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use back::archive::{ArchiveRO, METADATA_FILENAME};
use back::svh::Svh;
use driver::session::Session;
use lib::llvm::{False, llvm, ObjectFile, mk_section_iter};
use metadata::cstore::{MetadataBlob, MetadataVec, MetadataArchive};
use metadata::decoder;
use metadata::encoder;
use metadata::filesearch::{FileSearch, FileMatches, FileDoesntMatch};
use syntax::abi;
use syntax::codemap::Span;
use syntax::diagnostic::SpanHandler;
use syntax::crateid::CrateId;
use syntax::attr::AttrMetaMethods;
use util::fs;
use std::c_str::ToCStr;
use std::cmp;
use std::io;
use std::mem;
use std::ptr;
use std::slice;
use std::str;
use std::collections::{HashMap, HashSet};
use flate;
use time;
pub static MACOS_DLL_PREFIX: &'static str = "lib";
pub static MACOS_DLL_SUFFIX: &'static str = ".dylib";
pub static WIN32_DLL_PREFIX: &'static str = "";
pub static WIN32_DLL_SUFFIX: &'static str = ".dll";
pub static LINUX_DLL_PREFIX: &'static str = "lib";
pub static LINUX_DLL_SUFFIX: &'static str = ".so";
pub static FREEBSD_DLL_PREFIX: &'static str = "lib";
pub static FREEBSD_DLL_SUFFIX: &'static str = ".so";
pub static ANDROID_DLL_PREFIX: &'static str = "lib";
pub static ANDROID_DLL_SUFFIX: &'static str = ".so";
pub struct CrateMismatch {
path: Path,
got: String,
}
pub struct Context<'a> {
pub sess: &'a Session,
pub span: Span,
pub ident: &'a str,
pub crate_id: &'a CrateId,
pub id_hash: &'a str,
pub hash: Option<&'a Svh>,
pub triple: &'a str,
pub os: abi::Os,
pub filesearch: FileSearch<'a>,
pub root: &'a Option<CratePaths>,
pub rejected_via_hash: Vec<CrateMismatch>,
pub rejected_via_triple: Vec<CrateMismatch>,
}
pub struct Library {
pub dylib: Option<Path>,
pub rlib: Option<Path>,
pub metadata: MetadataBlob,
}
pub struct ArchiveMetadata {
_archive: ArchiveRO,data: &'static [u8],
}
pub struct CratePaths {
pub ident: String,
pub dylib: Option<Path>,
pub rlib: Option<Path>
}
impl CratePaths {
fn paths(&self) -> Vec<Path> {
match (&self.dylib, &self.rlib) {
(&None, &None) => vec!(),
(&Some(ref p), &None) |
(&None, &Some(ref p)) => vec!(p.clone()),
(&Some(ref p1), &Some(ref p2)) => vec!(p1.clone(), p2.clone()),
}
}
}
impl<'a> Context<'a> {
pub fn maybe_load_library_crate(&mut self) -> Option<Library> {
self.find_library_crate()
}
pub fn load_library_crate(&mut self) -> Library {
match self.find_library_crate() {
Some(t) => t,
None => {
self.report_load_errs();
unreachable!()
}
}
}
pub fn report_load_errs(&mut self) {
let message = if self.rejected_via_hash.len() > 0 {
format!("found possibly newer version of crate `{}`",
self.ident)
} else if self.rejected_via_triple.len() > 0 {
format!("found incorrect triple for crate `{}`", self.ident)
} else {
format!("can't find crate for `{}`", self.ident)
};
let message = match self.root {
&None => message,
&Some(ref r) => format!("{} which `{}` depends on",
message, r.ident)
};
self.sess.span_err(self.span, message.as_slice());
let mismatches = self.rejected_via_triple.iter();
if self.rejected_via_triple.len() > 0 {
self.sess.span_note(self.span,
format!("expected triple of {}",
self.triple).as_slice());
for (i, &CrateMismatch{ ref path, ref got }) in mismatches.enumerate() {
self.sess.fileline_note(self.span,
format!("crate `{}` path {}{}, triple {}: {}",
self.ident, "#", i+1, got, path.display()).as_slice());
}
}
if self.rejected_via_hash.len() > 0 {
self.sess.span_note(self.span, "perhaps this crate needs \
to be recompiled?");
let mismatches = self.rejected_via_hash.iter();
for (i, &CrateMismatch{ ref path, .. }) in mismatches.enumerate() {
self.sess.fileline_note(self.span,
format!("crate `{}` path {}{}: {}",
self.ident, "#", i+1, path.display()).as_slice());
}
match self.root {
&None => {}
&Some(ref r) => {
for (i, path) in r.paths().iter().enumerate() {
self.sess.fileline_note(self.span,
format!("crate `{}` path #{}: {}",
r.ident, i+1, path.display()).as_slice());
}
}
}
}
self.sess.abort_if_errors();
}
fn find_library_crate(&mut self) -> Option<Library> {
let dypair = self.dylibname();let dylib_prefix = dypair.map(|(prefix, _)| {
format!("{}{}-", prefix, self.crate_id.name)
});
let rlib_prefix = format!("lib{}-", self.crate_id.name);
let mut candidates = HashMap::new();self.filesearch.search(|path| {
let file = match path.filename_str() {
None => return FileDoesntMatch,
Some(file) => file,
};
if file.starts_with(rlib_prefix.as_slice()) &&
file.ends_with(".rlib") {
info!("rlib candidate: {}", path.display());
match self.try_match(file, rlib_prefix.as_slice(), ".rlib") {
Some(hash) => {
info!("rlib accepted, hash: {}", hash);
let slot = candidates.find_or_insert_with(hash, |_| {
(HashSet::new(), HashSet::new())
});
let (ref mut rlibs, _) = *slot;
rlibs.insert(fs::realpath(path).unwrap());
FileMatches
}
None => {
info!("rlib rejected");
FileDoesntMatch
}
}
} else if dypair.map_or(false, |(_, suffix)| {
file.starts_with(dylib_prefix.get_ref().as_slice()) &&
file.ends_with(suffix)
}) {
let (_, suffix) = dypair.unwrap();
let dylib_prefix = dylib_prefix.get_ref().as_slice();
info!("dylib candidate: {}", path.display());
match self.try_match(file, dylib_prefix, suffix) {
Some(hash) => {
info!("dylib accepted, hash: {}", hash);
let slot = candidates.find_or_insert_with(hash, |_| {
(HashSet::new(), HashSet::new())
});
let (_, ref mut dylibs) = *slot;
dylibs.insert(fs::realpath(path).unwrap());
FileMatches
}
None => {
info!("dylib rejected");
FileDoesntMatch
}
}
} else {
FileDoesntMatch
}
});let mut libraries = Vec::new();
for (_hash, (rlibs, dylibs)) in candidates.move_iter() {
let mut metadata = None;
let rlib = self.extract_one(rlibs, "rlib", &mut metadata);
let dylib = self.extract_one(dylibs, "dylib", &mut metadata);
match metadata {
Some(metadata) => {
libraries.push(Library {
dylib: dylib,
rlib: rlib,
metadata: metadata,
})
}
None => {}
}
}match libraries.len() {
0 => None,
1 => Some(libraries.move_iter().next().unwrap()),
_ => {
self.sess.span_err(self.span,
format!("multiple matching crates for `{}`",
self.crate_id.name).as_slice());
self.sess.note("candidates:");
for lib in libraries.iter() {
match lib.dylib {
Some(ref p) => {
self.sess.note(format!("path: {}",
p.display()).as_slice());
}
None => {}
}
match lib.rlib {
Some(ref p) => {
self.sess.note(format!("path: {}",
p.display()).as_slice());
}
None => {}
}
let data = lib.metadata.as_slice();
let crate_id = decoder::get_crate_id(data);
note_crateid_attr(self.sess.diagnostic(), &crate_id);
}
None
}
}
}fn try_match(&self, file: &str, prefix: &str, suffix: &str) -> Option<String>{
let middle = file.slice(prefix.len(), file.len() - suffix.len());
debug!("matching -- {}, middle: {}", file, middle);
let mut parts = middle.splitn('-', 1);
let hash = match parts.next() { Some(h) => h, None => return None };
debug!("matching -- {}, hash: {} (want {})", file, hash, self.id_hash);
let vers = match parts.next() { Some(v) => v, None => return None };
debug!("matching -- {}, vers: {} (want {})", file, vers,
self.crate_id.version);
match self.crate_id.version {
Some(ref version) if version.as_slice() != vers => return None,
Some(..) => {}None => return Some(hash.to_string())
}
debug!("matching -- {}, vers ok", file);if self.id_hash == hash.as_slice() {
debug!("matching -- {}, hash ok", file);
Some(hash.to_string())
} else {
None
}
}fn extract_one(&mut self, m: HashSet<Path>, flavor: &str,
slot: &mut Option<MetadataBlob>) -> Option<Path> {
let mut ret = None::<Path>;
let mut error = 0u;
if slot.is_some() {if m.len() == 0 {
return None
} else if m.len() == 1 {
return Some(m.move_iter().next().unwrap())
}
}
for lib in m.move_iter() {
info!("{} reading metadata from: {}", flavor, lib.display());
let metadata = match get_metadata_section(self.os, &lib) {
Ok(blob) => {
if self.crate_matches(blob.as_slice(), &lib) {
blob
} else {
info!("metadata mismatch");
continue
}
}
Err(_) => {
info!("no metadata found");
continue
}
};
if ret.is_some() {
self.sess.span_err(self.span,
format!("multiple {} candidates for `{}` \
found",
flavor,
self.crate_id.name).as_slice());
self.sess.span_note(self.span,
format!(r"candidate #1: {}",
ret.get_ref()
.display()).as_slice());
error = 1;
ret = None;
}
if error > 0 {
error += 1;
self.sess.span_note(self.span,
format!(r"candidate #{}: {}", error,
lib.display()).as_slice());
continue
}
*slot = Some(metadata);
ret = Some(lib);
}
return if error > 0 {None} else {ret}
}
fn crate_matches(&mut self, crate_data: &[u8], libpath: &Path) -> bool {
match decoder::maybe_get_crate_id(crate_data) {
Some(ref id) if self.crate_id.matches(id) => {}
_ => { info!("Rejecting via crate_id"); return false }
}
let hash = match decoder::maybe_get_crate_hash(crate_data) {
Some(hash) => hash, None => {
info!("Rejecting via lack of crate hash");
return false;
}
};
let triple = decoder::get_crate_triple(crate_data);
if triple.as_slice() != self.triple {
info!("Rejecting via crate triple: expected {} got {}", self.triple, triple);
self.rejected_via_triple.push(CrateMismatch {
path: libpath.clone(),
got: triple.to_string()
});
return false;
}
match self.hash {
None => true,
Some(myhash) => {
if *myhash != hash {
info!("Rejecting via hash: expected {} got {}", *myhash, hash);
self.rejected_via_hash.push(CrateMismatch {
path: libpath.clone(),
got: myhash.as_str().to_string()
});
false
} else {
true
}
}
}
}fn dylibname(&self) -> Option<(&'static str, &'static str)> {
match self.os {
abi::OsWin32 => Some((WIN32_DLL_PREFIX, WIN32_DLL_SUFFIX)),
abi::OsMacos => Some((MACOS_DLL_PREFIX, MACOS_DLL_SUFFIX)),
abi::OsLinux => Some((LINUX_DLL_PREFIX, LINUX_DLL_SUFFIX)),
abi::OsAndroid => Some((ANDROID_DLL_PREFIX, ANDROID_DLL_SUFFIX)),
abi::OsFreebsd => Some((FREEBSD_DLL_PREFIX, FREEBSD_DLL_SUFFIX)),
abi::OsiOS => None,
}
}
}
pub fn note_crateid_attr(diag: &SpanHandler, crateid: &CrateId) {
diag.handler().note(format!("crate_id: {}", crateid.to_str()).as_slice());
}
impl ArchiveMetadata {
fn new(ar: ArchiveRO) -> Option<ArchiveMetadata> {
let data: &'static [u8] = {
let data = match ar.read(METADATA_FILENAME) {
Some(data) => data,
None => {
debug!("didn't find '{}' in the archive", METADATA_FILENAME);
return None;
}
};unsafe { mem::transmute(data) }
};
Some(ArchiveMetadata {
_archive: ar,
data: data,
})
}
pub fn as_slice<'a>(&'a self) -> &'a [u8] { self.data }
}fn get_metadata_section(os: abi::Os, filename: &Path) -> Result<MetadataBlob, String> {
let start = time::precise_time_ns();
let ret = get_metadata_section_imp(os, filename);
info!("reading {} => {}ms", filename.filename_display(),
(time::precise_time_ns() - start) / 1000000);
return ret;
}
fn get_metadata_section_imp(os: abi::Os, filename: &Path) -> Result<MetadataBlob, String> {
if !filename.exists() {
return Err(format!("no such file: '{}'", filename.display()));
}
if filename.filename_str().unwrap().ends_with(".rlib") {let archive = match ArchiveRO::open(filename) {
Some(ar) => ar,
None => {
debug!("llvm didn't like `{}`", filename.display());
return Err(format!("failed to read rlib metadata: '{}'",
filename.display()));
}
};
return match ArchiveMetadata::new(archive).map(|ar| MetadataArchive(ar)) {
None => {
return Err((format!("failed to read rlib metadata: '{}'",
filename.display())))
}
Some(blob) => return Ok(blob)
}
}
unsafe {
let mb = filename.with_c_str(|buf| {
llvm::LLVMRustCreateMemoryBufferWithContentsOfFile(buf)
});
if mb as int == 0 {
return Err(format!("error reading library: '{}'",
filename.display()))
}
let of = match ObjectFile::new(mb) {
Some(of) => of,
_ => {
return Err((format!("provided path not an object file: '{}'",
filename.display())))
}
};
let si = mk_section_iter(of.llof);
while llvm::LLVMIsSectionIteratorAtEnd(of.llof, si.llsi) == False {
let mut name_buf = ptr::null();
let name_len = llvm::LLVMRustGetSectionName(si.llsi, &mut name_buf);
let name = str::raw::from_buf_len(name_buf as *u8, name_len as uint);
debug!("get_metadata_section: name {}", name);
if read_meta_section_name(os).as_slice() == name.as_slice() {
let cbuf = llvm::LLVMGetSectionContents(si.llsi);
let csz = llvm::LLVMGetSectionSize(si.llsi) as uint;
let mut found =
Err(format!("metadata not found: '{}'", filename.display()));
let cvbuf: *u8 = mem::transmute(cbuf);
let vlen = encoder::metadata_encoding_version.len();
debug!("checking {} bytes of metadata-version stamp",
vlen);
let minsz = cmp::min(vlen, csz);
let version_ok = slice::raw::buf_as_slice(cvbuf, minsz,
|buf0| buf0 == encoder::metadata_encoding_version);
if !version_ok {
return Err((format!("incompatible metadata version found: '{}'",
filename.display())));
}
let cvbuf1 = cvbuf.offset(vlen as int);
debug!("inflating {} bytes of compressed metadata",
csz - vlen);
slice::raw::buf_as_slice(cvbuf1, csz-vlen, |bytes| {
match flate::inflate_bytes(bytes) {
Some(inflated) => found = Ok(MetadataVec(inflated)),
None => {
found =
Err(format!("failed to decompress \
metadata for: '{}'",
filename.display()))
}
}
});
if found.is_ok() {
return found;
}
}
llvm::LLVMMoveToNextSection(si.llsi);
}
return Err(format!("metadata not found: '{}'", filename.display()));
}
}
pub fn meta_section_name(os: abi::Os) -> Option<&'static str> {
match os {
abi::OsMacos => Some("__DATA,__note.rustc"),
abi::OsiOS => Some("__DATA,__note.rustc"),
abi::OsWin32 => Some(".note.rustc"),
abi::OsLinux => Some(".note.rustc"),
abi::OsAndroid => Some(".note.rustc"),
abi::OsFreebsd => Some(".note.rustc")
}
}
pub fn read_meta_section_name(os: abi::Os) -> &'static str {
match os {
abi::OsMacos => "__note.rustc",
abi::OsiOS => unreachable!(),
abi::OsWin32 => ".note.rustc",
abi::OsLinux => ".note.rustc",
abi::OsAndroid => ".note.rustc",
abi::OsFreebsd => ".note.rustc"
}
}pub fn list_file_metadata(os: abi::Os, path: &Path,
out: &mut io::Writer) -> io::IoResult<()> {
match get_metadata_section(os, path) {
Ok(bytes) => decoder::list_crate_metadata(bytes.as_slice(), out),
Err(msg) => {
write!(out, "{}\n", msg)
}
}
}