/* * Copyright (C) 2018 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. */ #undef LOG_TAG #define LOG_TAG "DisplayIdentification" #include #include #include #include #include #include "DisplayIdentification.h" namespace android { namespace { using byte_view = std::basic_string_view; constexpr size_t kEdidHeaderLength = 5; constexpr uint16_t kFallbackEdidManufacturerId = 0; constexpr uint16_t kVirtualEdidManufacturerId = 0xffffu; std::optional getEdidDescriptorType(const byte_view& view) { if (view.size() < kEdidHeaderLength || view[0] || view[1] || view[2] || view[4]) { return {}; } return view[3]; } std::string_view parseEdidText(const byte_view& view) { std::string_view text(reinterpret_cast(view.data()), view.size()); text = text.substr(0, text.find('\n')); if (!std::all_of(text.begin(), text.end(), ::isprint)) { ALOGW("Invalid EDID: ASCII text is not printable."); return {}; } return text; } // Big-endian 16-bit value encodes three 5-bit letters where A is 0b00001. template char getPnpLetter(uint16_t id) { static_assert(I < 3); const char letter = 'A' + (static_cast(id >> ((2 - I) * 5)) & 0b00011111) - 1; return letter < 'A' || letter > 'Z' ? '\0' : letter; } } // namespace uint16_t DisplayId::manufacturerId() const { return static_cast(value >> 40); } DisplayId DisplayId::fromEdid(uint8_t port, uint16_t manufacturerId, uint32_t displayNameHash) { return {(static_cast(manufacturerId) << 40) | (static_cast(displayNameHash) << 8) | port}; } bool isEdid(const DisplayIdentificationData& data) { const uint8_t kMagic[] = {0, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0}; return data.size() >= sizeof(kMagic) && std::equal(std::begin(kMagic), std::end(kMagic), data.begin()); } std::optional parseEdid(const DisplayIdentificationData& edid) { constexpr size_t kMinLength = 128; if (edid.size() < kMinLength) { ALOGW("Invalid EDID: structure is truncated."); // Attempt parsing even if EDID is malformed. } else { ALOGW_IF(edid[126] != 0, "EDID extensions are currently unsupported."); ALOGW_IF(std::accumulate(edid.begin(), edid.begin() + kMinLength, static_cast(0)), "Invalid EDID: structure does not checksum."); } constexpr size_t kManufacturerOffset = 8; if (edid.size() < kManufacturerOffset + sizeof(uint16_t)) { ALOGE("Invalid EDID: manufacturer ID is truncated."); return {}; } // Plug and play ID encoded as big-endian 16-bit value. const uint16_t manufacturerId = (edid[kManufacturerOffset] << 8) | edid[kManufacturerOffset + 1]; const auto pnpId = getPnpId(manufacturerId); if (!pnpId) { ALOGE("Invalid EDID: manufacturer ID is not a valid PnP ID."); return {}; } constexpr size_t kDescriptorOffset = 54; if (edid.size() < kDescriptorOffset) { ALOGE("Invalid EDID: descriptors are missing."); return {}; } byte_view view(edid.data(), edid.size()); view.remove_prefix(kDescriptorOffset); std::string_view displayName; std::string_view serialNumber; std::string_view asciiText; constexpr size_t kDescriptorCount = 4; constexpr size_t kDescriptorLength = 18; for (size_t i = 0; i < kDescriptorCount; i++) { if (view.size() < kDescriptorLength) { break; } if (const auto type = getEdidDescriptorType(view)) { byte_view descriptor(view.data(), kDescriptorLength); descriptor.remove_prefix(kEdidHeaderLength); switch (*type) { case 0xfc: displayName = parseEdidText(descriptor); break; case 0xfe: asciiText = parseEdidText(descriptor); break; case 0xff: serialNumber = parseEdidText(descriptor); break; } } view.remove_prefix(kDescriptorLength); } if (displayName.empty()) { ALOGW("Invalid EDID: falling back to serial number due to missing display name."); displayName = serialNumber; } if (displayName.empty()) { ALOGW("Invalid EDID: falling back to ASCII text due to missing serial number."); displayName = asciiText; } if (displayName.empty()) { ALOGE("Invalid EDID: display name and fallback descriptors are missing."); return {}; } return Edid{manufacturerId, *pnpId, displayName}; } std::optional getPnpId(uint16_t manufacturerId) { const char a = getPnpLetter<0>(manufacturerId); const char b = getPnpLetter<1>(manufacturerId); const char c = getPnpLetter<2>(manufacturerId); return a && b && c ? std::make_optional(PnpId{a, b, c}) : std::nullopt; } std::optional getPnpId(DisplayId displayId) { return getPnpId(displayId.manufacturerId()); } std::optional parseDisplayIdentificationData( uint8_t port, const DisplayIdentificationData& data) { if (!isEdid(data)) { ALOGE("Display identification data has unknown format."); return {}; } const auto edid = parseEdid(data); if (!edid) { return {}; } // Hash display name instead of using product code or serial number, since the latter have been // observed to change on some displays with multiple inputs. const auto hash = static_cast(std::hash()(edid->displayName)); return DisplayIdentificationInfo{DisplayId::fromEdid(port, edid->manufacturerId, hash), std::string(edid->displayName)}; } DisplayId getFallbackDisplayId(uint8_t port) { return DisplayId::fromEdid(port, kFallbackEdidManufacturerId, 0); } DisplayId getVirtualDisplayId(uint32_t id) { return DisplayId::fromEdid(0, kVirtualEdidManufacturerId, id); } } // namespace android