PCI DSS MCP

Miradi inayofuata mazoea bora hapa chini inaweza kujihakikisha kwa hiari na kuonyesha kuwa wamepata nishani ya mazoea bora ya Open Source Security Foundation (OpenSSF).

Hakuna seti ya mazoea yawezayo kuhakikisha kuwa programu haitakuwa na kasoro au udhaifu; hata mbinu rasmi zinaweza kushindwa ikiwa vipimo au dhana ni sahihi. Wala hakuna seti ya mazoea yawezayo kuhakikisha kuwa mradi utaendelea kuwa na jamii ya maendeleo yenye afya na inayofanya kazi vizuri. Hata hivyo, kufuata mazoea bora kunaweza kusaidia kuboresha matokeo ya miradi. Kwa mfano, baadhi ya mazoea huwezesha ukaguzi wa watu wengi kabla ya kutolewa, ambayo inaweza kusaidia kupata udhaifu wa kiufundi ambao vinginevyo ni vigumu kupata na kusaidia kujenga uaminifu na hamu ya mwingiliano wa kurudia kati ya wasanidi programu kutoka makampuni tofauti. Ili kupata nishani, vigezo vyote vya LAZIMA na LAZIMA WALA USIWAHI lazima vifuatwe, vigezo vyote vya INAPASWA lazima vifuatwe AU visivyo fufufutiliana na thibitisho, na vigezo vyote vya PENDEKEZA lazima vifuatwe AU visivyo fufufutiliana (tunataka vifikiwe angalau). Ikiwa unataka kuingiza maandishi ya thibitisho kama maoni ya jumla, badala ya kuwa maelezo ya busara kwamba hali ni inakubaliwa, anza kifungu cha maandishi na '//' ikifuatiwa na nafasi. Maoni ni karibu kupitia tovuti ya GitHub kama masuala au maombi ya kuvuta Kuna pia orodha ya barua pepe kwa majadiliano ya jumla.

Tunafuraha kutoa habari katika lugha nyingi, hata hivyo, ikiwa kuna mgongano au kutokuwa na usawa kati ya tafsiri, toleo la Kiingereza ni toleo lenye mamlaka.
Ikiwa huu ni mradi wako, tafadhali onyesha hadhi ya nishani yako kwenye ukurasa wa mradi wako! Hadhi ya nishani inaonekana kama hii: Kiwango cha nishani kwa mradi 12547 ni passing Hapa ni jinsi ya kuiweka:
Unaweza kuonyesha hali ya nishani yako kwa kuweka hii katika faili yako ya markdown:
[![OpenSSF Best Practices](https://www.bestpractices.dev/projects/12547/badge)](https://www.bestpractices.dev/projects/12547)
au kwa kuweka hii katika HTML yako:
<a href="https://www.bestpractices.dev/projects/12547"><img src="https://www.bestpractices.dev/projects/12547/badge"></a>


Hizi ni vigezo vya kiwango cha Kupita. Unaweza pia kuangalia vigezo vya kiwango cha Fedha au Dhahabu.

Baseline Series: Kiwango cha Msingi 1 Kiwango cha Msingi 2 Kiwango cha Msingi 3

        

 Misingi 13/13

  • Jumla

    Kumbuka kwamba miradi mingine inaweza kutumia jina sawa.

    PCI DSS v4.0.1 static analysis scanner for Go payment services, delivered as a Model Context Protocol (MCP) server

    Tafadhali tumia muundo wa maneno ya leseni ya SPDX; mifano ni pamoja na "Apache-2.0", "BSD-2-Clause", "BSD-3-Clause", "GPL-2.0+", "LGPL-3.0+", "MIT", na "(BSD-2-Clause OR Ruby)". Usitumie alama za nukuu za moja au mbili.
    Ikiwa kuna lugha zaidi ya moja, ziorodhe kama thamani zilizotengwa kwa koma (nafasi ni za hiari) na ziorodhe kuanzia iliyotumiwa zaidi hadi iliyotumiwa kidogo. Ikiwa kuna orodha ndefu, tafadhali orodhesha angalau tatu za kawaida zaidi. Ikiwa hakuna lugha (k.m., huu ni mradi wa nyaraka tu au wa majaribio tu), tumia herufi moja "-". Tafadhali tumia herufi kubwa za kawaida kwa kila lugha, k.m., "JavaScript".
    Common Platform Enumeration (CPE) ni mpango wa kuweka majina yenye muundo kwa mifumo ya teknolojia ya habari, programu, na vifurushi. Inatumika katika mifumo na hifadhidata nyingi wakati wa kuripoti udhaifu.

    v0.1.0 is the first public release. Static analysis only - coverage is limited to 14 of 249 PCI DSS v4.0.1 requirements; full compliance audit requires a QSA.

  • Maudhui ya kimsingi ya tovuti ya mradi


    Ya kutosha kwa nishani!

    Tovuti ya mradi LAZIMA ieleze kwa ufupi programu inafanya nini (inasuluhu tatizo gani?). [description_good]
    Hii LAZIMA iwe katika lugha ambayo watumiaji watarajiwa wanaweza kuelewa (k.m., inatumia lugha ya kiufundi kidogo).

    The README's one-line tagline and the "What it does in 60 seconds" section succinctly describe the project as a static PCI DSS v4.0.1 compliance scanner for Go payment services, delivered as a Model Context Protocol (MCP) server for AI-assisted editors. The language targets the intended audience (Go developers working on payment services) using standard domain terminology. https://github.com/shyshlakov/pci-dss-mcp/blob/main/README.md#what-it-does-in-60-seconds


    Ya kutosha kwa nishani!

    Tovuti ya mradi LAZIMA itoe habari juu ya jinsi ya: kupata, kutoa maoni (kama ripoti za hitilafu au maboresho), na kuchangia kwenye programu. [interact]

    (1) Obtain: README documents installation at https://github.com/shyshlakov/pci-dss-mcp#install and setup at https://github.com/shyshlakov/pci-dss-mcp#setup. (2) Feedback: bug reports and feature requests are accepted via GitHub Issues at https://github.com/shyshlakov/pci-dss-mcp/issues — CONTRIBUTING.md documents the expected information for a useful report. (3) Contribute: CONTRIBUTING.md at https://github.com/shyshlakov/pci-dss-mcp/blob/main/CONTRIBUTING.md describes the pull request workflow, development environment, test commands, and code style conventions. Private security vulnerability reports go through SECURITY.md at https://github.com/shyshlakov/pci-dss-mcp/blob/main/SECURITY.md rather than public issues.


    Ya kutosha kwa nishani!

    Habari juu ya jinsi ya kuchangia LAZIMA ieleze mchakato wa uchangiaji (kwa mfano, je! Maombi ya kuvuta yanatumika?) (URL inahitajika) [contribution]
    Tunafikiria kuwa miradi kwenye GitHub hutumia maswala na kuvuta maombi isipokuwa palipoonyeshwa vingine. Habari hii inaweza kuwa fupi, kwa mfano, ikisema kuwa mradi hutumia maombi ya kuvuta, msako wa suala, au machapisho kwenye orodha ya barua (ipi?)

    ONTRIBUTING.md explicitly states "Pull requests are the only accepted contribution channel" and documents a 5-step workflow: fork, create a topic branch from main, run the local test suite (make test / make vet), open a pull request against main, and address review feedback. A single maintainer reviews contributions within approximately one week. https://github.com/shyshlakov/pci-dss-mcp/blob/main/CONTRIBUTING.md#contribution-process


    Ya kutosha kwa nishani!

    Habari juu ya jinsi ya kuchangia INAPASWA kujumuisha mahitaji ya michango inayokubalika (k.m., rejeleo la kiwango chochote kinachohitajika cha usimbaji). (URL inahitajika) [contribution_requirements]

    CONTRIBUTING.md documents acceptable-contribution requirements in three dedicated sections: "Code style" (error handling rules including no silent error discard and the Go nil-interface trap, comment discipline, table-driven test convention, no emoji), "Commit messages" (Conventional Commits format with imperative mood and a 72-character body wrap), and "Scanner design conventions" (binding rules for new detection rules - INFO findings for verified-OK, context-aware matching, three-tier severity, suppression with audit trail). New detection rules must also follow the fixture TDD cycle documented under "Running tests". https://github.com/shyshlakov/pci-dss-mcp/blob/main/CONTRIBUTING.md#code-style


  • Leseni ya FLOSS


    Ya kutosha kwa nishani!

    Programu iliyozalishwa na mradi LAZIMA itolewa kama FLOSS. [floss_license]
    FLOSS ni programu iliyotolewa kwa njia inayokidhi Ufafanuzi wa Chanzo Wazi au Ufafanuzi wa Programu Huria. Mifano ya leseni kama hizo ni pamoja na CC0, MIT, BSD 2-clause, BSD 3-clause revised, Apache 2.0, Lesser GNU General Public License (LGPL), na GNU General Public License (GPL). Kwa madhumuni yetu, hii inamaanisha kuwa leseni LAZIMA iwe: Programu YAWEZA pia kupatiwa leseni kwa njia nyingine (k.m., "GPLv2 au ya kibinafsi" inakubaliwa).

    The MIT license is approved by the Open Source Initiative (OSI).


    Ya kutosha kwa nishani!

    INAPENDEKEZA kwamba leseni yoyote inayohitajika kwa programu iliyozalishwa na mradi iwe imeidhinishwa na Open Source Initiative (OSI). [floss_license_osi]
    OSI inatumia mchakato mgumu wa uidhinishaji kuamua ni leseni zipi ni OSS.

    The MIT license is approved by the Open Source Initiative (OSI).


    Ya kutosha kwa nishani!

    Mradi LAZIMA uweke leseni za matokeo yake mahali pa kawaida katika hazina yake ya chanzo. (URL inahitajika) [license_location]
    Desturi moja ni kuweka leseni kama faili ya ngazi ya juu inayoitwa LICENSE au COPYING, ambayo YAWEZA kufuatiwa na kiendelezi kama ".txt" au ".md". Desturi mbadala ni kuwa na saraka inayoitwa LICENSES inayohifadhi faili za leseni; faili hizi kwa kawaida zinaitwa kama kitambulisho chao cha leseni ya SPDX kikifuatiwa na kiendelezi kinachofaa, kama ilivyoelezwa katika Maelezo ya REUSE. Kumbuka kwamba kigezo hiki ni mahitaji tu kwenye hazina ya chanzo. Huhitaji kuingiza faili ya leseni wakati wa kuzalisha kitu kutoka kwenye msimbo wa chanzo (kama programu inayotekelezeka, kifurushi, au chombo). Kwa mfano, wakati wa kuzalisha kifurushi cha R kwa Mtandao wa Kumbukumbu Kamili wa R (CRAN), fuata mazoea ya kawaida ya CRAN: ikiwa leseni ni leseni ya kawaida, tumia maelezo mafupi ya kawaida ya leseni (ili kuepuka kusakinisha nakala nyingine ya maandishi) na orodhesha faili ya LICENSE katika faili ya kutengwa kama .Rbuildignore. Vivyo hivyo, wakati wa kuunda kifurushi cha Debian, unaweza kuweka kiungo katika faili ya hakimiliki kwa maandishi ya leseni katika /usr/share/common-licenses, na utenge faili ya leseni kutoka kwenye kifurushi kilichoundwa (k.m., kwa kufuta faili baada ya kuita dh_auto_install). Tunashauri jumuisha maelezo ya leseni yanayoweza kusomwa na mashine katika miundo iliyozalishwa mahali inapofaa.

    Non-trivial license location file in repository: https://github.com/shyshlakov/pci-dss-mcp/blob/main/LICENSE.


  • Nyaraka


    Ya kutosha kwa nishani!

    Mradi LAZIMA utoe nyaraka za msingi za programu iliyozalishwa na mradi. [documentation_basics]
    Nyaraka hizi lazima ziwe katika vyombo fulani (kama maandishi au video) vinavyojumuisha: jinsi ya kuisakinisha, jinsi ya kuianzisha, jinsi ya kuitumia (huenda ikijumuisha mafunzo kwa kutumia mifano), na jinsi ya kuitumia kwa usalama (k.m., nini cha kufanya na nini cha kutofanya) ikiwa hiyo ni mada inayofaa kwa programu. Nyaraka za usalama lazima zisiwe ndefu. Mradi YAWEZA kutumia viungo vya hypertext kwa nyenzo zisizo za mradi kama nyaraka. Ikiwa mradi hauzalishi programu, chagua "haihusiki" (N/A).

    Some documentation basics file contents found.


    Ya kutosha kwa nishani!

    Mradi LAZIMA utoe nyaraka za marejeleo zinazofafanua kiolesura cha nje (ingizo na matokeo) cha programu iliyozalishwa na mradi. [documentation_interface]
    Nyaraka za kiolesura cha nje zinaeleza kwa mtumiaji wa mwisho au msanidi jinsi ya kuitumia. Hii itajumuisha kiolesura chake cha programu ya programu (API) ikiwa programu ina. Ikiwa ni maktaba, andika madarasa/aina kuu na mbinu/vitendakazi vinavyoweza kuitwa. Ikiwa ni programu ya wavuti, fafanua kiolesura chake cha URL (mara nyingi kiolesura chake cha REST). Ikiwa ni kiolesura cha mstari wa amri, andika vigezo na chaguo zinazosaidia. Katika hali nyingi ni bora ikiwa nyingi ya nyaraka hizi zinazalishwa kiotomatiki, ili nyaraka hizi zibaki zikisawazishwa na programu inavyobadilika, lakini hii haihitajiki. Mradi YAWEZA kutumia viungo vya hypertext kwa nyenzo zisizo za mradi kama nyaraka. Nyaraka ZIWEZA kuzalishwa kiotomatiki (ambapo ni vitendo hii mara nyingi ndiyo njia bora ya kufanya hivyo). Nyaraka za kiolesura cha REST zinaweza kuzalishwa kwa kutumia Swagger/OpenAPI. Nyaraka za kiolesura cha msimbo ZINAWEZA kuzalishwa kwa kutumia zana kama vile JSDoc (JavaScript), ESDoc (JavaScript), pydoc (Python), devtools (R), pkgdown (R), na Doxygen (nyingi). Kuwa na maoni tu katika msimbo wa utekelezaji haitoshi kutosheleza kigezo hiki; kunahitaji kuwa na njia rahisi ya kuona habari bila kusoma kupitia msimbo wote wa chanzo. Ikiwa mradi hauzalishi programu, chagua "haihusiki" (N/A).

    Human-readable tool reference lives at docs/tools.md and documents every MCP tool's input parameters and output structure. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/docs/tools.md

    Machine-readable schema is provided at the protocol level. Every MCP tool declares a typed OutputSchema auto-inferred from Go struct jsonschema tags. An MCP client can retrieve the formal input and output schemas via the tools/list protocol call without any extra documentation.

    Additional reference documentation lives under docs/. This includes docs/severity.md for the finding severity model. Also docs/scoping.md for taint-analysis scoping. Also docs/ci-cd.md for CI/CD integration. Also docs/pci-coverage.md for the PCI DSS v4.0.1 requirement coverage map.


  • Mengine


    Ya kutosha kwa nishani!

    Tovuti za mradi (tovuti, hifadhi, na URL za kupakua) LAZIMA zisaidie HTTPS kwa kutumia TLS. [sites_https]
    Hii inahitaji kwamba URL ya ukurasa wa nyumbani wa mradi na URL ya hifadhi ya udhibiti wa toleo vianze na "https:", si "http:". Unaweza kupata vyeti vya bure kutoka Let's Encrypt. Miradi YAWEZA kutekeleza kigezo hiki kwa kutumia (kwa mfano) GitHub pages, GitLab pages, au SourceForge project pages. Ikiwa unasaidia HTTP, tunakuhimiza uelekeze trafiki ya HTTP kwenda HTTPS.

    Given only https: URLs.


    Ya kutosha kwa nishani!

    Mradi LAZIMA uwe na taratibu moja au zaidi za majadiliano (ikiwa ni pamoja na mabadiliko yaliyopendekezwa na masuala) yenye utafutaji, inaruhusu ujumbe na mada kuelekezwa kwa URL, inaruhusu watu wapya kushiriki katika baadhi ya majadiliano, na haihitaji usakinishaji wa upande wa mteja wa programu ya kibinafsi. [discussion]
    Mifano ya taratibu zinazokubalika ni pamoja na orodha za barua pepe zilizohifadhiwa, majadiliano ya suala la GitHub na ombi la kuvuta, Bugzilla, Mantis, na Trac. Taratibu za majadiliano yasiyo ya wakati mmoja (kama IRC) zinakubaliwa ikiwa zinakidhi vigezo hivi; hakikisha kuna utaratibu wa kuhifadhi unaoelekezwa kwa URL. JavaScript ya kibinafsi, ingawa haikubalika, inaruhusiwa.

    GitHub supports discussions on issues and pull requests.


    Ya kutosha kwa nishani!

    Mradi UNAPASWA kutoa nyaraka kwa Kiingereza na uweze kukubali ripoti za hitilafu na maoni kuhusu msimbo kwa Kiingereza. [english]
    Kiingereza kwa sasa ni lingua franca ya teknolojia ya kompyuta; kusaidia Kiingereza huongeza idadi ya wasanidi na wakaguzi tofauti wa uwezekano duniani kote. Mradi unaweza kukidhi kigezo hiki hata ikiwa lugha ya msingi ya wasanidi wake wakuu si Kiingereza.

    All project documentation is written in English. This includes README.md and SECURITY.md and CONTRIBUTING.md and CHANGELOG.md and every file under docs/. Bug reports and code comments are accepted in English via GitHub Issues at https://github.com/shyshlakov/pci-dss-mcp/issues and via pull requests at https://github.com/shyshlakov/pci-dss-mcp/pulls


    Ya kutosha kwa nishani!

    Mradi LAZIMA utunzwe. [maintained]
    Kama kiwango cha chini, mradi unapaswa kujaribu kujibu ripoti za tatizo muhimu na udhaifu. Mradi unaofuata kwa bidii nishani pengine unatengenezwa. Miradi yote na watu wana rasilimali zilizowekewa mipaka, na miradi ya kawaida lazima ikatae baadhi ya mabadiliko yaliyopendekezwa, hivyo rasilimali zilizowekewa mipaka na kukataa mapendekezo sio ishara ya mradi usiotekelezwa.

    Mradi unapojua kwamba hautatengenezwa tena, unapaswa kuweka kigezo hiki kama "Haikidhi" na utumie utaratibu sahihi ili kuwaonyesha wengine kwamba hautengenezwi. Kwa mfano, tumia "DEPRECATED" kama kichwa cha kwanza cha README yake, ongeza "DEPRECATED" karibu na mwanzo wa ukurasa wake wa nyumbani, ongeza "DEPRECATED" mwanzoni mwa maelezo ya mradi wa hifadhi ya msimbo, ongeza nishani isiyolindwa katika README yake na/au ukurasa wa nyumbani, iweke kama iliyolemewa katika hifadhi yoyote ya kifurushi (k.m., npm deprecate), na/au utumie mfumo wa alama wa hifadhi ya msimbo ili kuihifadhi (k.m., mpangilio wa "archive" wa GitHub, alama ya "archived" ya GitLab, hali ya "readonly" ya Gerrit, au hali ya mradi wa "abandoned" wa SourceForge). Majadiliano ya ziada yanaweza kupatikana hapa.

    The project is actively maintained by a single maintainer. First public release v0.1.0 was cut on 2026-04-15. URL: https://github.com/shyshlakov/pci-dss-mcp/releases/tag/v0.1.0

    Continuous integration runs on every push to main and every pull request. This includes tests on Linux and macOS under the Go race detector. Also golangci-lint. Also govulncheck. Also CodeQL analysis. Also OpenSSF Scorecard.

    Dependabot is enabled for Go modules and GitHub Actions updates. Dependabot security alerts and automated security fixes are active. Branch protection on main enforces 6 required status checks before any merge.


 Udhibiti wa Mabadiliko 9/9

  • Hifadhi ya chanzo ya kudhibiti toleo ya hadharani


    Ya kutosha kwa nishani!

    Mradi LAZIMA uwe na hifadhi ya chanzo ya kudhibiti toleo ambayo inaweza kusomwa hadharani na ina URL. [repo_public]
    URL YAWEZA kuwa sawa na URL ya mradi. Mradi YAWEZA kutumia matawi ya faragha (yasiyo ya umma) katika hali maalum wakati mabadiliko hayajatolewa hadharani (k.m., kwa kurekebisha udhaifu kabla haujafichuliwa kwa umma).

    Repository on GitHub, which provides public git repositories with URLs.


    Ya kutosha kwa nishani!

    Hifadhi ya chanzo ya mradi LAZIMA ifuatilie mabadiliko yaliyofanywa, nani alifanya mabadiliko, na mabadiliko yalifanywa lini. [repo_track]

    Repository on GitHub, which uses git. git can track the changes, who made them, and when they were made.


    Ya kutosha kwa nishani!

    Ili kuwezesha ukaguzi wa ushirikiano, hifadhi ya chanzo ya mradi LAZIMA ijumuishe matoleo ya kati kwa ukaguzi kati ya matoleo; HAIPASWA kujumuisha matoleo ya mwisho tu. [repo_interim]
    Miradi YAWEZA kuchagua kuondoa matoleo maalum ya kati kutoka hifadhi zao za chanzo za umma (k.m., zile zinazorekebi udhaifu maalum usiokuwa wa umma, huenda zisitolewe hadharani, au zijumuishe nyenzo ambazo haziwezi kuwekwa kisheria na haziko katika toleo la mwisho).

    The project uses standard Git development. Every commit is visible in the main branch history at https://github.com/shyshlakov/pci-dss-mcp/commits/main

    Commits leading up to release v0.1.0 are preserved and reviewable. Future development between releases will continue to land as individual commits through pull requests against main. Branch protection on main requires status checks and does not allow force-push overwrites of history.


    Ya kutosha kwa nishani!

    INASHAURIWA kwamba programu ya kawaida ya udhibiti wa toleo iliyosambazwa itumike (k.m., git) kwa hifadhi ya chanzo ya mradi. [repo_distributed]
    Git haihitajiki kihususa na miradi inaweza kutumia programu ya udhibiti wa toleo iliyokusanyika (kama subversion) na sababu.

    Repository on GitHub, which uses git. git is distributed.


  • Unambari wa toleo wa kipekee


    Ya kutosha kwa nishani!

    Matokeo ya mradi LAZIMA yawe na kitambulisho cha kipekee cha toleo kwa kila toleo linalokusudiwa kutumiwa na watumiaji. [version_unique]
    Hii YAWEZA kukidhi kwa njia mbalimbali ikiwa ni pamoja na vitambulisho vya kuwasilisha (kama kitambulisho cha kuwasilisha cha git au kitambulisho cha seti ya mabadiliko cha mercurial) au nambari ya toleo (ikiwa ni pamoja na nambari za toleo zinazotumia uainishaji wa maana au mipango ya tarehe kama YYYYMMDD).

    The project follows Semantic Versioning 2.0.0. Each release is identified by a unique vMAJOR.MINOR.PATCH Git tag. The first public release is tagged v0.1.0. URL: https://github.com/shyshlakov/pci-dss-mcp/releases/tag/v0.1.0

    Tags are created as annotated Git tags with metadata. The Go module proxy and checksum database enforce tag immutability. A tag cannot be reused for a different release.


    Ya kutosha kwa nishani!

    INASHAURIWA kwamba muundo wa nambari ya toleo ya Semantic Versioning (SemVer) au Calendar Versioning (CalVer) itumike kwa matoleo. INASHAURIWA kwamba wale wanaotumia CalVer wajumuishe thamani ya kiwango cha mdogo. [version_semver]
    Miradi kwa ujumla inapaswa kupendelea muundo wowote unaotarajiwa na watumiaji wao, k.m., kwa sababu ni muundo wa kawaida unaotumiwa na ikolojia yao. Ikolojia nyingi zinapendelea SemVer, na SemVer kwa ujumla hupendelewa kwa kiolesura cha programu ya programu (API) na zana za maendeleo ya programu (SDK). CalVer hutumiwa na miradi ambayo ni kubwa, ina idadi kubwa ya utegemezi ulioundwa kwa uhuru, ina upeo wa mara kwa mara unaobadilika, au ni ya muda muhimu. INASHAURIWA kwamba wale wanaotumia CalVer wajumuishe thamani ya kiwango cha mdogo, kwa sababu kujumuisha kiwango cha mdogo kunasaidia matawi yaliyotunzwa kwa wakati mmoja wakati wowote hilo linakuwa lazima. Miundo mingine ya nambari ya toleo inaweza kutumiwa kama nambari za toleo, ikiwa ni pamoja na vitambulisho vya kuwasilisha cha git au vitambulisho vya seti ya mabadiliko cha mercurial, mradi tu vikitambulisha matoleo kwa kipekee. Hata hivyo, baadhi ya mbadala (kama vitambulisho vya kuwasilisha cha git) vinaweza kusababisha matatizo kama vitambulisho vya toleo, kwa sababu watumiaji huenda wasiwe na uwezo wa kuamua kwa urahisi ikiwa wako na toleo la hivi karibuni. Muundo wa kitambulisho cha toleo unaweza kutokuwa wa maana kwa kutambulisha matoleo ya programu ikiwa wapokeaji wote wanaendesha toleo la hivi karibuni tu (k.m., ni msimbo wa tovuti moja au huduma ya mtandao ambayo inasasishwa mara kwa mara kupitia utoaji wa kuendelea).

    Ya kutosha kwa nishani!

    INASHAURIWA kwamba miradi itambulishe kila toleo ndani ya mfumo wao wa udhibiti wa toleo. Kwa mfano, INASHAURIWA kwamba wale wanaotumia git watambulishe kila toleo kwa kutumia lebo za git. [version_tags]

    Each release is identified by an annotated Git tag in the repository. The v0.1.0 release has an annotated tag visible at https://github.com/shyshlakov/pci-dss-mcp/releases/tag/v0.1.0 and in the Git tag list at https://github.com/shyshlakov/pci-dss-mcp/tags


  • Maelezo ya kutolewa


    Ya kutosha kwa nishani!

    Mradi LAZIMA utoe, katika kila toleo, maelezo ya toleo ambayo ni muhtasari unaosomeka na binadamu wa mabadiliko makuu katika toleo hilo ili kuwasaidia watumiaji kuamua ikiwa wanapaswa kusasisha na athari ya kusasisha itakuwa nini. Maelezo ya toleo LAZIMA yasiwe matokeo ghafi ya kumbukumbu ya udhibiti wa toleo (k.m., matokeo ya amri ya "git log" si maelezo ya toleo). Miradi ambayo matokeo yake hayakusudiwa kutumika tena katika maeneo mengi (kama programu kwa tovuti moja au huduma) NA wanaotumia utoaji wa kuendelea WAWEZA kuchagua "N/A". (URL inahitajika) [release_notes]
    Maelezo ya toleo YAWEZA kutekelezwa kwa njia mbalimbali. Miradi mingi hutoa katika faili inayoitwa "NEWS", "CHANGELOG", au "ChangeLog", kwa hiari na viendelezi kama ".txt", ".md", au ".html". Kihistoria neno "change log" lilimaanisha kumbukumbu ya kila mabadiliko, lakini ili kukidhi vigezo hivi kinachohitajika ni muhtasari unaosomeka na binadamu. Maelezo ya toleo YAWEZA badala yake kutolewa na taratibu za mfumo wa udhibiti wa toleo kama mtiririko wa Matoleo ya GitHub.

    Non-trivial release notes file in repository: https://github.com/shyshlakov/pci-dss-mcp/blob/main/CHANGELOG.md.


    Ya kutosha kwa nishani!

    Maelezo ya toleo LAZIMA yatambulishe kila udhaifu wa muda wa kutekeleza uliojulikana hadharani uliorekebishwa katika toleo hili ambao tayari ulikuwa na mgawanyo wa CVE au sawa wakati toleo lilipobuniwa. Kigezo hiki kinaweza kuwekwa alama kama haihusiki (N/A) ikiwa watumiaji kwa kawaida hawawezi kwa vitendo kusasisha programu wao wenyewe (k.m., kama inavyokuwa kweli mara nyingi kwa masasisho ya kernel). Kigezo hiki kinatumika tu kwa matokeo ya mradi, si kwa utegemezi wake. Ikiwa hakuna maelezo ya toleo au hakujawa na udhaifu uliojulikana hadharani, chagua N/A. [release_notes_vulns]
    Kigezo hiki kinawasaidia watumiaji kuamua ikiwa sasisho fulani litarekebisha udhaifu ambao unajulikana hadharani, ili kuwasaidia watumiaji kufanya uamuzi wa habari kuhusu kusasisha. Ikiwa watumiaji kwa kawaida hawawezi kwa vitendo kusasisha programu wao wenyewe kwenye kompyuta zao, lakini badala yake lazima wategemee wapatanishi mmoja au zaidi kutekeleza sasisho (kama inavyokuwa mara nyingi kwa kernel na programu ya kiwango cha chini ambayo imefungwa na kernel), mradi unaweza kuchagua "haihusiki" (N/A) badala yake, kwani habari hii ya ziada haitakuwa ya msaada kwa watumiaji hao. Vivyo hivyo, mradi unaweza kuchagua N/A ikiwa wapokeaji wote wanaendesha toleo la hivi karibuni tu (k.m., ni msimbo wa tovuti moja au huduma ya mtandao ambayo inasasishwa mara kwa mara kupitia utoaji wa kuendelea). Kigezo hiki kinatumika tu kwa matokeo ya mradi, si kwa utegemezi wake. Kuorodhesha udhaifu wa utegemezi wote wa mpito wa mradi unakuwa mgumu kadiri utegemezi unavyoongezeka na kutofautiana, na haihitajiki kwani zana zinazochunguza na kufuatilia utegemezi zinaweza kufanya hivi kwa njia inayopanuka.

    v0.1.0 is the first public release. There were no publicly known vulnerabilities with a CVE assignment in the project results at the time of this release. The release notes still include an explicit Security section confirming no run-time vulnerabilities are fixed in this release and that govulncheck runs clean against the dependency set. URL: https://github.com/shyshlakov/pci-dss-mcp/releases/tag/v0.1.0


 Kuripoti 8/8

  • Mchakato wa kuripoti hitilafu


    Ya kutosha kwa nishani!

    Mradi LAZIMA utoe mchakato kwa watumiaji kuwasilisha ripoti za hitilafu (k.m., kwa kutumia kifuatiliaji cha masuala au orodha ya barua pepe). (URL inahitajika) [report_process]

    Non-trivial SECURITY[.md] file found file in repository: https://github.com/shyshlakov/pci-dss-mcp/blob/main/SECURITY.md. [osps_do_02_01]


    Ya kutosha kwa nishani!

    Mradi UNAPASWA kutumia kifuatiliaji cha masuala kwa kufuatilia masuala ya mtu binafsi. [report_tracker]

    The project uses GitHub Issues as its issue tracker. URL: https://github.com/shyshlakov/pci-dss-mcp/issues

    CONTRIBUTING.md directs bug reports and feature requests to GitHub Issues. SECURITY.md documents a private channel for vulnerability reports so security issues do not land in the public tracker


    Ya kutosha kwa nishani!

    Mradi LAZIMA uthibitishe wengi wa ripoti za hitilafu zilizowasilishwa katika miezi 2-12 iliyopita (ikiwemo); jibu halihitaji kuwa na marekebisho. [report_responses]

    The project was published with its first public release v0.1.0 on 2026-04-15. No bug reports have been submitted yet. CONTRIBUTING.md sets an expected initial response time of approximately one week for contributions and bug reports. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/CONTRIBUTING.md#contribution-process

    Tracker state at time of submission: https://github.com/shyshlakov/pci-dss-mcp/issues


    Ya kutosha kwa nishani!

    Mradi UNAPASWA kujibu wengi (>50%) wa maombi ya maboresho katika miezi 2-12 iliyopita (ikiwemo). [enhancement_responses]
    Jibu LIWEZA kuwa 'hapana' au majadiliano kuhusu manufaa yake. Lengo ni kwamba kuwe na jibu fulani kwa baadhi ya maombi, ambayo inaonyesha kwamba mradi bado unaishi. Kwa madhumuni ya kigezo hiki, miradi haihitaji kuhesabu maombi ya bandia (k.m., kutoka kwa wafanyabiashara haramu au mifumo ya kiotomatiki). Ikiwa mradi hauendelei kufanya maboresho tena, tafadhali chagua "haijatimizwa" na jumuisha URL inayofanya hali hii kuwa wazi kwa watumiaji. Ikiwa mradi huwa na msongo wa maombi ya maboresho, tafadhali chagua "haijatimizwa" na eleza.

    The project was published with its first public release v0.1.0 on 2026-04-15. No enhancement requests have been submitted yet. The maintainer will respond to incoming enhancement requests through the same GitHub Issues channel used for bug reports. URL: https://github.com/shyshlakov/pci-dss-mcp/issues


    Ya kutosha kwa nishani!

    Mradi LAZIMA uwe na kumbukumbu inayopatikana hadharani kwa ripoti na majibu kwa utaftaji wa baadaye. (URL inahitajika) [report_archive]

    GitHub Issues serves as the public searchable archive for all bug reports and responses. Every issue has a stable URL. All comments are preserved. The archive covers both open and closed issues and is searchable by full-text query, labels, author, and status. URL: https://github.com/shyshlakov/pci-dss-mcp/issues?q=is%3Aissue


  • Mchakato wa kuripoti udhaifu


    Ya kutosha kwa nishani!

    Mradi LAZIMA uchapishe mchakato wa kuripoti udhaifu kwenye tovuti ya mradi. (URL inahitajika) [vulnerability_report_process]
    Miradi iliyohifadhiwa kwenye GitHub INAPASWA kuzingatia kuwezesha kuripoti udhaifu wa usalama kwa faragha. Miradi kwenye GitLab INAPASWA kuzingatia kutumia uwezo wake wa kuripoti udhaifu kwa faragha. Miradi YAWEZA kutambulisha anwani ya barua pepe kwenye https://PROJECTSITE/security, mara nyingi katika muundo wa security@example.org. Mchakato huu wa kuripoti udhaifu UWEZA kuwa sawa na mchakato wake wa kuripoti hitilafu. Ripoti za udhaifu ZIWEZA kuwa za umma kila wakati, lakini miradi mingi ina utaratibu wa kuripoti udhaifu wa faragha.

    The project publishes its vulnerability reporting process in SECURITY.md at the root of the repository. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/SECURITY.md

    GitHub also surfaces the policy in the repository Security tab and exposes a "Report a vulnerability" entry point at https://github.com/shyshlakov/pci-dss-mcp/security


    Ya kutosha kwa nishani!

    Ikiwa ripoti za udhaifu wa faragha zinasaidiwa, mradi LAZIMA ujumuishe jinsi ya kutuma habari kwa njia ambayo inawekwa faragha. (URL inahitajika) [vulnerability_report_private]
    Mifano ni pamoja na ripoti ya kasoro ya faragha iliyowasilishwa kwenye wavuti kwa kutumia HTTPS (TLS) au barua pepe iliyosimbwa kwa kutumia OpenPGP. Ikiwa ripoti za udhaifu ni za umma kila wakati (kwa hiyo hakuna ripoti za udhaifu za faragha), chagua "haihusiki" (N/A).

    SECURITY.md documents two private channels for vulnerability reports.

    The preferred channel is GitHub Security Advisories. Reporters submit through the form at https://github.com/shyshlakov/pci-dss-mcp/security/advisories/new which keeps the report confidential until a fix is released.

    The alternative channel is direct email to the maintainer with the address listed in commit history. The required information is documented (description, reproduction steps, affected versions, severity assessment).

    Initial response is committed within 72 hours. Full disclosure process is documented in SECURITY.md. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/SECURITY.md#reporting-a-vulnerability


    Ya kutosha kwa nishani!

    Muda wa majibu ya awali ya mradi kwa ripoti yoyote ya udhaifu iliyopokelewa katika miezi 6 iliyopita LAZIMA uwe chini ya au sawa na siku 14. [vulnerability_report_response]
    Ikiwa hakujawa na udhaifu ulioripotiwa katika miezi 6 iliyopita, chagua "haihusiki" (N/A).

    No vulnerability reports have been received yet. The project was published on 2026-04-15. SECURITY.md publicly commits to an initial response within 72 hours of any incoming vulnerability report. This is well within the 14-day requirement. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/SECURITY.md#reporting-a-vulnerability


 Ubora 13/13

  • Mfumo wa ujenzi unaofanya kazi


    Ya kutosha kwa nishani!

    Ikiwa programu iliyotengenezwa na mradi inahitaji ujenzi wa matumizi, mradi LAZIMA utoe mfumo wa kujenga ambao unaweza kujenga programu kiotomatiki kutoka kwa chanzo-msimbo. [build]
    Mfumo wa kujenga huamua ni hatua gani zinahitaji kutendeka ili kujenga tena programu (na kwa mpangilio gani), na kisha kutekeleza hatua hizo. Kwa mfano, inaweza kuomba kikusanyaji kukusanya fumbo-chanzo. Ikiwa inayoweza kutekelezwa imeundwa kutoka kwa fumbo-chanzo, lazima iwezeshe marekebisho kwenye fumbo-chanzo ya mradi na kisha itengeneze msasisho inayoweza kutekelezwa na marekebisho hayo. Ikiwa programu iliyotolewa na mradi unategemea maktaba ya nje, mfumo wa kujenga haina haja ya kujenga maktaba hizo za nje. Ikiwa hakuna haja ya kujenga chochote kutumia programu baada ya fumbo-chanzo kubadilishwa, chagua "haitumiki" (N / A).

    Non-trivial build file in repository: https://github.com/shyshlakov/pci-dss-mcp/blob/main/Makefile.


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kuwa zana za kawaida zitumike kujenga programu. [build_common_tools]
    Kwa mfano, Maven, Ant, cmake, autotools, make, rake (Ruby), au devtools (R).

    Non-trivial build file in repository: https://github.com/shyshlakov/pci-dss-mcp/blob/main/Makefile.


    Ya kutosha kwa nishani!

    Mradi UNAPASWA kujengwa kwa kutumia zana za FLOSS pekee yake. [build_floss_tools]

    The project builds using only FLOSS tooling. The Go toolchain (BSD-style license) compiles the binary via go build. GNU Make (GPL) orchestrates the build through the Makefile. CI verifies buildability on Ubuntu and macOS runners using only the public Go installation. No proprietary tools are required at any step. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/Makefile


  • Seti ya majaribio otomatiki


    Ya kutosha kwa nishani!

    Mradi LAZIMA utumie angalau seti moja ya majaribio ya kiotomatiki ambayo imetolewa hadharani kama FLOSS (seti hii ya majaribio inaweza kutunzwa kama mradi tofauti wa FLOSS). Mradi LAZIMA uonyeshe wazi au uandike jinsi ya kuendesha seti za majaribio (k.m., kupitia hati ya uingizaji wa kuendelea (CI) au kupitia nyaraka katika faili kama BUILD.md, README.md, au CONTRIBUTING.md). [test]
    Mradi YAWEZA kutumia seti nyingi za majaribio ya kiotomatiki (k.m., moja inayoendesha haraka, dhidi ya nyingine ambayo ni ya kina zaidi lakini inahitaji vifaa maalum). Kuna mifumo mingi ya majaribio na mifumo ya kusaidia majaribio inayopatikana, ikiwemo Selenium (uendeshaji kiotomatiki wa kivinjari cha wavuti), Junit (JVM, Java), RUnit (R), testthat (R).

    The project uses an automated test suite built on Go's standard testing package (BSD-style license FLOSS) with the race detector enabled. Custom test fixtures under testdata/ are released as MIT FLOSS along with the rest of the project.

    How to run is documented in CONTRIBUTING.md under "Running tests" with the make test and make test-fixture commands. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/CONTRIBUTING.md#running-tests

    The CI workflow at .github/workflows/ci.yml shows the exact invocation used in continuous integration on Ubuntu and macOS runners. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/.github/workflows/ci.yml


    Ya kutosha kwa nishani!

    Seti ya majaribio INAPASWA kuwa inaweza kuitwa kwa njia ya kawaida kwa lugha hiyo. [test_invocation]
    Kwa mfano, "make check", "mvn test", au "rake test" (Ruby).

    The test suite is invoked using the canonical Go testing command go test with the standard ./... package pattern. The Makefile target make test wraps go test ./... -count=1 -race to enable the race detector and disable the test cache. Both make test and direct go test ./... work and are documented in CONTRIBUTING.md. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/Makefile


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba seti ya majaribio ifuate wengi (au kwa kawaida wote) matawi ya msimbo, sehemu za kuingiza, na utendakazi. [test_most]

    The test suite achieves 83.7 percent statement coverage across 20+ packages measured by go test -coverprofile. Per-package coverage ranges from 71.6 percent
    (scanner/auditscanner) to 100 percent (internal/analysis). Every production package has test files. No package is untested.

    In addition to unit tests the project includes a fixture-driven regression suite at testdata/vulnerable-payment-service/ that contains 52 intentional violations covering every detection rule end-to-end. The acceptance test at scanner/reportscanner/fixture_test.go enforces the contract on every CI run. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/scanner/reportscanner/fixture_test.go


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba mradi utekeleze ujumuishaji wendeleo (ambapo msimbo mpya au uliobadiishwa unajumuishwa mara kwa mara katika hifadhi ya msimbo ya kati na majaribio otomatiki hufanyika kwenye matokeo). [test_continuous_integration]

    The project runs continuous integration via GitHub Actions on every push to main and every pull request. Five workflows are configured. CI runs the test suite on Ubuntu and macOS under the race detector with a coverage job. Lint runs golangci-lint. govulncheck checks the dependency tree against the Go vulnerability database. CodeQL performs static security analysis. OpenSSF Scorecard performs supply-chain checks.

    Branch protection on main requires 6 required status checks to pass before any merge. URL: https://github.com/shyshlakov/pci-dss-mcp/tree/main/.github/workflows


  • Upimaji wa utendaji mpya


    Ya kutosha kwa nishani!

    Mradi LAZIMA uwe na sera ya jumla (rasmi au la) kwamba utendakazi mkubwa mpya unavyoongezwa kwenye programu inayotengenezwa na mradi, majaribio ya utendakazi huo unapaswa kuongezwa kwenye seti ya majaribio otomatiki. [test_policy]
    Mradi uwe na sera tu, hata kwa maneno ya mdomo, inayosema wasanidi programu wanapaswa kuongeza majaribio kwenye seti ya majaribio otomatiki kwa utendakazi mkubwa mpya, chagua "Kukidhi."

    CONTRIBUTING.md documents a formal binding policy under "Running tests". Any patch that adds removes or reclassifies a scanner detection finding must update the fixture testdata/vulnerable-payment-service/ and EXPECTED-FINDINGS.md in the same commit. The required workflow is RED then GREEN. First update the expectation and confirm make test-fixture fails. Then implement the change and confirm the fixture passes again with no regressions.

    The policy is enforced by CI. The fixture acceptance test runs on every pull request and main push. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/CONTRIBUTING.md#running-tests


    Ya kutosha kwa nishani!

    Mradi LAZIMA uwe na ushahidi kwamba test_policy ya kuongeza majaribio imefuatwa katika mabadiliko makubwa ya hivi karibuni kwenye programu inayotengenezwa na mradi. [tests_are_added]
    Utendakazi mkubwa kawaida ungetajwa katika maelezo ya toleo. Ukamilifu hauhitajiki, ni ushahidi tu kwamba majaribio kawaida huongezwa kimakosa kwenye seti ya majaribio otomatiki utendakazi mkubwa mpya unavyoongezwa kwenye programu inayotengenezwa na mradi.

    Evidence is visible in the current state of the repository. The project contains 90 test files distributed across 20 packages outside testdata/. Every production package has at least one test file. No package is left untested.

    In addition the project includes a fixture-driven regression suite at testdata/vulnerable-payment-service/ with a machine-readable EXPECTED-FINDINGS.md contract. The fixture was built up alongside scanner development. Every detection rule that landed in v0.1.0 added a corresponding fixture fragment and an EXPECTED-FINDINGS.md entry. The fixture acceptance test at scanner/reportscanner/fixture_test.go runs on every CI build.

    Continuous integration runs the full test suite on every push to main and every pull request. URL: https://github.com/shyshlakov/pci-dss-mcp/actions/workflows/ci.yml


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba sera hii ya kuongeza majaribio (angalia test_policy) iwe imeandikwa katika maelekezo ya mapendekezo ya mabadiliko. [tests_documented_added]
    Hata hivyo, hata sheria isiyo rasmi inakubaliwa mradi majaribio yaongezwe kimakosa.

    The test policy is documented in CONTRIBUTING.md which is the project's canonical instructions document for change proposals. The "Running tests" section explicitly states the fixture TDD cycle for any patch that adds removes or reclassifies a scanner detection finding. The "Contribution process" section also includes running the test suite locally as a required pre-PR step. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/CONTRIBUTING.md#running-tests


  • Bendera za maonyo


    Ya kutosha kwa nishani!

    Mradi LAZIMA uwashe bendera moja au zaidi za onyo la mkusanyaji, hali ya lugha "salama", au tumia zana tofauti ya "linter" kutafuta makosa ya ubora wa msimbo au makosa rahisi ya kawaida, ikiwa kuna angalau zana moja ya FLOSS inaweza kutekeleza kigezo hiki katika lugha iliyochaguliwa. [warnings]
    Mifano ya bendera za onyo la mkusanyaji ni pamoja na gcc/clang "-Wall". Mifano ya hali ya lugha "salama" ni pamoja na JavaScript "use strict" na perl5's "use warnings". Zana tofauti ya "linter" ni zana tu inayoangalia msimbo wa chanzo kutafuta makosa ya ubora wa msimbo au makosa rahisi ya kawaida. Hizi kawaida huwashwa ndani ya msimbo wa chanzo au maelekezo ya ujenzi.

    The project enables four FLOSS static analysis tools all wired into CI as required status checks.

    go vet runs through the make vet target. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/Makefile

    golangci-lint runs in .github/workflows/lint.yml on every push and pull request. It bundles errcheck govet ineffassign staticcheck unused and other linters.

    govulncheck runs in .github/workflows/govulncheck.yml against the live dependency tree.

    GitHub CodeQL runs in .github/workflows/codeql.yml with the security-and-quality query suite.

    All four are required status checks in branch protection on main. URL: https://github.com/shyshlakov/pci-dss-mcp/tree/main/.github/workflows


    Ya kutosha kwa nishani!

    Mradi LAZIMA ukabiliane na maonyo. [warnings_fixed]
    Haya ni maonyo yaliyotambuliwa na utekelezaji wa kigezo cha warnings. Mradi unapaswa kurekebisha maonyo au kuyaweka alama katika msimbo wa chanzo kama hasi za uwongo. Kwa kawaida pasingeweza kuwa na maonyo, lakini mradi YAWEZA kukubali baadhi ya maonyo (kawaida chini ya onyo 1 kwa mistari 100 au chini ya maonyo 10).

    All four linter workflows (go vet, golangci-lint, govulncheck, CodeQL) are required status checks in branch protection on main. A warning from any of them blocks the merge. The current state of main has zero outstanding warnings. URL: https://github.com/shyshlakov/pci-dss-mcp/actions

    CONTRIBUTING.md prohibits silent error suppression. The Code style section requires either handling errors or logging them via slog. Suppressed scanner findings emit a SUPPRESSED record with the reason rather than disappearing.

    Recent evidence: incorrect GitHub Actions SHA pins were detected by the Scorecard workflow and fixed in commit f12e951 within the same session.


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba miradi iwe na ukali mkubwa sana na maonyo katika programu inayotengenezwa na mradi, ambapo ni ya vitendo. [warnings_strict]
    Baadhi ya maonyo hayawezi kuwashwa kwa ufanisi kwenye miradi fulani. Kinachohitajika ni ushahidi kwamba mradi unajitahidi kuwasha bendera za onyo ambapo inaweza, ili makosa yagundulika mapema.

    The .golangci.yml configuration enables a curated strict linter set with default: none and explicit enable list. Enabled linters include errcheck govet staticcheck ineffassign unused misspell gocyclo unconvert and bodyclose. Formatters gofmt and goimports are enforced. URL:
    https://github.com/shyshlakov/pci-dss-mcp/blob/main/.golangci.yml

    Output settings are maximum strict. max-issues-per-linter is 0 (unlimited) and max-same-issues is 0 (unlimited). All findings are reported with no truncation.

    Practical exclusions cover testdata/vulnerable-payment-service/ which is intentionally vulnerable Go code used as the regression fixture and would generate noise. Test files have relaxed gocyclo errcheck and unparam rules to accommodate idiomatic Go test patterns.


 Usalama 16/16

  • Maarifa ya maendeleo yenye usalama


    Ya kutosha kwa nishani!

    Mradi LAZIMA uwe na angalau msanidi mmoja mkuu anayejua jinsi ya kuunda programu salama. (Angalia 'maelezo' kwa mahitaji halisi.) [know_secure_design]
    Hii inahitaji kuelewa kanuni zifuatazo za muundo, ikiwa ni pamoja na kanuni 8 kutoka Saltzer na Schroeder:
    • uchumi wa utaratibu (weka muundo kuwa rahisi na mdogo iwezekanavyo, k.m., kwa kupitisha urahisishaji wa kufunga)
    • mipangilio ya kuzuia makosa (maamuzi ya kuingia yanapaswa kukataa kwa chaguo-msingi, na usakinishaji wa miradi unapaswa kuwa salama kwa chaguo-msingi)
    • kikuu cha kati kikamilifu (kuingia kote kunaweza kuwekwa kikomo lazima kufanyiwa ukaguzi wa mamlaka na kutowezesha kuvukwa)
    • muundo wazi (taratibu za usalama hazipaswi kutegemea ujinga wa mshambuliaji wa muundo wake, lakini badala yake kwenye habari iliyolindwa na kubadilishwa kwa urahisi kama funguo na nywila)
    • kutenganisha kwa upendeleo (kwa kawaida, ufikiaji kwa vitu muhimu unapaswa kutegemea zaidi ya sharti moja, ili kushinda mfumo mmoja wa ulinzi hautawasha ufikiaji kamili. K.m., uthibitishaji wa vipengele vingi, kama vile kuhitaji nywila na ishara za vifaa, ni imara zaidi kuliko uthibitishaji wa kipengele kimoja)
    • upendeleo mdogo zaidi (michakato inapaswa kufanya kazi na upendeleo mdogo zaidi unaohitajika)
    • utaratibu wa kawaida mdogo zaidi (muundo unapaswa kupunguza utaratibu wa kawaida kwa zaidi ya mtumiaji mmoja na kutegemewa na watumiaji wote, k.m., saraka za mafaili ya muda)
    • kukubalika kwa kisaikolojia (kiolesura cha binadamu lazima kiwe kimeundwa kwa urahisi wa matumizi - kuunda kwa "mshangao mdogo" kunaweza kusaidia)
    • uso wa shambulio uliowekewa mipaka (uso wa shambulio - seti ya sehemu tofauti ambapo mshambuliaji anaweza kujaribu kuingia au kutoa data - unapaswa kuwekwa mipaka)
    • uthibitishaji wa ingizo na orodha zinazokubalika (pembejeo kawaida zinapaswa kuangaliwa ili kuamua kama ni halali kabla ya kukubalika; uthibitishaji huu unapaswa kutumia orodha zinazokubalika (zinazokubali tu thamani zinazojulikana-nzuri), siyo orodha zinazokana (zinaozojaribu kuorodhesha thamani zinazojulikana-mbaya)).
    "Msanidi mkuu" katika mradi ni mtu yeyote ambaye anajua msingi wa msimbo wa mradi, ana faraja kufanya mabadiliko kwake, na anatambuliwa hivyo na washiriki wengine wengi katika mradi. Msanidi mkuu kawaida atafanya michango mingi kwa mwaka uliopita (kupitia msimbo, nyaraka, au kujibu maswali). Wasanidi kawaida wangeweza kuchukuliwa wasanidi wakuu ikiwa walianzisha mradi (na hawajatoka kwenye mradi zaidi ya miaka mitatu iliyopita), wana chaguo la kupokea habari kwenye kituo cha kuripoti udhaifu wa kibinafsi (ikiwa kuna), wanaweza kukubali ahadi kwa niaba ya mradi, au kufanya matoleo ya mwisho ya programu ya mradi. Ikiwa kuna msanidi mmoja tu, mtu huyo ndiye msanidi mkuu. Vitabu vingi na kozi zinapatikana kukusaidia kuelewa jinsi ya kuunda programu salama zaidi na kujadili muundo. Kwa mfano, kozi ya Misingi ya Maendeleo ya Programu Salama ni seti huru ya kozi tatu zinazoeleza jinsi ya kuunda programu salama zaidi (ni bure ukiifanyia ukaguzi; kwa ada ya ziada unaweza kupata cheti kuthibitisha ulijifunza nyenzo).

    The project's primary developer designs and maintains a PCI DSS v4.0.1 static-analysis scanner, which requires working knowledge of common attack surfaces and secure-design principles. The scanner rules implemented in the project directly encode secure-design patterns including least-privilege authentication, input validation, cryptographic agility, TLS configuration hardening, PAN data handling, audit logging, secure error handling, session management, and supply-chain dependency verification. The developer also applied secure-development conventions to the project itself: SHA-pinned GitHub Actions, branch protection with required status checks, govulncheck in CI, CodeQL static analysis, OpenSSF Scorecard, Dependabot alerts, and a documented vulnerability disclosure process in SECURITY.md.


    Ya kutosha kwa nishani!

    Angalau mmoja wa wasanidi wakuu wa mradi LAZIMA wajue aina za kawaida za makosa ambayo husababisha udhaifu katika aina hii ya programu, pamoja na angalau mbinu moja ya kukabiliana au kupunguza kila moja. [know_common_errors]
    Mifano (kulingana na aina ya programu) ni pamoja na uvamizi wa SQL, uvamizi wa OS, mtiririko wa kipengele cha kawaida, uandishi wa tovuti-tofauti, uthibitishaji unaokosekana, na uidhinishaji unaokosekana. Angalia CWE/SANS top 25 au OWASP Top 10 kwa orodha zinazotumika kawaida. Vitabu vingi na kozi zinapatikana kukusaidia kuelewa jinsi ya kuunda programu salama zaidi na kujadili makosa ya kawaida ya utekelezaji ambayo husababisha udhaifu. Kwa mfano, kozi ya Misingi ya Maendeleo ya Programu Salama ni seti huru ya kozi tatu zinazoeleza jinsi ya kuunda programu salama zaidi (ni bure ukiifanyia ukaguzi; kwa ada ya ziada unaweza kupata cheti kuthibitisha ulijifunza nyenzo).

    The primary developer is building a static analysis scanner whose purpose is to detect common vulnerability classes in Go payment services. The scanner rule inventory is a direct, code-level catalogue of common error kinds and their mitigations. Representative examples:

    • Hardcoded credentials and high-entropy secrets in config files. Mitigation: environment variables and secret managers, enforced by SEC-PREFIX, SEC-HIGH-ENTROPY, SEC-CONNSTR, SEC-CREDENTIAL-KEY rules.
    • Insecure TLS configuration (InsecureSkipVerify, missing MinVersion, weak versions, weak ciphers). Mitigation: explicit TLS 1.2+ with curated cipher suite, enforced by TLS-INSECURE-SKIP-VERIFY, TLS-MISSING-MIN-VERSION, TLS-WEAK-VERSION, TLS-WEAK-CIPHER rules.
    • Weak or broken cryptography (MD5, SHA1, hardcoded keys, plain HTTP for CHD). Mitigation: SHA-256 or stronger, KMS-provided keys, HTTPS-only transport, enforced by CRYPTO-WEAK-HASH, CRYPTO-HARDCODED-KEY, CRYPTO-PLAIN-HTTP rules.
    • PAN data leakage to logs, databases, and error responses. Mitigation: masking, tokenization, memory zeroing, enforced by the PAN scanner rules combined with taint-aware data-flow analysis that downgrades transit-only CHD and keeps storage-bound CHD at HIGH severity.
    • Weak authentication (hardcoded passwords, missing MFA, weak password policy). Mitigation: MFA enforcement and strong password policy, enforced by AUTH-HARDCODED-PWD, AUTH-WEAK-POLICY, AUTH-MISSING-MFA, AUTH-BYTE-COUNT rules.
    • Missing audit logging on payment flows. Mitigation: structured logging middleware with PCI DSS 10.2.1 field coverage (timestamp, event type, user identification, outcome, affected resource), verified by the audit scanner.
    • Error handling that leaks internal detail to HTTP responses. Mitigation: generic client-facing errors with internal detail logged only. Enforced by ERR-LEAK-DIRECT,
      ERR-LEAK-FORMAT, ERR-LEAK-WRITE, ERR-LEAK-ENCODE rules.
    • Unsafe payment page scripts (missing CSP, missing SRI, inline scripts, weak nonces). Mitigation: strict CSP with nonces or hashes plus SRI on external scripts, enforced by the script scanner rules.
    • Vulnerable dependencies with published CVEs. Mitigation: OSV.dev advisory database lookup via the dep scanner and govulncheck in CI.
    • Data retention violations (no TTL on CHD caches, missing memory zeroing). Mitigation: TTL enforcement and explicit zeroing hooks, enforced by the retention scanner rules.
    • SQL schemas that store sensitive columns without encryption. Mitigation: encryption-at-rest via GORM hooks, enforced by SQL-SENSITIVE-COLUMN, SQL-TEXT-TYPE, GORM-SENSITIVE-TAG, GORM-NO-ENCRYPT-HOOK rules.

    Each rule in the scanner encodes both a vulnerability class and a concrete mitigation technique.


  • Tumia mazoea mazuri ya msingi ya usimbuaji

    Kumbuka kwamba programu fulani haihitaji kutumia taratibu za usimbuaji. Ikiwa mradi wako unazalisha programu ambayo (1) inajumuisha, inaamilisha, au inafanya usimbuaji kuwa hai, na (2) inaweza kutolewa kutoka Marekani (US) kwenda nje ya Marekani au kwa raia asiye wa Marekani, inaweza kuwa ni lazima kisheria kuchukua hatua chache za ziada. Kawaida hii inahusisha tu kutuma barua pepe. Kwa maelezo zaidi, tazama sehemu ya usimbuaji ya Kuelewa Teknolojia ya Chanzo Wazi & Udhibiti wa Usafirishaji wa Marekani.

    Ya kutosha kwa nishani!

    Programu iliyotengenezwa na mradi LAZIMA itumie, kwa chaguo-msingi, tu itifaki za kriptografia na mifumbo ambazo zimechapishwa hadharani na kukaguliwa na wataalam (ikiwa itifaki za kriptografia na mafumbo imetumika). [crypto_published]
    Vigezo hivi vya kriptografia mara mingi havitumiki kwa sababu programu zingine hazina haja ya kutumia moja kwa moja uwezo wa kriptografia.

    Ya kutosha kwa nishani!

    Ikiwa programu iliyotengenezwa na mradi ni programu au maktaba, na kusudi lake la msingi sio kutekeleza usimbuaji, basi INAPASWA tu kuita programu iliyoundwa kihususa kutekeleza kazi za kielelezo; HAIPASWI kutekeleza-upya shughuli hiyo. [crypto_call]

    Ya kutosha kwa nishani!

    Utendaji wote katika programu iliyotengenezwa na mradi ambayo inategemea usimbuaji LAZIMA iweze kutekelezwa kwa kutumia FLOSS. [crypto_floss]
    Tazama Mahitaji ya Viwango wazi ya Programu kupitia Open Source Initiative.

    Ya kutosha kwa nishani!

    Mifumo ya usalama ndani ya programu inayozalishwa na mradi LAZIMA itumie kwa msingi keylengths ambazo angalau zinakidhi mahitaji ya chini ya NIST kufikia mwaka wa 2030 (kama ilivyoelezwa mnamo 2012). LAZIMA iwe rahisi kusanidi programu ili keylengths ndogo zimezimwa kabisa. [crypto_keylength]
    Vipimo hivi vya urefu wa charaza ni: symmetric key 112, factoring modulus 2048, discrete logarithm key 224, discrete logarithmic group 2048, elliptic curve 224, na hash 224 (ufichuzi wa nywila haujashughulikiwa kwenye urefu wa charaza hii, maelezo zaidi ya ufichuzi wa nywila yanapatikana ndani ya kigezo cha crypto_password_storage). Ona https://www.keylength.com kwa mliganisho wa mapendekezo ya funguo-refu kutoka mashirika mbali mbali. Programu YAWEZA kubali funguo-refu ndogo katika usanidi (haifai kukubali, maana hii huwacha mashambulizi ya kushusha, lakini funguo-refu fupi wakati mwingine ina manufaa ya upatanifu).

    Ya kutosha kwa nishani!

    Mifumo ya usalama ya chaguo-msingi ndani ya programu inayozalishwa na mradi LAZIMA ISITEGEMEE algoriti zilizovunjika za kriptologia (k.m., MD4, MD5, DES moja, RC4, Dual_EC_DRBG), au kutumia hali za cipher ambazo si sahihi kwa muktadha, isipokuwa ni muhimu kutekeleza itifaki inayoweza kushirikiana (ambapo itifaki iliyotekelezwa ni toleo la hivi karibuni zaidi la kiwango hicho kinachotegemeana sana na mfumo wa mtandao, mfumo huo unahitaji matumizi ya algoriti au hali hiyo, na mfumo huo haupatii chaguo lolote salama zaidi). Nyaraka LAZIMA zieleze hatari zozote za usalama husika na upungufu wowote unaojulikana ikiwa algoriti hizi zilizovunjika au hali ni muhimu kwa itifaki inayoweza kushirikiana. [crypto_working]
    Hali ya ECB ni karibu kamwe haifai kwa sababu inaonyesha block zinazofanana ndani ya ciphertext kama ilivyoonyeshwa na penguin wa ECB, na hali ya CTR mara nyingi si sahihi kwa sababu haifanyi uthibitishaji na husababisha nakala ikiwa hali ya ingizo inarudiwa. Katika hali nyingi ni bora kuchagua hali ya algoriti ya block cipher iliyoundwa kuchanganya siri na uthibitishaji, k.m., Galois/Counter Mode (GCM) na EAX. Miradi YAWEZA kuwaruhusu watumiaji kuwasha taratibu zilizovunjika (k.m., wakati wa usanidi) ambapo ni muhimu kwa upatanifu, lakini hapo watumiaji wanajua wanafanya hivyo.

    Ya kutosha kwa nishani!

    Mifumo ya usalama ya chaguo-msingi ndani ya programu inayozalishwa na mradi INAPASWA ISITEGEMEE algoriti za kriptologia au hali zenye udhaifu mkubwa unaojulikana (k.m., algoriti ya hash ya kriptologia ya SHA-1 au hali ya CBC katika SSH). [crypto_weaknesses]
    Wasiwasi kuhusu hali ya CBC katika SSH unajadiliwa katika CERT: SSH CBC vulnerability.

    Ya kutosha kwa nishani!

    Mifumo ya usalama ndani ya programu iliyotengenezwa na mradi INAPASWA kutekeleza kwa ukamilifu usiri wa umbele ya itifaki za makubaliano ya funguo ili funguo la kipindi kilicho tokana na kikao cha vifungo muda-mrefu haziwezi kuridhi mabaya ikiwa mojawapo ya vifunguo vya muda-mrefu imeridhi mabaya katika usoni. [crypto_pfs]

    Ya kutosha kwa nishani!

    Ikiwa programu iliyotengenezwa na mradi imesababisha uhifadhi wa nywila kwa minajili ya uthibitishaji ya watumiaji wa kutoka nje, nywila LAZIMA zihifadhiwe kwa mficho uliorudiarudia na chumvi kwa kila-mtumiaji kwa kutumia kanuni ya upanuaji (rudiarudia) wa funguo (k.m., Argon2id, Bcrypt, Scrypt, or PBKDF2). Ona pia Kurasadogo ya Uhifadhi wa Nywila la OWASP). [crypto_password_storage]
    Kigezo hili linatumika tu wakati programu linatekeleza uthibitishaji wa watumiaji kutumia nywila kwa watumiaji wa nje (ambayo pia ni uthibitishaji unaelekezwa ndani), kama vile programu za tovuti zinazobakia seva). Haitumiki katika visa ambavyo programu inahifadhi nywila ili kudhibitisha ndani ya mifumo mingine (ambayo pia ni ithibitishaji unaelekezwa nje, k.m., programu inatekeleza teja la mfumo lingineyo), maana angalau sehemu za programu lazima ziwe na njia ya kupata hiyo nywila isigalifichwa.

    Ya kutosha kwa nishani!

    Mifumo ya usalama ndani ya programu iliyotengenezwa na mradi LAZIMA itoe funguo zote za kriptologia na nonces kwa kutumia kitengeneza cha nambari za bahati kuptia kriptologia salama, na ISIWEZE kufanya hivo kutumia vitengenezi zisizo salama kikriptologia. [crypto_random]
    Kitengeneza cha nambari za bahati nasibu za kriptologia salama kinaweza kuwa kitengeneza cha nambari za bahati nasibu za vifaa, au kinaweza kuwa kitengeneza cha nambari za bahati nasibu za kriptologia salama (CSPRNG) kwa kutumia algoriti kama vile Hash_DRBG, HMAC_DRBG, CTR_DRBG, Yarrow, au Fortuna. Mifano ya simu kwa vitengeneza cha nambari za bahati nasibu salama ni pamoja na java.security.SecureRandom ya Java na window.crypto.getRandomValues ya JavaScript. Mifano ya simu kwa vitengeneza cha nambari za bahati nasibu zisizo salama ni pamoja na java.util.Random ya Java na Math.random ya JavaScript.

  • Utoaji salama dhidi ya mashambulizi ya mtu-katikati (MITM)


    Ya kutosha kwa nishani!

    Mradi LAZIMA utumie utaratibu wa utoaji ambao unakabiliana na mashambulizi ya MITM. Kutumia https au ssh+scp ni inakubaliwa. [delivery_mitm]
    Utaratibu wenye nguvu zaidi ni kutoa programu na vifurushi vilivyosainiwa kidigitali, kwa kuwa hiyo inapunguza mashambulizi kwenye mfumo wa usambazaji, lakini hii inafanya kazi tu ikiwa watumiaji wanaweza kuwa na uhakika kwamba funguo za umma kwa saini ni sahihi na ikiwa watumiaji watakagua saini kweli kweli.

    Distribution channels use HTTPS exclusively. [osps_br_03_02]


    Ya kutosha kwa nishani!

    Hash ya kriptologia (k.m., sha1sum) LAZIMA ISICHUKULIWE kupitia http na kutumika bila kuangalia saini ya kriptologia. [delivery_unsigned]
    Hash hizi zinaweza kurekebishwa wakati wa usafiri.

    The project does not publish or rely on externally retrieved cryptographic hashes for verification. Binary installation via go install github.com/shyshlakov/pci-dss-mcp@v0.1.0 retrieves the module from the Go module proxy over HTTPS and verifies it against the SHA-256 hash stored in the public Go checksum database (sum.golang.org), which is itself accessed over HTTPS and backed by a transparent log.

    Source distribution is via HTTPS Git clone or SSH. GitHub Release tarballs and zip archives are served over HTTPS directly from github.com.

    No build step or installation instruction in the project fetches a hash file over plain HTTP.


  • Udhaifu uliofahamika hadharani umeshughulikiwa


    Ya kutosha kwa nishani!

    LAZIMA kuwe hakuna udhaifu usiorekebishwa wa kiwango cha kati au juu zaidi ambao umejulikana hadharani kwa zaidi ya siku 60. [vulnerabilities_fixed_60_days]
    Udhaifu lazima urekebishwe na kutolewa na mradi wenyewe (rekebisho zinaweza kutengenezwa mahali pengine). Udhaifu unakuwa unajulikana hadharani (kwa kusudi hili) mara tu unapata CVE yenye taarifa zilizotolewa hadharani zisizolipwa (zilizoripotiwa, kwa mfano, katika Hifadhidata ya Taifa ya Udhaifu) au wakati mradi umefahamishwa na taarifa imetolewa kwa umma (labda na mradi). Udhaifu unazingatiwa kuwa wa kiwango cha kati au juu ikiwa alama yake ya Common Vulnerability Scoring System (CVSS) ya msingi ya ubora ni kati au juu. Katika matoleo ya CVSS 2.0 hadi 3.1, hii ni sawa na alama ya CVSS ya 4.0 au zaidi. Miradi inaweza kutumia alama ya CVSS kama ilivyochapishwa katika hifadhidata ya udhaifu inayotumika sana (kama vile Hifadhidata ya Taifa ya Udhaifu) kwa kutumia toleo la hivi karibuni la CVSS lililoripotiwa katika hifadhidata hiyo. Miradi badala yake inaweza kuhesabu ukali wao wenyewe kwa kutumia toleo la hivi karibuni la CVSS wakati wa ufunuzi wa udhaifu, ikiwa ingizo la hesabu linatangazwa hadharani mara tu udhaifu unajulikana hadharani. Kumbuka: hii inamaanisha kwamba watumiaji wanaweza kuachwa katika hatari kwa washambuliaji wote duniani kwa siku hadi 60. Kigezo hiki ni rahisi zaidi kukidhi kuliko yale Google inapendekeza katika Rebooting responsible disclosure, kwa sababu Google inapendekeza kwamba kipindi cha siku 60 kianze wakati mradi unafahamishwa hata ikiwa ripoti si ya umma. Pia kumbuka kwamba kigezo hiki cha nishani, kama vigezo vingine, kinatumika kwa mradi wa mtu binafsi. Baadhi ya miradi ni sehemu ya mashirika makubwa ya mwavuli au miradi mikubwa, labda katika safu nyingi, na miradi mingi inatoa matokeo yao kwa mashirika mengine na miradi kama sehemu ya mnyororo wa usambazaji wenye utata. Mradi wa mtu binafsi mara nyingi hauwezi kudhibiti wengine, lakini mradi wa mtu binafsi unaweza kufanya kazi kutoa rekebisho ya udhaifu kwa wakati. Kwa hiyo, tunazingatia tu muda wa jibu wa mradi wa mtu binafsi. Mara tu rekebisho inapatikana kutoka kwa mradi wa mtu binafsi, wengine wanaweza kuamua jinsi ya kushughulikia rekebisho (k.m., wanaweza kusasisha kwenye toleo jipya au wanaweza kutumia rekebisho tu kama suluhisho lililochaguliwa-cherry).

    There are zero known vulnerabilities in the project at the time of this badge submission. The project is a first public release (v0.1.0) cut on 2026-04-15 and no CVE has been assigned against it.

    Dependency scanning runs on every CI build via govulncheck against the Go vulnerability database. The most recent main build (commit bd170c6) passed govulncheck with no findings. URL: https://github.com/shyshlakov/pci-dss-mcp/actions/workflows/govulncheck.yml

    Dependabot security alerts and automated security fixes are enabled on the repository to surface and remediate any future advisories that affect the dependency tree.


    Ya kutosha kwa nishani!

    Miradi INAPASWA kurekebisha udhaifu wote muhimu haraka baada ya kuripotiwa. [vulnerabilities_critical_fixed]

    No critical vulnerabilities have been reported in the project since it became public on 2026-04-15. SECURITY.md documents an initial response commitment of 72 hours for any incoming vulnerability report and a 4-step disclosure process that includes fix development on a private branch followed by coordinated disclosure. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/SECURITY.md#disclosure-process

    Dependency-level vulnerabilities are detected automatically by Dependabot security alerts, govulncheck in CI, and OpenSSF Scorecard. Automated security fixes are enabled so that patched dependency versions are proposed as pull requests without manual intervention.


  • Masuala mengine ya usalama


    Ya kutosha kwa nishani!

    Hazina za umma LAZIMA ZISIVUJE uthibitisho halali wa faragha (k.m., nywila inayofanya kazi au funguo ya faragha) ambayo imekusudiwa kupunguza upatikanaji wa umma. [no_leaked_credentials]
    Mradi UNAWEZA kuvuja uthibitisho wa "sampuli" kwa majaribio na hifadhidata zisizo muhimu, mradi tu hazikusudiwa kupunguza upatikanaji wa umma.

    The repository contains no real private credentials that grant access to any system. A public release scrub was performed before the repository was made public, covering 50+ paranoid patterns including API keys, AWS access keys, private keys, tokens, connection strings, and internal hostnames.

    The testdata/vulnerable-payment-service/ fixture does contain intentionally hardcoded strings that look like credentials. These are synthetic Go source fixtures used as the golden regression suite for the scanner's own detectors (SEC-PREFIX, SEC-HIGH-ENTROPY, SEC-CONNSTR, SEC-CREDENTIAL-KEY). They are not valid credentials to any live system and grant no access to anything. SECURITY.md explicitly marks this directory as out of scope for security reports. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/SECURITY.md#scope

    The repository is also scanned continuously by GitHub Secret Scanning, which is enabled by default on public repositories and actively alerts maintainers if any real provider credential pattern is detected.


 Uchanganuzi 8/8

  • Uchambuzi tuli wa msimbo


    Ya kutosha kwa nishani!

    Angalau zana moja ya uchambuzi wa msimbo tuli (zaidi ya maonyo ya mkusanyaji na hali za lugha "salama") LAZIMA itumike kwa toleo lolote lililopendekezwa kubwa la uzalishaji wa programu kabla ya toleo lake, ikiwa kuna angalau zana moja ya FLOSS inayotekeleza kigezo hiki katika lugha iliyochaguliwa. [static_analysis]
    Zana ya uchambuzi wa msimbo tuli inachunguza msimbo wa programu (kama msimbo wa chanzo, msimbo wa kati, au utekelezaji) bila kuutekeleza na ingizo maalum. Kwa madhumuni ya kigezo hiki, maonyo ya mkusanyaji na hali za lugha "salama" hazihesabiwi kama zana za uchambuzi wa msimbo tuli (hizi kwa kawaida huepuka uchambuzi wa kina kwa sababu kasi ni muhimu). Baadhi ya zana za uchambuzi wa msimbo tuli zinazingatia kugundua hitilafu za jumla, nyingine zinazingatia kupata aina fulani za hitilafu (kama vile udhaifu), na baadhi hufanya mchanganyiko. Mifano ya zana hizo za uchambuzi wa msimbo tuli ni pamoja na cppcheck (C, C++), clang static analyzer (C, C++), SpotBugs (Java), FindBugs (Java) (ikiwa ni pamoja na FindSecurityBugs), PMD (Java), Brakeman (Ruby on Rails), lintr (R), goodpractice (R), Coverity Quality Analyzer, SonarQube, Codacy, na HP Enterprise Fortify Static Code Analyzer. Orodha kubwa za zana zinaweza kupatikana katika maeneo kama vile orodha ya Wikipedia ya zana za uchambuzi wa msimbo tuli, taarifa za OWASP kuhusu uchambuzi wa msimbo tuli, orodha ya NIST ya vichambua usalama wa msimbo wa chanzo, na orodha ya Wheeler ya zana za uchambuzi tuli. Ikiwa hakuna zana za uchambuzi tuli za FLOSS zinazopatikana kwa lugha za utekelezaji zilizotumika, unaweza kuchagua 'N/A'.

    The project runs four FLOSS static analysis tools in CI on every push and every pull request, including the release commit for v0.1.0.

    golangci-lint bundles errcheck, govet, staticcheck, ineffassign, unused, misspell, gocyclo, unconvert, and bodyclose. Configuration is at .golangci.yml. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/.golangci.yml

    GitHub CodeQL runs the Go security-and-quality query suite. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/.github/workflows/codeql.yml

    govulncheck performs reachability-aware CVE scanning via the Go vulnerability database. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/.github/workflows/govulncheck.yml

    OpenSSF Scorecard runs supply-chain static checks. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/.github/workflows/scorecard.yml

    All four are wired into branch protection as required status checks.


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba angalau moja ya zana za uchambuzi tuli zilizotumika kwa kigezo cha static_analysis ijumuishe sheria au njia za kutafuta udhaifu wa kawaida katika lugha au mazingira yaliyochambuliwa. [static_analysis_common_vulnerabilities]
    Zana za uchambuzi tuli ambazo zimeundwa hasa kutafuta udhaifu wa kawaida zina uwezekano mkubwa wa kuzipata. Hata hivyo, kutumia zana zozote za tuli kwa kawaida itasaidia kupata baadhi ya matatizo, kwa hivyo tunashauri lakini hatunahitaji hii kwa kiwango cha nishani ya 'kupita'.

    CodeQL security-and-quality query suite includes rules for common Go vulnerability patterns including SQL injection, command injection, path traversal, XSS, unsafe deserialization, hardcoded credentials, weak cryptography, and unsafe random number generation.

    staticcheck (bundled via golangci-lint) includes bug pattern checks SA1000 through SA9999 covering resource leaks, nil dereferences, incorrect error handling, and misuse of stdlib APIs.

    govulncheck maps the Go vulnerability database to reachable code paths in the project, flagging any dependency CVE that the project actually exercises.

    bodyclose catches missing HTTP response Body close calls which can lead to resource leaks and connection exhaustion.

    errcheck catches unchecked error returns which often mask security-relevant failures.


    Ya kutosha kwa nishani!

    Udhaifu wote wenye ukali wa kati na juu zaidi unaoweza kudhoofishwa uliogundulika kupitia uchambuzi wa msimbo tuli LAZIMA urekebishwe kwa wakati baada ya kuthibitishwa. [static_analysis_fixed]
    Udhaifu unazingatiwa kuwa wa kiwango cha kati au juu zaidi ikiwa alama yake ya Common Vulnerability Scoring System (CVSS) ya msingi ya ubora ni kati au juu. Katika matoleo ya CVSS 2.0 hadi 3.1, hii ni sawa na alama ya CVSS ya 4.0 au zaidi. Miradi inaweza kutumia alama ya CVSS kama ilivyochapishwa katika hifadhidata ya udhaifu inayotumika sana (kama vile Hifadhidata ya Taifa ya Udhaifu) kwa kutumia toleo la hivi karibuni la CVSS lililoripotiwa katika hifadhidata hiyo. Miradi badala yake inaweza kuhesabu ukali wao wenyewe kwa kutumia toleo la hivi karibuni la CVSS wakati wa ufunuzi wa udhaifu, ikiwa ingizo la hesabu linatangazwa hadharani mara tu udhaifu unajulikana hadharani. Kumbuka kwamba kigezo cha vulnerabilities_fixed_60_days kinahitaji kwamba udhaifu wote kama huo urekebishwe ndani ya siku 60 baada ya kuwa wa umma.

    The main branch currently has zero outstanding static analysis findings. All four analysis workflows (golangci-lint, CodeQL, govulncheck, OpenSSF Scorecard) pass on commit bd170c6. URL: https://github.com/shyshlakov/pci-dss-mcp/actions

    Branch protection on main requires these checks to pass before any merge, so a medium or higher severity finding cannot accumulate on main. Any discovered finding must be addressed in the same pull request that surfaces it.


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba uchambuzi wa msimbo wa chanzo tuli ufanyike kwenye kila ahadi au angalau kila siku. [static_analysis_often]

    Static analysis runs on every commit. All four analysis workflows (golangci-lint, CodeQL, govulncheck, OpenSSF Scorecard) are triggered on every push to main and every pull request. CodeQL, govulncheck, and Scorecard are additionally scheduled on a weekly cron to catch newly published vulnerabilities in the dependency tree even when no code change is pushed. URL: https://github.com/shyshlakov/pci-dss-mcp/tree/main/.github/workflows


  • Uchambuzi wa msimbo wa nguvu za ziada


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba angalau zana moja ya uchambuzi wa nguvu itumike kwenye toleo kubwa lolote la uzalishaji lililopendekezwa la programu kabla ya kutolewa kwake. [dynamic_analysis]
    Zana ya uchambuzi wa nguvu inachunguza programu kwa kuitekeleza na ingizo maalum. Kwa mfano, mradi YAWEZA kutumia zana ya fuzzing (k.m., American Fuzzy Lop) au kitafutaji cha programu ya wavuti (k.m., OWASP ZAP au w3af). Katika hali fulani mradi wa OSS-Fuzz unaweza kuwa tayari kutumia majaribio ya fuzz kwenye mradi wako. Kwa madhumuni ya kigezo hiki zana ya uchambuzi wa nguvu inahitaji kubadilisha ingizo kwa njia fulani kutafuta aina mbalimbali za matatizo au kuwa seti kiotomatiki ya majaribio yenye angalau asilimia 80 ya ukaguzi wa tawi. Ukurasa wa Wikipedia kuhusu uchambuzi wa nguvu na ukurasa wa OWASP kuhusu fuzzing hutambulisha baadhi ya zana za uchambuzi wa nguvu. Zana za uchambuzi ZINAWEZA kuzingatia kutafuta udhaifu wa usalama, lakini hii haihitajiki.

    The project runs the Go race detector as its dynamic analysis tool. make test invokes go test ./... -count=1 -race which enables runtime data-race detection across every test in the suite. The race detector is a dynamic tool that instruments memory accesses and detects concurrent read/write hazards at runtime.

    CI runs this configuration on every push and every pull request on both Ubuntu and macOS runners. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/.github/workflows/ci.yml


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba ikiwa programu iliyozalishwa na mradi inajumuisha programu iliyoandikwa kwa kutumia lugha isiyosalama ya kumbukumbu (k.m., C au C++), basi angalau zana moja ya nguvu (k.m., fuzzer au kitafutaji cha programu ya wavuti) itumike kwa kawaida kwa pamoja na utaratibu wa kugundua matatizo ya usalama wa kumbukumbu kama vile uandikaji zaidi wa kipengele. Ikiwa mradi hauzalishi programu iliyoandikwa katika lugha isiyosalama ya kumbukumbu, chagua "haihusiki" (N/A). [dynamic_analysis_unsafe]
    Mifano ya taratibu za kugundua matatizo ya usalama wa kumbukumbu ni pamoja na Address Sanitizer (ASAN) (inapatikana katika GCC na LLVM), Memory Sanitizer, na valgrind. Zana nyingine zinazoweza kutumika ni pamoja na thread sanitizer na undefined behavior sanitizer. Madai ya kila mahali pia yaweza kufanya kazi.

    The project is written entirely in Go, which is a memory-safe language with bounds-checked arrays, automatic garbage collection, and no pointer arithmetic. The project does not use cgo and does not link against any C or C++ code. This criterion does not apply.


    Ya kutosha kwa nishani!

    INAPENDEKEZWA kwamba mradi utumie usanidi wa angalau baadhi ya uchambuzi wa nguvu (kama vile majaribio au fuzzing) ambao huwezesha madai mengi. Katika hali nyingi madai haya yasipaswi kuwa yamewezeshwa katika mijengo ya uzalishaji. [dynamic_analysis_enable_assertions]
    Kigezo hiki hakipendekezi kuwezesha madai wakati wa uzalishaji; hilo ni kabisa kwa mradi na watumiaji wake kuamua. Lengo la kigezo hiki ni badala yake kuboresha ugunduzaji wa hitilafu wakati wa uchambuzi wa nguvu kabla ya kusambazwa. Kuwezesha madai katika matumizi ya uzalishaji ni tofauti kabisa na kuwezesha madai wakati wa uchambuzi wa nguvu (kama vile majaribio). Katika hali fulani kuwezesha madai katika matumizi ya uzalishaji ni busara sana (hasa katika vipengele vya uadilifu wa juu). Kuna hoja nyingi dhidi ya kuwezesha madai katika uzalishaji, k.m., maktaba hazipaswi kuvuruga waita, uwepo wao unaweza kusababisha kukataliwa na maduka ya programu, na/au kuamilisha madai katika uzalishaji kunaweza kufunua data za faragha kama vile funguo za faragha. Kumbuka kwamba katika usambazaji mwingi wa Linux NDEBUG haijafafanuliwa, hivyo C/C++ assert() kwa chaguo-msingi itawezeshwa kwa uzalishaji katika mazingira hayo. Inaweza kuwa muhimu kutumia utaratibu tofauti wa madai au kufafanua NDEBUG kwa uzalishaji katika mazingira hayo.

    The Go race detector is an assertion-enabling dynamic analysis mode. Enabling -race instruments every memory access and triggers a runtime failure on any detected data race, in addition to the standard test assertions. CI runs the full test suite under -race on every push and pull request. Race detector builds are significantly slower and more memory-intensive than production builds and are never shipped as the distributed binary. URL: https://github.com/shyshlakov/pci-dss-mcp/blob/main/Makefile


    Ya kutosha kwa nishani!

    Udhaifu wote wenye ukali wa kati na juu zaidi unaoweza kudhoofishwa uliogundulika kupitia uchambuzi wa msimbo wa nguvu LAZIMA urekebishwe kwa wakati baada ya kuthibitishwa. [dynamic_analysis_fixed]
    Ikiwa haujafanya uchambuzi wa msimbo wa nguvu na kwa hivyo hukupata udhaifu wowote kwa njia hii, chagua "haihusiki" (N/A). Udhaifu unazingatiwa kuwa wa kiwango cha kati au juu zaidi ikiwa alama yake ya Common Vulnerability Scoring System (CVSS) ya msingi ya ubora ni kati au juu. Katika matoleo ya CVSS 2.0 hadi 3.1, hii ni sawa na alama ya CVSS ya 4.0 au zaidi. Miradi inaweza kutumia alama ya CVSS kama ilivyochapishwa katika hifadhidata ya udhaifu inayotumika sana (kama vile Hifadhidata ya Taifa ya Udhaifu) kwa kutumia toleo la hivi karibuni la CVSS lililoripotiwa katika hifadhidata hiyo. Miradi badala yake inaweza kuhesabu ukali wao wenyewe kwa kutumia toleo la hivi karibuni la CVSS wakati wa ufunuzi wa udhaifu, ikiwa ingizo la hesabu linatangazwa hadharani mara tu udhaifu unajulikana hadharani.

    No medium or higher severity exploitable findings have been discovered by dynamic analysis. The Go race detector has reported zero data races on the most recent main build. CI test runs under -race pass on both Ubuntu and macOS. URL: https://github.com/shyshlakov/pci-dss-mcp/actions/workflows/ci.yml



Data hii inapatikana chini ya Community Data License Agreement – Permissive, Version 2.0 (CDLA-Permissive-2.0). Hii inamaanisha kuwa Mpokeaji wa Data anaweza kushiriki Data, na au bila marekebisho, mradi Mpokeaji wa Data anapatanisha maandishi ya mkataba huu na Data iliyoshirikiwa. Tafadhali tambua Oleksandr na wachangiaji wa nishani ya Mazoea Bora ya OpenSSF.

Ingizo la nishani ya mradi linamilikiwa na: Oleksandr.
Ingizo liliundwa siku 2026-04-15 05:21:46 UTC, iliyosasishwa mara ya mwisho siku 2026-04-15 06:10:22 UTC. Ilipata mara ya mwisho nishani ya kupita siku 2026-04-15 06:10:22 UTC.