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/*
*
* Copyright (c) 2020 Project CHIP Authors
*
* 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.
*/
/**
* @file
* This file implements a QRCode Setup Payload generator in accordance
* with the CHIP specification.
*
*/
#include "QRCodeSetupPayloadGenerator.h"
#include "Base38Encode.h"
#include <lib/core/CHIPCore.h>
#include <lib/core/TLV.h>
#include <lib/core/TLVData.h>
#include <lib/core/TLVDebug.h>
#include <lib/core/TLVUtilities.h>
#include <lib/support/CodeUtils.h>
#include <lib/support/SafeInt.h>
#include <lib/support/ScopedBuffer.h>
#include <protocols/Protocols.h>
#include <stdlib.h>
#include <string.h>
#include <string>
namespace chip {
// Populates numberOfBits starting from LSB of input into bits, which is assumed to be zero-initialized
static CHIP_ERROR populateBits(uint8_t * bits, size_t & offset, uint64_t input, size_t numberOfBits,
size_t totalPayloadDataSizeInBits)
{
VerifyOrReturnError(offset + numberOfBits <= totalPayloadDataSizeInBits, CHIP_ERROR_INVALID_ARGUMENT);
VerifyOrReturnError(input < 1u << numberOfBits, CHIP_ERROR_INVALID_ARGUMENT);
size_t index = offset;
offset += numberOfBits;
while (input != 0)
{
if (input & 1)
{
const uint8_t mask = static_cast<uint8_t>(1 << index % 8);
bits[index / 8] = static_cast<uint8_t>(bits[index / 8] | mask);
}
index++;
input >>= 1;
}
return CHIP_NO_ERROR;
}
static CHIP_ERROR populateTLVBits(uint8_t * bits, size_t & offset, const uint8_t * tlvBuf, size_t tlvBufSizeInBytes,
size_t totalPayloadDataSizeInBits)
{
for (size_t i = 0; i < tlvBufSizeInBytes; i++)
{
const uint8_t value = tlvBuf[i];
ReturnErrorOnFailure(populateBits(bits, offset, value, 8, totalPayloadDataSizeInBits));
}
return CHIP_NO_ERROR;
}
CHIP_ERROR writeTag(TLV::TLVWriter & writer, TLV::Tag tag, OptionalQRCodeInfo & info)
{
CHIP_ERROR err = CHIP_NO_ERROR;
if (info.type == optionalQRCodeInfoTypeString)
{
err = writer.PutString(tag, info.data.c_str());
}
else if (info.type == optionalQRCodeInfoTypeInt32)
{
err = writer.Put(tag, info.int32);
}
else
{
err = CHIP_ERROR_INVALID_ARGUMENT;
}
return err;
}
CHIP_ERROR writeTag(TLV::TLVWriter & writer, TLV::Tag tag, OptionalQRCodeInfoExtension & info)
{
CHIP_ERROR err = CHIP_NO_ERROR;
if (info.type == optionalQRCodeInfoTypeString || info.type == optionalQRCodeInfoTypeInt32)
{
err = writeTag(writer, tag, static_cast<OptionalQRCodeInfo &>(info));
}
else if (info.type == optionalQRCodeInfoTypeInt64)
{
err = writer.Put(tag, info.int64);
}
else if (info.type == optionalQRCodeInfoTypeUInt32)
{
err = writer.Put(tag, info.uint32);
}
else if (info.type == optionalQRCodeInfoTypeUInt64)
{
err = writer.Put(tag, info.uint64);
}
else
{
err = CHIP_ERROR_INVALID_ARGUMENT;
}
return err;
}
CHIP_ERROR QRCodeSetupPayloadGenerator::generateTLVFromOptionalData(SetupPayload & outPayload, uint8_t * tlvDataStart,
uint32_t maxLen, size_t & tlvDataLengthInBytes)
{
std::vector<OptionalQRCodeInfo> optionalData = outPayload.getAllOptionalVendorData();
std::vector<OptionalQRCodeInfoExtension> optionalExtensionData = outPayload.getAllOptionalExtensionData();
VerifyOrReturnError(!optionalData.empty() || !optionalExtensionData.empty(), CHIP_NO_ERROR);
TLV::TLVWriter rootWriter;
rootWriter.Init(tlvDataStart, maxLen);
TLV::TLVWriter innerStructureWriter;
ReturnErrorOnFailure(rootWriter.OpenContainer(TLV::AnonymousTag(), TLV::kTLVType_Structure, innerStructureWriter));
for (OptionalQRCodeInfo info : optionalData)
{
ReturnErrorOnFailure(writeTag(innerStructureWriter, TLV::ContextTag(info.tag), info));
}
for (OptionalQRCodeInfoExtension info : optionalExtensionData)
{
ReturnErrorOnFailure(writeTag(innerStructureWriter, TLV::ContextTag(info.tag), info));
}
ReturnErrorOnFailure(rootWriter.CloseContainer(innerStructureWriter));
ReturnErrorOnFailure(rootWriter.Finalize());
tlvDataLengthInBytes = rootWriter.GetLengthWritten();
return CHIP_NO_ERROR;
}
static CHIP_ERROR generateBitSet(PayloadContents & payload, MutableByteSpan & bits, uint8_t * tlvDataStart,
size_t tlvDataLengthInBytes)
{
size_t offset = 0;
size_t totalPayloadSizeInBits = kTotalPayloadDataSizeInBits + (tlvDataLengthInBytes * 8);
VerifyOrReturnError(bits.size() * 8 >= totalPayloadSizeInBits, CHIP_ERROR_BUFFER_TOO_SMALL);
ReturnErrorOnFailure(
populateBits(bits.data(), offset, payload.version, kVersionFieldLengthInBits, kTotalPayloadDataSizeInBits));
ReturnErrorOnFailure(
populateBits(bits.data(), offset, payload.vendorID, kVendorIDFieldLengthInBits, kTotalPayloadDataSizeInBits));
ReturnErrorOnFailure(
populateBits(bits.data(), offset, payload.productID, kProductIDFieldLengthInBits, kTotalPayloadDataSizeInBits));
ReturnErrorOnFailure(populateBits(bits.data(), offset, static_cast<uint64_t>(payload.commissioningFlow),
kCommissioningFlowFieldLengthInBits, kTotalPayloadDataSizeInBits));
VerifyOrReturnError(payload.rendezvousInformation.HasValue(), CHIP_ERROR_INVALID_ARGUMENT);
ReturnErrorOnFailure(populateBits(bits.data(), offset, payload.rendezvousInformation.Value().Raw(),
kRendezvousInfoFieldLengthInBits, kTotalPayloadDataSizeInBits));
ReturnErrorOnFailure(populateBits(bits.data(), offset, payload.discriminator.GetLongValue(),
kPayloadDiscriminatorFieldLengthInBits, kTotalPayloadDataSizeInBits));
ReturnErrorOnFailure(
populateBits(bits.data(), offset, payload.setUpPINCode, kSetupPINCodeFieldLengthInBits, kTotalPayloadDataSizeInBits));
ReturnErrorOnFailure(populateBits(bits.data(), offset, 0, kPaddingFieldLengthInBits, kTotalPayloadDataSizeInBits));
ReturnErrorOnFailure(populateTLVBits(bits.data(), offset, tlvDataStart, tlvDataLengthInBytes, totalPayloadSizeInBits));
return CHIP_NO_ERROR;
}
static CHIP_ERROR payloadBase38RepresentationWithTLV(PayloadContents & payload, MutableCharSpan & outBuffer, MutableByteSpan bits,
uint8_t * tlvDataStart, size_t tlvDataLengthInBytes)
{
memset(bits.data(), 0, bits.size());
ReturnErrorOnFailure(generateBitSet(payload, bits, tlvDataStart, tlvDataLengthInBytes));
CHIP_ERROR err = CHIP_NO_ERROR;
size_t prefixLen = strlen(kQRCodePrefix);
if (outBuffer.size() < prefixLen + 1)
{
err = CHIP_ERROR_BUFFER_TOO_SMALL;
}
else
{
MutableCharSpan subSpan = outBuffer.SubSpan(prefixLen, outBuffer.size() - prefixLen);
memcpy(outBuffer.data(), kQRCodePrefix, prefixLen);
err = base38Encode(bits, subSpan);
// Reduce output span size to be the size of written data
outBuffer.reduce_size(subSpan.size() + prefixLen);
}
return err;
}
CHIP_ERROR QRCodeSetupPayloadGenerator::payloadBase38Representation(std::string & base38Representation)
{
// 6.1.2.2. Table: Packed Binary Data Structure
// The TLV Data should be 0 length if TLV is not included.
return payloadBase38Representation(base38Representation, nullptr, 0);
}
CHIP_ERROR QRCodeSetupPayloadGenerator::payloadBase38RepresentationWithAutoTLVBuffer(std::string & base38Representation)
{
// Estimate the size of the needed buffer.
size_t estimate = 0;
auto dataItemSizeEstimate = [](const OptionalQRCodeInfo & item) {
// Each data item needs a control byte and a context tag.
size_t size = 2;
if (item.type == optionalQRCodeInfoTypeString)
{
// We'll need to encode the string length and then the string data.
// Length is at most 8 bytes.
size += 8;
size += item.data.size();
}
else
{
// Integer. Assume it might need up to 8 bytes, for simplicity.
size += 8;
}
return size;
};
auto vendorData = mPayload.getAllOptionalVendorData();
for (auto & data : vendorData)
{
estimate += dataItemSizeEstimate(data);
}
auto extensionData = mPayload.getAllOptionalExtensionData();
for (auto & data : extensionData)
{
estimate += dataItemSizeEstimate(data);
}
estimate = TLV::EstimateStructOverhead(estimate);
VerifyOrReturnError(CanCastTo<uint32_t>(estimate), CHIP_ERROR_NO_MEMORY);
Platform::ScopedMemoryBuffer<uint8_t> buf;
VerifyOrReturnError(buf.Alloc(estimate), CHIP_ERROR_NO_MEMORY);
return payloadBase38Representation(base38Representation, buf.Get(), static_cast<uint32_t>(estimate));
}
CHIP_ERROR QRCodeSetupPayloadGenerator::payloadBase38Representation(std::string & base38Representation, uint8_t * tlvDataStart,
uint32_t tlvDataStartSize)
{
size_t tlvDataLengthInBytes = 0;
VerifyOrReturnError(mAllowInvalidPayload || mPayload.isValidQRCodePayload(), CHIP_ERROR_INVALID_ARGUMENT);
ReturnErrorOnFailure(generateTLVFromOptionalData(mPayload, tlvDataStart, tlvDataStartSize, tlvDataLengthInBytes));
std::vector<uint8_t> bits(kTotalPayloadDataSizeInBytes + tlvDataLengthInBytes);
MutableByteSpan bitsSpan(bits.data(), bits.capacity());
std::vector<char> buffer(base38EncodedLength(bits.capacity()) + strlen(kQRCodePrefix));
MutableCharSpan bufferSpan(buffer.data(), buffer.capacity());
ReturnErrorOnFailure(payloadBase38RepresentationWithTLV(mPayload, bufferSpan, bitsSpan, tlvDataStart, tlvDataLengthInBytes));
base38Representation.assign(bufferSpan.data());
return CHIP_NO_ERROR;
}
CHIP_ERROR QRCodeBasicSetupPayloadGenerator::payloadBase38Representation(MutableCharSpan & outBuffer)
{
uint8_t bits[kTotalPayloadDataSizeInBytes];
VerifyOrReturnError(mPayload.isValidQRCodePayload(), CHIP_ERROR_INVALID_ARGUMENT);
return payloadBase38RepresentationWithTLV(mPayload, outBuffer, MutableByteSpan(bits), nullptr, 0);
}
} // namespace chip