//
// Copyright (C) 2012 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#ifndef UPDATE_ENGINE_OMAHA_REQUEST_ACTION_H_
#define UPDATE_ENGINE_OMAHA_REQUEST_ACTION_H_
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <memory>
#include <string>
#include <vector>
#include <gtest/gtest_prod.h> // for FRIEND_TEST
#include <brillo/secure_blob.h>
#include <curl/curl.h>
#include "update_engine/common/action.h"
#include "update_engine/common/http_fetcher.h"
#include "update_engine/omaha_response.h"
#include "update_engine/system_state.h"
// The Omaha Request action makes a request to Omaha and can output
// the response on the output ActionPipe.
namespace chromeos_update_engine {
// Encodes XML entities in a given string. Input must be ASCII-7 valid. If
// the input is invalid, the default value is used instead.
std::string XmlEncodeWithDefault(const std::string& input,
const std::string& default_value);
// Escapes text so it can be included as character data and attribute
// values. The |input| string must be valid ASCII-7, no UTF-8 supported.
// Returns whether the |input| was valid and escaped properly in |output|.
bool XmlEncode(const std::string& input, std::string* output);
// This struct encapsulates the Omaha event information. For a
// complete list of defined event types and results, see
// http://code.google.com/p/omaha/wiki/ServerProtocol#event
struct OmahaEvent {
// The Type values correspond to EVENT_TYPE values of Omaha.
enum Type {
kTypeUnknown = 0,
kTypeDownloadComplete = 1,
kTypeInstallComplete = 2,
kTypeUpdateComplete = 3,
kTypeUpdateDownloadStarted = 13,
kTypeUpdateDownloadFinished = 14,
// Chromium OS reserved type sent after the first reboot following an update
// completed.
kTypeRebootedAfterUpdate = 54,
};
// The Result values correspond to EVENT_RESULT values of Omaha.
enum Result {
kResultError = 0,
kResultSuccess = 1,
kResultUpdateDeferred = 9, // When we ignore/defer updates due to policy.
};
OmahaEvent()
: type(kTypeUnknown),
result(kResultError),
error_code(ErrorCode::kError) {}
explicit OmahaEvent(Type in_type)
: type(in_type),
result(kResultSuccess),
error_code(ErrorCode::kSuccess) {}
OmahaEvent(Type in_type, Result in_result, ErrorCode in_error_code)
: type(in_type),
result(in_result),
error_code(in_error_code) {}
Type type;
Result result;
ErrorCode error_code;
};
class NoneType;
class OmahaRequestAction;
class OmahaRequestParams;
class PrefsInterface;
// This struct is declared in the .cc file.
struct OmahaParserData;
template<>
class ActionTraits<OmahaRequestAction> {
public:
// Takes parameters on the input pipe.
typedef NoneType InputObjectType;
// On UpdateCheck success, puts the Omaha response on output. Event
// requests do not have an output pipe.
typedef OmahaResponse OutputObjectType;
};
class OmahaRequestAction : public Action<OmahaRequestAction>,
public HttpFetcherDelegate {
public:
static const int kNeverPinged = -1;
static const int kPingTimeJump = -2;
// We choose this value of 10 as a heuristic for a work day in trying
// each URL, assuming we check roughly every 45 mins. This is a good time to
// wait - neither too long nor too little - so we don't give up the preferred
// URLs that appear earlier in list too quickly before moving on to the
// fallback ones.
static const int kDefaultMaxFailureCountPerUrl = 10;
// These are the possible outcome upon checking whether we satisfied
// the wall-clock-based-wait.
enum WallClockWaitResult {
kWallClockWaitNotSatisfied,
kWallClockWaitDoneButUpdateCheckWaitRequired,
kWallClockWaitDoneAndUpdateCheckWaitNotRequired,
};
// The ctor takes in all the parameters that will be used for making
// the request to Omaha. For some of them we have constants that
// should be used.
//
// Takes ownership of the passed in HttpFetcher. Useful for testing.
//
// Takes ownership of the passed in OmahaEvent. If |event| is null,
// this is an UpdateCheck request, otherwise it's an Event request.
// Event requests always succeed.
//
// A good calling pattern is:
// OmahaRequestAction(..., new OmahaEvent(...), new WhateverHttpFetcher);
// or
// OmahaRequestAction(..., nullptr, new WhateverHttpFetcher);
OmahaRequestAction(SystemState* system_state,
OmahaEvent* event,
std::unique_ptr<HttpFetcher> http_fetcher,
bool ping_only);
~OmahaRequestAction() override;
typedef ActionTraits<OmahaRequestAction>::InputObjectType InputObjectType;
typedef ActionTraits<OmahaRequestAction>::OutputObjectType OutputObjectType;
void PerformAction() override;
void TerminateProcessing() override;
void ActionCompleted(ErrorCode code) override;
int GetHTTPResponseCode() { return http_fetcher_->http_response_code(); }
// Debugging/logging
static std::string StaticType() { return "OmahaRequestAction"; }
std::string Type() const override { return StaticType(); }
// Delegate methods (see http_fetcher.h)
void ReceivedBytes(HttpFetcher *fetcher,
const void* bytes, size_t length) override;
void TransferComplete(HttpFetcher *fetcher, bool successful) override;
// Returns true if this is an Event request, false if it's an UpdateCheck.
bool IsEvent() const { return event_.get() != nullptr; }
private:
FRIEND_TEST(OmahaRequestActionTest, GetInstallDateWhenNoPrefsNorOOBE);
FRIEND_TEST(OmahaRequestActionTest,
GetInstallDateWhenOOBECompletedWithInvalidDate);
FRIEND_TEST(OmahaRequestActionTest,
GetInstallDateWhenOOBECompletedWithValidDate);
FRIEND_TEST(OmahaRequestActionTest,
GetInstallDateWhenOOBECompletedDateChanges);
// Enumeration used in PersistInstallDate().
enum InstallDateProvisioningSource {
kProvisionedFromOmahaResponse,
kProvisionedFromOOBEMarker,
// kProvisionedMax is the count of the number of enums above. Add
// any new enums above this line only.
kProvisionedMax
};
// Gets the install date, expressed as the number of PST8PDT
// calendar weeks since January 1st 2007, times seven. Returns -1 if
// unknown. See http://crbug.com/336838 for details about this value.
static int GetInstallDate(SystemState* system_state);
// Parses the Omaha Response in |doc| and sets the
// |install_date_days| field of |output_object| to the value of the
// elapsed_days attribute of the daystart element. Returns True if
// the value was set, False if it wasn't found.
static bool ParseInstallDate(OmahaParserData* parser_data,
OmahaResponse* output_object);
// Returns True if the kPrefsInstallDateDays state variable is set,
// False otherwise.
static bool HasInstallDate(SystemState *system_state);
// Writes |install_date_days| into the kPrefsInstallDateDays state
// variable and emits an UMA stat for the |source| used. Returns
// True if the value was written, False if an error occurred.
static bool PersistInstallDate(SystemState *system_state,
int install_date_days,
InstallDateProvisioningSource source);
// Persist the new cohort* value received in the XML file in the |prefs_key|
// preference file. If the |new_value| is empty, the currently stored value
// will be deleted. Don't call this function with an empty |new_value| if the
// value was not set in the XML, since that would delete the stored value.
bool PersistCohortData(const std::string& prefs_key,
const std::string& new_value);
// If this is an update check request, initializes
// |ping_active_days_| and |ping_roll_call_days_| to values that may
// be sent as pings to Omaha.
void InitPingDays();
// Based on the persistent preference store values, calculates the
// number of days since the last ping sent for |key|.
int CalculatePingDays(const std::string& key);
// Returns whether we have "active_days" or "roll_call_days" ping values to
// send to Omaha and thus we should include them in the response.
bool ShouldPing() const;
// Returns true if the download of a new update should be deferred.
// False if the update can be downloaded.
bool ShouldDeferDownload(OmahaResponse* output_object);
// Returns true if the basic wall-clock-based waiting period has been
// satisfied based on the scattering policy setting. False otherwise.
// If true, it also indicates whether the additional update-check-count-based
// waiting period also needs to be satisfied before the download can begin.
WallClockWaitResult IsWallClockBasedWaitingSatisfied(
OmahaResponse* output_object);
// Returns true if the update-check-count-based waiting period has been
// satisfied. False otherwise.
bool IsUpdateCheckCountBasedWaitingSatisfied();
// Parses the response from Omaha that's available in |doc| using the other
// helper methods below and populates the |output_object| with the relevant
// values. Returns true if we should continue the parsing. False otherwise,
// in which case it sets any error code using |completer|.
bool ParseResponse(OmahaParserData* parser_data,
OmahaResponse* output_object,
ScopedActionCompleter* completer);
// Parses the status property in the given update_check_node and populates
// |output_object| if valid. Returns true if we should continue the parsing.
// False otherwise, in which case it sets any error code using |completer|.
bool ParseStatus(OmahaParserData* parser_data,
OmahaResponse* output_object,
ScopedActionCompleter* completer);
// Parses the URL nodes in the given XML document and populates
// |output_object| if valid. Returns true if we should continue the parsing.
// False otherwise, in which case it sets any error code using |completer|.
bool ParseUrls(OmahaParserData* parser_data,
OmahaResponse* output_object,
ScopedActionCompleter* completer);
// Parses the package node in the given XML document and populates
// |output_object| if valid. Returns true if we should continue the parsing.
// False otherwise, in which case it sets any error code using |completer|.
bool ParsePackage(OmahaParserData* parser_data,
OmahaResponse* output_object,
ScopedActionCompleter* completer);
// Parses the other parameters in the given XML document and populates
// |output_object| if valid. Returns true if we should continue the parsing.
// False otherwise, in which case it sets any error code using |completer|.
bool ParseParams(OmahaParserData* parser_data,
OmahaResponse* output_object,
ScopedActionCompleter* completer);
// Called by TransferComplete() to complete processing, either
// asynchronously after looking up resources via p2p or directly.
void CompleteProcessing();
// Helper to asynchronously look up payload on the LAN.
void LookupPayloadViaP2P(const OmahaResponse& response);
// Callback used by LookupPayloadViaP2P().
void OnLookupPayloadViaP2PCompleted(const std::string& url);
// Returns true if the current update should be ignored.
bool ShouldIgnoreUpdate(const OmahaResponse& response) const;
// Returns true if updates are allowed over the current type of connection.
// False otherwise.
bool IsUpdateAllowedOverCurrentConnection() const;
// Global system context.
SystemState* system_state_;
// Contains state that is relevant in the processing of the Omaha request.
OmahaRequestParams* params_;
// Pointer to the OmahaEvent info. This is an UpdateCheck request if null.
std::unique_ptr<OmahaEvent> event_;
// pointer to the HttpFetcher that does the http work
std::unique_ptr<HttpFetcher> http_fetcher_;
// If true, only include the <ping> element in the request.
bool ping_only_;
// Stores the response from the omaha server
brillo::Blob response_buffer_;
// Initialized by InitPingDays to values that may be sent to Omaha
// as part of a ping message. Note that only positive values and -1
// are sent to Omaha.
int ping_active_days_;
int ping_roll_call_days_;
DISALLOW_COPY_AND_ASSIGN(OmahaRequestAction);
};
} // namespace chromeos_update_engine
#endif // UPDATE_ENGINE_OMAHA_REQUEST_ACTION_H_