local http = require("http") local shortport = require("shortport") local stdnse = require("stdnse") local strbuf = require("strbuf") local string = require("string") local table = require("table") description = [[ Checks for a Git repository found in a website's document root /.git/) and retrieves as much repo information as possible, including language/framework, remotes, last commit message, and repository description. ]] -- @output -- PORT STATE SERVICE REASON -- 80/tcp open http syn-ack -- | http-git: -- | 127.0.0.1:80/.git/ -- | Git repository found! -- | .git/config matched patterns 'passw' -- | Repository description: Unnamed repository; edit this file 'description' to name the... -- | Remotes: -- | http://github.com/someuser/somerepo -- | Project type: Ruby on Rails web application (guessed from .git/info/exclude) -- | 127.0.0.1:80/damagedrepository/.git/ -- |_ Potential Git repository found (found 2/6 expected files) -- -- @xmloutput -- --
-- http://github.com/anotherperson/anotherepo --
-- --
-- JBoss Java web application -- Java application --
-- -- A nice repository -- -- false -- true -- true -- true -- false --
-- --
-- passw --
-- -- categories = { "default", "safe", "vuln" } author = "Alex Weber" license = "Same as Nmap--See http://nmap.org/book/man-legal.html" portrule = shortport.http -- We consider 200 to mean "okay, file exists and we received its contents". local STATUS_OK = 200 -- Long strings (like a repository's description) will be truncated to this -- number of characters in normal output. local TRUNC_LENGTH = 60 function action(host, port) local out -- We can accept a single root, or a table of roots to try local root_arg = stdnse.get_script_args("http-git.root") local roots if type(root_arg) == "table" then roots = root_arg elseif type(root_arg) == "string" or type(root_arg) == "number" then roots = { tostring(root_arg) } elseif root_arg == nil then -- if we didn't get an argument roots = { "/" } end -- Try each root in succession for _, root in ipairs(roots) do root = tostring(root) root = root or '/' -- Put a forward slash on the beginning and end of the root, if none was -- provided. We will print this, so the user will know that we've mangled it if not string.find(root, "/$") then -- if there is no slash at the end root = root .. "/" end if not string.find(root, "^/") then -- if there is no slash at the beginning root = "/" .. root end -- If we can't get /.git/HEAD, don't even bother continuing -- We could try for /.git/, but we will not get a 200 if directory -- listings are disallowed. if http.get(host, port, root .. ".git/HEAD").status == STATUS_OK then out = out or {} local replies = {} -- This function returns true if we got a 200 OK when -- fetching 'filename' from the server local function ok(filename) return (replies[filename].status == STATUS_OK) end -- These are files that are small, very common, and don't -- require zlib to read -- These files are created by creating and using the repository, -- or by popular development frameworks. local repo = { ".gitignore", ".git/COMMIT_EDITMSG", ".git/config", ".git/description", ".git/info/exclude", } local pl_requests = {} -- pl_requests = pipelined requests (temp) -- Go through all of the filenames and do an HTTP GET for _, name in ipairs(repo) do -- for every filename http.pipeline_add(root .. name, nil, pl_requests) end -- Do the requests. replies = http.pipeline_go(host, port, pl_requests) if replies == nil then stdnse.print_debug("%s: pipeline_go() error. Aborting.", SCRIPT_NAME) return nil end for i, reply in ipairs(replies) do -- We want this to be indexed by filename, not an integer, so we convert it -- We added to the pipeline in the same order as the filenames, so this is safe. replies[repo[i]] = reply -- create index by filename replies[i] = nil -- delete integer-indexed entry end -- Mark each file that we tried to get as 'found' (true) or 'not found' (false). local location = host.ip .. ":" .. port.number .. root .. ".git/" out[location] = {} -- A nice shortcut local loc = out[location] loc["files-found"] = {} for name, _ in pairs(replies) do loc["files-found"][name] = ok(name) end -- Look through all the repo files we grabbed and see if we can find anything interesting. local interesting = { "bug", "key", "passw", "pw", "user", "secret", "uid" } for name, reply in pairs(replies) do if ok(name) then for _, pattern in ipairs(interesting) do if string.match(reply.body, pattern) then -- A Lua idiom - don't create this table until we actually have something to put in it loc["interesting-matches"] = loc["interesting-matches"] or {} loc["interesting-matches"][name] = loc["interesting-matches"][name] or {} table.insert(loc["interesting-matches"][name], pattern) end end end end if ok(".git/COMMIT_EDITMSG") then loc["last-commit-message"] = replies[".git/COMMIT_EDITMSG"].body end if ok(".git/description") then loc["repository-description"] = replies[".git/description"].body end -- .git/config contains a list of remotes, so we try to extract them. if ok(".git/config") then local config = replies[".git/config"].body local remotes = {} -- Try to extract URLs of all remotes. for url in string.gmatch(config, "\n%s*url%s*=%s*(%S*/%S*)") do table.insert(remotes, url) end for _, url in ipairs(remotes) do loc["remotes"] = loc["remotes"] or {} table.insert(loc["remotes"], url) end end -- These are files that are used by Git to determine what files to ignore. -- We use this list to make the loop below (used to determine what kind of -- application is in the repository) more generic. local ignorefiles = { ".gitignore", ".git/info/exclude", } local fingerprints = { -- Many of these taken from https://github.com/github/gitignore { "%.scala_dependencies", "Scala application" }, { "npm%-debug%.log", "node.js application" }, { "joomla%.xml", "Joomla! site" }, { "jboss/server", "JBoss Java web application" }, { "wp%-%*%.php", "WordPress site" }, { "app/config/database%.php", "CakePHP web application" }, { "sites/default/settings%.php", "Drupal site" }, { "local_settings%.py", "Django web application" }, { "/%.bundle", "Ruby on Rails web application" }, -- More specific matches (MyFaces > JSF > Java) on top { "%.py[dco]", "Python application" }, { "%.jsp", "JSP web application" }, { "%.bundle", "Ruby application" }, { "%.class", "Java application" }, { "%.php", "PHP application" }, } -- The XML produced here is divided by ignorefile and is sorted from first to last -- in order of specificity. e.g. All JBoss applications are Java applications, -- but not all Java applications are JBoss. In that case, JBoss and Java will -- be output, but JBoss will be listed first. for _, file in ipairs(ignorefiles) do if ok(file) then -- We only test all fingerprints if we got the file. for _, fingerprint in ipairs(fingerprints) do if string.match(replies[file].body, fingerprint[1]) then loc["project-type"] = loc["project-type"] or {} loc["project-type"][file] = loc["project-type"][file] or {} table.insert(loc["project-type"][file], fingerprint[2]) end end end end end end -- If we didn't get anything, we return early. No point doing the -- normal formatting! if out == nil then return nil end -- Truncate to TRUNC_LENGTH characters and replace control characters (newlines, etc) with spaces. local function summarize(str) str = stdnse.string_or_blank(str, "") local original_length = #str str = string.sub(str, 1, TRUNC_LENGTH) str = string.gsub(str, "%c", " ") if original_length > TRUNC_LENGTH then str = str .. "..." end return str end -- We convert the full output to pretty output for -oN local normalout for location, info in pairs(out) do normalout = normalout or {} -- This table gets converted to a string format_output, and then inserted into the 'normalout' table local new = {} -- Headings for each place we found a repo new["name"] = location -- How sure are we that this is a Git repository? local count = { tried = 0, ok = 0 } for _, found in pairs(info["files-found"]) do count.tried = count.tried + 1 if found then count.ok = count.ok + 1 end end -- If 3 or more of the files we were looking for are not on the server, -- we are less confident that we got a real Git repository if count.tried - count.ok <= 2 then table.insert(new, "Git repository found!") else -- We already got .git/HEAD, so we add 1 to 'tried' and 'ok' table.insert(new, "Potential Git repository found (found " .. (count.ok + 1) .. "/" .. (count.tried + 1) .. " expected files)") end -- Show what patterns matched what files for name, matches in pairs(info["interesting-matches"] or {}) do local temp = name .. " matched patterns" for _, matched in ipairs(matches) do temp = temp .. " '" .. matched .. "'" end table.insert(new, temp) end if info["repository-description"] then table.insert(new, "Repository description: " .. summarize(info["repository-description"])) end if info["last-commit-message"] then table.insert(new, "Last commit message: " .. summarize(info["last-commit-message"])) end -- If we found any remotes in .git/config, process them now if info["remotes"] then local old_name = info["remotes"]["name"] -- in case 'name' is a remote info["remotes"]["name"] = "Remotes:" -- Remove the newline from format_output's output - it looks funny with it local temp = string.gsub(stdnse.format_output(true, info["remotes"]), "^\n", "") -- using 'temp' here because gsub() has multiple return values that insert() will try -- to use, and I don't know of a better way to prevent that ;) table.insert(new, temp) info["remotes"]["name"] = old_name end -- Take the first guessed project type from each ignorefile if info["project-type"] then for name, types in pairs(info["project-type"]) do table.insert(new, "Project type: " .. types[1] .. " (guessed from " .. name .. ")") end end -- Insert this location's information. table.insert(normalout, new) end return out, stdnse.format_output(true, normalout) end