PNG  IHDRQgAMA a cHRMz&u0`:pQ<bKGDgmIDATxwUﹻ& ^CX(J I@ "% (** BX +*i"]j(IH{~R)[~>h{}gy)I$Ij .I$I$ʊy@}x.: $I$Ii}VZPC)I$IF ^0ʐJ$I$Q^}{"r=OzI$gRZeC.IOvH eKX $IMpxsk.쒷/&r[޳<v| .I~)@$updYRa$I |M.e JaֶpSYR6j>h%IRز if&uJ)M$I vLi=H;7UJ,],X$I1AҒJ$ XY XzI@GNҥRT)E@;]K*Mw;#5_wOn~\ DC&$(A5 RRFkvIR}l!RytRl;~^ǷJj اy뷦BZJr&ӥ8Pjw~vnv X^(I;4R=P[3]J,]ȏ~:3?[ a&e)`e*P[4]T=Cq6R[ ~ޤrXR Հg(t_HZ-Hg M$ãmL5R uk*`%C-E6/%[t X.{8P9Z.vkXŐKjgKZHg(aK9ڦmKjѺm_ \#$5,)-  61eJ,5m| r'= &ڡd%-]J on Xm|{ RҞe $eڧY XYrԮ-a7RK6h>n$5AVڴi*ֆK)mѦtmr1p| q:흺,)Oi*ֺK)ܬ֦K-5r3>0ԔHjJئEZj,%re~/z%jVMڸmrt)3]J,T K֦OvԒgii*bKiNO~%PW0=dii2tJ9Jݕ{7"I P9JKTbu,%r"6RKU}Ij2HKZXJ,妝 XYrP ެ24c%i^IK|.H,%rb:XRl1X4Pe/`x&P8Pj28Mzsx2r\zRPz4J}yP[g=L) .Q[6RjWgp FIH*-`IMRaK9TXcq*I y[jE>cw%gLRԕiFCj-ďa`#e~I j,%r,)?[gp FI˨mnWX#>mʔ XA DZf9,nKҲzIZXJ,L#kiPz4JZF,I,`61%2s $,VOϚ2/UFJfy7K> X+6 STXIeJILzMfKm LRaK9%|4p9LwJI!`NsiazĔ)%- XMq>pk$-$Q2x#N ؎-QR}ᶦHZډ)J,l#i@yn3LN`;nڔ XuX5pF)m|^0(>BHF9(cզEerJI rg7 4I@z0\JIi䵙RR0s;$s6eJ,`n 䂦0a)S)A 1eJ,堌#635RIgpNHuTH_SԕqVe ` &S)>p;S$魁eKIuX`I4춒o}`m$1":PI<[v9^\pTJjriRŭ P{#{R2,`)e-`mgj~1ϣLKam7&U\j/3mJ,`F;M'䱀 .KR#)yhTq;pcK9(q!w?uRR,n.yw*UXj#\]ɱ(qv2=RqfB#iJmmL<]Y͙#$5 uTU7ӦXR+q,`I}qL'`6Kͷ6r,]0S$- [RKR3oiRE|nӦXR.(i:LDLTJjY%o:)6rxzҒqTJjh㞦I.$YR.ʼnGZ\ֿf:%55 I˼!6dKxm4E"mG_ s? .e*?LRfK9%q#uh$)i3ULRfK9yxm܌bj84$i1U^@Wbm4uJ,ҪA>_Ij?1v32[gLRD96oTaR׿N7%L2 NT,`)7&ƝL*꽙yp_$M2#AS,`)7$rkTA29_Iye"|/0t)$n XT2`YJ;6Jx".e<`$) PI$5V4]29SRI>~=@j]lp2`K9Jaai^" Ԋ29ORI%:XV5]JmN9]H;1UC39NI%Xe78t)a;Oi Ҙ>Xt"~G>_mn:%|~ޅ_+]$o)@ǀ{hgN;IK6G&rp)T2i୦KJuv*T=TOSV>(~D>dm,I*Ɛ:R#ۙNI%D>G.n$o;+#RR!.eU˽TRI28t)1LWϚ>IJa3oFbu&:tJ*(F7y0ZR ^p'Ii L24x| XRI%ۄ>S1]Jy[zL$adB7.eh4%%누>WETf+3IR:I3Xה)3אOۦSRO'ٺ)S}"qOr[B7ϙ.edG)^ETR"RtRݜh0}LFVӦDB^k_JDj\=LS(Iv─aTeZ%eUAM-0;~˃@i|l @S4y72>sX-vA}ϛBI!ݎߨWl*)3{'Y|iSlEڻ(5KtSI$Uv02,~ԩ~x;P4ցCrO%tyn425:KMlD ^4JRxSهF_}شJTS6uj+ﷸk$eZO%G*^V2u3EMj3k%)okI]dT)URKDS 7~m@TJR~荪fT"֛L \sM -0T KfJz+nإKr L&j()[E&I ߴ>e FW_kJR|!O:5/2跌3T-'|zX ryp0JS ~^F>-2< `*%ZFP)bSn"L :)+pʷf(pO3TMW$~>@~ū:TAIsV1}S2<%ޟM?@iT ,Eūoz%i~g|`wS(]oȤ8)$ ntu`өe`6yPl IzMI{ʣzʨ )IZ2= ld:5+請M$-ї;U>_gsY$ÁN5WzWfIZ)-yuXIfp~S*IZdt;t>KūKR|$#LcԀ+2\;kJ`]YǔM1B)UbG"IRߊ<xܾӔJ0Z='Y嵤 Leveg)$znV-º^3Ւof#0Tfk^Zs[*I꯳3{)ˬW4Ւ4 OdpbZRS|*I 55#"&-IvT&/윚Ye:i$ 9{LkuRe[I~_\ؠ%>GL$iY8 9ܕ"S`kS.IlC;Ҏ4x&>u_0JLr<J2(^$5L s=MgV ~,Iju> 7r2)^=G$1:3G< `J3~&IR% 6Tx/rIj3O< ʔ&#f_yXJiގNSz; Tx(i8%#4 ~AS+IjerIUrIj362v885+IjAhK__5X%nV%Iͳ-y|7XV2v4fzo_68"S/I-qbf; LkF)KSM$ Ms>K WNV}^`-큧32ŒVؙGdu,^^m%6~Nn&͓3ŒVZMsRpfEW%IwdǀLm[7W&bIRL@Q|)* i ImsIMmKmyV`i$G+R 0tV'!V)֏28vU7͒vHꦼtxꗞT ;S}7Mf+fIRHNZUkUx5SAJㄌ9MqμAIRi|j5)o*^'<$TwI1hEU^c_j?Е$%d`z cyf,XO IJnTgA UXRD }{H}^S,P5V2\Xx`pZ|Yk:$e ~ @nWL.j+ϝYb퇪bZ BVu)u/IJ_ 1[p.p60bC >|X91P:N\!5qUB}5a5ja `ubcVxYt1N0Zzl4]7­gKj]?4ϻ *[bg$)+À*x쳀ogO$~,5 زUS9 lq3+5mgw@np1sso Ӻ=|N6 /g(Wv7U;zωM=wk,0uTg_`_P`uz?2yI!b`kĸSo+Qx%!\οe|އԁKS-s6pu_(ֿ$i++T8=eY; צP+phxWQv*|p1. ά. XRkIQYP,drZ | B%wP|S5`~́@i޾ E;Չaw{o'Q?%iL{u D?N1BD!owPHReFZ* k_-~{E9b-~P`fE{AܶBJAFO wx6Rox5 K5=WwehS8 (JClJ~ p+Fi;ŗo+:bD#g(C"wA^ r.F8L;dzdIHUX݆ϞXg )IFqem%I4dj&ppT{'{HOx( Rk6^C٫O.)3:s(۳(Z?~ٻ89zmT"PLtw䥈5&b<8GZ-Y&K?e8,`I6e(֍xb83 `rzXj)F=l($Ij 2*(F?h(/9ik:I`m#p3MgLaKjc/U#n5S# m(^)=y=đx8ŬI[U]~SцA4p$-F i(R,7Cx;X=cI>{Km\ o(Tv2vx2qiiDJN,Ҏ!1f 5quBj1!8 rDFd(!WQl,gSkL1Bxg''՞^ǘ;pQ P(c_ IRujg(Wz bs#P­rz> k c&nB=q+ؔXn#r5)co*Ũ+G?7< |PQӣ'G`uOd>%Mctz# Ԫڞ&7CaQ~N'-P.W`Oedp03C!IZcIAMPUۀ5J<\u~+{9(FbbyAeBhOSܳ1 bÈT#ŠyDžs,`5}DC-`̞%r&ڙa87QWWp6e7 Rϫ/oY ꇅ Nܶըtc!LA T7V4Jsū I-0Pxz7QNF_iZgúWkG83 0eWr9 X]㾮݁#Jˢ C}0=3ݱtBi]_ &{{[/o[~ \q鯜00٩|cD3=4B_b RYb$óBRsf&lLX#M*C_L܄:gx)WΘsGSbuL rF$9';\4Ɍq'n[%p.Q`u hNb`eCQyQ|l_C>Lb꟟3hSb #xNxSs^ 88|Mz)}:](vbۢamŖ࿥ 0)Q7@0=?^k(*J}3ibkFn HjB׻NO z x}7p 0tfDX.lwgȔhԾŲ }6g E |LkLZteu+=q\Iv0쮑)QٵpH8/2?Σo>Jvppho~f>%bMM}\//":PTc(v9v!gոQ )UfVG+! 35{=x\2+ki,y$~A1iC6#)vC5^>+gǵ@1Hy٪7u;p psϰu/S <aʸGu'tD1ԝI<pg|6j'p:tպhX{o(7v],*}6a_ wXRk,O]Lܳ~Vo45rp"N5k;m{rZbΦ${#)`(Ŵg,;j%6j.pyYT?}-kBDc3qA`NWQū20/^AZW%NQ MI.X#P#,^Ebc&?XR tAV|Y.1!؅⨉ccww>ivl(JT~ u`ٵDm q)+Ri x/x8cyFO!/*!/&,7<.N,YDŽ&ܑQF1Bz)FPʛ?5d 6`kQձ λc؎%582Y&nD_$Je4>a?! ͨ|ȎWZSsv8 j(I&yj Jb5m?HWp=g}G3#|I,5v珿] H~R3@B[☉9Ox~oMy=J;xUVoj bUsl_35t-(ՃɼRB7U!qc+x4H_Qo֮$[GO<4`&č\GOc[.[*Af%mG/ ňM/r W/Nw~B1U3J?P&Y )`ѓZ1p]^l“W#)lWZilUQu`-m|xĐ,_ƪ|9i:_{*(3Gѧ}UoD+>m_?VPۅ15&}2|/pIOʵ> GZ9cmíتmnz)yߐbD >e}:) r|@R5qVSA10C%E_'^8cR7O;6[eKePGϦX7jb}OTGO^jn*媓7nGMC t,k31Rb (vyܴʭ!iTh8~ZYZp(qsRL ?b}cŨʊGO^!rPJO15MJ[c&~Z`"ѓޔH1C&^|Ш|rʼ,AwĴ?b5)tLU)F| &g٣O]oqSUjy(x<Ϳ3 .FSkoYg2 \_#wj{u'rQ>o;%n|F*O_L"e9umDds?.fuuQbIWz |4\0 sb;OvxOSs; G%T4gFRurj(֍ڑb uԖKDu1MK{1^ q; C=6\8FR艇!%\YÔU| 88m)֓NcLve C6z;o&X x59:q61Z(T7>C?gcļxѐ Z oo-08jہ x,`' ҔOcRlf~`jj".Nv+sM_]Zk g( UOPyεx%pUh2(@il0ݽQXxppx-NS( WO+轾 nFߢ3M<;z)FBZjciu/QoF 7R¥ ZFLF~#ȣߨ^<쩡ݛкvџ))ME>ώx4m#!-m!L;vv#~Y[đKmx9.[,UFS CVkZ +ߟrY٧IZd/ioi$%͝ب_ֶX3ܫhNU ZZgk=]=bbJS[wjU()*I =ώ:}-蹞lUj:1}MWm=̛ _ ¾,8{__m{_PVK^n3esw5ӫh#$-q=A̟> ,^I}P^J$qY~Q[ Xq9{#&T.^GVj__RKpn,b=`żY@^՝;z{paVKkQXj/)y TIc&F;FBG7wg ZZDG!x r_tƢ!}i/V=M/#nB8 XxЫ ^@CR<{䤭YCN)eKOSƟa $&g[i3.C6xrOc8TI;o hH6P&L{@q6[ Gzp^71j(l`J}]e6X☉#͕ ׈$AB1Vjh㭦IRsqFBjwQ_7Xk>y"N=MB0 ,C #o6MRc0|$)ف"1!ixY<B9mx `,tA>)5ػQ?jQ?cn>YZe Tisvh# GMމȇp:ԴVuږ8ɼH]C.5C!UV;F`mbBk LTMvPʍϤj?ԯ/Qr1NB`9s"s TYsz &9S%U԰> {<ؿSMxB|H\3@!U| k']$U+> |HHMLޢ?V9iD!-@x TIî%6Z*9X@HMW#?nN ,oe6?tQwڱ.]-y':mW0#!J82qFjH -`ѓ&M0u Uγmxϵ^-_\])@0Rt.8/?ٰCY]x}=sD3ojަЫNuS%U}ԤwHH>ڗjܷ_3gN q7[q2la*ArǓԖ+p8/RGM ]jacd(JhWko6ڎbj]i5Bj3+3!\j1UZLsLTv8HHmup<>gKMJj0@H%,W΃7R) ">c, xixј^ aܖ>H[i.UIHc U1=yW\=S*GR~)AF=`&2h`DzT󑓶J+?W+}C%P:|0H܆}-<;OC[~o.$~i}~HQ TvXΈr=b}$vizL4:ȰT|4~*!oXQR6Lk+#t/g lԁߖ[Jڶ_N$k*". xsxX7jRVbAAʯKҎU3)zSNN _'s?f)6X!%ssAkʱ>qƷb hg %n ~p1REGMHH=BJiy[<5 ǁJҖgKR*倳e~HUy)Ag,K)`Vw6bRR:qL#\rclK/$sh*$ 6덤 KԖc 3Z9=Ɣ=o>X Ώ"1 )a`SJJ6k(<c e{%kϊP+SL'TcMJWRm ŏ"w)qc ef꒵i?b7b('"2r%~HUS1\<(`1Wx9=8HY9m:X18bgD1u ~|H;K-Uep,, C1 RV.MR5άh,tWO8WC$ XRVsQS]3GJ|12 [vM :k#~tH30Rf-HYݺ-`I9%lIDTm\ S{]9gOڒMNCV\G*2JRŨ;Rҏ^ڽ̱mq1Eu?To3I)y^#jJw^Ńj^vvlB_⋌P4x>0$c>K†Aļ9s_VjTt0l#m>E-,,x,-W)سo&96RE XR.6bXw+)GAEvL)͞K4$p=Ũi_ѱOjb HY/+@θH9޼]Nԥ%n{ &zjT? Ty) s^ULlb,PiTf^<À] 62R^V7)S!nllS6~͝V}-=%* ʻ>G DnK<y&>LPy7'r=Hj 9V`[c"*^8HpcO8bnU`4JȪAƋ#1_\ XϘHPRgik(~G~0DAA_2p|J묭a2\NCr]M_0 ^T%e#vD^%xy-n}-E\3aS%yN!r_{ )sAw ڼp1pEAk~v<:`'ӭ^5 ArXOI驻T (dk)_\ PuA*BY]yB"l\ey hH*tbK)3 IKZ򹞋XjN n *n>k]X_d!ryBH ]*R 0(#'7 %es9??ښFC,ՁQPjARJ\Ρw K#jahgw;2$l*) %Xq5!U᢯6Re] |0[__64ch&_}iL8KEgҎ7 M/\`|.p,~`a=BR?xܐrQ8K XR2M8f ?`sgWS%" Ԉ 7R%$ N}?QL1|-эټwIZ%pvL3Hk>,ImgW7{E xPHx73RA @RS CC !\ȟ5IXR^ZxHл$Q[ŝ40 (>+ _C >BRt<,TrT {O/H+˟Pl6 I B)/VC<6a2~(XwV4gnXR ϱ5ǀHٻ?tw똤Eyxp{#WK qG%5],(0ӈH HZ])ג=K1j&G(FbM@)%I` XRg ʔ KZG(vP,<`[ Kn^ SJRsAʠ5xՅF`0&RbV tx:EaUE/{fi2;.IAwW8/tTxAGOoN?G}l L(n`Zv?pB8K_gI+ܗ #i?ޙ.) p$utc ~DžfՈEo3l/)I-U?aԅ^jxArA ΧX}DmZ@QLےbTXGd.^|xKHR{|ΕW_h] IJ`[G9{).y) 0X YA1]qp?p_k+J*Y@HI>^?gt.06Rn ,` ?);p pSF9ZXLBJPWjgQ|&)7! HjQt<| ؅W5 x W HIzYoVMGP Hjn`+\(dNW)F+IrS[|/a`K|ͻ0Hj{R,Q=\ (F}\WR)AgSG`IsnAR=|8$}G(vC$)s FBJ?]_u XRvύ6z ŨG[36-T9HzpW̞ú Xg큽=7CufzI$)ki^qk-) 0H*N` QZkk]/tnnsI^Gu't=7$ Z;{8^jB% IItRQS7[ϭ3 $_OQJ`7!]W"W,)Iy W AJA;KWG`IY{8k$I$^%9.^(`N|LJ%@$I}ֽp=FB*xN=gI?Q{٥4B)mw $Igc~dZ@G9K X?7)aK%݅K$IZ-`IpC U6$I\0>!9k} Xa IIS0H$I H ?1R.Чj:4~Rw@p$IrA*u}WjWFPJ$I➓/6#! LӾ+ X36x8J |+L;v$Io4301R20M I$-E}@,pS^ޟR[/s¹'0H$IKyfŸfVOπFT*a$I>He~VY/3R/)>d$I>28`Cjw,n@FU*9ttf$I~<;=/4RD~@ X-ѕzἱI$: ԍR a@b X{+Qxuq$IЛzo /~3\8ڒ4BN7$IҀj V]n18H$IYFBj3̵̚ja pp $Is/3R Ӻ-Yj+L;.0ŔI$Av? #!5"aʄj}UKmɽH$IjCYs?h$IDl843.v}m7UiI=&=0Lg0$I4: embe` eQbm0u? $IT!Sƍ'-sv)s#C0:XB2a w I$zbww{."pPzO =Ɔ\[ o($Iaw]`E).Kvi:L*#gР7[$IyGPI=@R 4yR~̮´cg I$I/<tPͽ hDgo 94Z^k盇΄8I56^W$I^0̜N?4*H`237}g+hxoq)SJ@p|` $I%>-hO0eO>\ԣNߌZD6R=K ~n($I$y3D>o4b#px2$yڪtzW~a $I~?x'BwwpH$IZݑnC㧄Pc_9sO gwJ=l1:mKB>Ab<4Lp$Ib o1ZQ@85b̍ S'F,Fe,^I$IjEdù{l4 8Ys_s Z8.x m"+{~?q,Z D!I$ϻ'|XhB)=…']M>5 rgotԎ 獽PH$IjIPhh)n#cÔqA'ug5qwU&rF|1E%I$%]!'3AFD/;Ck_`9 v!ٴtPV;x`'*bQa w I$Ix5 FC3D_~A_#O݆DvV?<qw+I$I{=Z8".#RIYyjǪ=fDl9%M,a8$I$Ywi[7ݍFe$s1ՋBVA?`]#!oz4zjLJo8$I$%@3jAa4(o ;p,,dya=F9ً[LSPH$IJYЉ+3> 5"39aZ<ñh!{TpBGkj}Sp $IlvF.F$I z< '\K*qq.f<2Y!S"-\I$IYwčjF$ w9 \ߪB.1v!Ʊ?+r:^!I$BϹB H"B;L'G[ 4U#5>੐)|#o0aڱ$I>}k&1`U#V?YsV x>{t1[I~D&(I$I/{H0fw"q"y%4 IXyE~M3 8XψL}qE$I[> nD?~sf ]o΁ cT6"?'_Ἣ $I>~.f|'!N?⟩0G KkXZE]ޡ;/&?k OۘH$IRۀwXӨ<7@PnS04aӶp.:@\IWQJ6sS%I$e5ڑv`3:x';wq_vpgHyXZ 3gЂ7{{EuԹn±}$I$8t;b|591nءQ"P6O5i }iR̈́%Q̄p!I䮢]O{H$IRϻ9s֧ a=`- aB\X0"+5"C1Hb?߮3x3&gşggl_hZ^,`5?ߎvĸ%̀M!OZC2#0x LJ0 Gw$I$I}<{Eb+y;iI,`ܚF:5ܛA8-O-|8K7s|#Z8a&><a&/VtbtLʌI$I$I$I$I$I$IRjDD%tEXtdate:create2022-05-31T04:40:26+00:00!Î%tEXtdate:modify2022-05-31T04:40:26+00:00|{2IENDB`Mini Shell

HOME


Mini Shell 1.0
DIR:/opt/imunify360/venv/lib64/python3.11/site-packages/jwt/
Upload File :
Current File : //opt/imunify360/venv/lib64/python3.11/site-packages/jwt/algorithms.py
import hashlib
import hmac
import json

from .exceptions import InvalidKeyError
from .utils import (
    base64url_decode,
    base64url_encode,
    der_to_raw_signature,
    force_bytes,
    from_base64url_uint,
    raw_to_der_signature,
    to_base64url_uint,
)

try:
    import cryptography.exceptions
    from cryptography.exceptions import InvalidSignature
    from cryptography.hazmat.primitives import hashes
    from cryptography.hazmat.primitives.asymmetric import ec, padding
    from cryptography.hazmat.primitives.asymmetric.ec import (
        EllipticCurvePrivateKey,
        EllipticCurvePublicKey,
    )
    from cryptography.hazmat.primitives.asymmetric.ed25519 import (
        Ed25519PrivateKey,
        Ed25519PublicKey,
    )
    from cryptography.hazmat.primitives.asymmetric.rsa import (
        RSAPrivateKey,
        RSAPrivateNumbers,
        RSAPublicKey,
        RSAPublicNumbers,
        rsa_crt_dmp1,
        rsa_crt_dmq1,
        rsa_crt_iqmp,
        rsa_recover_prime_factors,
    )
    from cryptography.hazmat.primitives.serialization import (
        Encoding,
        NoEncryption,
        PrivateFormat,
        PublicFormat,
        load_pem_private_key,
        load_pem_public_key,
        load_ssh_public_key,
    )

    has_crypto = True
except ModuleNotFoundError:
    has_crypto = False

requires_cryptography = {
    "RS256",
    "RS384",
    "RS512",
    "ES256",
    "ES256K",
    "ES384",
    "ES521",
    "ES512",
    "PS256",
    "PS384",
    "PS512",
    "EdDSA",
}


def get_default_algorithms():
    """
    Returns the algorithms that are implemented by the library.
    """
    default_algorithms = {
        "none": NoneAlgorithm(),
        "HS256": HMACAlgorithm(HMACAlgorithm.SHA256),
        "HS384": HMACAlgorithm(HMACAlgorithm.SHA384),
        "HS512": HMACAlgorithm(HMACAlgorithm.SHA512),
    }

    if has_crypto:
        default_algorithms.update(
            {
                "RS256": RSAAlgorithm(RSAAlgorithm.SHA256),
                "RS384": RSAAlgorithm(RSAAlgorithm.SHA384),
                "RS512": RSAAlgorithm(RSAAlgorithm.SHA512),
                "ES256": ECAlgorithm(ECAlgorithm.SHA256),
                "ES256K": ECAlgorithm(ECAlgorithm.SHA256),
                "ES384": ECAlgorithm(ECAlgorithm.SHA384),
                "ES521": ECAlgorithm(ECAlgorithm.SHA512),
                "ES512": ECAlgorithm(
                    ECAlgorithm.SHA512
                ),  # Backward compat for #219 fix
                "PS256": RSAPSSAlgorithm(RSAPSSAlgorithm.SHA256),
                "PS384": RSAPSSAlgorithm(RSAPSSAlgorithm.SHA384),
                "PS512": RSAPSSAlgorithm(RSAPSSAlgorithm.SHA512),
                "EdDSA": Ed25519Algorithm(),
            }
        )

    return default_algorithms


class Algorithm:
    """
    The interface for an algorithm used to sign and verify tokens.
    """

    def prepare_key(self, key):
        """
        Performs necessary validation and conversions on the key and returns
        the key value in the proper format for sign() and verify().
        """
        raise NotImplementedError

    def sign(self, msg, key):
        """
        Returns a digital signature for the specified message
        using the specified key value.
        """
        raise NotImplementedError

    def verify(self, msg, key, sig):
        """
        Verifies that the specified digital signature is valid
        for the specified message and key values.
        """
        raise NotImplementedError

    @staticmethod
    def to_jwk(key_obj):
        """
        Serializes a given RSA key into a JWK
        """
        raise NotImplementedError

    @staticmethod
    def from_jwk(jwk):
        """
        Deserializes a given RSA key from JWK back into a PublicKey or PrivateKey object
        """
        raise NotImplementedError


class NoneAlgorithm(Algorithm):
    """
    Placeholder for use when no signing or verification
    operations are required.
    """

    def prepare_key(self, key):
        if key == "":
            key = None

        if key is not None:
            raise InvalidKeyError('When alg = "none", key value must be None.')

        return key

    def sign(self, msg, key):
        return b""

    def verify(self, msg, key, sig):
        return False


class HMACAlgorithm(Algorithm):
    """
    Performs signing and verification operations using HMAC
    and the specified hash function.
    """

    SHA256 = hashlib.sha256
    SHA384 = hashlib.sha384
    SHA512 = hashlib.sha512

    def __init__(self, hash_alg):
        self.hash_alg = hash_alg

    def prepare_key(self, key):
        key = force_bytes(key)

        invalid_strings = [
            b"-----BEGIN PUBLIC KEY-----",
            b"-----BEGIN CERTIFICATE-----",
            b"-----BEGIN RSA PUBLIC KEY-----",
            b"ssh-rsa",
        ]

        if any(string_value in key for string_value in invalid_strings):
            raise InvalidKeyError(
                "The specified key is an asymmetric key or x509 certificate and"
                " should not be used as an HMAC secret."
            )

        return key

    @staticmethod
    def to_jwk(key_obj):
        return json.dumps(
            {
                "k": base64url_encode(force_bytes(key_obj)).decode(),
                "kty": "oct",
            }
        )

    @staticmethod
    def from_jwk(jwk):
        try:
            if isinstance(jwk, str):
                obj = json.loads(jwk)
            elif isinstance(jwk, dict):
                obj = jwk
            else:
                raise ValueError
        except ValueError:
            raise InvalidKeyError("Key is not valid JSON")

        if obj.get("kty") != "oct":
            raise InvalidKeyError("Not an HMAC key")

        return base64url_decode(obj["k"])

    def sign(self, msg, key):
        return hmac.new(key, msg, self.hash_alg).digest()

    def verify(self, msg, key, sig):
        return hmac.compare_digest(sig, self.sign(msg, key))


if has_crypto:

    class RSAAlgorithm(Algorithm):
        """
        Performs signing and verification operations using
        RSASSA-PKCS-v1_5 and the specified hash function.
        """

        SHA256 = hashes.SHA256
        SHA384 = hashes.SHA384
        SHA512 = hashes.SHA512

        def __init__(self, hash_alg):
            self.hash_alg = hash_alg

        def prepare_key(self, key):
            if isinstance(key, RSAPrivateKey) or isinstance(key, RSAPublicKey):
                return key

            if isinstance(key, (bytes, str)):
                key = force_bytes(key)

                try:
                    if key.startswith(b"ssh-rsa"):
                        key = load_ssh_public_key(key)
                    else:
                        key = load_pem_private_key(key, password=None)
                except ValueError:
                    key = load_pem_public_key(key)
            else:
                raise TypeError("Expecting a PEM-formatted key.")

            return key

        @staticmethod
        def to_jwk(key_obj):
            obj = None

            if getattr(key_obj, "private_numbers", None):
                # Private key
                numbers = key_obj.private_numbers()

                obj = {
                    "kty": "RSA",
                    "key_ops": ["sign"],
                    "n": to_base64url_uint(numbers.public_numbers.n).decode(),
                    "e": to_base64url_uint(numbers.public_numbers.e).decode(),
                    "d": to_base64url_uint(numbers.d).decode(),
                    "p": to_base64url_uint(numbers.p).decode(),
                    "q": to_base64url_uint(numbers.q).decode(),
                    "dp": to_base64url_uint(numbers.dmp1).decode(),
                    "dq": to_base64url_uint(numbers.dmq1).decode(),
                    "qi": to_base64url_uint(numbers.iqmp).decode(),
                }

            elif getattr(key_obj, "verify", None):
                # Public key
                numbers = key_obj.public_numbers()

                obj = {
                    "kty": "RSA",
                    "key_ops": ["verify"],
                    "n": to_base64url_uint(numbers.n).decode(),
                    "e": to_base64url_uint(numbers.e).decode(),
                }
            else:
                raise InvalidKeyError("Not a public or private key")

            return json.dumps(obj)

        @staticmethod
        def from_jwk(jwk):
            try:
                if isinstance(jwk, str):
                    obj = json.loads(jwk)
                elif isinstance(jwk, dict):
                    obj = jwk
                else:
                    raise ValueError
            except ValueError:
                raise InvalidKeyError("Key is not valid JSON")

            if obj.get("kty") != "RSA":
                raise InvalidKeyError("Not an RSA key")

            if "d" in obj and "e" in obj and "n" in obj:
                # Private key
                if "oth" in obj:
                    raise InvalidKeyError(
                        "Unsupported RSA private key: > 2 primes not supported"
                    )

                other_props = ["p", "q", "dp", "dq", "qi"]
                props_found = [prop in obj for prop in other_props]
                any_props_found = any(props_found)

                if any_props_found and not all(props_found):
                    raise InvalidKeyError(
                        "RSA key must include all parameters if any are present besides d"
                    )

                public_numbers = RSAPublicNumbers(
                    from_base64url_uint(obj["e"]),
                    from_base64url_uint(obj["n"]),
                )

                if any_props_found:
                    numbers = RSAPrivateNumbers(
                        d=from_base64url_uint(obj["d"]),
                        p=from_base64url_uint(obj["p"]),
                        q=from_base64url_uint(obj["q"]),
                        dmp1=from_base64url_uint(obj["dp"]),
                        dmq1=from_base64url_uint(obj["dq"]),
                        iqmp=from_base64url_uint(obj["qi"]),
                        public_numbers=public_numbers,
                    )
                else:
                    d = from_base64url_uint(obj["d"])
                    p, q = rsa_recover_prime_factors(
                        public_numbers.n, d, public_numbers.e
                    )

                    numbers = RSAPrivateNumbers(
                        d=d,
                        p=p,
                        q=q,
                        dmp1=rsa_crt_dmp1(d, p),
                        dmq1=rsa_crt_dmq1(d, q),
                        iqmp=rsa_crt_iqmp(p, q),
                        public_numbers=public_numbers,
                    )

                return numbers.private_key()
            elif "n" in obj and "e" in obj:
                # Public key
                numbers = RSAPublicNumbers(
                    from_base64url_uint(obj["e"]),
                    from_base64url_uint(obj["n"]),
                )

                return numbers.public_key()
            else:
                raise InvalidKeyError("Not a public or private key")

        def sign(self, msg, key):
            return key.sign(msg, padding.PKCS1v15(), self.hash_alg())

        def verify(self, msg, key, sig):
            try:
                key.verify(sig, msg, padding.PKCS1v15(), self.hash_alg())
                return True
            except InvalidSignature:
                return False

    class ECAlgorithm(Algorithm):
        """
        Performs signing and verification operations using
        ECDSA and the specified hash function
        """

        SHA256 = hashes.SHA256
        SHA384 = hashes.SHA384
        SHA512 = hashes.SHA512

        def __init__(self, hash_alg):
            self.hash_alg = hash_alg

        def prepare_key(self, key):
            if isinstance(key, EllipticCurvePrivateKey) or isinstance(
                key, EllipticCurvePublicKey
            ):
                return key

            if isinstance(key, (bytes, str)):
                key = force_bytes(key)

                # Attempt to load key. We don't know if it's
                # a Signing Key or a Verifying Key, so we try
                # the Verifying Key first.
                try:
                    if key.startswith(b"ecdsa-sha2-"):
                        key = load_ssh_public_key(key)
                    else:
                        key = load_pem_public_key(key)
                except ValueError:
                    key = load_pem_private_key(key, password=None)

            else:
                raise TypeError("Expecting a PEM-formatted key.")

            return key

        def sign(self, msg, key):
            der_sig = key.sign(msg, ec.ECDSA(self.hash_alg()))

            return der_to_raw_signature(der_sig, key.curve)

        def verify(self, msg, key, sig):
            try:
                der_sig = raw_to_der_signature(sig, key.curve)
            except ValueError:
                return False

            try:
                if isinstance(key, EllipticCurvePrivateKey):
                    key = key.public_key()
                key.verify(der_sig, msg, ec.ECDSA(self.hash_alg()))
                return True
            except InvalidSignature:
                return False

        @staticmethod
        def from_jwk(jwk):
            try:
                if isinstance(jwk, str):
                    obj = json.loads(jwk)
                elif isinstance(jwk, dict):
                    obj = jwk
                else:
                    raise ValueError
            except ValueError:
                raise InvalidKeyError("Key is not valid JSON")

            if obj.get("kty") != "EC":
                raise InvalidKeyError("Not an Elliptic curve key")

            if "x" not in obj or "y" not in obj:
                raise InvalidKeyError("Not an Elliptic curve key")

            x = base64url_decode(obj.get("x"))
            y = base64url_decode(obj.get("y"))

            curve = obj.get("crv")
            if curve == "P-256":
                if len(x) == len(y) == 32:
                    curve_obj = ec.SECP256R1()
                else:
                    raise InvalidKeyError("Coords should be 32 bytes for curve P-256")
            elif curve == "P-384":
                if len(x) == len(y) == 48:
                    curve_obj = ec.SECP384R1()
                else:
                    raise InvalidKeyError("Coords should be 48 bytes for curve P-384")
            elif curve == "P-521":
                if len(x) == len(y) == 66:
                    curve_obj = ec.SECP521R1()
                else:
                    raise InvalidKeyError("Coords should be 66 bytes for curve P-521")
            elif curve == "secp256k1":
                if len(x) == len(y) == 32:
                    curve_obj = ec.SECP256K1()
                else:
                    raise InvalidKeyError(
                        "Coords should be 32 bytes for curve secp256k1"
                    )
            else:
                raise InvalidKeyError(f"Invalid curve: {curve}")

            public_numbers = ec.EllipticCurvePublicNumbers(
                x=int.from_bytes(x, byteorder="big"),
                y=int.from_bytes(y, byteorder="big"),
                curve=curve_obj,
            )

            if "d" not in obj:
                return public_numbers.public_key()

            d = base64url_decode(obj.get("d"))
            if len(d) != len(x):
                raise InvalidKeyError(
                    "D should be {} bytes for curve {}", len(x), curve
                )

            return ec.EllipticCurvePrivateNumbers(
                int.from_bytes(d, byteorder="big"), public_numbers
            ).private_key()

    class RSAPSSAlgorithm(RSAAlgorithm):
        """
        Performs a signature using RSASSA-PSS with MGF1
        """

        def sign(self, msg, key):
            return key.sign(
                msg,
                padding.PSS(
                    mgf=padding.MGF1(self.hash_alg()),
                    salt_length=self.hash_alg.digest_size,
                ),
                self.hash_alg(),
            )

        def verify(self, msg, key, sig):
            try:
                key.verify(
                    sig,
                    msg,
                    padding.PSS(
                        mgf=padding.MGF1(self.hash_alg()),
                        salt_length=self.hash_alg.digest_size,
                    ),
                    self.hash_alg(),
                )
                return True
            except InvalidSignature:
                return False

    class Ed25519Algorithm(Algorithm):
        """
        Performs signing and verification operations using Ed25519

        This class requires ``cryptography>=2.6`` to be installed.
        """

        def __init__(self, **kwargs):
            pass

        def prepare_key(self, key):

            if isinstance(key, (Ed25519PrivateKey, Ed25519PublicKey)):
                return key

            if isinstance(key, (bytes, str)):
                if isinstance(key, str):
                    key = key.encode("utf-8")
                str_key = key.decode("utf-8")

                if "-----BEGIN PUBLIC" in str_key:
                    return load_pem_public_key(key)
                if "-----BEGIN PRIVATE" in str_key:
                    return load_pem_private_key(key, password=None)
                if str_key[0:4] == "ssh-":
                    return load_ssh_public_key(key)

            raise TypeError("Expecting a PEM-formatted or OpenSSH key.")

        def sign(self, msg, key):
            """
            Sign a message ``msg`` using the Ed25519 private key ``key``
            :param str|bytes msg: Message to sign
            :param Ed25519PrivateKey key: A :class:`.Ed25519PrivateKey` instance
            :return bytes signature: The signature, as bytes
            """
            msg = bytes(msg, "utf-8") if type(msg) is not bytes else msg
            return key.sign(msg)

        def verify(self, msg, key, sig):
            """
            Verify a given ``msg`` against a signature ``sig`` using the Ed25519 key ``key``

            :param str|bytes sig: Ed25519 signature to check ``msg`` against
            :param str|bytes msg: Message to sign
            :param Ed25519PrivateKey|Ed25519PublicKey key: A private or public Ed25519 key instance
            :return bool verified: True if signature is valid, False if not.
            """
            try:
                msg = bytes(msg, "utf-8") if type(msg) is not bytes else msg
                sig = bytes(sig, "utf-8") if type(sig) is not bytes else sig

                if isinstance(key, Ed25519PrivateKey):
                    key = key.public_key()
                key.verify(sig, msg)
                return True  # If no exception was raised, the signature is valid.
            except cryptography.exceptions.InvalidSignature:
                return False

        @staticmethod
        def to_jwk(key):
            if isinstance(key, Ed25519PublicKey):
                x = key.public_bytes(
                    encoding=Encoding.Raw,
                    format=PublicFormat.Raw,
                )

                return json.dumps(
                    {
                        "x": base64url_encode(force_bytes(x)).decode(),
                        "kty": "OKP",
                        "crv": "Ed25519",
                    }
                )

            if isinstance(key, Ed25519PrivateKey):
                d = key.private_bytes(
                    encoding=Encoding.Raw,
                    format=PrivateFormat.Raw,
                    encryption_algorithm=NoEncryption(),
                )

                x = key.public_key().public_bytes(
                    encoding=Encoding.Raw,
                    format=PublicFormat.Raw,
                )

                return json.dumps(
                    {
                        "x": base64url_encode(force_bytes(x)).decode(),
                        "d": base64url_encode(force_bytes(d)).decode(),
                        "kty": "OKP",
                        "crv": "Ed25519",
                    }
                )

            raise InvalidKeyError("Not a public or private key")

        @staticmethod
        def from_jwk(jwk):
            try:
                if isinstance(jwk, str):
                    obj = json.loads(jwk)
                elif isinstance(jwk, dict):
                    obj = jwk
                else:
                    raise ValueError
            except ValueError:
                raise InvalidKeyError("Key is not valid JSON")

            if obj.get("kty") != "OKP":
                raise InvalidKeyError("Not an Octet Key Pair")

            curve = obj.get("crv")
            if curve != "Ed25519":
                raise InvalidKeyError(f"Invalid curve: {curve}")

            if "x" not in obj:
                raise InvalidKeyError('OKP should have "x" parameter')
            x = base64url_decode(obj.get("x"))

            try:
                if "d" not in obj:
                    return Ed25519PublicKey.from_public_bytes(x)
                d = base64url_decode(obj.get("d"))
                return Ed25519PrivateKey.from_private_bytes(d)
            except ValueError as err:
                raise InvalidKeyError("Invalid key parameter") from err