/* Copyright (c) 2016, Antonio SJ Musumeci Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "config.hpp" #include "errno.hpp" #include "fileinfo.hpp" #include "fs_cow.hpp" #include "fs_fchmod.hpp" #include "fs_lchmod.hpp" #include "fs_open.hpp" #include "fs_path.hpp" #include "fs_stat.hpp" #include "procfs_get_name.hpp" #include "stat_util.hpp" #include "ugid.hpp" #include "fuse.h" #include #include #include namespace l { static bool rdonly(const int flags_) { return ((flags_ & O_ACCMODE) == O_RDONLY); } static int lchmod_and_open_if_not_writable_and_empty(const std::string &fullpath_, const int flags_) { int rv; struct stat st; rv = fs::lstat(fullpath_,&st); if(rv == -1) return (errno=EACCES,-1); if(StatUtil::writable(st)) return (errno=EACCES,-1); rv = fs::lchmod(fullpath_,(st.st_mode|S_IWUSR|S_IWGRP)); if(rv == -1) return (errno=EACCES,-1); rv = fs::open(fullpath_,flags_); if(rv == -1) return (errno=EACCES,-1); fs::fchmod(rv,st.st_mode); return rv; } static int nfsopenhack(const std::string &fullpath_, const int flags_, const NFSOpenHack nfsopenhack_) { switch(nfsopenhack_) { default: case NFSOpenHack::ENUM::OFF: return (errno=EACCES,-1); case NFSOpenHack::ENUM::GIT: if(l::rdonly(flags_)) return (errno=EACCES,-1); if(fullpath_.find("/.git/") == std::string::npos) return (errno=EACCES,-1); return l::lchmod_and_open_if_not_writable_and_empty(fullpath_,flags_); case NFSOpenHack::ENUM::ALL: if(l::rdonly(flags_)) return (errno=EACCES,-1); return l::lchmod_and_open_if_not_writable_and_empty(fullpath_,flags_); } } /* The kernel expects being able to issue read requests when running with writeback caching enabled so we must change O_WRONLY to O_RDWR. With writeback caching enabled the kernel handles O_APPEND. Could be an issue if the underlying file changes out of band but that is true of any caching. */ static void tweak_flags_writeback_cache(int *flags_) { if((*flags_ & O_ACCMODE) == O_WRONLY) *flags_ = ((*flags_ & ~O_ACCMODE) | O_RDWR); if(*flags_ & O_APPEND) *flags_ &= ~O_APPEND; } static bool calculate_flush(FlushOnClose const flushonclose_, int const flags_) { switch(flushonclose_) { case FlushOnCloseEnum::NEVER: return false; case FlushOnCloseEnum::OPENED_FOR_WRITE: return !l::rdonly(flags_); case FlushOnCloseEnum::ALWAYS: return true; } return true; } static void config_to_ffi_flags(Config::Read &cfg_, const int tid_, fuse_file_info_t *ffi_) { switch(cfg_->cache_files) { case CacheFiles::ENUM::LIBFUSE: ffi_->direct_io = cfg_->direct_io; ffi_->keep_cache = cfg_->kernel_cache; ffi_->auto_cache = cfg_->auto_cache; break; case CacheFiles::ENUM::OFF: ffi_->direct_io = 1; ffi_->keep_cache = 0; ffi_->auto_cache = 0; break; case CacheFiles::ENUM::PARTIAL: ffi_->direct_io = 0; ffi_->keep_cache = 0; ffi_->auto_cache = 0; break; case CacheFiles::ENUM::FULL: ffi_->direct_io = 0; ffi_->keep_cache = 1; ffi_->auto_cache = 0; break; case CacheFiles::ENUM::AUTO_FULL: ffi_->direct_io = 0; ffi_->keep_cache = 0; ffi_->auto_cache = 1; break; case CacheFiles::ENUM::PER_PROCESS: std::string proc_name; proc_name = procfs::get_name(tid_); if(cfg_->cache_files_process_names.count(proc_name) == 0) { ffi_->direct_io = 1; ffi_->keep_cache = 0; ffi_->auto_cache = 0; } else { ffi_->direct_io = 0; ffi_->keep_cache = 0; ffi_->auto_cache = 0; } break; } if(cfg_->parallel_direct_writes == true) ffi_->parallel_direct_writes = ffi_->direct_io; } static int open_core(const std::string &basepath_, const char *fusepath_, fuse_file_info_t *ffi_, const bool link_cow_, const NFSOpenHack nfsopenhack_) { int fd; FileInfo *fi; std::string fullpath; fullpath = fs::path::make(basepath_,fusepath_); if(link_cow_ && fs::cow::is_eligible(fullpath.c_str(),ffi_->flags)) fs::cow::break_link(fullpath.c_str()); fd = fs::open(fullpath,ffi_->flags); if((fd == -1) && (errno == EACCES)) fd = l::nfsopenhack(fullpath,ffi_->flags,nfsopenhack_); if(fd == -1) return -errno; fi = new FileInfo(fd,fusepath_,ffi_->direct_io); ffi_->fh = reinterpret_cast(fi); return 0; } static int open(const Policy::Search &searchFunc_, const Branches &branches_, const char *fusepath_, fuse_file_info_t *ffi_, const bool link_cow_, const NFSOpenHack nfsopenhack_) { int rv; StrVec basepaths; rv = searchFunc_(branches_,fusepath_,&basepaths); if(rv == -1) return -errno; return l::open_core(basepaths[0],fusepath_,ffi_,link_cow_,nfsopenhack_); } } namespace FUSE { int open(const char *fusepath_, fuse_file_info_t *ffi_) { int rv; Config::Read cfg; const fuse_context *fc = fuse_get_context(); const ugid::Set ugid(fc->uid,fc->gid); l::config_to_ffi_flags(cfg,fc->pid,ffi_); if(cfg->writeback_cache) l::tweak_flags_writeback_cache(&ffi_->flags); ffi_->noflush = !l::calculate_flush(cfg->flushonclose, ffi_->flags); rv = l::open(cfg->func.open.policy, cfg->branches, fusepath_, ffi_, cfg->link_cow, cfg->nfsopenhack); return rv; } }