// // imag - the personal information management suite for the commandline // Copyright (C) 2015-2018 Matthias Beyer and contributors // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; version // 2.1 of the License. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA // /// External linking is a complex implementation to be able to serve a clean and easy-to-use /// interface. /// /// Internally, there are no such things as "external links" (plural). Each Entry in the store can /// only have _one_ external link. /// /// This library does the following therefor: It allows you to have several external links with one /// entry, which are internally one file in the store for each link, linked with "internal /// linking". /// /// This helps us greatly with deduplication of URLs. /// use std::ops::DerefMut; use std::collections::BTreeMap; use std::fmt::Debug; use libimagstore::store::Entry; use libimagstore::store::Store; use libimagstore::storeid::StoreId; use libimagstore::storeid::IntoStoreId; use libimagutil::debug_result::*; use toml_query::read::TomlValueReadExt; use toml_query::read::TomlValueReadTypeExt; use toml_query::insert::TomlValueInsertExt; use error::LinkErrorKind as LEK; use error::Result; use internal::InternalLinker; use module_path::ModuleEntryPath; use error::ResultExt; use self::iter::*; use toml::Value; use url::Url; use crypto::sha1::Sha1; use crypto::digest::Digest; pub trait Link { fn get_link_uri_from_filelockentry(&self) -> Result>; fn get_url(&self) -> Result>; } impl Link for Entry { fn get_link_uri_from_filelockentry(&self) -> Result> { self.get_header() .read_string("links.external.content.url") .chain_err(|| LEK::EntryHeaderReadError) .and_then(|opt| match opt { None => Ok(None), Some(ref s) => { debug!("Found url, parsing: {:?}", s); Url::parse(&s[..]).chain_err(|| LEK::InvalidUri).map(Some) }, }) } fn get_url(&self) -> Result> { match self.get_header().read_string("links.external.url")? { None => Ok(None), Some(ref s) => Url::parse(&s[..]) .map(Some) .chain_err(|| LEK::EntryHeaderReadError), } } } pub trait ExternalLinker : InternalLinker { /// Get the external links from the implementor object fn get_external_links<'a>(&self, store: &'a Store) -> Result>; /// Set the external links for the implementor object fn set_external_links(&mut self, store: &Store, links: Vec) -> Result<()>; /// Add an external link to the implementor object fn add_external_link(&mut self, store: &Store, link: Url) -> Result<()>; /// Remove an external link from the implementor object fn remove_external_link(&mut self, store: &Store, link: Url) -> Result<()>; } pub mod iter { //! Iterator helpers for external linking stuff //! //! Contains also helpers to filter iterators for external/internal links //! //! //! # Warning //! //! This module uses `internal::Link` as link type, so we operate on _store ids_ here. //! //! Not to confuse with `external::Link` which is a real `FileLockEntry` under the hood. //! use libimagutil::debug_result::*; use libimagstore::store::Store; use internal::Link; use internal::iter::LinkIter; use error::Result; use url::Url; /// Helper for building `OnlyExternalIter` and `NoExternalIter` /// /// The boolean value defines, how to interpret the `is_external_link_storeid()` return value /// (here as "pred"): /// /// pred | bool | xor | take? /// ---- | ---- | --- | ---- /// 0 | 0 | 0 | 1 /// 0 | 1 | 1 | 0 /// 1 | 0 | 1 | 0 /// 1 | 1 | 0 | 1 /// /// If `bool` says "take if return value is false", we take the element if the `pred` returns /// false... and so on. /// /// As we can see, the operator between these two operants is `!(a ^ b)`. pub struct ExternalFilterIter(LinkIter, bool); impl Iterator for ExternalFilterIter { type Item = Link; fn next(&mut self) -> Option { use super::is_external_link_storeid; while let Some(elem) = self.0.next() { trace!("Check whether is external: {:?}", elem); if !(self.1 ^ is_external_link_storeid(&elem)) { trace!("Is external id: {:?}", elem); return Some(elem); } } None } } /// Helper trait to be implemented on `LinkIter` to select or deselect all external links /// /// # See also /// /// Also see `OnlyExternalIter` and `NoExternalIter` and the helper traits/functions /// `OnlyInteralLinks`/`only_internal_links()` and `OnlyExternalLinks`/`only_external_links()`. pub trait SelectExternal { fn select_external_links(self, b: bool) -> ExternalFilterIter; } impl SelectExternal for LinkIter { fn select_external_links(self, b: bool) -> ExternalFilterIter { ExternalFilterIter(self, b) } } pub struct OnlyExternalIter(ExternalFilterIter); impl OnlyExternalIter { pub fn new(li: LinkIter) -> OnlyExternalIter { OnlyExternalIter(ExternalFilterIter(li, true)) } pub fn urls<'a>(self, store: &'a Store) -> UrlIter<'a> { UrlIter(self, store) } } impl Iterator for OnlyExternalIter { type Item = Link; fn next(&mut self) -> Option { self.0.next() } } pub struct NoExternalIter(ExternalFilterIter); impl NoExternalIter { pub fn new(li: LinkIter) -> NoExternalIter { NoExternalIter(ExternalFilterIter(li, false)) } } impl Iterator for NoExternalIter { type Item = Link; fn next(&mut self) -> Option { self.0.next() } } pub trait OnlyExternalLinks : Sized { fn only_external_links(self) -> OnlyExternalIter ; fn no_internal_links(self) -> OnlyExternalIter { self.only_external_links() } } impl OnlyExternalLinks for LinkIter { fn only_external_links(self) -> OnlyExternalIter { OnlyExternalIter::new(self) } } pub trait OnlyInternalLinks : Sized { fn only_internal_links(self) -> NoExternalIter; fn no_external_links(self) -> NoExternalIter { self.only_internal_links() } } impl OnlyInternalLinks for LinkIter { fn only_internal_links(self) -> NoExternalIter { NoExternalIter::new(self) } } pub struct UrlIter<'a>(OnlyExternalIter, &'a Store); impl<'a> Iterator for UrlIter<'a> { type Item = Result; fn next(&mut self) -> Option { use external::Link; loop { let next = self.0 .next() .map(|id| { debug!("Retrieving entry for id: '{:?}'", id); self.1 .retrieve(id.clone()) .map_dbg_err(|_| format!("Retrieving entry for id: '{:?}' failed", id)) .map_err(From::from) .and_then(|f| { debug!("Store::retrieve({:?}) succeeded", id); debug!("getting external link from file now"); f.get_link_uri_from_filelockentry() .map_dbg_str("Error happened while getting link URI from FLE") .map_dbg_err(|e| format!("URL -> Err = {:?}", e)) }) }); match next { Some(Ok(Some(link))) => return Some(Ok(link)), Some(Ok(None)) => continue, Some(Err(e)) => return Some(Err(e)), None => return None } } } } } /// Check whether the StoreId starts with `/link/external/` pub fn is_external_link_storeid + Debug>(id: A) -> bool { debug!("Checking whether this is a 'links/external/': '{:?}'", id); id.as_ref().local().starts_with("links/external") } /// Implement `ExternalLinker` for `Entry`, hiding the fact that there is no such thing as an external /// link in an entry, but internal links to other entries which serve as external links, as one /// entry in the store can only have one external link. impl ExternalLinker for Entry { /// Get the external links from the implementor object fn get_external_links<'a>(&self, store: &'a Store) -> Result> { // Iterate through all internal links and filter for FileLockEntries which live in // /link/external/ -> load these files and get the external link from their headers, // put them into the return vector. self.get_internal_links() .map(|iter| { debug!("Getting external links"); iter.only_external_links().urls(store) }) } /// Set the external links for the implementor object fn set_external_links(&mut self, store: &Store, links: Vec) -> Result<()> { // Take all the links, generate a SHA sum out of each one, filter out the already existing // store entries and store the other URIs in the header of one FileLockEntry each, in // the path /link/external/ debug!("Iterating {} links = {:?}", links.len(), links); for link in links { // for all links let hash = { let mut s = Sha1::new(); s.input_str(&link.as_str()[..]); s.result_str() }; let file_id = ModuleEntryPath::new(format!("external/{}", hash)).into_storeid() .map_dbg_err(|_| { format!("Failed to build StoreId for this hash '{:?}'", hash) }) ?; debug!("Link = '{:?}'", link); debug!("Hash = '{:?}'", hash); debug!("StoreId = '{:?}'", file_id); // retrieve the file from the store, which implicitely creates the entry if it does not // exist let mut file = store .retrieve(file_id.clone()) .map_dbg_err(|_| { format!("Failed to create or retrieve an file for this link '{:?}'", link) })?; debug!("Generating header content!"); { let hdr = file.deref_mut().get_header_mut(); let mut table = match hdr.read("links.external.content")? { Some(&Value::Table(ref table)) => table.clone(), Some(_) => { warn!("There is a value at 'links.external.content' which is not a table."); warn!("Going to override this value"); BTreeMap::new() }, None => BTreeMap::new(), }; let v = Value::String(link.into_string()); debug!("setting URL = '{:?}", v); table.insert(String::from("url"), v); let _ = hdr.insert("links.external.content", Value::Table(table))?; debug!("Setting URL worked"); } // then add an internal link to the new file or return an error if this fails let _ = self.add_internal_link(file.deref_mut())?; debug!("Error adding internal link"); } debug!("Ready iterating"); Ok(()) } /// Add an external link to the implementor object fn add_external_link(&mut self, store: &Store, link: Url) -> Result<()> { // get external links, add this one, save them debug!("Getting links"); self.get_external_links(store) .and_then(|links| { // TODO: Do not ignore errors here let mut links = links.filter_map(Result::ok).collect::>(); debug!("Adding link = '{:?}' to links = {:?}", link, links); links.push(link); debug!("Setting {} links = {:?}", links.len(), links); self.set_external_links(store, links) }) } /// Remove an external link from the implementor object fn remove_external_link(&mut self, store: &Store, link: Url) -> Result<()> { // get external links, remove this one, save them self.get_external_links(store) .and_then(|links| { debug!("Removing link = '{:?}'", link); let links = links .filter_map(Result::ok) .filter(|l| l.as_str() != link.as_str()) .collect::>(); self.set_external_links(store, links) }) } } #[cfg(test)] mod tests { use super::*; use std::path::PathBuf; use libimagstore::store::Store; fn setup_logging() { use env_logger; let _ = env_logger::try_init(); } pub fn get_store() -> Store { use libimagstore::file_abstraction::InMemoryFileAbstraction; let backend = Box::new(InMemoryFileAbstraction::new()); Store::new_with_backend(PathBuf::from("/"), &None, backend).unwrap() } #[test] fn test_simple() { setup_logging(); let store = get_store(); let mut e = store.retrieve(PathBuf::from("base-test_simple")).unwrap(); let url = Url::parse("http://google.de").unwrap(); assert!(e.add_external_link(&store, url.clone()).is_ok()); assert_eq!(1, e.get_external_links(&store).unwrap().count()); assert_eq!(url, e.get_external_links(&store).unwrap().next().unwrap().unwrap()); } }