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Merge changes from topics "5g_slicing_hal_vts_on_aosp_1st_part", "5g_slicing_hal_vts_on_aosp_2nd_part"

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* changes:
  Support SlicingConfig for 5G Slicing Configuration
  Update HAL 1.6 for 5G Slicing
This commit is contained in:
Sarah Chin
2021-03-02 22:56:06 +00:00
committed by Gerrit Code Review
parent 81fcfa6295 b1ea8dbc19
commit 3c24b7500a
6 changed files with 365 additions and 3 deletions
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28
radio/1.6/IRadio.hal
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@@ -123,6 +123,18 @@ interface IRadio extends @1.5::IRadio {
* @param sliceInfo SliceInfo to be used for the data connection when a handover occurs from
* EPDG to 5G. It is valid only when accessNetwork is AccessNetwork:NGRAN. If the slice
* passed from EPDG is rejected, then the data failure cause must be DataCallFailCause:SLICE_REJECTED.
* @param trafficDescriptor TrafficDescriptor for which data connection needs to be
* established. It is used for URSP traffic matching as described in TS 24.526
* Section 4.2.2. It includes an optional DNN which, if present, must be used for traffic
* matching -- it does not specify the end point to be used for the data call. The end
* point is specified by DataProfileInfo.apn; DataProfileInfo.apn must be used as the end
* point if one is not specified through URSP rules.
* @param matchAllRuleAllowed bool to indicate if using default match-all URSP rule for this
* request is allowed. If false, this request must not use the match-all URSP rule and if
* a non-match-all rule is not found (or if URSP rules are not available) it should return
* failure with cause DataCallFailCause:MATCH_ALL_RULE_NOT_ALLOWED. This is needed as some
* requests need to have a hard failure if the intention cannot be met, for example, a
* zero-rating slice.
*
* Response function is IRadioResponse.setupDataCallResponse_1_6()
*
@@ -131,7 +143,8 @@ interface IRadio extends @1.5::IRadio {
oneway setupDataCall_1_6(int32_t serial, AccessNetwork accessNetwork,
DataProfileInfo dataProfileInfo, bool roamingAllowed,
DataRequestReason reason, vec<LinkAddress> addresses, vec<string> dnses,
int32_t pduSessionId, OptionalSliceInfo sliceInfo);
int32_t pduSessionId, OptionalSliceInfo sliceInfo,
OptionalTrafficDescriptor trafficDescriptor, bool matchAllRuleAllowed);
/**
* Send an SMS message
@@ -497,6 +510,19 @@ interface IRadio extends @1.5::IRadio {
*/
oneway getCurrentCalls_1_6(int32_t serial);
/**
* Request to get the current slicing configuration including URSP rules and
* NSSAIs (configured, allowed and rejected).
* URSP stands for UE route selection policy and is defined in 3GPP TS 24.526
* Section 4.2.
* An NSSAI is a collection of network slices. Each network slice is identified by
* an S-NSSAI and is represented by the struct SliceInfo. NSSAI and S-NSSAI
* are defined in 3GPP TS 24.501.
*
* Response function is IRadioResponse.getSlicingConfigResponse()
*/
oneway getSlicingConfig(int32_t serial);
/**
* Provide Carrier specific information to the modem that must be used to
* encrypt the IMSI and IMPI. Sent by the framework during boot, carrier

14
radio/1.6/IRadioResponse.hal
View File

@@ -26,6 +26,7 @@ import @1.6::RegStateResult;
import @1.6::RadioResponseInfo;
import @1.6::SetupDataCallResult;
import @1.6::SignalStrength;
import @1.6::SlicingConfig;
/**
* Interface declaring response functions to solicited radio requests.
@@ -417,4 +418,17 @@ interface IRadioResponse extends @1.5::IRadioResponse {
* RadioError:CANCELLED
*/
oneway getCurrentCallsResponse_1_6(RadioResponseInfo info, vec<Call> calls);
/**
* @param info Response info struct containing response type, serial no. and error
* @param slicingConfig Current slicing configuration
*
* Valid errors returned:
* RadioError:NONE
* RadioError:RADIO_NOT_AVAILABLE
* RadioError:INTERNAL_ERR
* RadioError:MODEM_ERR
*/
oneway getSlicingConfigResponse(RadioResponseInfo info,
SlicingConfig slicingConfig);
};

215
radio/1.6/types.hal
View File

@@ -366,6 +366,13 @@ struct SetupDataCallResult {
* AccessNetwork:NGRAN.
*/
OptionalSliceInfo sliceInfo;
/**
* TrafficDescriptors for which this data call must be used. It only includes
* the TDs for which a data call has been requested so far; it is not an
* exhaustive list.
*/
vec<TrafficDescriptor> trafficDescriptors;
};
/**
@@ -900,6 +907,214 @@ enum DataCallFailCause : @1.4::DataCallFailCause {
* Data call fail due to the slice not being allowed for the data call.
*/
SLICE_REJECTED = 0x8CC,
/**
* No matching rule available for the request, and match-all rule is not allowed for it.
*/
MATCH_ALL_RULE_NOT_ALLOWED = 0x8CD,
/**
* If connection failed for all matching URSP rules
*/
ALL_MATCHING_RULES_FAILED = 0x8CE,
};
/**
* This safe_union represents an optional DNN. DNN stands for Data Network Name
* and represents an APN as defined in 3GPP TS 23.003.
*/
safe_union OptionalDNN {
Monostate noinit;
string value;
};
/**
* This safe_union represents an optional OSAppId.
*/
safe_union OptionalOSAppId {
Monostate noinit;
OSAppId value;
};
/**
* This safe_union represents an optional TrafficDescriptor.
*/
safe_union OptionalTrafficDescriptor {
Monostate noinit;
TrafficDescriptor value;
};
/**
* This struct represents a traffic descriptor. A valid struct must have at least
* one of the optional values present. This is based on the definition of traffic
* descriptor in TS 24.526 Section 5.2.
*/
struct TrafficDescriptor {
/**
* DNN stands for Data Network Name and represents an APN as defined in
* 3GPP TS 23.003.
*/
OptionalDNN dnn;
/**
* Indicates the OSId + OSAppId (used as category in Android).
*/
OptionalOSAppId osAppId;
};
/**
* This struct represents the OSId + OSAppId as defined in TS 24.526 Section 5.2
*/
struct OSAppId {
/**
* Byte array representing OSId + OSAppId. The minimum length of the array is
* 18 and maximum length is 272 (16 bytes for OSId + 1 byte for OSAppId length
* + up to 255 bytes for OSAppId).
*/
vec<uint8_t> osAppId;
};
/**
* This struct represents the current slicing configuration.
*/
struct SlicingConfig {
/**
* This vector contains the current URSP rules. Empty vector represents that no
* rules are configured.
*/
vec<UrspRule> urspRules;
/**
* Struct containing all NSSAIs (list of slice info).
*/
Nssais nssais;
};
/**
* This struct represents a single URSP rule as defined in 3GPP TS 24.526.
*/
struct UrspRule {
/**
* Precedence value in the range of 0 to 255. Higher value has lower
* precedence.
*/
uint8_t precedence;
/**
* Used as a matcher for network requests.
*/
vec<TrafficDescriptor> trafficDescriptors;
/**
* List of routes (connection parameters) that must be used for requests
* matching a trafficDescriptor.
*/
vec<RouteSelectionDescriptor> routeSelectionDescriptor;
};
/**
* This struct represents a single route selection descriptor as defined in
* 3GPP TS 24.526.
*/
struct RouteSelectionDescriptor {
/**
* Precedence value in the range of 0 to 255. Higher value has lower
* precedence.
*/
uint8_t precedence;
/**
* Parameters defining this RouteSelectionDescriptor. The length of the vector
* must be >= 1.
*/
vec<RouteSelectionDescriptorParams> routeSelectionDescriptorParams;
};
/**
* This struct represents a route selection descriptor. A valid struct must have
* at least one of the vectors non-empty.
*/
struct RouteSelectionDescriptorParams {
/**
* Valid values are IP, IPV6 and IPV4V6.
*/
OptionalPdpProtocolType sessionType;
OptionalSscMode sscMode;
/**
* There can be 0 or more SliceInfo specified in a route descriptor.
*/
vec<SliceInfo> sliceInfo;
/**
* DNN stands for Data Network Name and represents an APN as defined in
* 3GPP TS 23.003. There can be 0 or more DNNs specified in a route
* descriptor.
*/
vec<string> dnn;
};
/**
* This safe_union represents an optional PdpProtocolType.
*/
safe_union OptionalPdpProtocolType {
Monostate noinit;
PdpProtocolType value;
};
/**
* This safe_union represents an optional SscMode.
*/
safe_union OptionalSscMode {
Monostate noinit;
SscMode value;
};
/**
* This struct contains all NSSAIs (lists of slices).
*/
struct Nssais {
/**
* These are all the slices configured by the network. This includes allowed
* and rejected slices, as well as slices that are neither allowed nor rejected
* yet. Empty vector indicates that no slices are configured, and in that case
* allowed and rejected vectors must be empty as well.
*/
vec<SliceInfo> configured;
/**
* These are all the slices that the UE is allowed to use. All these slices
* must be configured as well. Empty vector indicates that no slices are
* allowed yet.
*/
vec<SliceInfo> allowed;
/**
* These are all the slices that the UE is not allowed to use. All these slices
* must be configured as well. Empty vector indicates that no slices are
* rejected yet.
*/
vec<RejectedSliceInfo> rejected;
/**
* Default configured NSSAI
*/
vec<SliceInfo> defaultConfigured;
};
/**
* This struct represents a network slice rejected by the network. It contains a
* rejectionCause corresponding to a rejected network slice.
*/
struct RejectedSliceInfo {
SliceInfo sliceInfo;
SliceRejectionCause rejectionCause;
};
enum SliceRejectionCause : int32_t {
NOT_AVAILABLE_IN_PLMN,
NOT_AVAILABLE_IN_REG_AREA,
};
/**
* Enum representing session and service continuity mode as defined in
* 3GPP TS 23.501.
*/
enum SscMode : int32_t {
MODE_1 = 1,
MODE_2 = 2,
MODE_3 = 3,
};
/**

95
radio/1.6/vts/functional/radio_hidl_hal_api.cpp
View File

@@ -59,9 +59,15 @@ TEST_P(RadioHidlTest_v1_6, setupDataCall_1_6) {
::android::hardware::radio::V1_6::OptionalSliceInfo optionalSliceInfo;
memset(&optionalSliceInfo, 0, sizeof(optionalSliceInfo));
::android::hardware::radio::V1_6::OptionalTrafficDescriptor optionalTrafficDescriptor;
memset(&optionalTrafficDescriptor, 0, sizeof(optionalTrafficDescriptor));
bool matchAllRuleAllowed = true;
Return<void> res =
radio_v1_6->setupDataCall_1_6(serial, accessNetwork, dataProfileInfo, roamingAllowed,
reason, addresses, dnses, -1, optionalSliceInfo);
reason, addresses, dnses, -1, optionalSliceInfo,
optionalTrafficDescriptor, matchAllRuleAllowed);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
@@ -82,6 +88,93 @@ TEST_P(RadioHidlTest_v1_6, setupDataCall_1_6) {
}
}
TEST_P(RadioHidlTest_v1_6, setupDataCall_1_6_osAppId) {
serial = GetRandomSerialNumber();
::android::hardware::radio::V1_5::AccessNetwork accessNetwork =
::android::hardware::radio::V1_5::AccessNetwork::EUTRAN;
android::hardware::radio::V1_5::DataProfileInfo dataProfileInfo;
memset(&dataProfileInfo, 0, sizeof(dataProfileInfo));
dataProfileInfo.profileId = DataProfileId::DEFAULT;
dataProfileInfo.apn = hidl_string("internet");
dataProfileInfo.protocol = PdpProtocolType::IP;
dataProfileInfo.roamingProtocol = PdpProtocolType::IP;
dataProfileInfo.authType = ApnAuthType::NO_PAP_NO_CHAP;
dataProfileInfo.user = hidl_string("username");
dataProfileInfo.password = hidl_string("password");
dataProfileInfo.type = DataProfileInfoType::THREE_GPP;
dataProfileInfo.maxConnsTime = 300;
dataProfileInfo.maxConns = 20;
dataProfileInfo.waitTime = 0;
dataProfileInfo.enabled = true;
dataProfileInfo.supportedApnTypesBitmap = 320;
dataProfileInfo.bearerBitmap = 161543;
dataProfileInfo.mtuV4 = 0;
dataProfileInfo.mtuV6 = 0;
dataProfileInfo.preferred = true;
dataProfileInfo.persistent = false;
bool roamingAllowed = false;
std::vector<::android::hardware::radio::V1_5::LinkAddress> addresses = {};
std::vector<hidl_string> dnses = {};
::android::hardware::radio::V1_2::DataRequestReason reason =
::android::hardware::radio::V1_2::DataRequestReason::NORMAL;
::android::hardware::radio::V1_6::OptionalSliceInfo optionalSliceInfo;
memset(&optionalSliceInfo, 0, sizeof(optionalSliceInfo));
::android::hardware::radio::V1_6::OptionalTrafficDescriptor optionalTrafficDescriptor;
memset(&optionalTrafficDescriptor, 0, sizeof(optionalTrafficDescriptor));
::android::hardware::radio::V1_6::TrafficDescriptor trafficDescriptor;
::android::hardware::radio::V1_6::OSAppId osAppId;
osAppId.osAppId = 1;
trafficDescriptor.osAppId.value(osAppId);
optionalTrafficDescriptor.value(trafficDescriptor);
bool matchAllRuleAllowed = true;
Return<void> res =
radio_v1_6->setupDataCall_1_6(serial, accessNetwork, dataProfileInfo, roamingAllowed,
reason, addresses, dnses, -1, optionalSliceInfo,
optionalTrafficDescriptor, matchAllRuleAllowed);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_v1_6->rspInfo.type);
EXPECT_EQ(serial, radioRsp_v1_6->rspInfo.serial);
if (cardStatus.base.base.base.cardState == CardState::ABSENT) {
ASSERT_TRUE(CheckAnyOfErrors(
radioRsp_v1_6->rspInfo.error,
{::android::hardware::radio::V1_6::RadioError::SIM_ABSENT,
::android::hardware::radio::V1_6::RadioError::RADIO_NOT_AVAILABLE,
::android::hardware::radio::V1_6::RadioError::OP_NOT_ALLOWED_BEFORE_REG_TO_NW}));
} else if (cardStatus.base.base.base.cardState == CardState::PRESENT) {
ASSERT_TRUE(CheckAnyOfErrors(
radioRsp_v1_6->rspInfo.error,
{::android::hardware::radio::V1_6::RadioError::NONE,
::android::hardware::radio::V1_6::RadioError::RADIO_NOT_AVAILABLE,
::android::hardware::radio::V1_6::RadioError::OP_NOT_ALLOWED_BEFORE_REG_TO_NW}));
EXPECT_EQ(optionalTrafficDescriptor.value().osAppId.value().osAppId,
radioRsp_v1_6->setupDataCallResult.trafficDescriptors[0].osAppId.value().osAppId);
}
}
/*
* Test IRadio.getSlicingConfig() for the response returned.
*/
TEST_P(RadioHidlTest_v1_6, getSlicingConfig) {
serial = GetRandomSerialNumber();
radio_v1_6->getSlicingConfig(serial);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_v1_6->rspInfo.type);
EXPECT_EQ(serial, radioRsp_v1_6->rspInfo.serial);
EXPECT_EQ(::android::hardware::radio::V1_6::RadioError::NONE, radioRsp_v1_6->rspInfo.error);
}
/*
* Test IRadio_1_6.sendSms() for the response returned.
*/

5
radio/1.6/vts/functional/radio_hidl_hal_utils_v1_6.h
View File

@@ -89,6 +89,7 @@ class RadioResponse_v1_6 : public ::android::hardware::radio::V1_6::IRadioRespon
// Data
::android::hardware::radio::V1_4::DataRegStateResult dataRegResp;
::android::hardware::radio::V1_6::SetupDataCallResult setupDataCallResult;
// SimLock status
::android::hardware::radio::V1_4::CarrierRestrictionsWithPriority carrierRestrictionsResp;
@@ -827,6 +828,10 @@ class RadioResponse_v1_6 : public ::android::hardware::radio::V1_6::IRadioRespon
Return<void> getCurrentCallsResponse_1_6(
const ::android::hardware::radio::V1_6::RadioResponseInfo& info,
const ::android::hardware::hidl_vec<::android::hardware::radio::V1_6::Call>& calls);
Return<void> getSlicingConfigResponse(
const ::android::hardware::radio::V1_6::RadioResponseInfo& info,
const ::android::hardware::radio::V1_6::SlicingConfig& slicingConfig);
};
/* Callback class for radio indication */

11
radio/1.6/vts/functional/radio_response.cpp
View File

@@ -1053,8 +1053,9 @@ Return<void> RadioResponse_v1_6::setRadioPowerResponse_1_6(
Return<void> RadioResponse_v1_6::setupDataCallResponse_1_6(
const ::android::hardware::radio::V1_6::RadioResponseInfo& info,
const android::hardware::radio::V1_6::SetupDataCallResult& /* dcResponse */) {
const android::hardware::radio::V1_6::SetupDataCallResult& dcResponse) {
rspInfo = info;
setupDataCallResult = dcResponse;
parent_v1_6.notify(info.serial);
return Void();
}
@@ -1220,3 +1221,11 @@ Return<void> RadioResponse_v1_6::getCurrentCallsResponse_1_6(
parent_v1_6.notify(info.serial);
return Void();
}
Return<void> RadioResponse_v1_6::getSlicingConfigResponse(
const ::android::hardware::radio::V1_6::RadioResponseInfo& info,
const ::android::hardware::radio::V1_6::SlicingConfig& /*slicingConfig*/) {
rspInfo = info;
parent_v1_6.notify(info.serial);
return Void();
}