/* * Copyright (C) 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. */ #define LOG_TAG "android.hardware.usb.gadget.aidl-service" #include "UsbGadget.h" #include #include #include #include #include #include #include #include #include #include namespace aidl { namespace android { namespace hardware { namespace usb { namespace gadget { using ::android::base::GetBoolProperty; using ::android::hardware::google::pixel::usb::kUvcEnabled; string enabledPath; constexpr char kHsi2cPath[] = "/sys/devices/platform/10cb0000.hsi2c"; constexpr char kI2CPath[] = "/sys/devices/platform/10cb0000.hsi2c/i2c-"; constexpr char kAccessoryLimitCurrent[] = "-0025/usb_limit_accessory_current"; constexpr char kAccessoryLimitCurrentEnable[] = "-0025/usb_limit_accessory_enable"; constexpr char kUpdateSdpEnumTimeout[] = "-0025/update_sdp_enum_timeout"; Status getI2cBusHelper(string *name) { DIR *dp; dp = opendir(kHsi2cPath); if (dp != NULL) { struct dirent *ep; while ((ep = readdir(dp))) { if (ep->d_type == DT_DIR) { if (string::npos != string(ep->d_name).find("i2c-")) { std::strtok(ep->d_name, "-"); *name = std::strtok(NULL, "-"); } } } closedir(dp); return Status::SUCCESS; } ALOGE("Failed to open %s", kHsi2cPath); return Status::ERROR; } UsbGadget::UsbGadget() : mGadgetIrqPath("") { if (access(OS_DESC_PATH, R_OK) != 0) { ALOGE("configfs setup not done yet"); abort(); } } Status UsbGadget::getUsbGadgetIrqPath() { std::string irqs; size_t read_pos = 0; size_t found_pos = 0; if (!ReadFileToString(kProcInterruptsPath, &irqs)) { ALOGE("cannot read all interrupts"); return Status::ERROR; } while (true) { found_pos = irqs.find_first_of("\n", read_pos); if (found_pos == std::string::npos) { ALOGI("the string of all interrupts is unexpected"); return Status::ERROR; } std::string single_irq = irqs.substr(read_pos, found_pos - read_pos); if (single_irq.find("dwc3", 0) != std::string::npos) { unsigned int dwc3_irq_number; size_t dwc3_pos = single_irq.find_first_of(":"); if (!ParseUint(single_irq.substr(0, dwc3_pos), &dwc3_irq_number)) { ALOGI("unknown IRQ strings"); return Status::ERROR; } mGadgetIrqPath = kProcIrqPath + single_irq.substr(0, dwc3_pos) + kSmpAffinityList; break; } if (found_pos == irqs.npos) { ALOGI("USB gadget doesn't start"); return Status::ERROR; } read_pos = found_pos + 1; } return Status::SUCCESS; } void currentFunctionsAppliedCallback(bool functionsApplied, void *payload) { UsbGadget *gadget = (UsbGadget *)payload; gadget->mCurrentUsbFunctionsApplied = functionsApplied; gadget->updateSdpEnumTimeout(); } ScopedAStatus UsbGadget::getCurrentUsbFunctions(const shared_ptr &callback, int64_t in_transactionId) { ScopedAStatus ret = callback->getCurrentUsbFunctionsCb( mCurrentUsbFunctions, mCurrentUsbFunctionsApplied ? Status::FUNCTIONS_APPLIED : Status::FUNCTIONS_NOT_APPLIED, in_transactionId); if (!ret.isOk()) ALOGE("Call to getCurrentUsbFunctionsCb failed %s", ret.getDescription().c_str()); return ScopedAStatus::ok(); } ScopedAStatus UsbGadget::getUsbSpeed(const shared_ptr &callback, int64_t in_transactionId) { std::string current_speed; if (ReadFileToString(SPEED_PATH, ¤t_speed)) { current_speed = Trim(current_speed); ALOGI("current USB speed is %s", current_speed.c_str()); if (current_speed == "low-speed") mUsbSpeed = UsbSpeed::LOWSPEED; else if (current_speed == "full-speed") mUsbSpeed = UsbSpeed::FULLSPEED; else if (current_speed == "high-speed") mUsbSpeed = UsbSpeed::HIGHSPEED; else if (current_speed == "super-speed") mUsbSpeed = UsbSpeed::SUPERSPEED; else if (current_speed == "super-speed-plus") mUsbSpeed = UsbSpeed::SUPERSPEED_10Gb; else if (current_speed == "UNKNOWN") mUsbSpeed = UsbSpeed::UNKNOWN; else mUsbSpeed = UsbSpeed::UNKNOWN; } else { ALOGE("Fail to read current speed"); mUsbSpeed = UsbSpeed::UNKNOWN; } if (callback) { ScopedAStatus ret = callback->getUsbSpeedCb(mUsbSpeed, in_transactionId); if (!ret.isOk()) ALOGE("Call to getUsbSpeedCb failed %s", ret.getDescription().c_str()); } return ScopedAStatus::ok(); } Status UsbGadget::tearDownGadget() { if (Status(resetGadget()) != Status::SUCCESS){ return Status::ERROR; } if (monitorFfs.isMonitorRunning()) { monitorFfs.reset(); } else { ALOGI("mMonitor not running"); } return Status::SUCCESS; } static Status validateAndSetVidPid(uint64_t functions) { Status ret = Status::SUCCESS; std::string vendorFunctions = getVendorFunctions(); switch (functions) { case GadgetFunction::MTP: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee1")); } break; case GadgetFunction::ADB | GadgetFunction::MTP: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee2")); } break; case GadgetFunction::RNDIS: case GadgetFunction::RNDIS | GadgetFunction::NCM: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee3")); } break; case GadgetFunction::ADB | GadgetFunction::RNDIS: case GadgetFunction::ADB | GadgetFunction::RNDIS | GadgetFunction::NCM: if (vendorFunctions == "dm") { ret = Status(setVidPid("0x04e8", "0x6862")); } else { if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee4")); } } break; case GadgetFunction::PTP: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee5")); } break; case GadgetFunction::ADB | GadgetFunction::PTP: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee6")); } break; case GadgetFunction::ADB: if (vendorFunctions == "dm") { ret = Status(setVidPid("0x04e8", "0x6862")); } else if (vendorFunctions == "etr_miu") { ret = Status(setVidPid("0x18d1", "0x4ee2")); } else if (vendorFunctions == "uwb_acm"){ ret = Status(setVidPid("0x18d1", "0x4ee2")); } else { if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee7")); } } break; case GadgetFunction::MIDI: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee8")); } break; case GadgetFunction::ADB | GadgetFunction::MIDI: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4ee9")); } break; case GadgetFunction::ACCESSORY: if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x2d00")); break; case GadgetFunction::ADB | GadgetFunction::ACCESSORY: if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x2d01")); break; case GadgetFunction::AUDIO_SOURCE: if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x2d02")); break; case GadgetFunction::ADB | GadgetFunction::AUDIO_SOURCE: if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x2d03")); break; case GadgetFunction::ACCESSORY | GadgetFunction::AUDIO_SOURCE: if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x2d04")); break; case GadgetFunction::ADB | GadgetFunction::ACCESSORY | GadgetFunction::AUDIO_SOURCE: if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x2d05")); break; case GadgetFunction::NCM: if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x4eeb")); break; case GadgetFunction::ADB | GadgetFunction::NCM: if (vendorFunctions == "dm") { ret = Status(setVidPid("0x04e8", "0x6862")); } else { if (!(vendorFunctions == "user" || vendorFunctions == "")) ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status(setVidPid("0x18d1", "0x4eec")); } break; case GadgetFunction::UVC: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else if (!GetBoolProperty(kUvcEnabled, false)) { ALOGE("UVC function not enabled by config"); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4eed")); } break; case GadgetFunction::ADB | GadgetFunction::UVC: if (!(vendorFunctions == "user" || vendorFunctions == "")) { ALOGE("Invalid vendorFunctions set: %s", vendorFunctions.c_str()); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else if (!GetBoolProperty(kUvcEnabled, false)) { ALOGE("UVC function not enabled by config"); ret = Status::CONFIGURATION_NOT_SUPPORTED; } else { ret = Status(setVidPid("0x18d1", "0x4eee")); } break; default: ALOGE("Combination not supported"); ret = Status::CONFIGURATION_NOT_SUPPORTED; } return ret; } ScopedAStatus UsbGadget::reset(const shared_ptr &callback, int64_t in_transactionId) { ALOGI("USB Gadget reset"); if (!WriteStringToFile("none", PULLUP_PATH)) { ALOGI("Gadget cannot be pulled down"); if (callback) callback->resetCb(Status::ERROR, in_transactionId); return ScopedAStatus::fromServiceSpecificErrorWithMessage( -1, "Gadget cannot be pulled down"); } usleep(kDisconnectWaitUs); if (!WriteStringToFile(kGadgetName, PULLUP_PATH)) { ALOGI("Gadget cannot be pulled up"); if (callback) callback->resetCb(Status::ERROR, in_transactionId); return ScopedAStatus::fromServiceSpecificErrorWithMessage( -1, "Gadget cannot be pulled up"); } if (callback) callback->resetCb(Status::SUCCESS, in_transactionId); return ScopedAStatus::ok(); } void UsbGadget::updateSdpEnumTimeout() { string i2c_node, update_sdp_enum_timeout_path; Status status = getI2cBusHelper(&i2c_node); if (status != Status::SUCCESS) { ALOGE("%s: Unable to locate i2c bus node", __func__); } update_sdp_enum_timeout_path = kI2CPath + i2c_node + "/" + i2c_node + kUpdateSdpEnumTimeout; if (!WriteStringToFile("1", update_sdp_enum_timeout_path)) { ALOGE("%s: Unable to write to %s.", __func__, update_sdp_enum_timeout_path.c_str()); } else { ALOGI("%s: Updated SDP enumeration timeout value.", __func__); } } Status UsbGadget::setupFunctions(long functions, const shared_ptr &callback, uint64_t timeout, int64_t in_transactionId) { bool ffsEnabled = false; int i = 0; if (Status(addGenericAndroidFunctions(&monitorFfs, functions, &ffsEnabled, &i)) != Status::SUCCESS) return Status::ERROR; std::string vendorFunctions = getVendorFunctions(); if (((functions & GadgetFunction::NCM) != 0) && (vendorFunctions != "dm")) { if (linkFunction("ncm.gs9", i++)) return Status::ERROR; } if (vendorFunctions == "dm") { ALOGI("enable usbradio debug functions"); if ((functions & GadgetFunction::RNDIS) != 0) { if (linkFunction("acm.gs6", i++)) return Status::ERROR; if (linkFunction("dm.gs7", i++)) return Status::ERROR; } else { if (linkFunction("dm.gs7", i++)) return Status::ERROR; if (linkFunction("acm.gs6", i++)) return Status::ERROR; } } else if (vendorFunctions == "etr_miu") { ALOGI("enable etr_miu functions"); if (linkFunction("etr_miu.gs11", i++)) return Status::ERROR; } else if (vendorFunctions == "uwb_acm") { ALOGI("enable uwb acm function"); if (linkFunction("acm.uwb0", i++)) return Status::ERROR; } if ((functions & GadgetFunction::ADB) != 0) { ffsEnabled = true; if (Status(addAdb(&monitorFfs, &i)) != Status::SUCCESS) return Status::ERROR; } if (((functions & GadgetFunction::NCM) != 0) && (vendorFunctions == "dm")) { if (linkFunction("ncm.gs9", i++)) return Status::ERROR; } // Pull up the gadget right away when there are no ffs functions. if (!ffsEnabled) { if (!WriteStringToFile(kGadgetName, PULLUP_PATH)) return Status::ERROR; mCurrentUsbFunctionsApplied = true; if (callback) callback->setCurrentUsbFunctionsCb(functions, Status::SUCCESS, in_transactionId); updateSdpEnumTimeout(); return Status::SUCCESS; } monitorFfs.registerFunctionsAppliedCallback(¤tFunctionsAppliedCallback, this); // Monitors the ffs paths to pull up the gadget when descriptors are written. // Also takes of the pulling up the gadget again if the userspace process // dies and restarts. monitorFfs.startMonitor(); if (kDebug) ALOGI("Mainthread in Cv"); if (callback) { bool pullup = monitorFfs.waitForPullUp(timeout); ScopedAStatus ret = callback->setCurrentUsbFunctionsCb( functions, pullup ? Status::SUCCESS : Status::ERROR, in_transactionId); if (!ret.isOk()) { ALOGE("setCurrentUsbFunctionsCb error %s", ret.getDescription().c_str()); return Status::ERROR; } } return Status::SUCCESS; } ScopedAStatus UsbGadget::setCurrentUsbFunctions(long functions, const shared_ptr &callback, int64_t timeout, int64_t in_transactionId) { std::unique_lock lk(mLockSetCurrentFunction); std::string current_usb_power_operation_mode, current_usb_type; std::string usb_limit_sink_enable; string accessoryCurrentLimitEnablePath, accessoryCurrentLimitPath, path; mCurrentUsbFunctions = functions; mCurrentUsbFunctionsApplied = false; getI2cBusHelper(&path); accessoryCurrentLimitPath = kI2CPath + path + "/" + path + kAccessoryLimitCurrent; accessoryCurrentLimitEnablePath = kI2CPath + path + "/" + path + kAccessoryLimitCurrentEnable; // Get the gadget IRQ number before tearDownGadget() if (mGadgetIrqPath.empty()) getUsbGadgetIrqPath(); // Unlink the gadget and stop the monitor if running. Status status = tearDownGadget(); if (status != Status::SUCCESS) { goto error; } ALOGI("Returned from tearDown gadget"); // Leave the gadget pulled down to give time for the host to sense disconnect. usleep(kDisconnectWaitUs); if (functions == GadgetFunction::NONE) { if (callback == NULL) return ScopedAStatus::fromServiceSpecificErrorWithMessage( -1, "callback == NULL"); ScopedAStatus ret = callback->setCurrentUsbFunctionsCb(functions, Status::SUCCESS, in_transactionId); if (!ret.isOk()) ALOGE("Error while calling setCurrentUsbFunctionsCb %s", ret.getDescription().c_str()); return ScopedAStatus::fromServiceSpecificErrorWithMessage( -1, "Error while calling setCurrentUsbFunctionsCb"); } status = validateAndSetVidPid(functions); if (status != Status::SUCCESS) { goto error; } status = setupFunctions(functions, callback, timeout, in_transactionId); if (status != Status::SUCCESS) { goto error; } if (functions & GadgetFunction::NCM) { if (!mGadgetIrqPath.empty()) { if (!WriteStringToFile(BIG_CORE, mGadgetIrqPath)) ALOGI("Cannot move gadget IRQ to big core, path:%s", mGadgetIrqPath.c_str()); } } else { if (!mGadgetIrqPath.empty()) { if (!WriteStringToFile(MEDIUM_CORE, mGadgetIrqPath)) ALOGI("Cannot move gadget IRQ to medium core, path:%s", mGadgetIrqPath.c_str()); } } if (ReadFileToString(CURRENT_USB_TYPE_PATH, ¤t_usb_type)) current_usb_type = Trim(current_usb_type); if (ReadFileToString(CURRENT_USB_POWER_OPERATION_MODE_PATH, ¤t_usb_power_operation_mode)) current_usb_power_operation_mode = Trim(current_usb_power_operation_mode); if (functions & GadgetFunction::ACCESSORY && current_usb_type == "Unknown SDP [CDP] DCP" && (current_usb_power_operation_mode == "default" || current_usb_power_operation_mode == "1.5A")) { if (!WriteStringToFile("1300000", accessoryCurrentLimitPath)) { ALOGI("Write 1.3A to limit current fail"); } else { if (!WriteStringToFile("1", accessoryCurrentLimitEnablePath)) { ALOGI("Enable limit current fail"); } } } else { if (!WriteStringToFile("0", accessoryCurrentLimitEnablePath)) ALOGI("unvote accessory limit current failed"); } ALOGI("Usb Gadget setcurrent functions called successfully"); return ScopedAStatus::ok(); error: ALOGI("Usb Gadget setcurrent functions failed"); if (callback == NULL) return ScopedAStatus::fromServiceSpecificErrorWithMessage( -1, "Usb Gadget setcurrent functions failed"); ScopedAStatus ret = callback->setCurrentUsbFunctionsCb(functions, status, in_transactionId); if (!ret.isOk()) ALOGE("Error while calling setCurrentUsbFunctionsCb %s", ret.getDescription().c_str()); return ScopedAStatus::fromServiceSpecificErrorWithMessage( -1, "Error while calling setCurrentUsbFunctionsCb"); } } // namespace gadget } // namespace usb } // namespace hardware } // namespace android } // aidl