/* * Copyright 2020, 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. */ #include "EicCbor.h" void eicCborInit(EicCbor* cbor, uint8_t* buffer, size_t bufferSize) { eicMemSet(cbor, '\0', sizeof(EicCbor)); cbor->size = 0; cbor->bufferSize = bufferSize; cbor->buffer = buffer; cbor->digestType = EIC_CBOR_DIGEST_TYPE_SHA256; eicOpsSha256Init(&cbor->digester.sha256); } void eicCborInitHmacSha256(EicCbor* cbor, uint8_t* buffer, size_t bufferSize, const uint8_t* hmacKey, size_t hmacKeySize) { eicMemSet(cbor, '\0', sizeof(EicCbor)); cbor->size = 0; cbor->bufferSize = bufferSize; cbor->buffer = buffer; cbor->digestType = EIC_CBOR_DIGEST_TYPE_HMAC_SHA256; eicOpsHmacSha256Init(&cbor->digester.hmacSha256, hmacKey, hmacKeySize); } void eicCborEnableSecondaryDigesterSha256(EicCbor* cbor, EicSha256Ctx* sha256) { cbor->secondaryDigesterSha256 = sha256; } void eicCborFinal(EicCbor* cbor, uint8_t digest[EIC_SHA256_DIGEST_SIZE]) { switch (cbor->digestType) { case EIC_CBOR_DIGEST_TYPE_SHA256: eicOpsSha256Final(&cbor->digester.sha256, digest); break; case EIC_CBOR_DIGEST_TYPE_HMAC_SHA256: eicOpsHmacSha256Final(&cbor->digester.hmacSha256, digest); break; } } void eicCborAppend(EicCbor* cbor, const uint8_t* data, size_t size) { switch (cbor->digestType) { case EIC_CBOR_DIGEST_TYPE_SHA256: eicOpsSha256Update(&cbor->digester.sha256, data, size); break; case EIC_CBOR_DIGEST_TYPE_HMAC_SHA256: eicOpsHmacSha256Update(&cbor->digester.hmacSha256, data, size); break; } if (cbor->secondaryDigesterSha256 != NULL) { eicOpsSha256Update(cbor->secondaryDigesterSha256, data, size); } if (cbor->size >= cbor->bufferSize) { cbor->size += size; return; } size_t numBytesLeft = cbor->bufferSize - cbor->size; size_t numBytesToCopy = size; if (numBytesToCopy > numBytesLeft) { numBytesToCopy = numBytesLeft; } eicMemCpy(cbor->buffer + cbor->size, data, numBytesToCopy); cbor->size += size; } size_t eicCborAdditionalLengthBytesFor(size_t size) { if (size < 24) { return 0; } else if (size <= 0xff) { return 1; } else if (size <= 0xffff) { return 2; } else if (size <= 0xffffffff) { return 4; } return 8; } void eicCborBegin(EicCbor* cbor, int majorType, uint64_t size) { uint8_t data[9]; if (size < 24) { data[0] = (majorType << 5) | size; eicCborAppend(cbor, data, 1); } else if (size <= 0xff) { data[0] = (majorType << 5) | 24; data[1] = size; eicCborAppend(cbor, data, 2); } else if (size <= 0xffff) { data[0] = (majorType << 5) | 25; data[1] = size >> 8; data[2] = size & 0xff; eicCborAppend(cbor, data, 3); } else if (size <= 0xffffffff) { data[0] = (majorType << 5) | 26; data[1] = (size >> 24) & 0xff; data[2] = (size >> 16) & 0xff; data[3] = (size >> 8) & 0xff; data[4] = size & 0xff; eicCborAppend(cbor, data, 5); } else { data[0] = (majorType << 5) | 27; data[1] = (((uint64_t)size) >> 56) & 0xff; data[2] = (((uint64_t)size) >> 48) & 0xff; data[3] = (((uint64_t)size) >> 40) & 0xff; data[4] = (((uint64_t)size) >> 32) & 0xff; data[5] = (((uint64_t)size) >> 24) & 0xff; data[6] = (((uint64_t)size) >> 16) & 0xff; data[7] = (((uint64_t)size) >> 8) & 0xff; data[8] = ((uint64_t)size) & 0xff; eicCborAppend(cbor, data, 9); } } void eicCborAppendByteString(EicCbor* cbor, const uint8_t* data, size_t dataSize) { eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_BYTE_STRING, dataSize); eicCborAppend(cbor, data, dataSize); } void eicCborAppendString(EicCbor* cbor, const char* str, size_t strLength) { eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_STRING, strLength); eicCborAppend(cbor, (const uint8_t*)str, strLength); } void eicCborAppendStringZ(EicCbor* cbor, const char* str) { eicCborAppendString(cbor, str, eicStrLen(str)); } void eicCborAppendSimple(EicCbor* cbor, uint8_t simpleValue) { eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_SIMPLE, simpleValue); } void eicCborAppendBool(EicCbor* cbor, bool value) { uint8_t simpleValue = value ? EIC_CBOR_SIMPLE_VALUE_TRUE : EIC_CBOR_SIMPLE_VALUE_FALSE; eicCborAppendSimple(cbor, simpleValue); } void eicCborAppendSemantic(EicCbor* cbor, uint64_t value) { size_t encoded = value; eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_SEMANTIC, encoded); } void eicCborAppendUnsigned(EicCbor* cbor, uint64_t value) { uint64_t encoded = value; eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_UNSIGNED, encoded); } void eicCborAppendNumber(EicCbor* cbor, int64_t value) { if (value < 0) { uint64_t encoded = -1 - value; eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_NEGATIVE, encoded); } else { eicCborAppendUnsigned(cbor, value); } } void eicCborAppendArray(EicCbor* cbor, size_t numElements) { eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_ARRAY, numElements); } void eicCborAppendMap(EicCbor* cbor, size_t numPairs) { eicCborBegin(cbor, EIC_CBOR_MAJOR_TYPE_MAP, numPairs); } bool eicCborCalcAccessControl(EicCbor* cborBuilder, int id, const uint8_t* readerCertificate, size_t readerCertificateSize, bool userAuthenticationRequired, uint64_t timeoutMillis, uint64_t secureUserId) { size_t numPairs = 1; if (readerCertificateSize > 0) { numPairs += 1; } if (userAuthenticationRequired) { numPairs += 2; if (secureUserId > 0) { numPairs += 1; } } eicCborAppendMap(cborBuilder, numPairs); eicCborAppendStringZ(cborBuilder, "id"); eicCborAppendUnsigned(cborBuilder, id); if (readerCertificateSize > 0) { eicCborAppendStringZ(cborBuilder, "readerCertificate"); eicCborAppendByteString(cborBuilder, readerCertificate, readerCertificateSize); } if (userAuthenticationRequired) { eicCborAppendStringZ(cborBuilder, "userAuthenticationRequired"); eicCborAppendBool(cborBuilder, userAuthenticationRequired); eicCborAppendStringZ(cborBuilder, "timeoutMillis"); eicCborAppendUnsigned(cborBuilder, timeoutMillis); if (secureUserId > 0) { eicCborAppendStringZ(cborBuilder, "secureUserId"); eicCborAppendUnsigned(cborBuilder, secureUserId); } } if (cborBuilder->size > cborBuilder->bufferSize) { eicDebug("Buffer for ACP CBOR is too small (%zd) - need %zd bytes", cborBuilder->bufferSize, cborBuilder->size); return false; } return true; } bool eicCborCalcEntryAdditionalData(const uint8_t* accessControlProfileIds, size_t numAccessControlProfileIds, const char* nameSpace, size_t nameSpaceLength, const char* name, size_t nameLength, uint8_t* cborBuffer, size_t cborBufferSize, size_t* outAdditionalDataCborSize, uint8_t additionalDataSha256[EIC_SHA256_DIGEST_SIZE]) { EicCbor cborBuilder; eicCborInit(&cborBuilder, cborBuffer, cborBufferSize); eicCborAppendMap(&cborBuilder, 3); eicCborAppendStringZ(&cborBuilder, "Namespace"); eicCborAppendString(&cborBuilder, nameSpace, nameSpaceLength); eicCborAppendStringZ(&cborBuilder, "Name"); eicCborAppendString(&cborBuilder, name, nameLength); eicCborAppendStringZ(&cborBuilder, "AccessControlProfileIds"); eicCborAppendArray(&cborBuilder, numAccessControlProfileIds); for (size_t n = 0; n < numAccessControlProfileIds; n++) { eicCborAppendNumber(&cborBuilder, accessControlProfileIds[n]); } if (cborBuilder.size > cborBufferSize) { eicDebug("Not enough space for additionalData - buffer is only %zd bytes, content is %zd", cborBufferSize, cborBuilder.size); return false; } if (outAdditionalDataCborSize != NULL) { *outAdditionalDataCborSize = cborBuilder.size; } eicCborFinal(&cborBuilder, additionalDataSha256); return true; }