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편집 파일: adhoc_lve.h
/* * Phusion Passenger - https://www.phusionpassenger.com/ * Copyright (c) 2011-2017 Phusion Holding B.V. * * "Passenger", "Phusion Passenger" and "Union Station" are registered * trademarks of Phusion Holding B.V. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef _ADHOC_LVE_H_ #define _ADHOC_LVE_H_ // A library for using CloudLinux's LVE technology. // https://www.cloudlinux.com/lve-manage.php // http://docs.cloudlinux.com/understanding_lve.html #include <functional> #include <cstdlib> #include <cstddef> #include <sstream> #include <boost/shared_ptr.hpp> #include <boost/scoped_ptr.hpp> #include <boost/thread/once.hpp> #include <boost/noncopyable.hpp> #include <sys/types.h> #include <unistd.h> #include <dlfcn.h> #include <errno.h> #include <stdint.h> namespace adhoc_lve { struct liblve; enum liblve_enter_flags { LVE_NO_UBC = 1 << 0, LVE_NO_NAMESPACE = 1 << 1, LVE_NO_MAXENTER = 1 << 2, LVE_SILENCE = 1 << 3, }; typedef void* (*liblve_alloc) (size_t size); typedef void (*liblve_free) (void *ptr); /** * initializes and create instance of LVE * args * allocator - pointer to function to allocate memory * returns * NULL on error, errno will be set. * errno will be EINVAL if wrong version of library is used * liblve otherwise */ typedef struct liblve* (*init_lve_function_ptr_t)(liblve_alloc alloc, liblve_free free); /** * destroy lve library instance * args: * lve = instantiated liblive instance * return 0 on success * negative number on error. errno will be set */ typedef int (*destroy_lve_function_ptr_t)(struct liblve *lve); /** * enter into virutal environment * args: * lve = fully initialized liblve instance * lve_id = id associated with LVE * cookie = pointer to cookie, which returned if task correctly migrated * in LVE and used to exit from this LVE * return codes: * 0 = on success, negative number means error: * -EPERM - don't have permission to call, or called from outside root LVE * -ENOMEM - don't have memory to allocate new LVE * -EFAULT - cookie is bad pointer */ typedef int (*lve_enter_flags_function_ptr_t) (struct liblve *lve, uint32_t lve_id, uint32_t *cookie, int liblve_enter_flags); /** * exit from virtual environment, same as lve_leave * args: * lve = fully init liblve instance * cookie - pointer to cookie returned from lve_enter * return codes: * 0 = none error, all less zero is errors: * -ESRCH = task not in virutal environment * -EFAULT = bad cookie pointer * -EINVAL = cookie not match to stored in context */ typedef int (*lve_exit_function_ptr_t)(struct liblve *lve, uint32_t *cookie); typedef int (*jail_function_ptr_t)(const struct passwd *, char*); /** * Must be used once per app instances */ class LibLve : private boost::noncopyable { public: #ifdef LIBLVE_LOAD # error LIBLVE_LOAD macro redifinition #else # define LIBLVE_LOAD(fname) \ fname ## _function_ptr = \ (fname ## _function_ptr_t) dlsym(liblve_handle.get(), #fname); \ if (!fname ## _function_ptr && err_buf.str().empty()) \ init_error = (std::string) "Failed to init LVE library " + ::dlerror() LibLve() : init_lve_function_ptr (NULL) , destroy_lve_function_ptr (NULL) , lve_enter_flags_function_ptr (NULL) , lve_exit_function_ptr (NULL) { void *handle = ::dlopen("liblve.so.0", RTLD_LAZY); if (handle) { liblve_handle.reset(handle, ::dlclose); } else { // No liblve found, but it is OK and we are running // on non LVE capable system return; } std::ostringstream err_buf; LIBLVE_LOAD(init_lve); LIBLVE_LOAD(destroy_lve); LIBLVE_LOAD(lve_enter_flags); LIBLVE_LOAD(lve_exit); LIBLVE_LOAD(jail); if (!err_buf.str().empty()) { init_error = err_buf.str(); return; } struct liblve* init_handle = init_lve_function_ptr(std::malloc, std::free); if (!init_handle) err_buf << "init_lve error [" << errno << "]"; else lve_init_handle.reset(init_handle, destroy_lve_function_ptr); init_error = err_buf.str(); } #undef LIBLVE_LOAD #endif bool is_error() const { return !init_error.empty(); } const std::string& error() const { return init_error; } bool is_lve_available() const { return (bool) liblve_handle; } bool is_lve_ready() const { return is_lve_available() && !is_error(); } int jail(const struct passwd *pw, std::string& jail_err) const { char error_msg[8192]; int rc = jail_function_ptr(pw, error_msg); if (rc < 0) jail_err.assign(error_msg); return rc; } private: friend class LveEnter; /** * using boost::shared_ptr because of scoped_ptr does not allow * to specify custom destructor */ boost::shared_ptr<void> liblve_handle; boost::shared_ptr<struct liblve> lve_init_handle; init_lve_function_ptr_t init_lve_function_ptr; destroy_lve_function_ptr_t destroy_lve_function_ptr; lve_enter_flags_function_ptr_t lve_enter_flags_function_ptr; lve_exit_function_ptr_t lve_exit_function_ptr; jail_function_ptr_t jail_function_ptr; std::string init_error; }; class LveInitSignleton { public: static LibLve& getInstance(std::string* outInitOneTimeError) { if (!instance()) { static boost::once_flag flag = BOOST_ONCE_INIT; boost::call_once(flag, initOnce, outInitOneTimeError); } return *instance(); } private: typedef boost::scoped_ptr<LibLve> lvelib_scoped_ptr; static lvelib_scoped_ptr& instance() { static lvelib_scoped_ptr lvelib_scoped_ptr; return lvelib_scoped_ptr; } static void initOnce(std::string *err_buf) { instance().reset(new LibLve); if (instance()->is_error() && err_buf) *err_buf = instance()->error(); } }; class LveEnter : private boost::noncopyable { public: typedef void (*exit_callback_t)(bool entered, const std::string& exit_error); LveEnter(LibLve& lve, uint32_t uid, uint32_t cfg_min_uid, exit_callback_t cb) : ctx(lve) , cookie(0) , entered(false) , exit_callback(cb) { enter(uid, cfg_min_uid); } ~LveEnter() { exit(); } LveEnter& enter(uint32_t uid, uint32_t min_uid) { bool is_enter_lve_allowed = (min_uid <= uid); if (!is_enter_lve_allowed || !ctx.is_lve_ready() || entered) return *this; int err = ctx.lve_enter_flags_function_ptr(ctx.lve_init_handle.get(), uid, &cookie, LVE_NO_MAXENTER|LVE_SILENCE); if (!err) entered = true; else enter_exit_error << "lve_enter_flags error [" << err << "]"; return *this; } LveEnter& exit() { const bool memento (entered); if (entered) { int err = ctx.lve_exit_function_ptr(ctx.lve_init_handle.get(), &cookie); if (err) enter_exit_error << "lve_exit error [" << err << "]"; entered = false; } if (exit_callback) exit_callback(memento, enter_exit_error.str()); return *this; } bool is_entered() const { return entered; } bool is_error() const { return !enter_exit_error.str().empty(); } std::string error() const { return enter_exit_error.str(); } LibLve& lveInstance() { return ctx; } const LibLve& lveInstance() const { return ctx; } private: LibLve &ctx; uint32_t cookie; bool entered; std::ostringstream enter_exit_error; exit_callback_t exit_callback; }; } // adhoc_lve ns #endif /* _ADHOC_LVE_H_ */