# Attacking RSA ## 1.Factorizing the public key - Thuật toán RSA an toàn nhờ vào việc cần phải phân tích module n để tính ra d nếu muốn mã hóa mà với các thuật toán hiện nay việc phân tích một modlue quá lớn là việc không khả thi. - Ta đã biết ```d.e = 1(mod φ(n))``` và cách duy nhất để tính được φ(n) là biết p và q. - Có thể sử dụng Bruteforce attack để xác định một p khả thi. Cách này chỉ sử dụng được khi n nhỏ (nhỏ hơn 256 bit). Nên là dùng n ít nhất 2048 bit. - Nếu ta cần phân tích một n lớn hơn, đôi khi có thể tìm thấy hoặc phân tích ở http://factordb.com/ - Chúng ta sẽ thử 1 ví dụ ở đây với ```n = 510143758735509025530880200653196460532653147``` n ở đây có giá trị 150 bit - Thu được: ``` p = 19704762736204164635843``` ``` q = 25889363174021185185929``` ## 2.Common modulue #### As an external attacker - Giả sử trong 1 nhóm bạn sử dụng chung 1 module n và chọn e khác nhau ngẫu nhiên với mỗi người sẽ có 1 giá trị (n,ei) và (n,di) - Ta là người ngoài và bắt được 2 gói tin m(cùng 1 thông điệp) gửi cho 2 người trong nhóm bạn kia và biết được 2 khóa công khai của người kia và việc cần làm của ta là : -- Vì cả 2 e1 và e2 cùng dùng chung 1 module n nên cả 2 e đều là số nguyên tố cùng nhau và gcd(e1,e2) = 1. Nên ta sẽ tìm được 1 cặp số u và v sao cho e1*v + e2*u = 1 (Extended Euclidean Algorithm) -- khi tính được ```v``` và ```u``` rồi ta sẽ tính ```m``` như sau: $m^{u.e1}$ * $m^{v.e2}$ = $m^{u.e1 + v.e2}$ = $m^1$ = $m$ #### As an internal attacker - Ở trường hợp trên ta đã làm một người tấn công từ bên ngoài và chặn 2 tin nhắn giống y hệt nhau. Và bây giờ chúng ta sẽ là người trong nhóm chặn bắt và tin nhắn được gửi trong nhóm - Ta có: - $e*d \equiv 1 mod (\varphi(n))$ => $e*d = k * \varphi(n) +1$ với k thuộc N*. -- Mà khi $\varphi(n)$ lớn thì ta sẽ có $\varphi(n)$ và n sẽ tương đối gần nhau nên khi chia cho n hay $\varphi(n)$ ta làm tròn lên cũng sẽ cùng là 1 số k. => thay $\varphi(n)$ bằng n ta được $k = e*d/n$ và lấy k làm tròn lên và sau đó tính $\varphi(n)$ $\varphi(n) = (e*d - 1)/k)$ -- Nếu $\varphi(n)$ tính được không phải là số nguyên thì ta tăng k thêm 1 đơn vị cho đến k khi thu được $\varphi(n)$. -- Khi đã có được $\varphi(n)$ ta dễ dàng tìm được d theo công thức $d = e^1(mod(\varphi(n))$ ## 3.Blinding - A muốn B kí vào một message M,nhưng B từ chối, - A cố gắng lựa chọn một giá trị ngẫu nhiên r tương đối nguyên tố với n( tức là gcd(n,r) = 1) - khi đó $m' \equiv m * r^e mod(n)$ - Marvin thu được bản blinded signature $S' \equiv m'^d mod(n)$ - Bây giờ việc của chúng ta là tìm S trên bản kí của m gốc => S = $S'/r$ modN Mà $S^e = S'^e/r^e = (m^e)^d * r^e \equiv m'/r$ = m modn ## 4.Small public exponent - Trong thuật toán RSA, khi chúng ta chọn p và q rất lớn và được 1 số n rất lớn. Nhưng lại chọn 1 số e rất nhỏ như e = 3. Và chúng ta cũng gửi 1 đoạn tin nhắn rất nhỏ m. - Khi đó chúng ta mã hóa $c= m^e(mod(n))$ thì sẽ bih một vấn đề rất lớn là vì e với m quá nhỏ nên khi mũ với nhau sẽ nhỏ hơn n nên bản mã sẽ không bị ảnh hưởng bởi mod(n). Khi đó ta sẽ được => $c = m^e$ - Bây giờ chúng ta chỉ cần căn c của e th sẽ thu đc m. ## 5.Hastad’s Broadcast Attack - Cách tấn công này dựa trên cơ sở của Small public exponent nhưng lần này là một đoạn tin nhắn dài nên không thể dùng cách tương tự ở trên. Tuy nhiên, nạn nhân gửi cho nhiều người cùng một tin nhắn và sử dụng e như nhau. - Để attack thành công, bạn cần thu thập được nhiều bản mã khác nhau tương ứng với 1 bản rõ. - Gỉa sử e = 3 ⇒ $M = m ^ 3$. Ta sẽ phải giải quyết hệ phương trình: M = c1 mod n1 M = c2 mod n2 M = c3 mod n3 Dựa vào [chinese remainder theorem](https://vi.wikipedia.org/wiki/%C4%90%E1%BB%8Bnh_l%C3%BD_s%E1%BB%91_d%C6%B0_Trung_Qu%E1%BB%91c) để giải quyết và tính được M. ## 6.Fermat’s attack - p và q có cùng độ dài bit sẽ tạo ra khóa RSA mạnh nhưng việc chọn 2 khóa gần nhau quá sẽ làm hỏng tính bảo mật. - Trong thực tế nếu $p-q<n^{1/4}$ thì Fermat's algorithm có thể phân tích n 1 ách hiệu quả. $n=p*q = ((p-q)/2)^2 - ((p+q)/2)^2 = x^2 - y^2 = (x-y)(x+y)$ Với: x = (p-q)/2 y = (p+q)/2 Và đây code để chạy thuật toán: ``` python import math def fermat_attack(n): a = int(math.sqrt(n)) b = a * a - n while not math.isqrt(b)**2 == b: a += 1 b = a * a - n return a - math.isqrt(b) ``` ## 7. Low private exponent (small d) - Điều kiện: -- $d < 1/3* n^{1/4}$ -- q < p < 2q -- e' < $n^{3/2}$ (e' $\equiv$ e mod $\varphi$ (n)) - Nếu thỏa mãn các điều kiện trên (nhận biết thông qua việc đề cho e rất lớn), ta có thể dễ dàng tìm được d và phá vỡ toàn bộ hệ thống mã hóa. # Challen RSA ## RSA Starter ### RSA Starter 1 - In this task, we calculate the requirements for the problem $101^{17}$ mod 22663 = 19906 ### RSA Starter 2 - In this task we will use the formula $c = m^e mod(n)$ ```python= import math q = 13 n = 23 n = p * q print(pow(12, 65537, n)) ``` - the result is ```301``` ### RSA Starter 3 - In this task we need to calculate $\varphi(n)$ but $\varphi(n)$ = (p-1)(q-1) ```python= import math p = 857504083339712752489993810777 q = 1029224947942998075080348647219 phiN = ( p - 1) * ( q - 1 ) print(phiN) ``` - the result is ```882564595536224140639625987657529300394956519977044270821168``` ### RSA Starter 4 - this task requires us to calculate d and below is the program. ```python= import math p = 857504083339712752489993810777 q = 1029224947942998075080348647219 e = 65537 phiN = (p-1)*(q-1) d = pow(e, -1, phiN) print(d) ``` - the result is ``` 121832886702415731577073962957377780195510499965398469843281``` ### RSA Starter 5 - In this task we ask us to use N and e to encode c and below is the program. ```python= import math d = 121832886702415731577073962957377780195510499965398469843281 N = 882564595536224140639625987659416029426239230804614613279163 e = 65537 c = 77578995801157823671636298847186723593814843845525223303932 print(pow(c,d,N)) ``` - the result is ``` 13371337``` ### RSA Starter 6 - This task requires us to sign the flag with SHA256 and encrypt it with (n, d) in the private.key file. ```python= from Crypto.Hash import SHA256 from Crypto.Util.number import bytes_to_long N = 15216583654836731327639981224133918855895948374072384050848479908982286890731769486609085918857664046075375253168955058743185664390273058074450390236774324903305663479046566232967297765731625328029814055635316002591227570271271445226094919864475407884459980489638001092788574811554149774028950310695112688723853763743238753349782508121985338746755237819373178699343135091783992299561827389745132880022259873387524273298850340648779897909381979714026837172003953221052431217940632552930880000919436507245150726543040714721553361063311954285289857582079880295199632757829525723874753306371990452491305564061051059885803 d = 11175901210643014262548222473449533091378848269490518850474399681690547281665059317155831692300453197335735728459259392366823302405685389586883670043744683993709123180805154631088513521456979317628012721881537154107239389466063136007337120599915456659758559300673444689263854921332185562706707573660658164991098457874495054854491474065039621922972671588299315846306069845169959451250821044417886630346229021305410340100401530146135418806544340908355106582089082980533651095594192031411679866134256418292249592135441145384466261279428795408721990564658703903787956958168449841491667690491585550160457893350536334242689 m = b'crypto{Immut4ble_m3ssag1ng}' hm = SHA256.new(m) print(hm) flag = pow(bytes_to_long(hm.digest()), d, N) print(flag) ``` - The result is ```13480738404590090803339831649238454376183189744970683129909766078877706583282422686710545217275797376709672358894231550335007974983458408620258478729775647818876610072903021235573923300070103666940534047644900475773318682585772698155617451477448441198150710420818995347235921111812068656782998168064960965451719491072569057636701190429760047193261886092862024118487826452766513533860734724124228305158914225250488399673645732882077575252662461860972889771112594906884441454355959482925283992539925713424132009768721389828848907099772040836383856524605008942907083490383109757406940540866978237471686296661685839083475``` ## Prime Part 1 ### Factoring - In this task requires us to decompose n into 2 prime factors and we will use a web http://www.factordb.com/ to help us do this. - we get 2 numbers and take the smaller number as the required result  - The result is ```19704762736204164635843``` ### Inferius Prime - in this task give us 2 files, try 2 files and we have. ```python= #!/usr/bin/env python3 from Crypto.Util.number import getPrime, inverse, bytes_to_long, long_to_bytes, GCD e = 3 # n will be 8 * (100 + 100) = 1600 bits strong which is pretty good while True: p = getPrime(100) q = getPrime(100) phi = (p - 1) * (q - 1) d = inverse(e, phi) if d != -1 and GCD(e, phi) == 1: break n = p * q flag = b"XXXXXXXXXXXXXXXXXXXXXXX" pt = bytes_to_long(flag) ct = pow(pt, e, n) print(f"n = {n}") print(f"e = {e}") print(f"ct = {ct}") pt = pow(ct, d, n) decrypted = long_to_bytes(pt) assert decrypted == flag ``` ```python= n = 742449129124467073921545687640895127535705902454369756401331 e = 3 ct = 39207274348578481322317340648475596807303160111338236677373 ``` - We have n and we'll try factor n to see if we can get p and q.  - Having found p and q, the rest is to find d and decode the flag. ```python= from Crypto.Util.number import * e = 3 p = 752708788837165590355094155871 q = 986369682585281993933185289261 phiN = (p - 1) * (q - 1) d = pow(e,-1,phiN) n = p * q ct = 39207274348578481322317340648475596807303160111338236677373 flag = pow(ct, d, n) flag = long_to_bytes(flag).decode() print(flag) ``` - Flag is ```crypto{N33d_b1g_pR1m35}``` ### Monoprime - Task for file output.txt ```python= n = 171731371218065444125482536302245915415603318380280392385291836472299752747934607246477508507827284075763910264995326010251268493630501989810855418416643352631102434317900028697993224868629935657273062472544675693365930943308086634291936846505861203914449338007760990051788980485462592823446469606824421932591 e = 65537 ct = 161367550346730604451454756189028938964941280347662098798775466019463375610700074840105776873791605070092554650190486030367121011578171525759600774739890458414593857709994072516290998135846956596662071379067305011746842247628316996977338024343628757374524136260758515864509435302781735938531030576289086798942 ``` - In this task, I tried factor n, but I can't analyze n, maybe n is a prime number $\varphi = n-1$ ```python= from Crypto.Util.number import * n = 171731371218065444125482536302245915415603318380280392385291836472299752747934607246477508507827284075763910264995326010251268493630501989810855418416643352631102434317900028697993224868629935657273062472544675693365930943308086634291936846505861203914449338007760990051788980485462592823446469606824421932591 e = 65537 ct = 161367550346730604451454756189028938964941280347662098798775466019463375610700074840105776873791605070092554650190486030367121011578171525759600774739890458414593857709994072516290998135846956596662071379067305011746842247628316996977338024343628757374524136260758515864509435302781735938531030576289086798942 phiN = n-1 d = pow(e,-1,phiN) flag = pow(ct, d, n) print(long_to_bytes(flag).decode()) ``` - And i was right flag is```crypto{0n3_pr1m3_41n7_pr1m3_l0l}``` ### Square Eyes - Posts for files ```python= n = 535860808044009550029177135708168016201451343147313565371014459027743491739422885443084705720731409713775527993719682583669164873806842043288439828071789970694759080842162253955259590552283047728782812946845160334801782088068154453021936721710269050985805054692096738777321796153384024897615594493453068138341203673749514094546000253631902991617197847584519694152122765406982133526594928685232381934742152195861380221224370858128736975959176861651044370378539093990198336298572944512738570839396588590096813217791191895941380464803377602779240663133834952329316862399581950590588006371221334128215409197603236942597674756728212232134056562716399155080108881105952768189193728827484667349378091100068224404684701674782399200373192433062767622841264055426035349769018117299620554803902490432339600566432246795818167460916180647394169157647245603555692735630862148715428791242764799469896924753470539857080767170052783918273180304835318388177089674231640910337743789750979216202573226794240332797892868276309400253925932223895530714169648116569013581643192341931800785254715083294526325980247219218364118877864892068185905587410977152737936310734712276956663192182487672474651103240004173381041237906849437490609652395748868434296753449 e = 65537 ct = 222502885974182429500948389840563415291534726891354573907329512556439632810921927905220486727807436668035929302442754225952786602492250448020341217733646472982286222338860566076161977786095675944552232391481278782019346283900959677167026636830252067048759720251671811058647569724495547940966885025629807079171218371644528053562232396674283745310132242492367274184667845174514466834132589971388067076980563188513333661165819462428837210575342101036356974189393390097403614434491507672459254969638032776897417674577487775755539964915035731988499983726435005007850876000232292458554577437739427313453671492956668188219600633325930981748162455965093222648173134777571527681591366164711307355510889316052064146089646772869610726671696699221157985834325663661400034831442431209123478778078255846830522226390964119818784903330200488705212765569163495571851459355520398928214206285080883954881888668509262455490889283862560453598662919522224935145694435885396500780651530829377030371611921181207362217397805303962112100190783763061909945889717878397740711340114311597934724670601992737526668932871436226135393872881664511222789565256059138002651403875484920711316522536260604255269532161594824301047729082877262812899724246757871448545439896 ``` - We have n and we’ll try factor n to see if we can get p and q. - see that n has the form $n = p^2$ -  ```python= from Crypto.Util.number import * n = 535860808044009550029177135708168016201451343147313565371014459027743491739422885443084705720731409713775527993719682583669164873806842043288439828071789970694759080842162253955259590552283047728782812946845160334801782088068154453021936721710269050985805054692096738777321796153384024897615594493453068138341203673749514094546000253631902991617197847584519694152122765406982133526594928685232381934742152195861380221224370858128736975959176861651044370378539093990198336298572944512738570839396588590096813217791191895941380464803377602779240663133834952329316862399581950590588006371221334128215409197603236942597674756728212232134056562716399155080108881105952768189193728827484667349378091100068224404684701674782399200373192433062767622841264055426035349769018117299620554803902490432339600566432246795818167460916180647394169157647245603555692735630862148715428791242764799469896924753470539857080767170052783918273180304835318388177089674231640910337743789750979216202573226794240332797892868276309400253925932223895530714169648116569013581643192341931800785254715083294526325980247219218364118877864892068185905587410977152737936310734712276956663192182487672474651103240004173381041237906849437490609652395748868434296753449 e = 65537 c = 222502885974182429500948389840563415291534726891354573907329512556439632810921927905220486727807436668035929302442754225952786602492250448020341217733646472982286222338860566076161977786095675944552232391481278782019346283900959677167026636830252067048759720251671811058647569724495547940966885025629807079171218371644528053562232396674283745310132242492367274184667845174514466834132589971388067076980563188513333661165819462428837210575342101036356974189393390097403614434491507672459254969638032776897417674577487775755539964915035731988499983726435005007850876000232292458554577437739427313453671492956668188219600633325930981748162455965093222648173134777571527681591366164711307355510889316052064146089646772869610726671696699221157985834325663661400034831442431209123478778078255846830522226390964119818784903330200488705212765569163495571851459355520398928214206285080883954881888668509262455490889283862560453598662919522224935145694435885396500780651530829377030371611921181207362217397805303962112100190783763061909945889717878397740711340114311597934724670601992737526668932871436226135393872881664511222789565256059138002651403875484920711316522536260604255269532161594824301047729082877262812899724246757871448545439896 p = 23148667521998097720857168827790771337662483716348435477360567409355026169165934446949809664595523770853897203103759106983985113264049057416908191166720008503275951625738975666019029172377653170602440373579593292576530667773951407647222757756437867216095193174201323278896027294517792607881861855264600525772460745259440301156930943255240915685718552334192230264780355799179037816026330705422484000086542362084006958158550346395941862383925942033730030004606360308379776255436206440529441711859246811586652746028418496020145441513037535475380962562108920699929022900677901988508936509354385660735694568216631382653107 q = 23148667521998097720857168827790771337662483716348435477360567409355026169165934446949809664595523770853897203103759106983985113264049057416908191166720008503275951625738975666019029172377653170602440373579593292576530667773951407647222757756437867216095193174201323278896027294517792607881861855264600525772460745259440301156930943255240915685718552334192230264780355799179037816026330705422484000086542362084006958158550346395941862383925942033730030004606360308379776255436206440529441711859246811586652746028418496020145441513037535475380962562108920699929022900677901988508936509354385660735694568216631382653107 phiN = p*(p-1) d = pow(e,-1,phiN) flag = pow(c,d,n) print(long_to_bytes(flag).decode()) ``` - And i was right flag is ```crypto{squar3_r00t_i5_f4st3r_th4n_f4ct0r1ng!}``` ### Manyprime - Posts for files ``` n = 580642391898843192929563856870897799650883152718761762932292482252152591279871421569162037190419036435041797739880389529593674485555792234900969402019055601781662044515999210032698275981631376651117318677368742867687180140048715627160641771118040372573575479330830092989800730105573700557717146251860588802509310534792310748898504394966263819959963273509119791037525504422606634640173277598774814099540555569257179715908642917355365791447508751401889724095964924513196281345665480688029639999472649549163147599540142367575413885729653166517595719991872223011969856259344396899748662101941230745601719730556631637 e = 65537 ct = 320721490534624434149993723527322977960556510750628354856260732098109692581338409999983376131354918370047625150454728718467998870322344980985635149656977787964380651868131740312053755501594999166365821315043312308622388016666802478485476059625888033017198083472976011719998333985531756978678758897472845358167730221506573817798467100023754709109274265835201757369829744113233607359526441007577850111228850004361838028842815813724076511058179239339760639518034583306154826603816927757236549096339501503316601078891287408682099750164720032975016814187899399273719181407940397071512493967454225665490162619270814464 ``` - When factor n yields a sequence of prime numbers  ```python= from Crypto.Util.number import * n = 580642391898843192929563856870897799650883152718761762932292482252152591279871421569162037190419036435041797739880389529593674485555792234900969402019055601781662044515999210032698275981631376651117318677368742867687180140048715627160641771118040372573575479330830092989800730105573700557717146251860588802509310534792310748898504394966263819959963273509119791037525504422606634640173277598774814099540555569257179715908642917355365791447508751401889724095964924513196281345665480688029639999472649549163147599540142367575413885729653166517595719991872223011969856259344396899748662101941230745601719730556631637 e = 65537 c = 320721490534624434149993723527322977960556510750628354856260732098109692581338409999983376131354918370047625150454728718467998870322344980985635149656977787964380651868131740312053755501594999166365821315043312308622388016666802478485476059625888033017198083472976011719998333985531756978678758897472845358167730221506573817798467100023754709109274265835201757369829744113233607359526441007577850111228850004361838028842815813724076511058179239339760639518034583306154826603816927757236549096339501503316601078891287408682099750164720032975016814187899399273719181407940397071512493967454225665490162619270814464 stringP_Q = (9282105380008121879, 9303850685953812323, 9389357739583927789, 10336650220878499841, 10638241655447339831, 11282698189561966721, 11328768673634243077, 11403460639036243901, 11473665579512371723, 11492065299277279799, 11530534813954192171, 11665347949879312361, 12132158321859677597, 12834461276877415051, 12955403765595949597, 12973972336777979701, 13099895578757581201, 13572286589428162097, 14100640260554622013, 14178869592193599187, 14278240802299816541, 14523070016044624039, 14963354250199553339, 15364597561881860737, 15669758663523555763, 15824122791679574573, 15998365463074268941, 16656402470578844539, 16898740504023346457, 17138336856793050757, 17174065872156629921, 17281246625998849649) phiN = 1 for i in stringP_Q: phi *= (i - 1) d = pow(e,-1, phiN) flag = pow(c, d, N) print(long_to_bytes(flag).decode()) ``` - And i was right flag is```crypto{700_m4ny_5m4ll_f4c70r5}``` ## PUBLIC EXPONENT ### Salty - Task for 2 files ``` #!/usr/bin/env python3 from Crypto.Util.number import getPrime, inverse, bytes_to_long, long_to_bytes e = 1 d = -1 while d == -1: p = getPrime(512) q = getPrime(512) phi = (p - 1) * (q - 1) d = inverse(e, phi) n = p * q flag = b"XXXXXXXXXXXXXXXXXXXXXXX" pt = bytes_to_long(flag) ct = pow(pt, e, n) print(f"n = {n}") print(f"e = {e}") print(f"ct = {ct}") pt = pow(ct, d, n) decrypted = long_to_bytes(pt) assert decrypted == flag ``` ``` n = 110581795715958566206600392161360212579669637391437097703685154237017351570464767725324182051199901920318211290404777259728923614917211291562555864753005179326101890427669819834642007924406862482343614488768256951616086287044725034412802176312273081322195866046098595306261781788276570920467840172004530873767 e = 1 ct = 44981230718212183604274785925793145442655465025264554046028251311164494127485 ``` notice that e = 1 ie flag = c ```python= from Crypto.Util.number import * n = 110581795715958566206600392161360212579669637391437097703685154237017351570464767725324182051199901920318211290404777259728923614917211291562555864753005179326101890427669819834642007924406862482343614488768256951616086287044725034412802176312273081322195866046098595306261781788276570920467840172004530873767 e = 1 c = 44981230718212183604274785925793145442655465025264554046028251311164494127485 flag = c print(long_to_bytes(flag)) ``` - And i was right flag is```crypto{saltstack_fell_for_this!}``` ### Modulus Inutilis - Task for 2 files ``` #!/usr/bin/env python3 from Crypto.Util.number import getPrime, inverse, bytes_to_long, long_to_bytes e = 3 d = -1 while d == -1: p = getPrime(1024) q = getPrime(1024) phi = (p - 1) * (q - 1) d = inverse(e, phi) n = p * q flag = b"XXXXXXXXXXXXXXXXXXXXXXX" pt = bytes_to_long(flag) ct = pow(pt, e, n) print(f"n = {n}") print(f"e = {e}") print(f"ct = {ct}") pt = pow(ct, d, n) decrypted = long_to_bytes(pt) assert decrypted == flag ``` ``` n = 17258212916191948536348548470938004244269544560039009244721959293554822498047075403658429865201816363311805874117705688359853941515579440852166618074161313773416434156467811969628473425365608002907061241714688204565170146117869742910273064909154666642642308154422770994836108669814632309362483307560217924183202838588431342622551598499747369771295105890359290073146330677383341121242366368309126850094371525078749496850520075015636716490087482193603562501577348571256210991732071282478547626856068209192987351212490642903450263288650415552403935705444809043563866466823492258216747445926536608548665086042098252335883 e = 3 ct = 243251053617903760309941844835411292373350655973075480264001352919865180151222189820473358411037759381328642957324889519192337152355302808400638052620580409813222660643570085177957 ``` - Read the code and see that e = 3 and c < n, so molde does not affect flag => flag = root of c. ```python= from gmpy2 import iroot from Crypto.Util.number import long_to_bytes n = 110581795715958566206600392161360212579669637391437097703685154237017351570464767725324182051199901920318211290404777259728923614917211291562555864753005179326101890427669819834642007924406862482343614488768256951616086287044725034412802176312273081322195866046098595306261781788276570920467840172004530873767 e = 3 ct = 243251053617903760309941844835411292373350655973075480264001352919865180151222189820473358411037759381328642957324889519192337152355302808400638052620580409813222660643570085177957 flag = iroot(ct, 3)[0] flag = long_to_bytes(flag) print(flag.decode()) ``` - And i was right flag is```crypto{N33d_m04R_p4dd1ng}``` ### Everything is Big - Task for 2 files ``` #!/usr/bin/env python3 from Crypto.Util.number import getPrime, bytes_to_long FLAG = b"crypto{?????????????????????????}" m = bytes_to_long(FLAG) def get_huge_RSA(): p = getPrime(1024) q = getPrime(1024) N = p*q phi = (p-1)*(q-1) while True: d = getPrime(256) e = pow(d,-1,phi) if e.bit_length() == N.bit_length(): break return N,e N, e = get_huge_RSA() c = pow(m, e, N) print(f'N = {hex(N)}') print(f'e = {hex(e)}') print(f'c = {hex(c)}') ``` ``` N = 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 e = 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 c = 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 ``` - This tasl, after converting e to base 10, found that e was quite large, so we used owiner attack ```python= import owiener from Crypto.Util.number import long_to_bytes n= int('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',16) e = int('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',16) c = int('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',16) d = owiener.attack(e,n) flag = pow(c,d,n) print(long_to_bytes(flag)) ``` - In this flag```crypto{s0m3th1ng5_c4n_b3_t00_b1g}``` ### Crossed Wires - Task for 2 files ``` from Crypto.Util.number import getPrime, long_to_bytes, bytes_to_long, inverse import math from gmpy2 import next_prime FLAG = b"crypto{????????????????????????????????????????????????}" p = getPrime(1024) q = getPrime(1024) N = p*q phi = (p-1)*(q-1) e = 0x10001 d = inverse(e, phi) my_key = (N, d) friends = 5 friend_keys = [(N, getPrime(17)) for _ in range(friends)] cipher = bytes_to_long(FLAG) for key in friend_keys: cipher = pow(cipher, key[1], key[0]) print(f"My private key: {my_key}") print(f"My Friend's public keys: {friend_keys}") print(f"Encrypted flag: {cipher}") ``` ``` My private key: (21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771, 2734411677251148030723138005716109733838866545375527602018255159319631026653190783670493107936401603981429171880504360560494771017246468702902647370954220312452541342858747590576273775107870450853533717116684326976263006435733382045807971890762018747729574021057430331778033982359184838159747331236538501849965329264774927607570410347019418407451937875684373454982306923178403161216817237890962651214718831954215200637651103907209347900857824722653217179548148145687181377220544864521808230122730967452981435355334932104265488075777638608041325256776275200067541533022527964743478554948792578057708522350812154888097) My Friend's public keys: [(21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771, 106979), (21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771, 108533), (21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771, 69557), (21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771, 97117), (21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771, 103231)] Encrypted flag: 20304610279578186738172766224224793119885071262464464448863461184092225736054747976985179673905441502689126216282897704508745403799054734121583968853999791604281615154100736259131453424385364324630229671185343778172807262640709301838274824603101692485662726226902121105591137437331463201881264245562214012160875177167442010952439360623396658974413900469093836794752270399520074596329058725874834082188697377597949405779039139194196065364426213208345461407030771089787529200057105746584493554722790592530472869581310117300343461207750821737840042745530876391793484035024644475535353227851321505537398888106855012746117 ``` #### Brute force - we use internal attacker to find $\varphi (n)$ ```python= from Crypto.Util.number import * d = 2734411677251148030723138005716109733838866545375527602018255159319631026653190783670493107936401603981429171880504360560494771017246468702902647370954220312452541342858747590576273775107870450853533717116684326976263006435733382045807971890762018747729574021057430331778033982359184838159747331236538501849965329264774927607570410347019418407451937875684373454982306923178403161216817237890962651214718831954215200637651103907209347900857824722653217179548148145687181377220544864521808230122730967452981435355334932104265488075777638608041325256776275200067541533022527964743478554948792578057708522350812154888097 e1, e2, e3, e4, e5 = 106979, 108533, 69557, 97117, 103231 n = 21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771 ct = 20304610279578186738172766224224793119885071262464464448863461184092225736054747976985179673905441502689126216282897704508745403799054734121583968853999791604281615154100736259131453424385364324630229671185343778172807262640709301838274824603101692485662726226902121105591137437331463201881264245562214012160875177167442010952439360623396658974413900469093836794752270399520074596329058725874834082188697377597949405779039139194196065364426213208345461407030771089787529200057105746584493554722790592530472869581310117300343461207750821737840042745530876391793484035024644475535353227851321505537398888106855012746117 e = 0x10001 # ed = k * phin +1 def tinh_k(e,d,n): k = ((e*d-1)//n) return k k = tinh_k(e,d,n) while True: tmp = (e*d-1)%k if tmp == 0: break k= k + 1 print(k) phiN = (e*d-1)//(k) print(phiN) d1 = inverse(e1, phiN) d2 = inverse(e2, phiN) d3 = inverse(e3, phiN) d4 = inverse(e4, phiN) d5 = inverse(e5, phiN) df = d1*d2*d3*d4*d5 flag = pow(ct,df,n) print(long_to_bytes(flag)) ``` #### Mathematics - $k*\varphi(n) = e*d -1$ - $d*e=1 mod \varphi(n)$ - $d = e^{-1}mod\varphi(n)$ - $E = e_1*e_2*..e_n$ - $D=d_1*d_2*..*d_n$ - $D = E^{-1}mod\varphi(n)$ - $D = E^{-1}mod(k*\varphi(n))=E^{-1}mod(e*d -1)$ - $D$ -> $m = c^D mod(n)$ ```python= from Crypto.Util.number import * d = 2734411677251148030723138005716109733838866545375527602018255159319631026653190783670493107936401603981429171880504360560494771017246468702902647370954220312452541342858747590576273775107870450853533717116684326976263006435733382045807971890762018747729574021057430331778033982359184838159747331236538501849965329264774927607570410347019418407451937875684373454982306923178403161216817237890962651214718831954215200637651103907209347900857824722653217179548148145687181377220544864521808230122730967452981435355334932104265488075777638608041325256776275200067541533022527964743478554948792578057708522350812154888097 e_public = [106979, 108533, 69557, 97117, 103231] n = 21711308225346315542706844618441565741046498277716979943478360598053144971379956916575370343448988601905854572029635846626259487297950305231661109855854947494209135205589258643517961521594924368498672064293208230802441077390193682958095111922082677813175804775628884377724377647428385841831277059274172982280545237765559969228707506857561215268491024097063920337721783673060530181637161577401589126558556182546896783307370517275046522704047385786111489447064794210010802761708615907245523492585896286374996088089317826162798278528296206977900274431829829206103227171839270887476436899494428371323874689055690729986771 ct = 20304610279578186738172766224224793119885071262464464448863461184092225736054747976985179673905441502689126216282897704508745403799054734121583968853999791604281615154100736259131453424385364324630229671185343778172807262640709301838274824603101692485662726226902121105591137437331463201881264245562214012160875177167442010952439360623396658974413900469093836794752270399520074596329058725874834082188697377597949405779039139194196065364426213208345461407030771089787529200057105746584493554722790592530472869581310117300343461207750821737840042745530876391793484035024644475535353227851321505537398888106855012746117 e = 0x10001 k = (e*d-1)//n E=1 for i in e_public : E*= i D = inverse(E,e*d-1) flag = pow(ct,D,n) print(long_to_bytes(flag)) ``` - In this flag```crypto{3ncrypt_y0ur_s3cr3t_w1th_y0ur_fr1end5_publ1c_k3y}``` ### Everything is Still Big - Task for 2 files ```python= #!/usr/bin/env python3 from Crypto.Util.number import getPrime, bytes_to_long, inverse from random import getrandbits from math import gcd FLAG = b"crypto{?????????????????????????????????????}" m = bytes_to_long(FLAG) def get_huge_RSA(): p = getPrime(1024) q = getPrime(1024) N = p*q phi = (p-1)*(q-1) while True: d = getrandbits(512) if (3*d)**4 > N and gcd(d,phi) == 1: e = inverse(d, phi) break return N,e N, e = get_huge_RSA() c = pow(m, e, N) print(f'N = {hex(N)}') print(f'e = {hex(e)}') print(f'c = {hex(c)}') ``` ``` N = 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 e = 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 c = 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 ``` - After when unhex finds n quite large, so we'll try using owiner ```python import owiener from Crypto.Util.number import * n = int('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',16) e = int('0x9d0637faa46281b533e83cc37e1cf5626bd33f712cc1948622f10ec26f766fb37b9cd6c7a6e4b2c03bce0dd70d5a3a28b6b0c941d8792bc6a870568790ebcd30f40277af59e0fd3141e272c48f8e33592965997c7d93006c27bf3a2b8fb71831dfa939c0ba2c7569dd1b660efc6c8966e674fbe6e051811d92a802c789d895f356ceec9722d5a7b617d21b8aa42dd6a45de721953939a5a81b8dffc9490acd4f60b0c0475883ff7e2ab50b39b2deeedaefefffc52ae2e03f72756d9b4f7b6bd85b1a6764b31312bc375a2298b78b0263d492205d2a5aa7a227abaf41ab4ea8ce0e75728a5177fe90ace36fdc5dba53317bbf90e60a6f2311bb333bf55ba3245f',16) c = int('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',16) d = owiener.attack(e,n) flag = pow(c,d,n) print(long_to_bytes(flag)) ``` - In this flag ```crypto{bon3h5_4tt4ck_i5_sr0ng3r_th4n_w13n3r5}``` ### Endless Emails - Task for file ``` #!/usr/bin/env python3 from Crypto.Util.number import bytes_to_long, getPrime from secret import messages def RSA_encrypt(message): m = bytes_to_long(message) p = getPrime(1024) q = getPrime(1024) N = p * q e = 3 c = pow(m, e, N) return N, e, c for m in messages: N, e, c = RSA_encrypt(m) print(f"n = {N}") print(f"e = {e}") print(f"c = {c}") ```  - And the task still has many pairs of e and n so I use the Chinese remainder theorem to solve ```python= from itertools import combinations from Crypto.Util.number import * from gmpy2 import iroot def tinh(stringN, C): N = 1 for i in stringN: N *= int(i) Ni = [] for i in range(len(C)): Ni.append(N // int(stringN[i])) U = [] for i in range(len(C)): U.append(pow(Ni[i],-1,stringN[i])) res = 0 for i in range(len(C)): res += C[i] * U[i] * Ni[i] return res % N n0 = 14528915758150659907677315938876872514853653132820394367681510019000469589767908107293777996420037715293478868775354645306536953789897501630398061779084810058931494642860729799059325051840331449914529594113593835549493208246333437945551639983056810855435396444978249093419290651847764073607607794045076386643023306458718171574989185213684263628336385268818202054811378810216623440644076846464902798568705083282619513191855087399010760232112434412274701034094429954231366422968991322244343038458681255035356984900384509158858007713047428143658924970374944616430311056440919114824023838380098825914755712289724493770021 e = 3 c0 = 6965891612987861726975066977377253961837139691220763821370036576350605576485706330714192837336331493653283305241193883593410988132245791554283874785871849223291134571366093850082919285063130119121338290718389659761443563666214229749009468327825320914097376664888912663806925746474243439550004354390822079954583102082178617110721589392875875474288168921403550415531707419931040583019529612270482482718035497554779733578411057633524971870399893851589345476307695799567919550426417015815455141863703835142223300228230547255523815097431420381177861163863791690147876158039619438793849367921927840731088518955045807722225 n1 = 20463913454649855046677206889944639231694511458416906994298079596685813354570085475890888433776403011296145408951323816323011550738170573801417972453504044678801608709931200059967157605416809387753258251914788761202456830940944486915292626560515250805017229876565916349963923702612584484875113691057716315466239062005206014542088484387389725058070917118549621598629964819596412564094627030747720659155558690124005400257685883230881015636066183743516494701900125788836869358634031031172536767950943858472257519195392986989232477630794600444813136409000056443035171453870906346401936687214432176829528484662373633624123 e = 3 c1 = 5109363605089618816120178319361171115590171352048506021650539639521356666986308721062843132905170261025772850941702085683855336653472949146012700116070022531926476625467538166881085235022484711752960666438445574269179358850309578627747024264968893862296953506803423930414569834210215223172069261612934281834174103316403670168299182121939323001232617718327977313659290755318972603958579000300780685344728301503641583806648227416781898538367971983562236770576174308965929275267929379934367736694110684569576575266348020800723535121638175505282145714117112442582416208209171027273743686645470434557028336357172288865172 n2 = 19402640770593345339726386104915705450969517850985511418263141255686982818547710008822417349818201858549321868878490314025136645036980129976820137486252202687238348587398336652955435182090722844668488842986318211649569593089444781595159045372322540131250208258093613844753021272389255069398553523848975530563989367082896404719544411946864594527708058887475595056033713361893808330341623804367785721774271084389159493974946320359512776328984487126583015777989991635428744050868653379191842998345721260216953918203248167079072442948732000084754225272238189439501737066178901505257566388862947536332343196537495085729147 e = 3 c2 = 5603386396458228314230975500760833991383866638504216400766044200173576179323437058101562931430558738148852367292802918725271632845889728711316688681080762762324367273332764959495900563756768440309595248691744845766607436966468714038018108912467618638117493367675937079141350328486149333053000366933205635396038539236203203489974033629281145427277222568989469994178084357460160310598260365030056631222346691527861696116334946201074529417984624304973747653407317290664224507485684421999527164122395674469650155851869651072847303136621932989550786722041915603539800197077294166881952724017065404825258494318993054344153 n3 = 12005639978012754274325188681720834222130605634919280945697102906256738419912110187245315232437501890545637047506165123606573171374281507075652554737014979927883759915891863646221205835211640845714836927373844277878562666545230876640830141637371729405545509920889968046268135809999117856968692236742804637929866632908329522087977077849045608566911654234541526643235586433065170392920102840518192803854740398478305598092197183671292154743153130012885747243219372709669879863098708318993844005566984491622761795349455404952285937152423145150066181043576492305166964448141091092142224906843816547235826717179687198833961 e = 3 c3 = 1522280741383024774933280198410525846833410931417064479278161088248621390305797210285777845359812715909342595804742710152832168365433905718629465545306028275498667935929180318276445229415104842407145880223983428713335709038026249381363564625791656631137936935477777236936508600353416079028339774876425198789629900265348122040413865209592074731028757972968635601695468594123523892918747882221891834598896483393711851510479989203644477972694520237262271530260496342247355761992646827057846109181410462131875377404309983072358313960427035348425800940661373272947647516867525052504539561289941374722179778872627956360577 n4 = 17795451956221451086587651307408104001363221003775928432650752466563818944480119932209305765249625841644339021308118433529490162294175590972336954199870002456682453215153111182451526643055812311071588382409549045943806869173323058059908678022558101041630272658592291327387549001621625757585079662873501990182250368909302040015518454068699267914137675644695523752851229148887052774845777699287718342916530122031495267122700912518207571821367123013164125109174399486158717604851125244356586369921144640969262427220828940652994276084225196272504355264547588369516271460361233556643313911651916709471353368924621122725823 e = 3 c4 = 8752507806125480063647081749506966428026005464325535765874589376572431101816084498482064083887400646438977437273700004934257274516197148448425455243811009944321764771392044345410680448204581679548854193081394891841223548418812679441816502910830861271884276608891963388657558218620911858230760629700918375750796354647493524576614017731938584618983084762612414591830024113057983483156974095503392359946722756364412399187910604029583464521617256125933111786441852765229820406911991809039519015434793656710199153380699319611499255869045311421603167606551250174746275803467549814529124250122560661739949229005127507540805 n5 = 25252721057733555082592677470459355315816761410478159901637469821096129654501579313856822193168570733800370301193041607236223065376987811309968760580864569059669890823406084313841678888031103461972888346942160731039637326224716901940943571445217827960353637825523862324133203094843228068077462983941899571736153227764822122334838436875488289162659100652956252427378476004164698656662333892963348126931771536472674447932268282205545229907715893139346941832367885319597198474180888087658441880346681594927881517150425610145518942545293750127300041942766820911120196262215703079164895767115681864075574707999253396530263 e = 3 c5 = 23399624135645767243362438536844425089018405258626828336566973656156553220156563508607371562416462491581383453279478716239823054532476006642583363934314982675152824147243749715830794488268846671670287617324522740126594148159945137948643597981681529145611463534109482209520448640622103718682323158039797577387254265854218727476928164074249568031493984825273382959147078839665114417896463735635546290504843957780546550577300001452747760982468547756427137284830133305010038339400230477403836856663883956463830571934657200851598986174177386323915542033293658596818231793744261192870485152396793393026198817787033127061749 n6 = 19833203629283018227011925157509157967003736370320129764863076831617271290326613531892600790037451229326924414757856123643351635022817441101879725227161178559229328259469472961665857650693413215087493448372860837806619850188734619829580286541292997729705909899738951228555834773273676515143550091710004139734080727392121405772911510746025807070635102249154615454505080376920778703360178295901552323611120184737429513669167641846902598281621408629883487079110172218735807477275590367110861255756289520114719860000347219161944020067099398239199863252349401303744451903546571864062825485984573414652422054433066179558897 e = 3 c6 = 15239683995712538665992887055453717247160229941400011601942125542239446512492703769284448009141905335544729440961349343533346436084176947090230267995060908954209742736573986319254695570265339469489948102562072983996668361864286444602534666284339466797477805372109723178841788198177337648499899079471221924276590042183382182326518312979109378616306364363630519677884849945606288881683625944365927809405420540525867173639222696027472336981838588256771671910217553150588878434061862840893045763456457939944572192848992333115479951110622066173007227047527992906364658618631373790704267650950755276227747600169403361509144 n = [n0,n1,n2,n3,n4,n5,n6] c = [c0,c1,c2,c3,c4,c5,c6] random = [0,1,2,3,4,5,6] x_y_z = list(combinations(random, 3)) for i in x_y_z: x, y, z = i stringN = [n[x],n[y],n[z]] C = [c[x],c[y],c[z]] flag = iroot(tinh(stringN,C),3) print(flag) flag=long_to_bytes(flag[0]) print(flag) ``` - In this flag```ncrypto{1f_y0u_d0nt_p4d_y0u_4r3_Vuln3rabl3}``` ## PRIMES PART 2 ### Infinite Descent - Task for file ``` #!/usr/bin/env python3 import random from Crypto.Util.number import bytes_to_long, isPrime FLAG = b"crypto{???????????????????}" def getPrimes(bitsize): r = random.getrandbits(bitsize) p, q = r, r while not isPrime(p): p += random.getrandbits(bitsize//4) while not isPrime(q): q += random.getrandbits(bitsize//8) return p, q m = bytes_to_long(FLAG) p, q = getPrimes(2048) n = p * q e = 0x10001 c = pow(m, e, n) print(f"n = {n}") print(f"e = {e}") print(f"c = {c}") ``` ``` n = 383347712330877040452238619329524841763392526146840572232926924642094891453979246383798913394114305368360426867021623649667024217266529000859703542590316063318592391925062014229671423777796679798747131250552455356061834719512365575593221216339005132464338847195248627639623487124025890693416305788160905762011825079336880567461033322240015771102929696350161937950387427696385850443727777996483584464610046380722736790790188061964311222153985614287276995741553706506834906746892708903948496564047090014307484054609862129530262108669567834726352078060081889712109412073731026030466300060341737504223822014714056413752165841749368159510588178604096191956750941078391415634472219765129561622344109769892244712668402761549412177892054051266761597330660545704317210567759828757156904778495608968785747998059857467440128156068391746919684258227682866083662345263659558066864109212457286114506228470930775092735385388316268663664139056183180238043386636254075940621543717531670995823417070666005930452836389812129462051771646048498397195157405386923446893886593048680984896989809135802276892911038588008701926729269812453226891776546037663583893625479252643042517196958990266376741676514631089466493864064316127648074609662749196545969926051 e = 65537 c = 98280456757136766244944891987028935843441533415613592591358482906016439563076150526116369842213103333480506705993633901994107281890187248495507270868621384652207697607019899166492132408348789252555196428608661320671877412710489782358282011364127799563335562917707783563681920786994453004763755404510541574502176243896756839917991848428091594919111448023948527766368304503100650379914153058191140072528095898576018893829830104362124927140555107994114143042266758709328068902664037870075742542194318059191313468675939426810988239079424823495317464035252325521917592045198152643533223015952702649249494753395100973534541766285551891859649320371178562200252228779395393974169736998523394598517174182142007480526603025578004665936854657294541338697513521007818552254811797566860763442604365744596444735991732790926343720102293453429936734206246109968817158815749927063561835274636195149702317415680401987150336994583752062565237605953153790371155918439941193401473271753038180560129784192800351649724465553733201451581525173536731674524145027931923204961274369826379325051601238308635192540223484055096203293400419816024111797903442864181965959247745006822690967920957905188441550106930799896292835287867403979631824085790047851383294389 ``` - Try taking n to factor we find p,q  ```python= from Crypto.Util.number import * e = 65537 p = 19579267410474709598749314750954211170621862561006233612440352022286786882372619130071639824109783540564512429081674132336811972404563957025465034025781206466631730784516337210291334356396471732168742739790464109881039219452504456611589154349427303832789968502204300316585544080003423669120186095188478480761108168299370326928127888786819392372477069515318179751702985809024210164243409544692708684215042226932081052831028570060308963093217622183111643335692362635203582868526178838018946986792656819885261069890315500550802303622551029821058459163702751893798676443415681144429096989664473705850619792495553724950931 q = 19579267410474709598749314750954211170621862561006233612440352022286786882372619130071639824109783540564512429081674132336811972404563957025465034025781206466631730784516337210291334356396471732168742739790464109881039219452504456611589154349427303832789968502204300316585544080003423669120186095188478480761108168299370326928127888786819392372477069515318179751702985809024210164243409544692708684215042226932081052831028570060308963093217622183111643335692361019897449265402290540025790581589980867847884281862216603571536255382298035337865885153328169634178323279004749915197270120323340416965014136429743252761521 phiN = (p - 1) * (q - 1) d = pow(e,-1,phiN) n = p * q c = 98280456757136766244944891987028935843441533415613592591358482906016439563076150526116369842213103333480506705993633901994107281890187248495507270868621384652207697607019899166492132408348789252555196428608661320671877412710489782358282011364127799563335562917707783563681920786994453004763755404510541574502176243896756839917991848428091594919111448023948527766368304503100650379914153058191140072528095898576018893829830104362124927140555107994114143042266758709328068902664037870075742542194318059191313468675939426810988239079424823495317464035252325521917592045198152643533223015952702649249494753395100973534541766285551891859649320371178562200252228779395393974169736998523394598517174182142007480526603025578004665936854657294541338697513521007818552254811797566860763442604365744596444735991732790926343720102293453429936734206246109968817158815749927063561835274636195149702317415680401987150336994583752062565237605953153790371155918439941193401473271753038180560129784192800351649724465553733201451581525173536731674524145027931923204961274369826379325051601238308635192540223484055096203293400419816024111797903442864181965959247745006822690967920957905188441550106930799896292835287867403979631824085790047851383294389 flag = pow(c, d, n) flag = long_to_bytes(flag) print(flag) ``` - In this flag```crypto{f3rm47_w45_4_g3n1u5}``` ### Marin's Secrets - Task for file ```#!/usr/bin/env python3 import random from Crypto.Util.number import bytes_to_long, inverse from secret import secrets, flag def get_prime(secret): prime = 1 for _ in range(secret): prime = prime << 1 return prime - 1 secrets = random.shuffle(secrets) m = bytes_to_long(flag) p = get_prime(secrets[0]) q = get_prime(secrets[1]) n = p * q e = 0x10001 c = pow(m, e, n) print(f"n = {n}") print(f"e = {e}") print(f"c = {c}") ``` ``` n: 658416274830184544125027519921443515789888264156074733099244040126213682497714032798116399288176502462829255784525977722903018714434309698108208388664768262754316426220651576623731617882923164117579624827261244506084274371250277849351631679441171018418018498039996472549893150577189302871520311715179730714312181456245097848491669795997289830612988058523968384808822828370900198489249243399165125219244753790779764466236965135793576516193213175061401667388622228362042717054014679032953441034021506856017081062617572351195418505899388715709795992029559042119783423597324707100694064675909238717573058764118893225111602703838080618565401139902143069901117174204252871948846864436771808616432457102844534843857198735242005309073939051433790946726672234643259349535186268571629077937597838801337973092285608744209951533199868228040004432132597073390363357892379997655878857696334892216345070227646749851381208554044940444182864026513709449823489593439017366358869648168238735087593808344484365136284219725233811605331815007424582890821887260682886632543613109252862114326372077785369292570900594814481097443781269562647303671428895764224084402259605109600363098950091998891375812839523613295667253813978434879172781217285652895469194181218343078754501694746598738215243769747956572555989594598180639098344891175879455994652382137038240166358066403475457 e: 65537 c: 400280463088930432319280359115194977582517363610532464295210669530407870753439127455401384569705425621445943992963380983084917385428631223046908837804126399345875252917090184158440305503817193246288672986488987883177380307377025079266030262650932575205141853413302558460364242355531272967481409414783634558791175827816540767545944534238189079030192843288596934979693517964655661507346729751987928147021620165009965051933278913952899114253301044747587310830419190623282578931589587504555005361571572561916866063458812965314474160499067525067495140150092119620928363007467390920130717521169105167963364154636472055084012592138570354390246779276003156184676298710746583104700516466091034510765027167956117869051938116457370384737440965109619578227422049806566060571831017610877072484262724789571076529586427405780121096546942812322324807145137017942266863534989082115189065560011841150908380937354301243153206428896320576609904361937035263985348984794208198892615898907005955403529470847124269512316191753950203794578656029324506688293446571598506042198219080325747328636232040936761788558421528960279832802127562115852304946867628316502959562274485483867481731149338209009753229463924855930103271197831370982488703456463385914801246828662212622006947380115549529820197355738525329885232170215757585685484402344437894981555179129287164971002033759724456 ``` - In this article we will use Mersenne Attack. Mersenne primes are represented as $2^n -1$ . And having found 50 Mersenne integers and our n is also among them we just need to decompose n into p and q ```python= from Crypto.Util.number import * from gmpy2 import * n= 658416274830184544125027519921443515789888264156074733099244040126213682497714032798116399288176502462829255784525977722903018714434309698108208388664768262754316426220651576623731617882923164117579624827261244506084274371250277849351631679441171018418018498039996472549893150577189302871520311715179730714312181456245097848491669795997289830612988058523968384808822828370900198489249243399165125219244753790779764466236965135793576516193213175061401667388622228362042717054014679032953441034021506856017081062617572351195418505899388715709795992029559042119783423597324707100694064675909238717573058764118893225111602703838080618565401139902143069901117174204252871948846864436771808616432457102844534843857198735242005309073939051433790946726672234643259349535186268571629077937597838801337973092285608744209951533199868228040004432132597073390363357892379997655878857696334892216345070227646749851381208554044940444182864026513709449823489593439017366358869648168238735087593808344484365136284219725233811605331815007424582890821887260682886632543613109252862114326372077785369292570900594814481097443781269562647303671428895764224084402259605109600363098950091998891375812839523613295667253813978434879172781217285652895469194181218343078754501694746598738215243769747956572555989594598180639098344891175879455994652382137038240166358066403475457 e=65537 c= 400280463088930432319280359115194977582517363610532464295210669530407870753439127455401384569705425621445943992963380983084917385428631223046908837804126399345875252917090184158440305503817193246288672986488987883177380307377025079266030262650932575205141853413302558460364242355531272967481409414783634558791175827816540767545944534238189079030192843288596934979693517964655661507346729751987928147021620165009965051933278913952899114253301044747587310830419190623282578931589587504555005361571572561916866063458812965314474160499067525067495140150092119620928363007467390920130717521169105167963364154636472055084012592138570354390246779276003156184676298710746583104700516466091034510765027167956117869051938116457370384737440965109619578227422049806566060571831017610877072484262724789571076529586427405780121096546942812322324807145137017942266863534989082115189065560011841150908380937354301243153206428896320576609904361937035263985348984794208198892615898907005955403529470847124269512316191753950203794578656029324506688293446571598506042198219080325747328636232040936761788558421528960279832802127562115852304946867628316502959562274485483867481731149338209009753229463924855930103271197831370982488703456463385914801246828662212622006947380115549529820197355738525329885232170215757585685484402344437894981555179129287164971002033759724456 m = [2,3, 5, 7, 13, 17, 19, 31, 61, 89, 107, 127, 521, 607, 1279, 2203, 2281, 3217, 4253, 4423, 9689, 9941, 11213, 19937, 21701, 23209, 44497, 86243, 110503, 132049, 216091, 756839, 859433, 1257787, 1398269, 2976221, 3021377, 6972593, 13466917, 20996011, 24036583, 25964951, 30402457, 32582657, 37156667, 42643801, 43112609, 57885161, 74207281, 77232917, 82589933] for i in m: p = 2**i - 1 if n % p == 0: q = n // p print("p = ",p) print("q = ",q) break phiN = (p - 1) * (q - 1) d = inverse(e, phiN) m = pow(c, d, n) flag = long_to_bytes(m).decode() print(flag) ``` - In this flag```crypto{Th3se_Pr1m3s_4r3_t00_r4r3}```