imag/libimaglink/src/external.rs

247 lines
9.2 KiB
Rust

/// 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::convert::Into;
use std::ops::Deref;
use std::ops::DerefMut;
use std::collections::BTreeMap;
use libimagstore::store::Entry;
use libimagstore::store::EntryHeader;
use libimagstore::store::FileLockEntry;
use libimagstore::store::Store;
use libimagstore::storeid::StoreId;
use libimagstore::storeid::IntoStoreId;
use error::LinkError as LE;
use error::LinkErrorKind as LEK;
use result::Result;
use internal::InternalLinker;
use module_path::ModuleEntryPath;
use toml::Value;
use toml::Table;
use url::Url;
use crypto::sha1::Sha1;
use crypto::digest::Digest;
/// "Link" Type, just an abstraction over FileLockEntry to have some convenience internally.
struct Link<'a> {
link: FileLockEntry<'a>
}
impl<'a> Link<'a> {
pub fn new(fle: FileLockEntry<'a>) -> Link<'a> {
Link { link: fle }
}
/// For interal use only. Load an Link from a store id, if this is actually a Link
fn retrieve(store: &'a Store, id: StoreId) -> Result<Option<Link<'a>>> {
store.retrieve(id)
.map(|fle| {
if let Some(_) = Link::get_link_uri_from_filelockentry(&fle) {
Some(Link {
link: fle
})
} else {
None
}
})
.map_err(|e| LE::new(LEK::StoreReadError, Some(Box::new(e))))
}
/// Get a link Url object from a FileLockEntry, ignore errors.
fn get_link_uri_from_filelockentry(file: &FileLockEntry<'a>) -> Option<Url> {
file.deref()
.get_header()
.read("imag.content.uri")
.ok()
.and_then(|opt| {
match opt {
Some(Value::String(s)) => Url::parse(&s[..]).ok(),
_ => None
}
})
}
pub fn get_url(&self) -> Result<Option<Url>> {
let opt = self.link
.deref()
.get_header()
.read("imag.content.uri");
match opt {
Ok(Some(Value::String(s))) => {
Url::parse(&s[..])
.map(|s| Some(s))
.map_err(|e| LE::new(LEK::EntryHeaderReadError, Some(Box::new(e))))
},
Ok(None) => Ok(None),
_ => Err(LE::new(LEK::EntryHeaderReadError, None))
}
}
}
pub trait ExternalLinker : InternalLinker {
/// Get the external links from the implementor object
fn get_external_links(&self, store: &Store) -> Result<Vec<Url>>;
/// Set the external links for the implementor object
fn set_external_links(&mut self, store: &Store, links: Vec<Url>) -> 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<()>;
}
/// Check whether the StoreId starts with `/link/external/`
fn is_link_store_id(id: &StoreId) -> bool {
debug!("Checking whether this is a /link/external/*: '{:?}'", id);
id.starts_with("/link/external/")
}
fn get_external_link_from_file(entry: &FileLockEntry) -> Result<Url> {
Link::get_link_uri_from_filelockentry(entry) // TODO: Do not hide error by using this function
.ok_or(LE::new(LEK::StoreReadError, None))
}
/// 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(&self, store: &Store) -> Result<Vec<Url>> {
// Iterate through all internal links and filter for FileLockEntries which live in
// /link/external/<SHA> -> load these files and get the external link from their headers,
// put them into the return vector.
self.get_internal_links()
.map(|vect| {
debug!("Getting external links");
vect.into_iter()
.filter(is_link_store_id)
.map(|id| {
debug!("Retrieving entry for id: '{:?}'", id);
match store.retrieve(id.clone()) {
Ok(f) => get_external_link_from_file(&f),
Err(e) => {
debug!("Retrieving entry for id: '{:?}' failed", id);
Err(LE::new(LEK::StoreReadError, Some(Box::new(e))))
}
}
})
.filter_map(|x| x.ok()) // TODO: Do not ignore error here
.collect()
})
.map_err(|e| LE::new(LEK::StoreReadError, Some(Box::new(e))))
}
/// Set the external links for the implementor object
fn set_external_links(&mut self, store: &Store, links: Vec<Url>) -> 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/<SHA of the URL>
debug!("Iterating {} links = {:?}", links.len(), links);
for link in links { // for all links
let hash = {
let mut s = Sha1::new();
s.input_str(&link.serialize()[..]);
s.result_str()
};
let file_id = ModuleEntryPath::new(format!("external/{}", hash)).into_storeid();
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 file = store.retrieve(file_id.clone());
if file.is_err() {
debug!("Failed to create or retrieve an file for this link '{:?}'", link);
return Err(LE::new(LEK::StoreWriteError, Some(Box::new(file.err().unwrap()))));
}
let mut file = file.unwrap();
debug!("Generating header content!");
{
let mut hdr = file.deref_mut().get_header_mut();
let mut table = match hdr.read("imag.content") {
Ok(Some(Value::Table(table))) => table,
Ok(Some(_)) => {
warn!("There is a value at 'imag.content' which is not a table.");
warn!("Going to override this value");
BTreeMap::new()
},
Ok(None) => BTreeMap::new(),
Err(e) => return Err(LE::new(LEK::StoreWriteError, Some(Box::new(e)))),
};
let v = Value::String(link.serialize());
debug!("setting URL = '{:?}", v);
table.insert(String::from("url"), v);
if let Err(e) = hdr.set("imag.content", Value::Table(table)) {
return Err(LE::new(LEK::StoreWriteError, Some(Box::new(e))));
} else {
debug!("Setting URL worked");
}
}
// then add an internal link to the new file or return an error if this fails
if let Err(e) = self.add_internal_link(file.deref_mut()) {
debug!("Error adding internal link");
return Err(LE::new(LEK::StoreWriteError, Some(Box::new(e))));
}
}
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(|mut links| {
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(|mut links| {
debug!("Removing link = '{:?}' from links = {:?}", link, links);
let links = links.into_iter()
.filter(|l| l.serialize() != link.serialize())
.collect();
self.set_external_links(store, links)
})
}
}