# Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, # 2001, 2002, 2003 Free Software Foundation, Inc. # # This file is part of DejaGnu. # # DejaGnu is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # DejaGnu is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with DejaGnu; if not, write to the Free Software Foundation, # Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. # This file was written by Rob Savoye. (address@hidden) # load various protocol support modules load_lib "mondfe.exp" load_lib "xsh.exp" load_lib "telnet.exp" load_lib "rlogin.exp" load_lib "kermit.exp" load_lib "tip.exp" load_lib "rsh.exp" load_lib "ftp.exp" # # Open a connection to a remote host or target. This requires the target_info # array be filled in with the proper info to work. # # type is either "build", "host", "target", or the name of a board loaded # into the board_info array. The default is target if no name is supplied. # It returns the spawn id of the process that is the connection. # proc remote_open { args } { global reboot if { [llength $args] == 0 } { set type "target" } else { set type $args } # Shudder... if { $reboot && $type == "target" } { reboot_target } return [call_remote "" open $type] } proc remote_raw_open { args } { return [eval call_remote raw open $args] } # Run the specified COMMANDLINE on the local machine, redirecting input # to file INP (if non-empty), redirecting output to file OUTP (if non-empty), # and waiting TIMEOUT seconds for the command to complete before killing # it. A two-member list is returned; the first member is the exit status # of the command, the second is any output produced from the command # (if output is redirected, this may or may not be empty). If output is # redirected, both stdout and stderr will appear in the specified file. # # Caveats: A pipeline is used if input or output is redirected. There # will be problems with killing the program if a pipeline is used. Either # the "tee" command or the "cat" command is used in the pipeline if input # or output is redirected. If the program needs to be killed, /bin/sh and # the kill command will be invoked. # proc local_exec { commandline inp outp timeout } { # Tcl's exec is a pile of crap. It does two very inappropriate things # firstly, it has no business returning an error if the program being # executed happens to write to stderr. Secondly, it appends its own # error messages to the output of the command if the process exits with # non-zero status. # # So, ok, we do this funny stuff with using spawn sometimes and # open others because of spawn's inability to invoke commands with # redirected I/O. We also hope that nobody passes in a command that's # a pipeline, because spawn can't handle it. # # We want to use spawn in most cases, because tcl's pipe mechanism # doesn't assign process groups correctly and we can't reliably kill # programs that bear children. We can't use tcl's exec because it has # no way to timeout programs that hang. *sigh* # if { "$inp" == "" && "$outp" == "" } { set id -1 set result [catch "eval spawn \{${commandline}\}" pid] if { $result == 0 } { set result2 0 } else { set pid 0 set result2 5 } } else { # Can you say "uuuuuugly"? I knew you could! # All in the name of non-infinite hangs. if { $inp != "" } { set inp "< $inp" set mode "r" } else { set mode "w" } set use_tee 0 # We add |& cat so that Tcl exec doesn't freak out if the # program writes to stderr. if { $outp == "" } { set outp "|& cat" } else { set outpf "$outp" set outp "> $outp" if { $inp != "" } { set use_tee 1 } } # Why do we use tee? Because open can't redirect both input and output. if { $use_tee } { set result [catch {open "| ${commandline} $inp |& tee $outpf" RDONLY} id] } else { set result [catch {open "| ${commandline} $inp $outp" $mode} id] } if { $result != 0 } { global errorInfo return [list -1 "open of $commandline $inp $outp failed: $errorInfo"] } set pid [pid $id] set result [catch "spawn -leaveopen $id" result2] } # Prepend "-" to each pid, to generate the "process group IDs" needed by # kill. set pgid "-[join $pid { -}]" verbose "pid is $pid $pgid" if { $result != 0 || $result2 != 0 } { # This shouldn't happen. global errorInfo if [info exists errorInfo] { set foo $errorInfo } else { set foo "" } verbose "spawn -open $id failed, $result $result2, $foo" catch "close $id" return [list -1 "spawn failed"] } set got_eof 0 set output "" # Wait for either $timeout seconds to elapse, or for the program to # exit. expect { -i $spawn_id -timeout $timeout -re ".+" { append output $expect_out(buffer) if { [string length $output] < 512000 } { exp_continue -continue_timer } } timeout { warning "program timed out." } eof { set got_eof 1 } } # Uuuuuuugh. Now I'm getting really sick. # If we didn't get an EOF, we have to kill the poor defenseless program. # However, Tcl has no kill primitive, so we have to execute an external # command in order to execute the execution. (English. Gotta love it.) if { ! $got_eof } { verbose "killing $pid $pgid" # This is very, very nasty. SH, instead of EXPECT, is used to # run this in the background since, on older CYGWINs, a # strange file I/O error occures. exec sh -c "exec > /dev/null 2>&1 && (kill -2 $pgid || kill -2 $pid) && sleep 5 && (kill -15 $pgid || kill $pid) && sleep 5 && (kill -9 $pgid || kill -9 $pid) &" } # This will hang if the kill doesn't work. Nothin' to do, and it's not ok. catch "close -i $spawn_id" set r2 [catch "wait -i $spawn_id" wres] if { $id > 0 } { set r2 [catch "close $id" res] } else { verbose "waitres is $wres" 2 if { $r2 == 0 } { set r2 [lindex $wres 3] if { [llength $wres] > 4 } { if { [lindex $wres 4] == "CHILDKILLED" } { set r2 1 } } if { $r2 != 0 } { set res "$wres" } else { set res "" } } else { set res "wait failed" } } if { $r2 != 0 || $res != "" || ! $got_eof } { verbose "close result is $res" set status 1 } else { set status 0 } verbose "output is $output" if { $outp == "" } { return [list $status $output] } else { return [list $status ""] } } # # Execute the supplied program on HOSTNAME. There are four optional arguments # the first is a set of arguments to pass to PROGRAM, the second is an # input file to feed to stdin of PROGRAM, the third is the name of an # output file where the output from PROGRAM should be written, and # the fourth is a timeout value (we give up after the specified # of seconds # has elapsed). # # A two-element list is returned. The first value is the exit status of the # program (-1 if the exec failed). The second is any output produced by # the program (which may or may not be empty if output from the program was # redirected). # proc remote_exec { hostname program args } { if { [llength $args] > 0 } { set pargs [lindex $args 0] } else { set pargs "" } if { [llength $args] > 1 } { set inp "[lindex $args 1]" } else { set inp "" } if { [llength $args] > 2 } { set outp "[lindex $args 2]" } else { set outp "" } # 300 is probably a lame default. if { [llength $args] > 3 } { set timeout "[lindex $args 3]" } else { set timeout 300 } verbose -log "Executing on $hostname: $program $pargs $inp $outp (timeout = $timeout)" 2 # Run it locally if appropriate. if { ![is_remote $hostname] } { return [local_exec "$program $pargs" $inp $outp $timeout] } else { return [call_remote "" exec $hostname $program $pargs $inp $outp] } } proc standard_exec { hostname args } { return [eval rsh_exec \"$hostname\" $args] } # # Close the remote connection. # arg - This is the name of the machine whose connection we're closing, # or target, host or build. # proc remote_close { host } { while { 1 } { set result [call_remote "" close "$host"] if { [remote_pop_conn $host] != "pass" } { break } } return $result } proc remote_raw_close { host } { return [call_remote raw close "$host"] } proc standard_close { host } { global board_info if [board_info ${host} exists fileid] { set shell_id [board_info ${host} fileid] set pid -1 verbose "Closing the remote shell $shell_id" 2 if [board_info ${host} exists fileid_origid] { set oid [board_info ${host} fileid_origid] set pid [pid $oid] unset board_info(${host},fileid_origid) } else { set result [catch "exp_pid -i $shell_id" pid] if { $result != 0 || $pid <= 0 } { set result [catch "pid $shell_id" pid] if { $result != 0 } { set pid -1 } } } if { $pid > 0 } { verbose "doing kill, pid is $pid" # This is very, very nasty. SH, instead of EXPECT, is used # to run this in the background since, on older CYGWINs, a # strange file I/O error occures. set pgid "-[join $pid { -}]" exec sh -c "exec > /dev/null 2>&1 && (kill -2 $pgid || kill -2 $pid) && sleep 5 && (kill $pgid || kill $pid) && sleep 5 && (kill -9 $pgid || kill -9 $pid) &" } verbose "pid is $pid" catch "close -i $shell_id" if [info exists oid] { catch "close $oid" } catch "wait -i $shell_id" unset board_info(${host},fileid) verbose "Shell closed." } return 0 } # # Set the connection into "binary" mode, a.k.a. no processing of input # characters. # proc remote_binary { host } { return [call_remote "" binary "$host"] } proc remote_raw_binary { host } { return [call_remote raw binary "$host"] } proc remote_reboot { host } { clone_output "\nRebooting ${host}\n" # FIXME: don't close the host connection, or all the remote # procedures will fail. # remote_close $host set status [call_remote "" reboot "$host"] if [board_info $host exists name] { set host [board_info $host name] } if { [info proc ${host}_init] != "" } { ${host}_init $host } return $status } proc standard_reboot { host } { return "" } # # Download file FILE to DEST. If the optional DESTFILE is specified, # that file will be used on the destination board. It returns either # "" (indicating that the download failed), or the name of the file on # the destination machine. # proc remote_download { dest file args } { if { [llength $args] > 0 } { set destfile [lindex $args 0] } else { set destfile [file tail $file] } if { ![is_remote $dest] } { if { $destfile == "" || $destfile == $file } { return $file } else { set result [catch "exec cp -p $file $destfile" output] if [regexp "same file|are identical" $output] { set result 0 set output "" } else { # try to make sure we can read it # and write it (in case we copy onto it again) catch {exec chmod u+rw $destfile} } if { $result != 0 || $output != "" } { perror "remote_download to $dest of $file to $destfile: $output" return "" } else { return $destfile } } } return [call_remote "" download $dest $file $destfile] } # # The default download procedure. Uses rcp to download to $dest. # proc standard_download {dest file destfile} { set orig_destfile $destfile if [board_info $dest exists nfsdir] { set destdir [board_info $dest nfsdir] if [board_info $dest exists nfsroot_server] { set dest [board_info $dest nfsroot_server] } else { set dest "" } set destfile "$destdir/$destfile" } if { "$dest" != "" } { set result [rsh_download $dest $file $destfile] if { $result == $destfile } { return $orig_destfile } else { return $result } } set result [catch "exec cp -p $file $destfile" output] if [regexp "same file|are identical" $output] { set result 0 set output "" } else { # try to make sure we can read it # and write it (in case we copy onto it again) catch {exec chmod u+rw $destfile} } if { $result != 0 || $output != "" } { perror "remote_download to $dest of $file to $destfile: $output" return "" } else { return $orig_destfile } } proc remote_upload {dest srcfile args} { if { [llength $args] > 0 } { set destfile [lindex $args 0] } else { set destfile [file tail $srcfile] } if { ![is_remote $dest] } { if { $destfile == "" || $srcfile == $destfile } { return $srcfile } set result [catch "exec cp -p $srcfile $destfile" output] return $destfile } return [call_remote "" upload $dest $srcfile $destfile] } proc standard_upload { dest srcfile destfile } { set orig_srcfile $srcfile if [board_info $dest exists nfsdir] { set destdir [board_info $dest nfsdir] if [board_info $dest exists nfsroot_server] { set dest [board_info $dest nfsroot_server] } else { set dest "" } set srcfile "$destdir/$srcfile" } if { "$dest" != "" } { return [rsh_upload $dest $srcfile $destfile] } set result [catch "exec cp -p $srcfile $destfile" output] if [regexp "same file|are identical" $output] { set result 0 set output "" } else { # try to make sure we can read it # and write it (in case we copy onto it again) catch {exec chmod u+rw $destfile} } if { $result != 0 || $output != "" } { perror "remote_upload to $dest of $file to $destfile: $output" return "" } else { return $destfile } return [rsh_upload $dest $srcfile $destfile] } # # A standard procedure to call the appropriate function. It first looks # for a board-specific version, then a version specific to the protocol, # and then finally it will call standard_$proc. # proc call_remote { type proc dest args } { if [board_info $dest exists name] { set dest [board_info $dest name] } if { $dest != "host" && $dest != "build" && $dest != "target" } { if { ![board_info $dest exists name] } { global board if [info exists board] { blooie } load_board_description $dest } } set high_prot "" if { $type != "raw" } { if [board_info $dest exists protocol] { set high_prot "${dest} [board_info $dest protocol]" } else { set high_prot "${dest} [board_info $dest generic_name]" } } verbose "call_remote $type $proc $dest $args " 3 # Close has to be handled specially. if { $proc == "close" || $proc == "open" } { foreach try "$high_prot [board_info $dest connect] telnet standard" { if { $try != "" } { if { [info proc "${try}_${proc}"] != "" } { verbose "call_remote calling ${try}_${proc}" 3 set result [eval ${try}_${proc} \"$dest\" $args] break } } } set ft "[board_info $dest file_transfer]" if { [info proc "${ft}_${proc}"] != "" } { verbose "calling ${ft}_${proc} $dest $args" 3 set result2 [eval ${ft}_${proc} \"$dest\" $args] } if ![info exists result] { if [info exists result2] { set result $result2 } else { set result "" } } return $result } foreach try "${high_prot} [board_info $dest file_transfer] [board_info $dest connect] telnet standard" { verbose "looking for ${try}_${proc}" 4 if { $try != "" } { if { [info proc "${try}_${proc}"] != "" } { verbose "call_remote calling ${try}_${proc}" 3 return [eval ${try}_${proc} \"$dest\" $args] } } } if { $proc == "close" } { return "" } error "No procedure for '$proc' in call_remote" return -1 } # # Send FILE through the existing session established to DEST. # proc remote_transmit { dest file } { return [call_remote "" transmit "$dest" "$file"] } proc remote_raw_transmit { dest file } { return [call_remote raw transmit "$dest" "$file"] } # # The default transmit procedure if no other exists. This feeds the # supplied file directly into the connection. # proc standard_transmit {dest file} { if [board_info ${dest} exists name] { set dest [board_info ${dest} name] } if [board_info ${dest} exists baud] { set baud [board_info ${dest} baud] } else { set baud 9600 } set shell_id [board_info ${dest} fileid] set lines 0 set chars 0 set fd [open $file r] while { [gets $fd cur_line] >= 0 } { set errmess "" catch "send -i $shell_id \"$cur_line\r\"" errmess if [string match "write\(spawn_id=\[0-9\]+\):" $errmess] { perror "sent \"$cur_line\" got expect error \"$errmess\"" catch "close $fd" return -1 } set chars [expr $chars + ([string length $cur_line] * 10)] if { $chars > $baud } { sleep 1 set chars 0 } verbose "." 3 verbose "Sent $cur_line" 4 incr lines } verbose "$lines lines transmitted" 2 close $fd return 0 } proc remote_send { dest string } { return [call_remote "" send "$dest" "$string"] } proc remote_raw_send { dest string } { return [call_remote raw send "$dest" "$string"] } proc standard_send { dest string } { if ![board_info $dest exists fileid] { perror "no fileid for $dest" return "no fileid for $dest" } else { set shell_id [board_info $dest fileid] verbose "shell_id in standard_send is $shell_id" 3 verbose "send -i [board_info $dest fileid] -- {$string}" 3 if [catch "send -i [board_info $dest fileid] -- {$string}" errorInfo] { return "$errorInfo" } else { return "" } } } proc file_on_host { op file args } { return [eval remote_file host \"$op\" \"$file\" $args] } proc file_on_build { op file args } { return [eval remote_file build \"$op\" \"$file\" $args] } proc remote_file { dest args } { return [eval call_remote \"\" file \"$dest\" $args] } proc remote_raw_file { dest args } { return [eval call_remote raw file \"$dest\" $args] } # # Perform the specified file op on a remote Unix board. # proc standard_file { dest op args } { set file [lindex $args 0] verbose "dest in proc standard_file is $dest" 3 if { ![is_remote $dest] } { switch $op { cmp { set otherfile [lindex $args 1] if { [file exists $file] && [file exists $otherfile] && [file size $file] == [file size $otherfile] } { set r [remote_exec build cmp "$file $otherfile"] if { [lindex $r 0] == 0 } { return 0 } } return 1 } tail { return [file tail $file] } dirname { if { [file pathtype $file] == "relative" } { set file [remote_file $dest absolute $file] } set result [file dirname $file] if { $result == "" } { return "/" } return $result } join { return [file join [lindex $args 0] [lindex $args 1]] } absolute { return [unix_clean_filename $dest $file] } exists { return [file exists $file] } delete { foreach x $args { if { [file exists $x] && [file isfile $x] } { exec rm -f $x } } return } } } switch $op { exists { # mmmm, quotes. set status [remote_exec $dest "sh -c 'exit `\[ -f $file \]`'"] return [lindex $status 0] } delete { set file "" # Allow multiple files to be deleted at once. foreach x $args { append file " $x" } verbose "remote_file deleting $file" set status [remote_exec $dest "rm -f $file"] return [lindex $status 0] } } } # # Return an absolute version of the filename in $file, with . and .. # removed. # proc unix_clean_filename { dest file } { if { [file pathtype $file] == "relative" } { set file [remote_file $dest join [pwd] $file] } set result "" foreach x [split $file "/"] { if { $x == "." || $x == "" } { continue } if { $x == ".." } { set rlen [expr [llength $result] - 2] if { $rlen >= 0 } { set result [lrange $result 0 $rlen] } else { set result "" } continue } lappend result $x } return "/[join $result /]" } # # Start COMMANDLINE running on DEST. By default it is not possible to # redirect I/O. If the optional keyword "readonly" is specified, input # to the command may be redirected. If the optional keyword # "writeonly" is specified, output from the command may be redirected. # # If the command is successfully started, a positive "spawn id" is returned. # If the spawn fails, a negative value will be returned. # # Once the command is spawned, you can interact with it via the remote_expect # and remote_wait functions. # proc remote_spawn { dest commandline args } { global board_info if ![is_remote $dest] { if [info exists board_info($dest,fileid)] { unset board_info($dest,fileid) } verbose "remote_spawn is local" 3 if [board_info $dest exists name] { set dest [board_info $dest name] } verbose "spawning command $commandline" if { [llength $args] > 0 } { if { [lindex $args 0] == "readonly" } { set result [catch { open "| ${commandline} |& cat" "r" } id] if { $result != 0 } { return -1 } } else { set result [catch {open "| ${commandline}" "w"} id] if { $result != 0 } { return -1 } } set result [catch "spawn -leaveopen $id" result2] if { $result == 0 && $result2 == 0} { verbose "setting board_info($dest,fileid) to $spawn_id" 3 set board_info($dest,fileid) $spawn_id set board_info($dest,fileid_origid) $id return $spawn_id } else { # This shouldn't happen. global errorInfo if [info exists errorInfo] { set foo $errorInfo } else { set foo "" } verbose "spawn -open $id failed, $result $result2, $foo" catch "close $id" return -1 } } else { set result [catch "spawn $commandline" pid] if { $result == 0 } { verbose "setting board_info($dest,fileid) to $spawn_id" 3 set board_info($dest,fileid) $spawn_id return $spawn_id } else { verbose -log "spawn of $commandline failed" return -1 } } } # Seems to me there should be a cleaner way to do this. if { "$args" == "" } { return [call_remote "" spawn "$dest" "$commandline"] } else { return [call_remote "" spawn "$dest" "$commandline" $args] } } proc remote_raw_spawn { dest commandline } { return [call_remote raw spawn "$dest" "$commandline"] } # # The default spawn procedure. Uses rsh to connect to $dest. # proc standard_spawn { dest commandline } { global board_info if ![board_info $dest exists rsh_prog] { if { [which remsh] != 0 } { set RSH remsh } else { set RSH rsh } } else { set RSH [board_info $dest rsh_prog] } if ![board_info $dest exists username] { set rsh_useropts "" } else { set username [board_info $dest username] set rsh_useropts "-l$username" } if [board_info $dest exists hostname] { set remote [board_info $dest hostname] } else { set remote $dest } spawn $RSH $rsh_useropts $remote $commandline set board_info($dest,fileid) $spawn_id return $spawn_id } # # Run PROG on DEST, with optional arguments, input and output files. # It returns a list of two items. The first is ether "pass" if the program # loaded, ran and exited with a zero exit status, or "fail" otherwise. # The second argument is any output produced by the program while it was # running. # proc remote_load { dest prog args } { global tool set dname [board_info $dest name] set cache "[getenv REMOTELOAD_CACHE]/$tool/$dname/[file tail $prog]" set empty [is_remote $dest] if { [board_info $dest exists is_simulator] || [getenv REMOTELOAD_CACHE] == "" } { set empty 0 } else { for { set x 0 } {$x < [llength $args] } {incr x} { if { [lindex $args $x] != "" } { set empty 0 break } } } if $empty { global sum_program if [info exists sum_program] { if ![target_info exists objcopy] { set_currtarget_info objcopy [find_binutils_prog objcopy] } if [is_remote host] { set dprog [remote_download host $prog "a.out"] } else { set dprog $prog } set status [remote_exec host "[target_info objcopy]" "-O srec $dprog ${dprog}.sum"] if [is_remote host] { remote_file upload ${dprog}.sum ${prog}.sum } if { [lindex $status 0] == 0 } { set sumout [remote_exec build "$sum_program" "${prog}.sum"] set sum [lindex $sumout 1] regsub "\[\r\n \t\]+$" "$sum" "" sum } else { set sumout [remote_exec build "$sum_program" "${prog}"] set sum [lindex $sumout 1] regsub "\[\r\n \t\]+$" "$sum" "" sum } remote_file build delete ${prog}.sum } if [file exists $cache] { set same 0 if [info exists sum_program] { set id [open $cache "r"] set oldsum [read $id] close $id if { $oldsum == $sum } { set same 1 } } else { if { [remote_file build cmp $prog $cache] == 0 } { set same 1 } } if { $same } { set fd [open "${cache}.res" "r"] gets $fd l1 set result [list $l1 [read $fd]] close $fd } } } if ![info exists result] { set result [eval call_remote \"\" load \"$dname\" \"$prog\" $args] # Not quite happy about the "pass" condition, but it makes sense if # you think about it for a while-- *why* did the test not pass? if { $empty && [lindex $result 0] == "pass" } { if { [getenv LOAD_REMOTECACHE] != "" } { set dir "[getenv REMOTELOAD_CACHE]/$tool/$dname" if ![file exists $dir] { file mkdir $dir } if [file exists $dir] { if [info exists sum_program] { set id [open $cache "w"] puts -nonewline $id "$sum" close $id } else { remote_exec build cp "$prog $cache" } set id [open "${cache}.res" "w"] puts $id [lindex $result 0] puts -nonewline $id [lindex $result 1] close $id } } } } return $result } proc remote_raw_load { dest prog args } { return [eval call_remote raw load \"$dest\" \"$prog\" $args ] } # # The default load procedure if no other exists for $dest. It uses # remote_download and remote_exec to load and execute the program. # proc standard_load { dest prog args } { if { [llength $args] > 0 } { set pargs [lindex $args 0] } else { set pargs "" } if { [llength $args] > 1 } { set inp "[lindex $args 1]" } else { set inp "" } if ![file exists $prog] then { # We call both here because this should never happen. perror "$prog does not exist in standard_load." verbose -log "$prog does not exist." 3 return "untested" } if [is_remote $dest] { set remotefile "/tmp/[file tail $prog].[pid]" set remotefile [remote_download $dest $prog $remotefile] if { $remotefile == "" } { verbose -log "Download of $prog to [board_info $dest name] failed." 3 return "unresolved" } if [board_info $dest exists remote_link] { if [[board_info $dest remote_link] $remotefile] { verbose -log "Couldn't do remote link" remote_file target delete $remotefile return "unresolved" } } set status [remote_exec $dest $remotefile $pargs $inp] remote_file $dest delete $remotefile } else { set status [remote_exec $dest $prog $pargs $inp] } if { [lindex $status 0] < 0 } { verbose -log "Couldn't execute $prog, [lindex $status 1]" 3 return "unresolved" } set output [lindex $status 1] set status [lindex $status 0] verbose -log "Executed $prog, status $status" 2 if ![string match "" $output] { verbose -log -- "$output" 2 } if { $status == 0 } { return [list "pass" $output] } else { return [list "fail" $output] } } # # Loads PROG into DEST. # proc remote_ld { dest prog } { return [eval call_remote \"\" ld \"$dest\" \"$prog\"] } proc remote_raw_ld { dest prog } { return [eval call_remote raw ld \"$dest\" \"$prog\"] } # Wait up to TIMEOUT seconds for the last spawned command on DEST to # complete. A list of two values is returned; the first is the exit # status (-1 if the program timed out), and the second is any output # produced by the command. proc remote_wait { dest timeout } { return [eval call_remote \"\" wait \"$dest\" $timeout] } proc remote_raw_wait { dest timeout } { return [eval call_remote raw wait \"$dest\" $timeout] } # The standard wait procedure, used for commands spawned on the local # machine. proc standard_wait { dest timeout } { set output "" set status -1 if [info exists exp_close_result] { unset exp_close_result } remote_expect $dest $timeout { -re ".+" { append output $expect_out(buffer) if { [string length $output] > 512000 } { remote_close $dest set status 1 } else { exp_continue -continue_timer } } timeout { warning "program timed out." } eof { if [board_info $dest exists fileid_origid] { global board_info set id [board_info $dest fileid] set oid [board_info $dest fileid_origid] verbose "$id $oid" unset board_info($dest,fileid) unset board_info($dest,fileid_origid) catch "close -i $id" # I don't believe this. You HAVE to do a wait, even tho # it won't work! stupid ()*$%*)(% expect... catch "wait -i $id" set r2 [catch "close $oid" res] if { $r2 != 0 } { verbose "close result is $res" set status 1 } else { set status 0 } } else { set s [wait -i [board_info $dest fileid]] if { [lindex $s 0] != 0 && [lindex $s 2] == 0 } { set status [lindex $s 3] if { [llength $s] > 4 } { if { [lindex $s 4] == "CHILDKILLED" } { set status 1 } } } } } } remote_close $dest return [list $status $output] } # This checks the value cotained in the variable named "variable" in # the calling procedure for output from the status wrapper and returns # a non-negative value if it exists; otherwise, it returns -1. The # output from the wrapper is removed from the variable. proc check_for_board_status { variable } { upvar $variable output # If all programs of this board have a wrapper that always outputs a # status message, then the absence of it means that the program # crashed, regardless of status found elsewhere (e.g. simulator exit # code). if { [target_info needs_status_wrapper] != "" } then { set nomatch_return 2 } else { set nomatch_return -1 } if [regexp "(^|\[\r\n\])\\*\\*\\* EXIT code" $output] { regsub "^.*\\*\\*\\* EXIT code " $output "" result regsub "\[\r\n\].*$" $result "" result regsub -all "(^|\[\r\n\]|\r\n)\\*\\*\\* EXIT code \[^\r\n\]*(\[\r\n\]\[\r\n\]?|$)" $output "" output regsub "^\[^0-9\]*" $result "" result regsub "\[^0-9\]*$" $result "" result verbose "got board status $result" 3 verbose "output is $output" 3 if { $result == "" } { return $nomatch_return } else { return [expr $result] } } else { return $nomatch_return } } # # remote_expect works basically the same as standard expect, but it # also takes care of getting the file descriptor from the specified # host and also calling the timeout/eof/default section if there is an # error on the expect call. # proc remote_expect { board timeout args } { global errorInfo errorCode global remote_suppress_flag set spawn_id [board_info $board fileid] if { [llength $args] == 1 } { set args "[lindex $args 0]" } set res {} set got_re 0 set need_append 1 set orig "$args" set error_sect "" set save_next 0 if { $spawn_id == "" } { # This should be an invalid spawn id. set spawn_id 1000 } for { set i 0 } { $i < [llength $args] } { incr i } { if { $need_append } { append res "\n-i $spawn_id " set need_append 0 } set x "[lrange $args $i $i]" regsub "^\n*\[ \]*" "$x" "" x if { $x == "-i" || $x == "-timeout" || $x == "-ex" } { append res "$x " set next [expr ${i}+1] append res "[lrange $args $next $next]" incr i continue } if { $x == "-n" || $x == "-notransfer" || $x == "-nocase" || $x == "-indices" } { append res "${x} " continue } if { $x == "-re" } { append res "${x} " set next [expr ${i}+1] set y [lrange $args $next $next] append res "${y} " set got_re 1 incr i continue } if { $got_re } { set need_append 0 append res "$x " set got_re 0 if { $save_next } { set save_next 0 set error_sect [lindex $args $i] } } else { if { ${x} == "eof" } { set save_next 1 } elseif { ${x} == "default" || ${x} == "timeout" } { if { $error_sect == "" } { set save_next 1 } } append res "${x} " set got_re 1 } } if [info exists remote_suppress_flag] { if { $remote_suppress_flag } { set code 1 } } if ![info exists code] { set res "\n-timeout $timeout $res" set body "expect \{\n-i $spawn_id -timeout $timeout $orig\}" set code [catch {uplevel $body} string] } if {$code == 1} { if { $error_sect != "" } { set code [catch {uplevel $error_sect} string] } else { warning "remote_expect statement without a default case?!" return } } if {$code == 1} { return -code error -errorinfo $errorInfo -errorcode $errorCode $string } elseif {$code == 2} { return -code return $string } elseif {$code == 3} { return } elseif {$code > 4} { return -code $code $string } } # Push the current connection to HOST onto a stack. proc remote_push_conn { host } { global board_info set name [board_info $host name] if { $name == "" } { return "fail" } if ![board_info $host exists fileid] { return "fail" } set fileid [board_info $host fileid] set conninfo [board_info $host conninfo] if ![info exists board_info($name,fileid_stack)] { set board_info($name,fileid_stack) {} } set board_info($name,fileid_stack) [list $fileid $conninfo $board_info($name,fileid_stack)] unset board_info($name,fileid) if [info exists board_info($name,conninfo)] { unset board_info($name,conninfo) } return "pass" } # Pop a previously-pushed connection from a stack. You should have closed the # current connection before doing this. proc remote_pop_conn { host } { global board_info set name [board_info $host name] if { $name == "" } { return "fail" } if ![info exists board_info($name,fileid_stack)] { return "fail" } set stack $board_info($name,fileid_stack) if { [llength $stack] < 3 } { return "fail" } set board_info($name,fileid) [lindex $stack 0] set board_info($name,conninfo) [lindex $stack 1] set board_info($name,fileid_stack) [lindex $stack 2] return "pass" } # # Swap the current connection with the topmost one on the stack. # proc remote_swap_conn { host } { global board_info set name [board_info $host name] if ![info exists board_info($name,fileid)] { return "fail" } set fileid $board_info($name,fileid) if [info exists board_info($name,conninfo)] { set conninfo $board_info($name,conninfo) } else { set conninfo {} } if { [remote_pop_conn $host] != "pass" } { set board_info($name,fileid) $fileid set board_info($name,conninfo) $conninfo return "fail" } set newfileid $board_info($name,fileid) set newconninfo $board_info($name,conninfo) set board_info($name,fileid) $fileid set board_info($name,conninfo) $conninfo remote_push_conn $host set board_info($name,fileid) $newfileid set board_info($name,conninfo) $newconninfo return "pass" } set sum_program "testcsum"