// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "extensions/browser/content_hash_fetcher.h"

#include <stddef.h>

#include <algorithm>

#include "base/base64.h"
#include "base/files/file_enumerator.h"
#include "base/files/file_util.h"
#include "base/json/json_reader.h"
#include "base/macros.h"
#include "base/memory/ref_counted.h"
#include "base/metrics/histogram.h"
#include "base/synchronization/lock.h"
#include "base/task_runner_util.h"
#include "base/timer/elapsed_timer.h"
#include "base/version.h"
#include "content/public/browser/browser_context.h"
#include "content/public/browser/browser_thread.h"
#include "crypto/sha2.h"
#include "extensions/browser/computed_hashes.h"
#include "extensions/browser/content_hash_tree.h"
#include "extensions/browser/content_verifier_delegate.h"
#include "extensions/browser/verified_contents.h"
#include "extensions/common/constants.h"
#include "extensions/common/extension.h"
#include "extensions/common/file_util.h"
#include "net/base/load_flags.h"
#include "net/url_request/url_fetcher.h"
#include "net/url_request/url_fetcher_delegate.h"
#include "net/url_request/url_request_status.h"

namespace {

typedef std::set<base::FilePath> SortedFilePathSet;

}  // namespace

namespace extensions {

// This class takes care of doing the disk and network I/O work to ensure we
// have both verified_contents.json files from the webstore and
// computed_hashes.json files computed over the files in an extension's
// directory.
class ContentHashFetcherJob
    : public base::RefCountedThreadSafe<ContentHashFetcherJob>,
      public net::URLFetcherDelegate {
 public:
  typedef base::Callback<void(ContentHashFetcherJob*)> CompletionCallback;
  ContentHashFetcherJob(net::URLRequestContextGetter* request_context,
                        const ContentVerifierKey& key,
                        const std::string& extension_id,
                        const base::FilePath& extension_path,
                        const GURL& fetch_url,
                        bool force,
                        const CompletionCallback& callback);

  void Start();

  // Cancels this job, which will attempt to stop I/O operations sooner than
  // just waiting for the entire job to complete. Safe to call from any thread.
  void Cancel();

  // Checks whether this job has been cancelled. Safe to call from any thread.
  bool IsCancelled();

  // Returns whether this job was successful (we have both verified contents
  // and computed hashes). Even if the job was a success, there might have been
  // files that were found to have contents not matching expectations; these
  // are available by calling hash_mismatch_paths().
  bool success() { return success_; }

  bool force() { return force_; }

  const std::string& extension_id() { return extension_id_; }

  // Returns the set of paths that had a hash mismatch.
  const std::set<base::FilePath>& hash_mismatch_paths() {
    return hash_mismatch_paths_;
  }

 private:
  friend class base::RefCountedThreadSafe<ContentHashFetcherJob>;
  ~ContentHashFetcherJob() override;

  // Tries to load a verified_contents.json file at |path|. On successfully
  // reading and validing the file, the verified_contents_ member variable will
  // be set and this function will return true. If the file does not exist, or
  // exists but is invalid, it will return false. Also, any invalid
  // file will be removed from disk and
  bool LoadVerifiedContents(const base::FilePath& path);

  // Callback for when we're done doing file I/O to see if we already have
  // a verified contents file. If we don't, this will kick off a network
  // request to get one.
  void DoneCheckingForVerifiedContents(bool found);

  // URLFetcherDelegate interface
  void OnURLFetchComplete(const net::URLFetcher* source) override;

  // Callback for when we're done ensuring we have verified contents, and are
  // ready to move on to MaybeCreateHashes.
  void DoneFetchingVerifiedContents(bool success);

  // Callback for the job to write the verified contents to the filesystem.
  void OnVerifiedContentsWritten(size_t expected_size, int write_result);

  // The verified contents file from the webstore only contains the treehash
  // root hash, but for performance we want to cache the individual block level
  // hashes. This function will create that cache with block-level hashes for
  // each file in the extension if needed (the treehash root hash for each of
  // these should equal what is in the verified contents file from the
  // webstore).
  void MaybeCreateHashes();

  // Computes hashes for all files in |extension_path_|, and uses a
  // ComputedHashes::Writer to write that information into
  // |hashes_file|. Returns true on success.
  bool CreateHashes(const base::FilePath& hashes_file);

  // Will call the callback, if we haven't been cancelled.
  void DispatchCallback();

  net::URLRequestContextGetter* request_context_;
  std::string extension_id_;
  base::FilePath extension_path_;

  // The url we'll need to use to fetch a verified_contents.json file.
  GURL fetch_url_;

  bool force_;

  CompletionCallback callback_;
  content::BrowserThread::ID creation_thread_;

  // Used for fetching content signatures.
  scoped_ptr<net::URLFetcher> url_fetcher_;

  // The key used to validate verified_contents.json.
  ContentVerifierKey key_;

  // The parsed contents of the verified_contents.json file, either read from
  // disk or fetched from the network and then written to disk.
  scoped_ptr<VerifiedContents> verified_contents_;

  // Whether this job succeeded.
  bool success_;

  // Paths that were found to have a mismatching hash.
  std::set<base::FilePath> hash_mismatch_paths_;

  // The block size to use for hashing.
  int block_size_;

  // Note: this may be accessed from multiple threads, so all access should
  // be protected by |cancelled_lock_|.
  bool cancelled_;

  // A lock for synchronizing access to |cancelled_|.
  base::Lock cancelled_lock_;

  DISALLOW_COPY_AND_ASSIGN(ContentHashFetcherJob);
};

ContentHashFetcherJob::ContentHashFetcherJob(
    net::URLRequestContextGetter* request_context,
    const ContentVerifierKey& key,
    const std::string& extension_id,
    const base::FilePath& extension_path,
    const GURL& fetch_url,
    bool force,
    const CompletionCallback& callback)
    : request_context_(request_context),
      extension_id_(extension_id),
      extension_path_(extension_path),
      fetch_url_(fetch_url),
      force_(force),
      callback_(callback),
      key_(key),
      success_(false),
      // TODO(asargent) - use the value from verified_contents.json for each
      // file, instead of using a constant.
      block_size_(4096),
      cancelled_(false) {
  bool got_id =
      content::BrowserThread::GetCurrentThreadIdentifier(&creation_thread_);
  DCHECK(got_id);
}

void ContentHashFetcherJob::Start() {
  base::FilePath verified_contents_path =
      file_util::GetVerifiedContentsPath(extension_path_);
  base::PostTaskAndReplyWithResult(
      content::BrowserThread::GetBlockingPool(),
      FROM_HERE,
      base::Bind(&ContentHashFetcherJob::LoadVerifiedContents,
                 this,
                 verified_contents_path),
      base::Bind(&ContentHashFetcherJob::DoneCheckingForVerifiedContents,
                 this));
}

void ContentHashFetcherJob::Cancel() {
  base::AutoLock autolock(cancelled_lock_);
  cancelled_ = true;
}

bool ContentHashFetcherJob::IsCancelled() {
  base::AutoLock autolock(cancelled_lock_);
  bool result = cancelled_;
  return result;
}

ContentHashFetcherJob::~ContentHashFetcherJob() {
}

bool ContentHashFetcherJob::LoadVerifiedContents(const base::FilePath& path) {
  if (!base::PathExists(path))
    return false;
  verified_contents_.reset(new VerifiedContents(key_.data, key_.size));
  if (!verified_contents_->InitFrom(path, false)) {
    verified_contents_.reset();
    if (!base::DeleteFile(path, false))
      LOG(WARNING) << "Failed to delete " << path.value();
    return false;
  }
  return true;
}

void ContentHashFetcherJob::DoneCheckingForVerifiedContents(bool found) {
  if (IsCancelled())
    return;
  if (found) {
    VLOG(1) << "Found verified contents for " << extension_id_;
    DoneFetchingVerifiedContents(true);
  } else {
    VLOG(1) << "Missing verified contents for " << extension_id_
            << ", fetching...";
    url_fetcher_ =
        net::URLFetcher::Create(fetch_url_, net::URLFetcher::GET, this);
    url_fetcher_->SetRequestContext(request_context_);
    url_fetcher_->SetLoadFlags(net::LOAD_DO_NOT_SEND_COOKIES |
                               net::LOAD_DO_NOT_SAVE_COOKIES |
                               net::LOAD_DISABLE_CACHE);
    url_fetcher_->SetAutomaticallyRetryOnNetworkChanges(3);
    url_fetcher_->Start();
  }
}

// Helper function to let us pass ownership of a string via base::Bind with the
// contents to be written into a file. Also ensures that the directory for
// |path| exists, creating it if needed.
static int WriteFileHelper(const base::FilePath& path,
                           scoped_ptr<std::string> content) {
  base::FilePath dir = path.DirName();
  return (base::CreateDirectoryAndGetError(dir, NULL) &&
          base::WriteFile(path, content->data(), content->size()));
}

void ContentHashFetcherJob::OnURLFetchComplete(const net::URLFetcher* source) {
  VLOG(1) << "URLFetchComplete for " << extension_id_
          << " is_success:" << url_fetcher_->GetStatus().is_success() << " "
          << fetch_url_.possibly_invalid_spec();
  if (IsCancelled())
    return;
  scoped_ptr<std::string> response(new std::string);
  if (!url_fetcher_->GetStatus().is_success() ||
      !url_fetcher_->GetResponseAsString(response.get())) {
    DoneFetchingVerifiedContents(false);
    return;
  }

  // Parse the response to make sure it is valid json (on staging sometimes it
  // can be a login redirect html, xml file, etc. if you aren't logged in with
  // the right cookies).  TODO(asargent) - It would be a nice enhancement to
  // move to parsing this in a sandboxed helper (crbug.com/372878).
  scoped_ptr<base::Value> parsed(base::JSONReader::Read(*response));
  if (parsed) {
    VLOG(1) << "JSON parsed ok for " << extension_id_;

    parsed.reset();  // no longer needed
    base::FilePath destination =
        file_util::GetVerifiedContentsPath(extension_path_);
    size_t size = response->size();
    base::PostTaskAndReplyWithResult(
        content::BrowserThread::GetBlockingPool(),
        FROM_HERE,
        base::Bind(&WriteFileHelper, destination, base::Passed(&response)),
        base::Bind(
            &ContentHashFetcherJob::OnVerifiedContentsWritten, this, size));
  } else {
    DoneFetchingVerifiedContents(false);
  }
}

void ContentHashFetcherJob::OnVerifiedContentsWritten(size_t expected_size,
                                                      int write_result) {
  bool success =
      (write_result >= 0 && static_cast<size_t>(write_result) == expected_size);
  DoneFetchingVerifiedContents(success);
}

void ContentHashFetcherJob::DoneFetchingVerifiedContents(bool success) {
  if (IsCancelled())
    return;

  if (!success) {
    DispatchCallback();
    return;
  }

  content::BrowserThread::PostBlockingPoolSequencedTask(
      "ContentHashFetcher",
      FROM_HERE,
      base::Bind(&ContentHashFetcherJob::MaybeCreateHashes, this));
}

void ContentHashFetcherJob::MaybeCreateHashes() {
  if (IsCancelled())
    return;
  base::FilePath hashes_file =
      file_util::GetComputedHashesPath(extension_path_);

  if (!force_ && base::PathExists(hashes_file)) {
    success_ = true;
  } else {
    if (force_)
      base::DeleteFile(hashes_file, false /* recursive */);
    success_ = CreateHashes(hashes_file);
  }

  content::BrowserThread::PostTask(
      creation_thread_,
      FROM_HERE,
      base::Bind(&ContentHashFetcherJob::DispatchCallback, this));
}

bool ContentHashFetcherJob::CreateHashes(const base::FilePath& hashes_file) {
  base::ElapsedTimer timer;
  if (IsCancelled())
    return false;
  // Make sure the directory exists.
  if (!base::CreateDirectoryAndGetError(hashes_file.DirName(), NULL))
    return false;

  if (!verified_contents_.get()) {
    base::FilePath verified_contents_path =
        file_util::GetVerifiedContentsPath(extension_path_);
    verified_contents_.reset(new VerifiedContents(key_.data, key_.size));
    if (!verified_contents_->InitFrom(verified_contents_path, false))
      return false;
    verified_contents_.reset();
  }

  base::FileEnumerator enumerator(extension_path_,
                                  true, /* recursive */
                                  base::FileEnumerator::FILES);
  // First discover all the file paths and put them in a sorted set.
  SortedFilePathSet paths;
  for (;;) {
    if (IsCancelled())
      return false;

    base::FilePath full_path = enumerator.Next();
    if (full_path.empty())
      break;
    paths.insert(full_path);
  }

  // Now iterate over all the paths in sorted order and compute the block hashes
  // for each one.
  ComputedHashes::Writer writer;
  for (SortedFilePathSet::iterator i = paths.begin(); i != paths.end(); ++i) {
    if (IsCancelled())
      return false;
    const base::FilePath& full_path = *i;
    base::FilePath relative_path;
    extension_path_.AppendRelativePath(full_path, &relative_path);
    relative_path = relative_path.NormalizePathSeparatorsTo('/');

    if (!verified_contents_->HasTreeHashRoot(relative_path))
      continue;

    std::string contents;
    if (!base::ReadFileToString(full_path, &contents)) {
      LOG(ERROR) << "Could not read " << full_path.MaybeAsASCII();
      continue;
    }

    // Iterate through taking the hash of each block of size (block_size_) of
    // the file.
    std::vector<std::string> hashes;
    ComputedHashes::ComputeHashesForContent(contents, block_size_, &hashes);
    std::string root =
        ComputeTreeHashRoot(hashes, block_size_ / crypto::kSHA256Length);
    if (!verified_contents_->TreeHashRootEquals(relative_path, root)) {
      VLOG(1) << "content mismatch for " << relative_path.AsUTF8Unsafe();
      hash_mismatch_paths_.insert(relative_path);
      continue;
    }

    writer.AddHashes(relative_path, block_size_, hashes);
  }
  bool result = writer.WriteToFile(hashes_file);
  UMA_HISTOGRAM_TIMES("ExtensionContentHashFetcher.CreateHashesTime",
                      timer.Elapsed());
  return result;
}

void ContentHashFetcherJob::DispatchCallback() {
  {
    base::AutoLock autolock(cancelled_lock_);
    if (cancelled_)
      return;
  }
  callback_.Run(this);
}

// ----

ContentHashFetcher::ContentHashFetcher(content::BrowserContext* context,
                                       ContentVerifierDelegate* delegate,
                                       const FetchCallback& callback)
    : context_(context),
      delegate_(delegate),
      fetch_callback_(callback),
      weak_ptr_factory_(this) {
}

ContentHashFetcher::~ContentHashFetcher() {
  for (JobMap::iterator i = jobs_.begin(); i != jobs_.end(); ++i) {
    i->second->Cancel();
  }
}

void ContentHashFetcher::DoFetch(const Extension* extension, bool force) {
  DCHECK(extension);

  IdAndVersion key(extension->id(), extension->version()->GetString());
  JobMap::iterator found = jobs_.find(key);
  if (found != jobs_.end()) {
    if (!force || found->second->force()) {
      // Just let the existing job keep running.
      return;
    } else {
      // Kill the existing non-force job, so we can start a new one below.
      found->second->Cancel();
      jobs_.erase(found);
    }
  }

  // TODO(asargent) - we should do something here to remember recent attempts
  // to fetch signatures by extension id, and use exponential backoff to avoid
  // hammering the server when we aren't successful in getting them.
  // crbug.com/373397

  DCHECK(extension->version());
  GURL url =
      delegate_->GetSignatureFetchUrl(extension->id(), *extension->version());
  ContentHashFetcherJob* job = new ContentHashFetcherJob(
      context_->GetRequestContext(), delegate_->GetPublicKey(), extension->id(),
      extension->path(), url, force,
      base::Bind(&ContentHashFetcher::JobFinished,
                 weak_ptr_factory_.GetWeakPtr()));
  jobs_.insert(std::make_pair(key, job));
  job->Start();
}

void ContentHashFetcher::ExtensionLoaded(const Extension* extension) {
  CHECK(extension);
  DoFetch(extension, false);
}

void ContentHashFetcher::ExtensionUnloaded(const Extension* extension) {
  CHECK(extension);
  IdAndVersion key(extension->id(), extension->version()->GetString());
  JobMap::iterator found = jobs_.find(key);
  if (found != jobs_.end()) {
    found->second->Cancel();
    jobs_.erase(found);
  }
}

void ContentHashFetcher::JobFinished(ContentHashFetcherJob* job) {
  if (!job->IsCancelled()) {
    fetch_callback_.Run(job->extension_id(),
                        job->success(),
                        job->force(),
                        job->hash_mismatch_paths());
  }

  for (JobMap::iterator i = jobs_.begin(); i != jobs_.end(); ++i) {
    if (i->second.get() == job) {
      jobs_.erase(i);
      break;
    }
  }
}

}  // namespace extensions