/* * Copyright 1993, 1995 Christopher Seiwald. * Copyright 2007 Noel Belcourt. * * This file is part of Jam - see jam.c for Copyright information. */ #include "jam.h" #include "execcmd.h" #include "lists.h" #include "output.h" #include "strings.h" #include #include #include #include #include /* vfork(), _exit(), STDOUT_FILENO and such */ #include #include #include #if defined(sun) || defined(__sun) #include #endif #ifdef USE_EXECUNIX #include #if defined(__APPLE__) #define NO_VFORK #endif #ifdef NO_VFORK #define vfork() fork() #endif /* * execunix.c - execute a shell script on UNIX/OS2/AmigaOS * * If $(JAMSHELL) is defined, uses that to formulate execvp()/spawnvp(). The * default is: /bin/sh -c * * In $(JAMSHELL), % expands to the command string and ! expands to the slot * number (starting at 1) for multiprocess (-j) invocations. If $(JAMSHELL) does * not include a %, it is tacked on as the last argument. * * Each word must be an individual element in a jam variable value. * * Do not just set JAMSHELL to /bin/sh - it will not work! * * External routines: * exec_check() - preprocess and validate the command. * exec_cmd() - launch an async command execution. * exec_wait() - wait for any of the async command processes to terminate. */ /* find a free slot in the running commands table */ static int get_free_cmdtab_slot(); /* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ static clock_t tps; static int old_time_initialized; static struct tms old_time; /* We hold stdout & stderr child process information in two element arrays * indexed as follows. */ #define OUT 0 #define ERR 1 static struct { int pid; /* on win32, a real process handle */ int fd[ 2 ]; /* file descriptors for stdout and stderr */ FILE * stream[ 2 ]; /* child's stdout and stderr file streams */ clock_t start_time; /* start time of child process */ int exit_reason; /* termination status */ char * buffer[ 2 ]; /* buffers to hold stdout and stderr, if any */ int buf_size[ 2 ]; /* buffer sizes in bytes */ timestamp start_dt; /* start of command timestamp */ /* Function called when the command completes. */ ExecCmdCallback func; /* Opaque data passed back to the 'func' callback. */ void * closure; } cmdtab[ MAXJOBS ] = { { 0 } }; /* * exec_check() - preprocess and validate the command. */ int exec_check ( string const * command, LIST * * pShell, int * error_length, int * error_max_length ) { int const is_raw_cmd = is_raw_command_request( *pShell ); /* We allow empty commands for non-default shells since we do not really * know what they are going to do with such commands. */ if ( !command->size && ( is_raw_cmd || list_empty( *pShell ) ) ) return EXEC_CHECK_NOOP; return is_raw_cmd ? EXEC_CHECK_OK : check_cmd_for_too_long_lines( command->value, MAXLINE, error_length, error_max_length ); } /* * exec_cmd() - launch an async command execution. */ /* We hold file descriptors for pipes used to communicate with child processes * in two element arrays indexed as follows. */ #define EXECCMD_PIPE_READ 0 #define EXECCMD_PIPE_WRITE 1 void exec_cmd ( string const * command, ExecCmdCallback func, void * closure, LIST * shell ) { int const slot = get_free_cmdtab_slot(); int out[ 2 ]; int err[ 2 ]; int len; char const * argv[ MAXARGC + 1 ]; /* +1 for NULL */ /* Initialize default shell. */ static LIST * default_shell; if ( !default_shell ) default_shell = list_push_back( list_new( object_new( "/bin/sh" ) ), object_new( "-c" ) ); if ( list_empty( shell ) ) shell = default_shell; /* Forumulate argv. If shell was defined, be prepared for % and ! subs. * Otherwise, use stock /bin/sh. */ argv_from_shell( argv, shell, command->value, slot ); if ( DEBUG_EXECCMD ) { int i; printf( "Using shell: " ); list_print( shell ); printf( "\n" ); for ( i = 0; argv[ i ]; ++i ) printf( " argv[%d] = '%s'\n", i, argv[ i ] ); } /* Create pipes for collecting child output. */ if ( pipe( out ) < 0 || ( globs.pipe_action && pipe( err ) < 0 ) ) { perror( "pipe" ); exit( EXITBAD ); } /* Initialize old_time only once. */ if ( !old_time_initialized ) { times( &old_time ); old_time_initialized = 1; } /* Start the command */ timestamp_current( &cmdtab[ slot ].start_dt ); if ( 0 < globs.timeout ) { /* Handle hung processes by manually tracking elapsed time and signal * process when time limit expires. */ struct tms buf; cmdtab[ slot ].start_time = times( &buf ); /* Make a global, only do this once. */ if ( !tps ) tps = sysconf( _SC_CLK_TCK ); } /* Child does not need the read pipe ends used by the parent. */ fcntl( out[ EXECCMD_PIPE_READ ], F_SETFD, FD_CLOEXEC ); if ( globs.pipe_action ) fcntl( err[ EXECCMD_PIPE_READ ], F_SETFD, FD_CLOEXEC ); if ( ( cmdtab[ slot ].pid = vfork() ) == -1 ) { perror( "vfork" ); exit( EXITBAD ); } if ( cmdtab[ slot ].pid == 0 ) { /*****************/ /* Child process */ /*****************/ int const pid = getpid(); /* Redirect stdout and stderr to pipes inherited from the parent. */ dup2( out[ EXECCMD_PIPE_WRITE ], STDOUT_FILENO ); dup2( globs.pipe_action ? err[ EXECCMD_PIPE_WRITE ] : out[ EXECCMD_PIPE_WRITE ], STDERR_FILENO ); close( out[ EXECCMD_PIPE_WRITE ] ); if ( globs.pipe_action ) close( err[ EXECCMD_PIPE_WRITE ] ); /* Make this process a process group leader so that when we kill it, all * child processes of this process are terminated as well. We use * killpg( pid, SIGKILL ) to kill the process group leader and all its * children. */ if ( 0 < globs.timeout ) { struct rlimit r_limit; r_limit.rlim_cur = globs.timeout; r_limit.rlim_max = globs.timeout; setrlimit( RLIMIT_CPU, &r_limit ); } setpgid( pid, pid ); execvp( argv[ 0 ], (char * *)argv ); perror( "execvp" ); _exit( 127 ); } /******************/ /* Parent process */ /******************/ setpgid( cmdtab[ slot ].pid, cmdtab[ slot ].pid ); /* Parent not need the write pipe ends used by the child. */ close( out[ EXECCMD_PIPE_WRITE ] ); if ( globs.pipe_action ) close( err[ EXECCMD_PIPE_WRITE ] ); /* Set both pipe read file descriptors to non-blocking. */ fcntl( out[ EXECCMD_PIPE_READ ], F_SETFL, O_NONBLOCK ); if ( globs.pipe_action ) fcntl( err[ EXECCMD_PIPE_READ ], F_SETFL, O_NONBLOCK ); /* Parent reads from out[ EXECCMD_PIPE_READ ]. */ cmdtab[ slot ].fd[ OUT ] = out[ EXECCMD_PIPE_READ ]; cmdtab[ slot ].stream[ OUT ] = fdopen( cmdtab[ slot ].fd[ OUT ], "rb" ); if ( !cmdtab[ slot ].stream[ OUT ] ) { perror( "fdopen" ); exit( EXITBAD ); } /* Parent reads from err[ EXECCMD_PIPE_READ ]. */ if ( globs.pipe_action ) { cmdtab[ slot ].fd[ ERR ] = err[ EXECCMD_PIPE_READ ]; cmdtab[ slot ].stream[ ERR ] = fdopen( cmdtab[ slot ].fd[ ERR ], "rb" ); if ( !cmdtab[ slot ].stream[ ERR ] ) { perror( "fdopen" ); exit( EXITBAD ); } } /* Save input data into the selected running commands table slot. */ cmdtab[ slot ].func = func; cmdtab[ slot ].closure = closure; } #undef EXECCMD_PIPE_READ #undef EXECCMD_PIPE_WRITE /* Returns 1 if file descriptor is closed, or 0 if it is still alive. * * i is index into cmdtab * * s (stream) indexes: * - cmdtab[ i ].stream[ s ] * - cmdtab[ i ].buffer[ s ] * - cmdtab[ i ].fd [ s ] */ static int read_descriptor( int i, int s ) { int ret; char buffer[ BUFSIZ ]; while ( 0 < ( ret = fread( buffer, sizeof( char ), BUFSIZ - 1, cmdtab[ i ].stream[ s ] ) ) ) { buffer[ ret ] = 0; if ( !cmdtab[ i ].buffer[ s ] ) { /* Never been allocated. */ if ( globs.max_buf && ret > globs.max_buf ) { ret = globs.max_buf; buffer[ ret ] = 0; } cmdtab[ i ].buf_size[ s ] = ret + 1; cmdtab[ i ].buffer[ s ] = (char*)BJAM_MALLOC_ATOMIC( ret + 1 ); memcpy( cmdtab[ i ].buffer[ s ], buffer, ret + 1 ); } else { /* Previously allocated. */ if ( cmdtab[ i ].buf_size[ s ] < globs.max_buf || !globs.max_buf ) { char * tmp = cmdtab[ i ].buffer[ s ]; int const old_len = cmdtab[ i ].buf_size[ s ] - 1; int const new_len = old_len + ret + 1; cmdtab[ i ].buf_size[ s ] = new_len; cmdtab[ i ].buffer[ s ] = (char*)BJAM_MALLOC_ATOMIC( new_len ); memcpy( cmdtab[ i ].buffer[ s ], tmp, old_len ); memcpy( cmdtab[ i ].buffer[ s ] + old_len, buffer, ret + 1 ); BJAM_FREE( tmp ); } } } /* If buffer full, ensure last buffer char is newline so that jam log * contains the command status at beginning of it own line instead of * appended to end of the previous output. */ if ( globs.max_buf && globs.max_buf <= cmdtab[ i ].buf_size[ s ] ) cmdtab[ i ].buffer[ s ][ cmdtab[ i ].buf_size[ s ] - 2 ] = '\n'; return feof( cmdtab[ i ].stream[ s ] ); } /* * close_streams() - Close the stream and pipe descriptor. */ static void close_streams( int const i, int const s ) { fclose( cmdtab[ i ].stream[ s ] ); cmdtab[ i ].stream[ s ] = 0; close( cmdtab[ i ].fd[ s ] ); cmdtab[ i ].fd[ s ] = 0; } /* * Populate the file descriptors collection for use in select() and return the * maximal included file descriptor value. */ static int populate_file_descriptors( fd_set * const fds ) { int i; int fd_max = 0; FD_ZERO( fds ); for ( i = 0; i < globs.jobs; ++i ) { int fd; if ( ( fd = cmdtab[ i ].fd[ OUT ] ) > 0 ) { if ( fd > fd_max ) fd_max = fd; FD_SET( fd, fds ); } if ( globs.pipe_action ) { if ( ( fd = cmdtab[ i ].fd[ ERR ] ) > 0 ) { if ( fd > fd_max ) fd_max = fd; FD_SET( fd, fds ); } } } return fd_max; } /* * exec_wait() - wait for any of the async command processes to terminate. * * May register more than one terminated child process but will exit as soon as * at least one has been registered. */ void exec_wait() { int finished = 0; /* Process children that signaled. */ while ( !finished ) { int i; struct timeval tv; struct timeval * ptv = NULL; int select_timeout = globs.timeout; /* Prepare file descriptor information for use in select(). */ fd_set fds; int const fd_max = populate_file_descriptors( &fds ); /* Check for timeouts: * - kill children that already timed out * - decide how long until the next one times out */ if ( globs.timeout > 0 ) { struct tms buf; clock_t const current = times( &buf ); for ( i = 0; i < globs.jobs; ++i ) if ( cmdtab[ i ].pid ) { clock_t const consumed = ( current - cmdtab[ i ].start_time ) / tps; if ( consumed >= globs.timeout ) { killpg( cmdtab[ i ].pid, SIGKILL ); cmdtab[ i ].exit_reason = EXIT_TIMEOUT; } else if ( globs.timeout - consumed < select_timeout ) select_timeout = globs.timeout - consumed; } /* If nothing else causes our select() call to exit, force it after * however long it takes for the next one of our child processes to * crossed its alloted processing time so we can terminate it. */ tv.tv_sec = select_timeout; tv.tv_usec = 0; ptv = &tv; } /* select() will wait for I/O on a descriptor, a signal, or timeout. */ { int ret; while ( ( ret = select( fd_max + 1, &fds, 0, 0, ptv ) ) == -1 ) if ( errno != EINTR ) break; if ( ret <= 0 ) continue; } for ( i = 0; i < globs.jobs; ++i ) { int out_done = 0; int err_done = 0; if ( FD_ISSET( cmdtab[ i ].fd[ OUT ], &fds ) ) out_done = read_descriptor( i, OUT ); if ( globs.pipe_action && FD_ISSET( cmdtab[ i ].fd[ ERR ], &fds ) ) err_done = read_descriptor( i, ERR ); /* If feof on either descriptor, we are done. */ if ( out_done || err_done ) { int pid; int status; int rstat; timing_info time_info; /* We found a terminated child process - our search is done. */ finished = 1; /* Close the stream and pipe descriptors. */ close_streams( i, OUT ); if ( globs.pipe_action ) close_streams( i, ERR ); /* Reap the child and release resources. */ while ( ( pid = waitpid( cmdtab[ i ].pid, &status, 0 ) ) == -1 ) if ( errno != EINTR ) break; if ( pid != cmdtab[ i ].pid ) { printf( "unknown pid %d with errno = %d\n", pid, errno ); exit( EXITBAD ); } /* Set reason for exit if not timed out. */ if ( WIFEXITED( status ) ) cmdtab[ i ].exit_reason = WEXITSTATUS( status ) ? EXIT_FAIL : EXIT_OK; { struct tms new_time; times( &new_time ); time_info.system = (double)( new_time.tms_cstime - old_time.tms_cstime ) / CLOCKS_PER_SEC; time_info.user = (double)( new_time.tms_cutime - old_time.tms_cutime ) / CLOCKS_PER_SEC; timestamp_copy( &time_info.start, &cmdtab[ i ].start_dt ); timestamp_current( &time_info.end ); old_time = new_time; } /* Drive the completion. */ if ( interrupted() ) rstat = EXEC_CMD_INTR; else if ( status ) rstat = EXEC_CMD_FAIL; else rstat = EXEC_CMD_OK; /* Call the callback, may call back to jam rule land. */ (*cmdtab[ i ].func)( cmdtab[ i ].closure, rstat, &time_info, cmdtab[ i ].buffer[ OUT ], cmdtab[ i ].buffer[ ERR ], cmdtab[ i ].exit_reason ); /* Clean up the command's running commands table slot. */ BJAM_FREE( cmdtab[ i ].buffer[ OUT ] ); cmdtab[ i ].buffer[ OUT ] = 0; cmdtab[ i ].buf_size[ OUT ] = 0; BJAM_FREE( cmdtab[ i ].buffer[ ERR ] ); cmdtab[ i ].buffer[ ERR ] = 0; cmdtab[ i ].buf_size[ ERR ] = 0; cmdtab[ i ].pid = 0; cmdtab[ i ].func = 0; cmdtab[ i ].closure = 0; cmdtab[ i ].start_time = 0; } } } } /* * Find a free slot in the running commands table. */ static int get_free_cmdtab_slot() { int slot; for ( slot = 0; slot < MAXJOBS; ++slot ) if ( !cmdtab[ slot ].pid ) return slot; printf( "no slots for child!\n" ); exit( EXITBAD ); } # endif /* USE_EXECUNIX */