# safe.tcl -- # # This file provide a safe loading/sourcing mechanism for safe interpreters. # It implements a virtual path mecanism to hide the real pathnames from the # child. It runs in a parent interpreter and sets up data structure and # aliases that will be invoked when used from a child interpreter. # # See the safe.n man page for details. # # Copyright (c) 1996-1997 Sun Microsystems, Inc. # # See the file "license.terms" for information on usage and redistribution of # this file, and for a DISCLAIMER OF ALL WARRANTIES. # # The implementation is based on namespaces. These naming conventions are # followed: # Private procs starts with uppercase. # Public procs are exported and starts with lowercase # # Needed utilities package package require opt 0.4.8 # Create the safe namespace namespace eval ::safe { # Exported API: namespace export interpCreate interpInit interpConfigure interpDelete \ interpAddToAccessPath interpFindInAccessPath setLogCmd } # Helper function to resolve the dual way of specifying staticsok (either # by -noStatics or -statics 0) proc ::safe::InterpStatics {} { foreach v {Args statics noStatics} { upvar $v $v } set flag [::tcl::OptProcArgGiven -noStatics] if {$flag && (!$noStatics == !$statics) && ([::tcl::OptProcArgGiven -statics])} { return -code error\ "conflicting values given for -statics and -noStatics" } if {$flag} { return [expr {!$noStatics}] } else { return $statics } } # Helper function to resolve the dual way of specifying nested loading # (either by -nestedLoadOk or -nested 1) proc ::safe::InterpNested {} { foreach v {Args nested nestedLoadOk} { upvar $v $v } set flag [::tcl::OptProcArgGiven -nestedLoadOk] # note that the test here is the opposite of the "InterpStatics" one # (it is not -noNested... because of the wanted default value) if {$flag && (!$nestedLoadOk != !$nested) && ([::tcl::OptProcArgGiven -nested])} { return -code error\ "conflicting values given for -nested and -nestedLoadOk" } if {$flag} { # another difference with "InterpStatics" return $nestedLoadOk } else { return $nested } } #### # # API entry points that needs argument parsing : # #### # Interface/entry point function and front end for "Create" proc ::safe::interpCreate {args} { set Args [::tcl::OptKeyParse ::safe::interpCreate $args] RejectExcessColons $child InterpCreate $child $accessPath \ [InterpStatics] [InterpNested] $deleteHook } proc ::safe::interpInit {args} { set Args [::tcl::OptKeyParse ::safe::interpIC $args] if {![::interp exists $child]} { return -code error "\"$child\" is not an interpreter" } RejectExcessColons $child InterpInit $child $accessPath \ [InterpStatics] [InterpNested] $deleteHook } # Check that the given child is "one of us" proc ::safe::CheckInterp {child} { namespace upvar ::safe [VarName $child] state if {![info exists state] || ![::interp exists $child]} { return -code error \ "\"$child\" is not an interpreter managed by ::safe::" } } # Interface/entry point function and front end for "Configure". This code # is awfully pedestrian because it would need more coupling and support # between the way we store the configuration values in safe::interp's and # the Opt package. Obviously we would like an OptConfigure to avoid # duplicating all this code everywhere. # -> TODO (the app should share or access easily the program/value stored # by opt) # This is even more complicated by the boolean flags with no values that # we had the bad idea to support for the sake of user simplicity in # create/init but which makes life hard in configure... # So this will be hopefully written and some integrated with opt1.0 # (hopefully for tcl8.1 ?) proc ::safe::interpConfigure {args} { switch [llength $args] { 1 { # If we have exactly 1 argument the semantic is to return all # the current configuration. We still call OptKeyParse though # we know that "child" is our given argument because it also # checks for the "-help" option. set Args [::tcl::OptKeyParse ::safe::interpIC $args] CheckInterp $child namespace upvar ::safe [VarName $child] state return [join [list \ [list -accessPath $state(access_path)] \ [list -statics $state(staticsok)] \ [list -nested $state(nestedok)] \ [list -deleteHook $state(cleanupHook)]]] } 2 { # If we have exactly 2 arguments the semantic is a "configure # get" lassign $args child arg # get the flag sub program (we 'know' about Opt's internal # representation of data) set desc [lindex [::tcl::OptKeyGetDesc ::safe::interpIC] 2] set hits [::tcl::OptHits desc $arg] if {$hits > 1} { return -code error [::tcl::OptAmbigous $desc $arg] } elseif {$hits == 0} { return -code error [::tcl::OptFlagUsage $desc $arg] } CheckInterp $child namespace upvar ::safe [VarName $child] state set item [::tcl::OptCurDesc $desc] set name [::tcl::OptName $item] switch -exact -- $name { -accessPath { return [list -accessPath $state(access_path)] } -statics { return [list -statics $state(staticsok)] } -nested { return [list -nested $state(nestedok)] } -deleteHook { return [list -deleteHook $state(cleanupHook)] } -noStatics { # it is most probably a set in fact but we would need # then to jump to the set part and it is not *sure* # that it is a set action that the user want, so force # it to use the unambigous -statics ?value? instead: return -code error\ "ambigous query (get or set -noStatics ?)\ use -statics instead" } -nestedLoadOk { return -code error\ "ambigous query (get or set -nestedLoadOk ?)\ use -nested instead" } default { return -code error "unknown flag $name (bug)" } } } default { # Otherwise we want to parse the arguments like init and # create did set Args [::tcl::OptKeyParse ::safe::interpIC $args] CheckInterp $child namespace upvar ::safe [VarName $child] state # Get the current (and not the default) values of whatever has # not been given: if {![::tcl::OptProcArgGiven -accessPath]} { set doreset 0 set accessPath $state(access_path) } else { set doreset 1 } if { ![::tcl::OptProcArgGiven -statics] && ![::tcl::OptProcArgGiven -noStatics] } then { set statics $state(staticsok) } else { set statics [InterpStatics] } if { [::tcl::OptProcArgGiven -nested] || [::tcl::OptProcArgGiven -nestedLoadOk] } then { set nested [InterpNested] } else { set nested $state(nestedok) } if {![::tcl::OptProcArgGiven -deleteHook]} { set deleteHook $state(cleanupHook) } # we can now reconfigure : InterpSetConfig $child $accessPath $statics $nested $deleteHook # auto_reset the child (to completly synch the new access_path) if {$doreset} { if {[catch {::interp eval $child {auto_reset}} msg]} { Log $child "auto_reset failed: $msg" } else { Log $child "successful auto_reset" NOTICE } # Sync the paths used to search for Tcl modules. ::interp eval $child {tcl::tm::path remove {*}[tcl::tm::list]} if {[llength $state(tm_path_child)] > 0} { ::interp eval $child [list \ ::tcl::tm::add {*}[lreverse $state(tm_path_child)]] } # Remove stale "package ifneeded" data for non-loaded packages. # - Not for loaded packages, because "package forget" erases # data from "package provide" as well as "package ifneeded". # - This is OK because the script cannot reload any version of # the package unless it first does "package forget". foreach pkg [::interp eval $child {package names}] { if {[::interp eval $child [list package provide $pkg]] eq ""} { ::interp eval $child [list package forget $pkg] } } } return } } } #### # # Functions that actually implements the exported APIs # #### # # safe::InterpCreate : doing the real job # # This procedure creates a safe child and initializes it with the safe # base aliases. # NB: child name must be simple alphanumeric string, no spaces, no (), no # {},... {because the state array is stored as part of the name} # # Returns the child name. # # Optional Arguments : # + child name : if empty, generated name will be used # + access_path: path list controlling where load/source can occur, # if empty: the parent auto_path will be used. # + staticsok : flag, if 0 :no static package can be loaded (load {} Xxx) # if 1 :static packages are ok. # + nestedok: flag, if 0 :no loading to sub-sub interps (load xx xx sub) # if 1 : multiple levels are ok. # use the full name and no indent so auto_mkIndex can find us proc ::safe::InterpCreate { child access_path staticsok nestedok deletehook } { # Create the child. # If evaluated in ::safe, the interpreter command for foo is ::foo; # but for foo::bar is safe::foo::bar. So evaluate in :: instead. if {$child ne ""} { namespace eval :: [list ::interp create -safe $child] } else { # empty argument: generate child name set child [::interp create -safe] } Log $child "Created" NOTICE # Initialize it. (returns child name) InterpInit $child $access_path $staticsok $nestedok $deletehook } # # InterpSetConfig (was setAccessPath) : # Sets up child virtual auto_path and corresponding structure within # the parent. Also sets the tcl_library in the child to be the first # directory in the path. # NB: If you change the path after the child has been initialized you # probably need to call "auto_reset" in the child in order that it gets # the right auto_index() array values. proc ::safe::InterpSetConfig {child access_path staticsok nestedok deletehook} { global auto_path # determine and store the access path if empty if {$access_path eq ""} { set access_path $auto_path # Make sure that tcl_library is in auto_path and at the first # position (needed by setAccessPath) set where [lsearch -exact $access_path [info library]] if {$where == -1} { # not found, add it. set access_path [linsert $access_path 0 [info library]] Log $child "tcl_library was not in auto_path,\ added it to child's access_path" NOTICE } elseif {$where != 0} { # not first, move it first set access_path [linsert \ [lreplace $access_path $where $where] \ 0 [info library]] Log $child "tcl_libray was not in first in auto_path,\ moved it to front of child's access_path" NOTICE } # Add 1st level sub dirs (will searched by auto loading from tcl # code in the child using glob and thus fail, so we add them here # so by default it works the same). set access_path [AddSubDirs $access_path] } Log $child "Setting accessPath=($access_path) staticsok=$staticsok\ nestedok=$nestedok deletehook=($deletehook)" NOTICE namespace upvar ::safe [VarName $child] state # clear old autopath if it existed # build new one # Extend the access list with the paths used to look for Tcl Modules. # We save the virtual form separately as well, as syncing it with the # child has to be defered until the necessary commands are present for # setup. set norm_access_path {} set child_access_path {} set map_access_path {} set remap_access_path {} set child_tm_path {} set i 0 foreach dir $access_path { set token [PathToken $i] lappend child_access_path $token lappend map_access_path $token $dir lappend remap_access_path $dir $token lappend norm_access_path [file normalize $dir] incr i } set morepaths [::tcl::tm::list] set firstpass 1 while {[llength $morepaths]} { set addpaths $morepaths set morepaths {} foreach dir $addpaths { # Prevent the addition of dirs on the tm list to the # result if they are already known. if {[dict exists $remap_access_path $dir]} { if {$firstpass} { # $dir is in [::tcl::tm::list] and belongs in the child_tm_path. # Later passes handle subdirectories, which belong in the # access path but not in the module path. lappend child_tm_path [dict get $remap_access_path $dir] } continue } set token [PathToken $i] lappend access_path $dir lappend child_access_path $token lappend map_access_path $token $dir lappend remap_access_path $dir $token lappend norm_access_path [file normalize $dir] if {$firstpass} { # $dir is in [::tcl::tm::list] and belongs in the child_tm_path. # Later passes handle subdirectories, which belong in the # access path but not in the module path. lappend child_tm_path $token } incr i # [Bug 2854929] # Recursively find deeper paths which may contain # modules. Required to handle modules with names like # 'platform::shell', which translate into # 'platform/shell-X.tm', i.e arbitrarily deep # subdirectories. lappend morepaths {*}[glob -nocomplain -directory $dir -type d *] } set firstpass 0 } set state(access_path) $access_path set state(access_path,map) $map_access_path set state(access_path,remap) $remap_access_path set state(access_path,norm) $norm_access_path set state(access_path,child) $child_access_path set state(tm_path_child) $child_tm_path set state(staticsok) $staticsok set state(nestedok) $nestedok set state(cleanupHook) $deletehook SyncAccessPath $child return } # # # FindInAccessPath: # Search for a real directory and returns its virtual Id (including the # "$") proc ::safe::interpFindInAccessPath {child path} { CheckInterp $child namespace upvar ::safe [VarName $child] state if {![dict exists $state(access_path,remap) $path]} { return -code error "$path not found in access path" } return [dict get $state(access_path,remap) $path] } # # addToAccessPath: # add (if needed) a real directory to access path and return its # virtual token (including the "$"). proc ::safe::interpAddToAccessPath {child path} { # first check if the directory is already in there # (inlined interpFindInAccessPath). CheckInterp $child namespace upvar ::safe [VarName $child] state if {[dict exists $state(access_path,remap) $path]} { return [dict get $state(access_path,remap) $path] } # new one, add it: set token [PathToken [llength $state(access_path)]] lappend state(access_path) $path lappend state(access_path,child) $token lappend state(access_path,map) $token $path lappend state(access_path,remap) $path $token lappend state(access_path,norm) [file normalize $path] SyncAccessPath $child return $token } # This procedure applies the initializations to an already existing # interpreter. It is useful when you want to install the safe base aliases # into a preexisting safe interpreter. proc ::safe::InterpInit { child access_path staticsok nestedok deletehook } { # Configure will generate an access_path when access_path is empty. InterpSetConfig $child $access_path $staticsok $nestedok $deletehook # NB we need to add [namespace current], aliases are always absolute # paths. # These aliases let the child load files to define new commands # This alias lets the child use the encoding names, convertfrom, # convertto, and system, but not "encoding system " to set the # system encoding. # Handling Tcl Modules, we need a restricted form of Glob. # This alias interposes on the 'exit' command and cleanly terminates # the child. foreach {command alias} { source AliasSource load AliasLoad exit interpDelete glob AliasGlob } { ::interp alias $child $command {} [namespace current]::$alias $child } # UGLY POINT! These commands are safe (they're ensembles with unsafe # subcommands), but is assumed to not be by existing policies so it is # hidden by default. Hack it... foreach command {encoding file} { ::interp alias $child $command {} interp invokehidden $child $command } # This alias lets the child have access to a subset of the 'file' # command functionality. foreach subcommand {dirname extension rootname tail} { ::interp alias $child ::tcl::file::$subcommand {} \ ::safe::AliasFileSubcommand $child $subcommand } # Subcommand of 'encoding' that has special handling; [encoding system] is # OK provided it has no other arguments passed to it. ::interp alias $child ::tcl::encoding::system {} \ ::safe::AliasEncodingSystem $child # Subcommands of info ::interp alias $child ::tcl::info::nameofexecutable {} \ ::safe::AliasExeName $child # The allowed child variables already have been set by Tcl_MakeSafe(3) # Source init.tcl and tm.tcl into the child, to get auto_load and # other procedures defined: if {[catch {::interp eval $child { source [file join $tcl_library init.tcl] }} msg opt]} { Log $child "can't source init.tcl ($msg)" return -options $opt "can't source init.tcl into child $child ($msg)" } if {[catch {::interp eval $child { source [file join $tcl_library tm.tcl] }} msg opt]} { Log $child "can't source tm.tcl ($msg)" return -options $opt "can't source tm.tcl into child $child ($msg)" } # Sync the paths used to search for Tcl modules. This can be done only # now, after tm.tcl was loaded. namespace upvar ::safe [VarName $child] state if {[llength $state(tm_path_child)] > 0} { ::interp eval $child [list \ ::tcl::tm::add {*}[lreverse $state(tm_path_child)]] } return $child } # Add (only if needed, avoid duplicates) 1 level of sub directories to an # existing path list. Also removes non directories from the returned # list. proc ::safe::AddSubDirs {pathList} { set res {} foreach dir $pathList { if {[file isdirectory $dir]} { # check that we don't have it yet as a children of a previous # dir if {$dir ni $res} { lappend res $dir } foreach sub [glob -directory $dir -nocomplain *] { if {[file isdirectory $sub] && ($sub ni $res)} { # new sub dir, add it ! lappend res $sub } } } } return $res } # This procedure deletes a safe child managed by Safe Tcl and cleans up # associated state. # - The command will also delete non-Safe-Base interpreters. # - This is regrettable, but to avoid breaking existing code this should be # amended at the next major revision by uncommenting "CheckInterp". proc ::safe::interpDelete {child} { Log $child "About to delete" NOTICE # CheckInterp $child namespace upvar ::safe [VarName $child] state # When an interpreter is deleted with [interp delete], any sub-interpreters # are deleted automatically, but this leaves behind their data in the Safe # Base. To clean up properly, we call safe::interpDelete recursively on each # Safe Base sub-interpreter, so each one is deleted cleanly and not by # the automatic mechanism built into [interp delete]. foreach sub [interp children $child] { if {[info exists ::safe::[VarName [list $child $sub]]]} { ::safe::interpDelete [list $child $sub] } } # If the child has a cleanup hook registered, call it. Check the # existance because we might be called to delete an interp which has # not been registered with us at all if {[info exists state(cleanupHook)]} { set hook $state(cleanupHook) if {[llength $hook]} { # remove the hook now, otherwise if the hook calls us somehow, # we'll loop unset state(cleanupHook) try { {*}$hook $child } on error err { Log $child "Delete hook error ($err)" } } } # Discard the global array of state associated with the child, and # delete the interpreter. if {[info exists state]} { unset state } # if we have been called twice, the interp might have been deleted # already if {[::interp exists $child]} { ::interp delete $child Log $child "Deleted" NOTICE } return } # Set (or get) the logging mecanism proc ::safe::setLogCmd {args} { variable Log set la [llength $args] if {$la == 0} { return $Log } elseif {$la == 1} { set Log [lindex $args 0] } else { set Log $args } if {$Log eq ""} { # Disable logging completely. Calls to it will be compiled out # of all users. proc ::safe::Log {args} {} } else { # Activate logging, define proper command. proc ::safe::Log {child msg {type ERROR}} { variable Log {*}$Log "$type for child $child : $msg" return } } } # ------------------- END OF PUBLIC METHODS ------------ # # Sets the child auto_path to the parent recorded value. Also sets # tcl_library to the first token of the virtual path. # proc ::safe::SyncAccessPath {child} { namespace upvar ::safe [VarName $child] state set child_access_path $state(access_path,child) ::interp eval $child [list set auto_path $child_access_path] Log $child "auto_path in $child has been set to $child_access_path"\ NOTICE # This code assumes that info library is the first element in the # list of auto_path's. See -> InterpSetConfig for the code which # ensures this condition. ::interp eval $child [list \ set tcl_library [lindex $child_access_path 0]] } # Returns the virtual token for directory number N. proc ::safe::PathToken {n} { # We need to have a ":" in the token string so [file join] on the # mac won't turn it into a relative path. return "\$p(:$n:)" ;# Form tested by case 7.2 } # # translate virtual path into real path # proc ::safe::TranslatePath {child path} { namespace upvar ::safe [VarName $child] state # somehow strip the namespaces 'functionality' out (the danger is that # we would strip valid macintosh "../" queries... : if {[string match "*::*" $path] || [string match "*..*" $path]} { return -code error "invalid characters in path $path" } # Use a cached map instead of computed local vars and subst. return [string map $state(access_path,map) $path] } # file name control (limit access to files/resources that should be a # valid tcl source file) proc ::safe::CheckFileName {child file} { # This used to limit what can be sourced to ".tcl" and forbid files # with more than 1 dot and longer than 14 chars, but I changed that # for 8.4 as a safe interp has enough internal protection already to # allow sourcing anything. - hobbs if {![file exists $file]} { # don't tell the file path return -code error "no such file or directory" } if {![file readable $file]} { # don't tell the file path return -code error "not readable" } } # AliasFileSubcommand handles selected subcommands of [file] in safe # interpreters that are *almost* safe. In particular, it just acts to # prevent discovery of what home directories exist. proc ::safe::AliasFileSubcommand {child subcommand name} { if {[string match ~* $name]} { set name ./$name } tailcall ::interp invokehidden $child tcl:file:$subcommand $name } # AliasGlob is the target of the "glob" alias in safe interpreters. proc ::safe::AliasGlob {child args} { Log $child "GLOB ! $args" NOTICE set cmd {} set at 0 array set got { -directory 0 -nocomplain 0 -join 0 -tails 0 -- 0 } if {$::tcl_platform(platform) eq "windows"} { set dirPartRE {^(.*)[\\/]([^\\/]*)$} } else { set dirPartRE {^(.*)/([^/]*)$} } set dir {} set virtualdir {} while {$at < [llength $args]} { switch -glob -- [set opt [lindex $args $at]] { -nocomplain - -- - -tails { lappend cmd $opt set got($opt) 1 incr at } -join { set got($opt) 1 incr at } -types - -type { lappend cmd -types [lindex $args [incr at]] incr at } -directory { if {$got($opt)} { return -code error \ {"-directory" cannot be used with "-path"} } set got($opt) 1 set virtualdir [lindex $args [incr at]] incr at } -* { Log $child "Safe base rejecting glob option '$opt'" return -code error "Safe base rejecting glob option '$opt'" } default { break } } if {$got(--)} break } # Get the real path from the virtual one and check that the path is in the # access path of that child. Done after basic argument processing so that # we know if -nocomplain is set. if {$got(-directory)} { try { set dir [TranslatePath $child $virtualdir] DirInAccessPath $child $dir } on error msg { Log $child $msg if {$got(-nocomplain)} return return -code error "permission denied" } if {$got(--)} { set cmd [linsert $cmd end-1 -directory $dir] } else { lappend cmd -directory $dir } } else { # The code after this "if ... else" block would conspire to return with # no results in this case, if it were allowed to proceed. Instead, # return now and reduce the number of cases to be considered later. Log $child {option -directory must be supplied} if {$got(-nocomplain)} return return -code error "permission denied" } # Apply the -join semantics ourselves. if {$got(-join)} { set args [lreplace $args $at end [join [lrange $args $at end] "/"]] } # Process the pattern arguments. If we've done a join there is only one # pattern argument. set firstPattern [llength $cmd] foreach opt [lrange $args $at end] { if {![regexp $dirPartRE $opt -> thedir thefile]} { set thedir . # The *.tm search comes here. } # "Special" treatment for (joined) argument {*/pkgIndex.tcl}. # Do the expansion of "*" here, and filter out any directories that are # not in the access path. The outcome is to lappend to cmd a path of # the form $virtualdir/subdir/pkgIndex.tcl for each subdirectory subdir, # after removing any subdir that are not in the access path. if {($thedir eq "*") && ($thefile eq "pkgIndex.tcl")} { set mapped 0 foreach d [glob -directory [TranslatePath $child $virtualdir] \ -types d -tails *] { catch { DirInAccessPath $child \ [TranslatePath $child [file join $virtualdir $d]] lappend cmd [file join $d $thefile] set mapped 1 } } if {$mapped} continue # Don't [continue] if */pkgIndex.tcl has no matches in the access # path. The pattern will now receive the same treatment as a # "non-special" pattern (and will fail because it includes a "*" in # the directory name). } # Any directory pattern that is not an exact (i.e. non-glob) match to a # directory in the access path will be rejected here. # - Rejections include any directory pattern that has glob matching # patterns "*", "?", backslashes, braces or square brackets, (UNLESS # it corresponds to a genuine directory name AND that directory is in # the access path). # - The only "special matching characters" that remain in patterns for # processing by glob are in the filename tail. # - [file join $anything ~${foo}] is ~${foo}, which is not an exact # match to any directory in the access path. Hence directory patterns # that begin with "~" are rejected here. Tests safe-16.[5-8] check # that "file join" remains as required and does not expand ~${foo}. # - Bug [3529949] relates to unwanted expansion of ~${foo} and this is # how the present code avoids the bug. All tests safe-16.* relate. try { DirInAccessPath $child [TranslatePath $child \ [file join $virtualdir $thedir]] } on error msg { Log $child $msg if {$got(-nocomplain)} continue return -code error "permission denied" } lappend cmd $opt } Log $child "GLOB = $cmd" NOTICE if {$got(-nocomplain) && [llength $cmd] eq $firstPattern} { return } try { # >>>>>>>>>> HERE'S THE CALL TO SAFE INTERP GLOB <<<<<<<<<< # - Pattern arguments added to cmd have NOT been translated from tokens. # Only the virtualdir is translated (to dir). # - In the pkgIndex.tcl case, there is no "*" in the pattern arguments, # which are a list of names each with tail pkgIndex.tcl. The purpose # of the call to glob is to remove the names for which the file does # not exist. set entries [::interp invokehidden $child glob {*}$cmd] } on error msg { # This is the only place that a call with -nocomplain and no invalid # "dash-options" can return an error. Log $child $msg return -code error "script error" } Log $child "GLOB < $entries" NOTICE # Translate path back to what the child should see. set res {} set l [string length $dir] foreach p $entries { if {[string equal -length $l $dir $p]} { set p [string replace $p 0 [expr {$l-1}] $virtualdir] } lappend res $p } Log $child "GLOB > $res" NOTICE return $res } # AliasSource is the target of the "source" alias in safe interpreters. proc ::safe::AliasSource {child args} { set argc [llength $args] # Extended for handling of Tcl Modules to allow not only "source # filename", but "source -encoding E filename" as well. if {[lindex $args 0] eq "-encoding"} { incr argc -2 set encoding [lindex $args 1] set at 2 if {$encoding eq "identity"} { Log $child "attempt to use the identity encoding" return -code error "permission denied" } } else { set at 0 set encoding {} } if {$argc != 1} { set msg "wrong # args: should be \"source ?-encoding E? fileName\"" Log $child "$msg ($args)" return -code error $msg } set file [lindex $args $at] # get the real path from the virtual one. if {[catch { set realfile [TranslatePath $child $file] } msg]} { Log $child $msg return -code error "permission denied" } # check that the path is in the access path of that child if {[catch { FileInAccessPath $child $realfile } msg]} { Log $child $msg return -code error "permission denied" } # Check that the filename exists and is readable. If it is not, deliver # this -errorcode so that caller in tclPkgUnknown does not write a message # to tclLog. Has no effect on other callers of ::source, which are in # "package ifneeded" scripts. if {[catch { CheckFileName $child $realfile } msg]} { Log $child "$realfile:$msg" return -code error -errorcode {POSIX EACCES} $msg } # Passed all the tests, lets source it. Note that we do this all manually # because we want to control [info script] in the child so information # doesn't leak so much. [Bug 2913625] set old [::interp eval $child {info script}] set replacementMsg "script error" set code [catch { set f [open $realfile] fconfigure $f -eofchar \032 if {$encoding ne ""} { fconfigure $f -encoding $encoding } set contents [read $f] close $f ::interp eval $child [list info script $file] } msg opt] if {$code == 0} { set code [catch {::interp eval $child $contents} msg opt] set replacementMsg $msg } catch {interp eval $child [list info script $old]} # Note that all non-errors are fine result codes from [source], so we must # take a little care to do it properly. [Bug 2923613] if {$code == 1} { Log $child $msg return -code error $replacementMsg } return -code $code -options $opt $msg } # AliasLoad is the target of the "load" alias in safe interpreters. proc ::safe::AliasLoad {child file args} { set argc [llength $args] if {$argc > 2} { set msg "load error: too many arguments" Log $child "$msg ($argc) {$file $args}" return -code error $msg } # package name (can be empty if file is not). set package [lindex $args 0] namespace upvar ::safe [VarName $child] state # Determine where to load. load use a relative interp path and {} # means self, so we can directly and safely use passed arg. set target [lindex $args 1] if {$target ne ""} { # we will try to load into a sub sub interp; check that we want to # authorize that. if {!$state(nestedok)} { Log $child "loading to a sub interp (nestedok)\ disabled (trying to load $package to $target)" return -code error "permission denied (nested load)" } } # Determine what kind of load is requested if {$file eq ""} { # static package loading if {$package eq ""} { set msg "load error: empty filename and no package name" Log $child $msg return -code error $msg } if {!$state(staticsok)} { Log $child "static packages loading disabled\ (trying to load $package to $target)" return -code error "permission denied (static package)" } } else { # file loading # get the real path from the virtual one. try { set file [TranslatePath $child $file] } on error msg { Log $child $msg return -code error "permission denied" } # check the translated path try { FileInAccessPath $child $file } on error msg { Log $child $msg return -code error "permission denied (path)" } } try { return [::interp invokehidden $child load $file $package $target] } on error msg { # Some packages return no error message. set msg0 "load of binary library for package $package failed" if {$msg eq {}} { set msg $msg0 } else { set msg "$msg0: $msg" } Log $child $msg return -code error $msg } } # FileInAccessPath raises an error if the file is not found in the list of # directories contained in the (parent side recorded) child's access path. # the security here relies on "file dirname" answering the proper # result... needs checking ? proc ::safe::FileInAccessPath {child file} { namespace upvar ::safe [VarName $child] state set access_path $state(access_path) if {[file isdirectory $file]} { return -code error "\"$file\": is a directory" } set parent [file dirname $file] # Normalize paths for comparison since lsearch knows nothing of # potential pathname anomalies. set norm_parent [file normalize $parent] namespace upvar ::safe [VarName $child] state if {$norm_parent ni $state(access_path,norm)} { return -code error "\"$file\": not in access_path" } } proc ::safe::DirInAccessPath {child dir} { namespace upvar ::safe [VarName $child] state set access_path $state(access_path) if {[file isfile $dir]} { return -code error "\"$dir\": is a file" } # Normalize paths for comparison since lsearch knows nothing of # potential pathname anomalies. set norm_dir [file normalize $dir] namespace upvar ::safe [VarName $child] state if {$norm_dir ni $state(access_path,norm)} { return -code error "\"$dir\": not in access_path" } } # This procedure is used to report an attempt to use an unsafe member of an # ensemble command. proc ::safe::BadSubcommand {child command subcommand args} { set msg "not allowed to invoke subcommand $subcommand of $command" Log $child $msg return -code error -errorcode {TCL SAFE SUBCOMMAND} $msg } # AliasEncodingSystem is the target of the "encoding system" alias in safe # interpreters. proc ::safe::AliasEncodingSystem {child args} { try { # Must not pass extra arguments; safe childs may not set the system # encoding but they may read it. if {[llength $args]} { return -code error -errorcode {TCL WRONGARGS} \ "wrong # args: should be \"encoding system\"" } } on error {msg options} { Log $child $msg return -options $options $msg } tailcall ::interp invokehidden $child tcl:encoding:system } # Various minor hiding of platform features. [Bug 2913625] proc ::safe::AliasExeName {child} { return "" } # ------------------------------------------------------------------------------ # Using Interpreter Names with Namespace Qualifiers # ------------------------------------------------------------------------------ # (1) We wish to preserve compatibility with existing code, in which Safe Base # interpreter names have no namespace qualifiers. # (2) safe::interpCreate and the rest of the Safe Base previously could not # accept namespace qualifiers in an interpreter name. # (3) The interp command will accept namespace qualifiers in an interpreter # name, but accepts distinct interpreters that will have the same command # name (e.g. foo, ::foo, and :::foo) (bug 66c2e8c974). # (4) To satisfy these constraints, Safe Base interpreter names will be fully # qualified namespace names with no excess colons and with the leading "::" # omitted. # (5) Trailing "::" implies a namespace tail {}, which interp reads as {{}}. # Reject such names. # (6) We could: # (a) EITHER reject usable but non-compliant names (e.g. excess colons) in # interpCreate, interpInit; # (b) OR accept such names and then translate to a compliant name in every # command. # The problem with (b) is that the user will expect to use the name with the # interp command and will find that it is not recognised. # E.g "interpCreate ::foo" creates interpreter "foo", and the user's name # "::foo" works with all the Safe Base commands, but "interp eval ::foo" # fails. # So we choose (a). # (7) The command # namespace upvar ::safe S$child state # becomes # namespace upvar ::safe [VarName $child] state # ------------------------------------------------------------------------------ proc ::safe::RejectExcessColons {child} { set stripped [regsub -all -- {:::*} $child ::] if {[string range $stripped end-1 end] eq {::}} { return -code error {interpreter name must not end in "::"} } if {$stripped ne $child} { set msg {interpreter name has excess colons in namespace separators} return -code error $msg } if {[string range $stripped 0 1] eq {::}} { return -code error {interpreter name must not begin "::"} } return } proc ::safe::VarName {child} { # return S$child return S[string map {:: @N @ @A} $child] } proc ::safe::Setup {} { #### # # Setup the arguments parsing # #### # Share the descriptions set temp [::tcl::OptKeyRegister { {-accessPath -list {} "access path for the child"} {-noStatics "prevent loading of statically linked pkgs"} {-statics true "loading of statically linked pkgs"} {-nestedLoadOk "allow nested loading"} {-nested false "nested loading"} {-deleteHook -script {} "delete hook"} }] # create case (child is optional) ::tcl::OptKeyRegister { {?child? -name {} "name of the child (optional)"} } ::safe::interpCreate # adding the flags sub programs to the command program (relying on Opt's # internal implementation details) lappend ::tcl::OptDesc(::safe::interpCreate) $::tcl::OptDesc($temp) # init and configure (child is needed) ::tcl::OptKeyRegister { {child -name {} "name of the child"} } ::safe::interpIC # adding the flags sub programs to the command program (relying on Opt's # internal implementation details) lappend ::tcl::OptDesc(::safe::interpIC) $::tcl::OptDesc($temp) # temp not needed anymore ::tcl::OptKeyDelete $temp #### # # Default: No logging. # #### setLogCmd {} # Log eventually. # To enable error logging, set Log to {puts stderr} for instance, # via setLogCmd. return } namespace eval ::safe { # internal variables # Log command, set via 'setLogCmd'. Logging is disabled when empty. variable Log {} # The package maintains a state array per child interp under its # control. The name of this array is S. This array is # brought into scope where needed, using 'namespace upvar'. The S # prefix is used to avoid that a child interp called "Log" smashes # the "Log" variable. # # The array's elements are: # # access_path : List of paths accessible to the child. # access_path,norm : Ditto, in normalized form. # access_path,child : Ditto, as the path tokens as seen by the child. # access_path,map : dict ( token -> path ) # access_path,remap : dict ( path -> token ) # tm_path_child : List of TM root directories, as tokens seen by the child. # staticsok : Value of option -statics # nestedok : Value of option -nested # cleanupHook : Value of option -deleteHook } ::safe::Setup