Overview
Comment: | Added basic pure-Tcl sha1 fallback implementation |
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Downloads: | Tarball | ZIP archive | SQL archive |
Timelines: | family | ancestors | descendants | both | trunk |
Files: | files | file ages | folders |
SHA1: |
5c9ce5632001fd73047c31ecb60e52a6 |
User & Date: | rkeene on 2014-11-04 01:16:01 |
Other Links: | manifest | tags |
Context
2014-11-05
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18:39 | Updated to hide commands which are not used and may cause slow-ness check-in: c3c642f5c8 user: rkeene tags: trunk | |
2014-11-04
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01:16 | Added basic pure-Tcl sha1 fallback implementation check-in: 5c9ce56320 user: rkeene tags: trunk | |
2014-11-03
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22:59 | Updated to complain if hash cannot be computed check-in: 0cefa306d2 user: rkeene tags: trunk | |
Changes
Modified Makefile from [fe29eeac49] to [bee1193267].
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26 27 28 29 30 31 32 | appfsd: appfsd.o $(CC) $(CPPFLAGS) $(CFLAGS) $(LDFLAGS) -o appfsd appfsd.o $(LIBS) appfsd.o: appfsd.c appfsd.tcl.h $(CC) $(CPPFLAGS) $(CFLAGS) -o appfsd.o -c appfsd.c | | | | 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 | appfsd: appfsd.o $(CC) $(CPPFLAGS) $(CFLAGS) $(LDFLAGS) -o appfsd appfsd.o $(LIBS) appfsd.o: appfsd.c appfsd.tcl.h $(CC) $(CPPFLAGS) $(CFLAGS) -o appfsd.o -c appfsd.c appfsd.tcl.h: appfsd.tcl sha1.tcl sed '/@@SHA1\.TCL@@/ r sha1.tcl' appfsd.tcl | sed '/@@SHA1\.TCL@@/ d' | sed 's@[\\"]@\\&@g;s@^@ "@;s@$$@\\n"@' > appfsd.tcl.h.new mv appfsd.tcl.h.new appfsd.tcl.h install: appfsd if [ ! -d '$(DESTDIR)$(sbindir)' ]; then mkdir -p '$(DESTDIR)$(sbindir)'; chmod 755 '$(DESTDIR)$(sbindir)'; fi cp appfsd '$(DESTDIR)$(sbindir)/' clean: |
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Modified appfsd.tcl from [a0bff81028] to [d941737404].
1 2 3 4 | #! /usr/bin/env tclsh package require http 2.7 package require sqlite3 | > > | > > > > | 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 | #! /usr/bin/env tclsh package require http 2.7 package require sqlite3 if {[catch { package require sha1 }]} { @@SHA1.TCL@@ package require sha1 } namespace eval ::appfs { variable cachedir "/tmp/appfs-cache" variable ttl 3600 variable nttl 60 proc _hash_sep {hash {seps 4}} { |
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Added sha1.tcl version [a8b3b2afbe].
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# tcl minimum version namespace eval ::sha1 { variable version 2.0.3 namespace export sha1 hmac SHA1Init SHA1Update SHA1Final variable uid if {![info exists uid]} { set uid 0 } } proc ::sha1::SHA1Init {} { variable uid set token [namespace current]::[incr uid] upvar #0 $token state # FIPS 180-1: 7 - Initialize the hash state array set state \ [list \ A [expr {int(0x67452301)}] \ B [expr {int(0xEFCDAB89)}] \ C [expr {int(0x98BADCFE)}] \ D [expr {int(0x10325476)}] \ E [expr {int(0xC3D2E1F0)}] \ n 0 i "" ] return $token } # SHA1Update -- # # This is called to add more data into the hash. You may call this # as many times as you require. Note that passing in "ABC" is equivalent # to passing these letters in as separate calls -- hence this proc # permits hashing of chunked data # # If we have a C-based implementation available, then we will use # it here in preference to the pure-Tcl implementation. # proc ::sha1::SHA1Update {token data} { upvar #0 $token state # Update the state values incr state(n) [string length $data] append state(i) $data # Calculate the hash for any complete blocks set len [string length $state(i)] for {set n 0} {($n + 64) <= $len} {} { SHA1Transform $token [string range $state(i) $n [incr n 64]] } # Adjust the state for the blocks completed. set state(i) [string range $state(i) $n end] return } # SHA1Final -- # # This procedure is used to close the current hash and returns the # hash data. Once this procedure has been called the hash context # is freed and cannot be used again. # # Note that the output is 160 bits represented as binary data. # proc ::sha1::SHA1Final {token} { upvar #0 $token state # Padding # set len [string length $state(i)] set pad [expr {56 - ($len % 64)}] if {$len % 64 > 56} { incr pad 64 } if {$pad == 0} { incr pad 64 } append state(i) [binary format a$pad \x80] # Append length in bits as big-endian wide int. set dlen [expr {8 * $state(n)}] append state(i) [binary format II 0 $dlen] # Calculate the hash for the remaining block. set len [string length $state(i)] for {set n 0} {($n + 64) <= $len} {} { SHA1Transform $token [string range $state(i) $n [incr n 64]] } # Output set r [bytes $state(A)][bytes $state(B)][bytes $state(C)][bytes $state(D)][bytes $state(E)] unset state return $r } # ------------------------------------------------------------------------- # HMAC Hashed Message Authentication (RFC 2104) # # hmac = H(K xor opad, H(K xor ipad, text)) # # HMACInit -- # # This is equivalent to the SHA1Init procedure except that a key is # added into the algorithm # proc ::sha1::HMACInit {K} { # Key K is adjusted to be 64 bytes long. If K is larger, then use # the SHA1 digest of K and pad this instead. set len [string length $K] if {$len > 64} { set tok [SHA1Init] SHA1Update $tok $K set K [SHA1Final $tok] set len [string length $K] } set pad [expr {64 - $len}] append K [string repeat \0 $pad] # Cacluate the padding buffers. set Ki {} set Ko {} binary scan $K i16 Ks foreach k $Ks { append Ki [binary format i [expr {$k ^ 0x36363636}]] append Ko [binary format i [expr {$k ^ 0x5c5c5c5c}]] } set tok [SHA1Init] SHA1Update $tok $Ki; # initialize with the inner pad # preserve the Ko value for the final stage. # FRINK: nocheck set [subst $tok](Ko) $Ko return $tok } # HMACUpdate -- # # Identical to calling SHA1Update # proc ::sha1::HMACUpdate {token data} { SHA1Update $token $data return } # HMACFinal -- # # This is equivalent to the SHA1Final procedure. The hash context is # closed and the binary representation of the hash result is returned. # proc ::sha1::HMACFinal {token} { upvar #0 $token state set tok [SHA1Init]; # init the outer hashing function SHA1Update $tok $state(Ko); # prepare with the outer pad. SHA1Update $tok [SHA1Final $token]; # hash the inner result return [SHA1Final $tok] } # ------------------------------------------------------------------------- # Description: # This is the core SHA1 algorithm. It is a lot like the MD4 algorithm but # includes an extra round and a set of constant modifiers throughout. # set ::sha1::SHA1Transform_body { upvar #0 $token state # FIPS 180-1: 7a: Process Message in 16-Word Blocks binary scan $msg I* blocks set blockLen [llength $blocks] for {set i 0} {$i < $blockLen} {incr i 16} { set W [lrange $blocks $i [expr {$i+15}]] # FIPS 180-1: 7b: Expand the input into 80 words # For t = 16 to 79 # let Wt = (Wt-3 ^ Wt-8 ^ Wt-14 ^ Wt-16) <<< 1 set t3 12 set t8 7 set t14 1 set t16 -1 for {set t 16} {$t < 80} {incr t} { set x [expr {[lindex $W [incr t3]] ^ [lindex $W [incr t8]] ^ \ [lindex $W [incr t14]] ^ [lindex $W [incr t16]]}] lappend W [expr {int(($x << 1) | (($x >> 31) & 1))}] } # FIPS 180-1: 7c: Copy hash state. set A $state(A) set B $state(B) set C $state(C) set D $state(D) set E $state(E) # FIPS 180-1: 7d: Do permutation rounds # For t = 0 to 79 do # TEMP = (A<<<5) + ft(B,C,D) + E + Wt + Kt; # E = D; D = C; C = S30(B); B = A; A = TEMP; # Round 1: ft(B,C,D) = (B & C) | (~B & D) ( 0 <= t <= 19) for {set t 0} {$t < 20} {incr t} { set TEMP [F1 $A $B $C $D $E [lindex $W $t]] set E $D set D $C set C [rotl32 $B 30] set B $A set A $TEMP } # Round 2: ft(B,C,D) = (B ^ C ^ D) ( 20 <= t <= 39) for {} {$t < 40} {incr t} { set TEMP [F2 $A $B $C $D $E [lindex $W $t]] set E $D set D $C set C [rotl32 $B 30] set B $A set A $TEMP } # Round 3: ft(B,C,D) = ((B & C) | (B & D) | (C & D)) ( 40 <= t <= 59) for {} {$t < 60} {incr t} { set TEMP [F3 $A $B $C $D $E [lindex $W $t]] set E $D set D $C set C [rotl32 $B 30] set B $A set A $TEMP } # Round 4: ft(B,C,D) = (B ^ C ^ D) ( 60 <= t <= 79) for {} {$t < 80} {incr t} { set TEMP [F4 $A $B $C $D $E [lindex $W $t]] set E $D set D $C set C [rotl32 $B 30] set B $A set A $TEMP } # Then perform the following additions. (That is, increment each # of the four registers by the value it had before this block # was started.) incr state(A) $A incr state(B) $B incr state(C) $C incr state(D) $D incr state(E) $E } return } proc ::sha1::F1 {A B C D E W} { expr {(((($A << 5) & 0xffffffff) | (($A >> 27) & 0x1f)) \ + ($D ^ ($B & ($C ^ $D))) + $E + $W + 0x5a827999) & 0xffffffff} } proc ::sha1::F2 {A B C D E W} { expr {(((($A << 5) & 0xffffffff) | (($A >> 27) & 0x1f)) \ + ($B ^ $C ^ $D) + $E + $W + 0x6ed9eba1) & 0xffffffff} } proc ::sha1::F3 {A B C D E W} { expr {(((($A << 5) & 0xffffffff)| (($A >> 27) & 0x1f)) \ + (($B & $C) | ($D & ($B | $C))) + $E + $W + 0x8f1bbcdc) & 0xffffffff} } proc ::sha1::F4 {A B C D E W} { expr {(((($A << 5) & 0xffffffff)| (($A >> 27) & 0x1f)) \ + ($B ^ $C ^ $D) + $E + $W + 0xca62c1d6) & 0xffffffff} } proc ::sha1::rotl32 {v n} { return [expr {((($v << $n) \ | (($v >> (32 - $n)) \ & (0x7FFFFFFF >> (31 - $n))))) \ & 0xFFFFFFFF}] } # ------------------------------------------------------------------------- # # In order to get this code to go as fast as possible while leaving # the main code readable we can substitute the above function bodies # into the transform procedure. This inlines the code for us an avoids # a procedure call overhead within the loops. # # We can do some minor tweaking to improve speed on Tcl < 8.5 where we # know our arithmetic is limited to 64 bits. On > 8.5 we may have # unconstrained integer arithmetic and must avoid letting it run away. # regsub -all -line \ {\[F1 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body \ {[expr {(rotl32($A,5) + ($D ^ ($B \& ($C ^ $D))) + $E + \1 + 0x5a827999) \& 0xffffffff}]} \ ::sha1::SHA1Transform_body_tmp regsub -all -line \ {\[F2 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body_tmp \ {[expr {(rotl32($A,5) + ($B ^ $C ^ $D) + $E + \1 + 0x6ed9eba1) \& 0xffffffff}]} \ ::sha1::SHA1Transform_body_tmp regsub -all -line \ {\[F3 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body_tmp \ {[expr {(rotl32($A,5) + (($B \& $C) | ($D \& ($B | $C))) + $E + \1 + 0x8f1bbcdc) \& 0xffffffff}]} \ ::sha1::SHA1Transform_body_tmp regsub -all -line \ {\[F4 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body_tmp \ {[expr {(rotl32($A,5) + ($B ^ $C ^ $D) + $E + \1 + 0xca62c1d6) \& 0xffffffff}]} \ ::sha1::SHA1Transform_body_tmp regsub -all -line \ {rotl32\(\$A,5\)} \ $::sha1::SHA1Transform_body_tmp \ {((($A << 5) \& 0xffffffff) | (($A >> 27) \& 0x1f))} \ ::sha1::SHA1Transform_body_tmp regsub -all -line \ {\[rotl32 \$B 30\]} \ $::sha1::SHA1Transform_body_tmp \ {[expr {int(($B << 30) | (($B >> 2) \& 0x3fffffff))}]} \ ::sha1::SHA1Transform_body_tmp # # Version 2 avoids a few truncations to 32 bits in non-essential places. # regsub -all -line \ {\[F1 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body \ {[expr {rotl32($A,5) + ($D ^ ($B \& ($C ^ $D))) + $E + \1 + 0x5a827999}]} \ ::sha1::SHA1Transform_body_tmp2 regsub -all -line \ {\[F2 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body_tmp2 \ {[expr {rotl32($A,5) + ($B ^ $C ^ $D) + $E + \1 + 0x6ed9eba1}]} \ ::sha1::SHA1Transform_body_tmp2 regsub -all -line \ {\[F3 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body_tmp2 \ {[expr {rotl32($A,5) + (($B \& $C) | ($D \& ($B | $C))) + $E + \1 + 0x8f1bbcdc}]} \ ::sha1::SHA1Transform_body_tmp2 regsub -all -line \ {\[F4 \$A \$B \$C \$D \$E (\[.*?\])\]} \ $::sha1::SHA1Transform_body_tmp2 \ {[expr {rotl32($A,5) + ($B ^ $C ^ $D) + $E + \1 + 0xca62c1d6}]} \ ::sha1::SHA1Transform_body_tmp2 regsub -all -line \ {rotl32\(\$A,5\)} \ $::sha1::SHA1Transform_body_tmp2 \ {(($A << 5) | (($A >> 27) \& 0x1f))} \ ::sha1::SHA1Transform_body_tmp2 regsub -all -line \ {\[rotl32 \$B 30\]} \ $::sha1::SHA1Transform_body_tmp2 \ {[expr {($B << 30) | (($B >> 2) \& 0x3fffffff)}]} \ ::sha1::SHA1Transform_body_tmp2 if {[package vsatisfies [package provide Tcl] 8.5]} { proc ::sha1::SHA1Transform {token msg} $::sha1::SHA1Transform_body_tmp } else { proc ::sha1::SHA1Transform {token msg} $::sha1::SHA1Transform_body_tmp2 } unset ::sha1::SHA1Transform_body unset ::sha1::SHA1Transform_body_tmp unset ::sha1::SHA1Transform_body_tmp2 # ------------------------------------------------------------------------- proc ::sha1::byte {n v} {expr {((0xFF << (8 * $n)) & $v) >> (8 * $n)}} proc ::sha1::bytes {v} { #format %c%c%c%c [byte 0 $v] [byte 1 $v] [byte 2 $v] [byte 3 $v] format %c%c%c%c \ [expr {((0xFF000000 & $v) >> 24) & 0xFF}] \ [expr {(0xFF0000 & $v) >> 16}] \ [expr {(0xFF00 & $v) >> 8}] \ [expr {0xFF & $v}] } # ------------------------------------------------------------------------- proc ::sha1::Hex {data} { binary scan $data H* result return $result } # ------------------------------------------------------------------------- # Description: # Pop the nth element off a list. Used in options processing. # proc ::sha1::Pop {varname {nth 0}} { upvar $varname args set r [lindex $args $nth] set args [lreplace $args $nth $nth] return $r } # ------------------------------------------------------------------------- # fileevent handler for chunked file hashing. # proc ::sha1::Chunk {token channel {chunksize 4096}} { upvar #0 $token state if {[eof $channel]} { fileevent $channel readable {} set state(reading) 0 } SHA1Update $token [read $channel $chunksize] } # ------------------------------------------------------------------------- proc ::sha1::sha1 {args} { array set opts {-hex 0 -filename {} -channel {} -chunksize 4096} if {[llength $args] == 1} { set opts(-hex) 1 } else { while {[string match -* [set option [lindex $args 0]]]} { switch -glob -- $option { -hex { set opts(-hex) 1 } -bin { set opts(-hex) 0 } -file* { set opts(-filename) [Pop args 1] } -channel { set opts(-channel) [Pop args 1] } -chunksize { set opts(-chunksize) [Pop args 1] } default { if {[llength $args] == 1} { break } if {[string compare $option "--"] == 0} { Pop args; break } set err [join [lsort [concat -bin [array names opts]]] ", "] return -code error "bad option $option:\ must be one of $err" } } Pop args } } if {$opts(-filename) != {}} { set opts(-channel) [open $opts(-filename) r] fconfigure $opts(-channel) -translation binary } if {$opts(-channel) == {}} { if {[llength $args] != 1} { return -code error "wrong # args:\ should be \"sha1 ?-hex? -filename file | string\"" } set tok [SHA1Init] SHA1Update $tok [lindex $args 0] set r [SHA1Final $tok] } else { set tok [SHA1Init] # FRINK: nocheck set [subst $tok](reading) 1 fileevent $opts(-channel) readable \ [list [namespace origin Chunk] \ $tok $opts(-channel) $opts(-chunksize)] # FRINK: nocheck vwait [subst $tok](reading) set r [SHA1Final $tok] # If we opened the channel - we should close it too. if {$opts(-filename) != {}} { close $opts(-channel) } } if {$opts(-hex)} { set r [Hex $r] } return $r } # ------------------------------------------------------------------------- proc ::sha1::hmac {args} { array set opts {-hex 1 -filename {} -channel {} -chunksize 4096} if {[llength $args] != 2} { while {[string match -* [set option [lindex $args 0]]]} { switch -glob -- $option { -key { set opts(-key) [Pop args 1] } -hex { set opts(-hex) 1 } -bin { set opts(-hex) 0 } -file* { set opts(-filename) [Pop args 1] } -channel { set opts(-channel) [Pop args 1] } -chunksize { set opts(-chunksize) [Pop args 1] } default { if {[llength $args] == 1} { break } if {[string compare $option "--"] == 0} { Pop args; break } set err [join [lsort [array names opts]] ", "] return -code error "bad option $option:\ must be one of $err" } } Pop args } } if {[llength $args] == 2} { set opts(-key) [Pop args] } if {![info exists opts(-key)]} { return -code error "wrong # args:\ should be \"hmac ?-hex? -key key -filename file | string\"" } if {$opts(-filename) != {}} { set opts(-channel) [open $opts(-filename) r] fconfigure $opts(-channel) -translation binary } if {$opts(-channel) == {}} { if {[llength $args] != 1} { return -code error "wrong # args:\ should be \"hmac ?-hex? -key key -filename file | string\"" } set tok [HMACInit $opts(-key)] HMACUpdate $tok [lindex $args 0] set r [HMACFinal $tok] } else { set tok [HMACInit $opts(-key)] # FRINK: nocheck set [subst $tok](reading) 1 fileevent $opts(-channel) readable \ [list [namespace origin Chunk] \ $tok $opts(-channel) $opts(-chunksize)] # FRINK: nocheck vwait [subst $tok](reading) set r [HMACFinal $tok] # If we opened the channel - we should close it too. if {$opts(-filename) != {}} { close $opts(-channel) } } if {$opts(-hex)} { set r [Hex $r] } return $r } # ------------------------------------------------------------------------- package provide sha1 $::sha1::version # ------------------------------------------------------------------------- # Local Variables: # mode: tcl # indent-tabs-mode: nil # End: |