
		param->buffer=NULL;
		param->iBufferSize=0;
	}
}

int ShellWait(SHELL_PARAM* param, int iTimeout)
{
	int ret=-1;
#ifdef WIN32
	if (WaitForSingleObject(param->piProcInfo.hProcess,(iTimeout==-1)?INFINITE:iTimeout<<10)==WAIT_OBJECT_0) ret=0;
#else
	waitpid(param->pid,&ret,0);
#endif
	return ret;
}

int ShellSetPriority(SHELL_PARAM* param, int iPriority)
{
#ifdef WIN32
	if (iPriority<6 && param->piProcInfo.hProcess)
		return SetPriorityClass(param->piProcInfo.hProcess,w32Priority[iPriority])?0:-1;
	else
		return -1;
#else
	return -1;
#endif
}

int ShellExec(SHELL_PARAM* param)
{
#ifdef WIN32
	SECURITY_ATTRIBUTES saAttr={sizeof(SECURITY_ATTRIBUTES),NULL,TRUE};
	STARTUPINFO siStartInfo;
	BOOL fSuccess;
	char newPath[512],prevPath[512];
	HANDLE hChildStdinRd, hChildStdinWr, hChildStdoutRd, hChildStdoutWr;
#else
	int fdin[2], fdout[2],pid,i;
	int fdStdinChild;
	int fdStdoutChild;
	char **args=NULL,*argString=NULL, *p;
	char *filePath;
 	char *newPath,*prevPath,*env[2];
#endif

#ifdef WIN32
	if (param->piProcInfo.hProcess || !param->pchCommandLine) return -1;

	_setmode( _fileno( stdin ), _O_BINARY );
	_setmode( _fileno( stdout ), _O_BINARY );

	// modify path variable
	if (param->pchPath) {
		GetEnvironmentVariable("PATH",prevPath,sizeof(prevPath));
		sprintf(newPath,"%s;s",param->pchPath,prevPath);
		SetEnvironmentVariable("PATH",newPath);
	}
	
	memset( &param->piProcInfo, 0, sizeof(PROCESS_INFORMATION) );
	memset( &siStartInfo, 0, sizeof(STARTUPINFO) );
	// Set up members of the STARTUPINFO structure.
	siStartInfo.cb = sizeof(STARTUPINFO);
	siStartInfo.dwFlags = STARTF_USESHOWWINDOW|STARTF_USESTDHANDLES;
	siStartInfo.wShowWindow=(param->flags & SHELL_SHOW_WINDOW)?SW_SHOW:SW_HIDE;

///////////////////////////////////////////////////////////////////////
//	create redirecting pipes
///////////////////////////////////////////////////////////////////////

	saAttr.nLength = sizeof(SECURITY_ATTRIBUTES);
	saAttr.bInheritHandle = TRUE;
	saAttr.lpSecurityDescriptor = NULL;

	
	if (param->flags & SHELL_REDIRECT_STDOUT) {
		// Create a pipe for the child process's STDOUT.
		if (! CreatePipe(&hChildStdoutRd, &hChildStdoutWr, &saAttr, 0)) {
			return -1;
		}
		// Create noninheritable read handle and close the inheritable read
		// handle.
		fSuccess = DuplicateHandle(GetCurrentProcess(), hChildStdoutRd,
			GetCurrentProcess(), (LPHANDLE)&param->fdRead, 0,
				FALSE,
				DUPLICATE_SAME_ACCESS);
		if( !fSuccess ) return 0;
		CloseHandle(hChildStdoutRd);
		siStartInfo.hStdError = hChildStdoutWr;
		siStartInfo.hStdOutput = hChildStdoutWr;
	} else {
		siStartInfo.hStdError = GetStdHandle(STD_ERROR_HANDLE);
		siStartInfo.hStdOutput = GetStdHandle(STD_OUTPUT_HANDLE);
	}
	if (param->flags & SHELL_REDIRECT_STDIN) {
		// Create a pipe for the child process's STDIN.
		if (! CreatePipe(&hChildStdinRd, &hChildStdinWr, &saAttr, 0)) return 0;

		// Duplicate the write handle to the pipe so it is not inherited.
		fSuccess = DuplicateHandle(GetCurrentProcess(), hChildStdinWr,
			GetCurrentProcess(), (LPHANDLE)&param->fdWrite, 0,
				FALSE,                  // not inherited
				DUPLICATE_SAME_ACCESS);
		if (! fSuccess) return -1;
		CloseHandle(hChildStdinWr);
		siStartInfo.hStdInput = hChildStdinRd;
	} else {
		siStartInfo.hStdInput = GetStdHandle(STD_INPUT_HANDLE);
	}

///////////////////////////////////////////////////////////////////////
//	create child process
///////////////////////////////////////////////////////////////////////
// Create the child process.

   fSuccess = CreateProcess(NULL,
	    param->pchCommandLine, // command line
		NULL,          // process security attributes
		NULL,          // primary thread security attributes
		TRUE,          // handles are inherited
		0,      // creation flags
		NULL,			 // process' environment
		param->pchCurDir,      // current directory
		&siStartInfo,  // STARTUPINFO pointer
		&param->piProcInfo);  // receives PROCESS_INFORMATION

	if (param->pchPath) SetEnvironmentVariable("PATH",prevPath);
	if (!fSuccess) return -1;
	WaitForInputIdle(param->piProcInfo.hProcess,INFINITE);

	if (param->flags & SHELL_REDIRECT_STDIN)
		CloseHandle(hChildStdinRd);
	if (param->flags & SHELL_REDIRECT_STDOUT)
		CloseHandle(hChildStdoutWr);
#else

	if (param->pid) return -1;

	if (param->flags & SHELL_REDIRECT_STDIN) {
		pipe(fdin);
		param->fdWrite = fdin[1];
		fdStdinChild=fdin[0];
	}
	if (param->flags & SHELL_REDIRECT_STDOUT) {
		pipe(fdout);
		param->fdRead = fdout[0];
		fdStdoutChild=fdout[1];
	}
	
	pid = fork();
	if (pid == -1) return -1;
	if (pid == 0) { /* chid process */
		//generate argument list
		for (p=param->pchCommandLine,i=2;*p;p++) {
			if (*p==' ') i++;
		}
		args=malloc(i*sizeof(char*));
		argString=strdup(param->pchCommandLine);
		i=0;
		if (argString) {
			p=strtok(argString," ");
			while (p) {
				args[i++]=p;
				p=strtok(NULL," ");
			}
		}
		args[i]=NULL;
		p=strrchr(args[0],'/');
		if (p) {
			filePath=args[0];
			args[0]=p+1;
		} else {
			filePath=NULL;
		}

		//set PATH
		env[0]=NULL;
		if (param->pchPath) {
			prevPath=getenv("PATH");
			env[0]=malloc(strlen(prevPath)+strlen(param->pchPath)+2+5);
			sprintf(env[0],"PATH=%s:%s",prevPath,param->pchPath);
			env[1]=NULL;
		}
		if (param->flags & SHELL_REDIRECT_STDIN) {
			close(fdin[1]);
			dup2(fdStdinChild, 0);
		}
		if (param->flags & SHELL_REDIRECT_STDOUT) {
			close(fdout[0]);
			dup2(fdStdoutChild, 1);
		}
		if (execve(filePath, args, env)<0) {
			printf("Error starting specified program\n");
		}
		return 0;
	}
	param->pid=pid;
#endif
	return 0;
}