#include #include #include #include #include "backend.h" /** * Backend */ Backend::Backend() { } QStringList Backend::GetSocNameList() { QStringList sl; foreach(const soc_t& soc, m_socs) sl.append(QString(soc.name.c_str())); return sl; } bool Backend::GetSocByName(const QString& name, SocRef& s) { for(std::list< soc_t >::iterator it = m_socs.begin(); it != m_socs.end(); ++it) if(it->name == name.toStdString()) { s = SocRef(&(*it)); return true; } return false; } bool Backend::LoadSocDesc(const QString& filename) { bool ret = soc_desc_parse_xml(filename.toStdString(), m_socs); emit OnSocListChanged(); return ret; } IoBackend *Backend::CreateFileIoBackend(const QString& filename) { return new FileIoBackend(filename); } IoBackend *Backend::CreateDummyIoBackend() { return new DummyIoBackend(); } #ifdef HAVE_HWSTUB IoBackend *Backend::CreateHWStubIoBackend(HWStubDevice *dev) { return new HWStubIoBackend(dev); } #endif /** * FileIoBackend */ FileIoBackend::FileIoBackend(const QString& filename) { m_filename = filename; Reload(); } QString FileIoBackend::GetSocName() { return m_soc; } bool FileIoBackend::ReadRegister(const QString& name, soc_word_t& value) { if(m_map.find(name) == m_map.end()) return false; value = m_map[name]; return true; } bool FileIoBackend::Reload() { QFile file(m_filename); if(!file.open(QIODevice::ReadOnly | QIODevice::Text)) return false; m_map.clear(); QTextStream in(&file); while(!in.atEnd()) { QString line = in.readLine(); int idx = line.indexOf('='); if(idx == -1) continue; QString key = line.left(idx).trimmed(); bool ok; soc_word_t val = line.mid(idx + 1).trimmed().toULong(&ok, 0); if(key == "HW") m_soc = line.mid(idx + 1).trimmed(); else if(ok) m_map[key] = val; } m_readonly = !QFileInfo(file).isWritable(); m_dirty = false; return true; } bool FileIoBackend::WriteRegister(const QString& name, soc_word_t value) { m_dirty = true; m_map[name] = value; return true; } bool FileIoBackend::Commit() { if(!m_dirty) return true; QFile file(m_filename); if(!file.open(QIODevice::WriteOnly | QIODevice::Truncate | QIODevice::Text)) return false; QTextStream out(&file); out << "HW = " << m_soc << "\n"; QMapIterator< QString, soc_word_t > it(m_map); while(it.hasNext()) { it.next(); out << it.key() << " = " << it.value() << "\n"; } out.flush(); return file.flush(); } #ifdef HAVE_HWSTUB /** * HWStubDevice */ HWStubDevice::HWStubDevice(struct libusb_device *dev) { libusb_ref_device(dev); m_dev = dev; m_handle = 0; m_hwdev = 0; m_valid = Probe(); } HWStubDevice::~HWStubDevice() { Close(); libusb_unref_device(m_dev); } int HWStubDevice::GetBusNumber() { return libusb_get_bus_number(m_dev); } int HWStubDevice::GetDevAddress() { return libusb_get_device_address(m_dev); } bool HWStubDevice::Probe() { struct libusb_device_descriptor desc; if(libusb_get_device_descriptor(m_dev, &desc)) return false; if(desc.idVendor != HWSTUB_USB_VID || desc.idProduct != HWSTUB_USB_PID) return false; if(!Open()) return false; int ret = hwstub_get_desc(m_hwdev, HWSTUB_DT_VERSION, &m_hwdev_ver, sizeof(m_hwdev_ver)); if(ret != sizeof(m_hwdev_ver)) goto Lerr; if(m_hwdev_ver.bMajor != HWSTUB_VERSION_MAJOR || m_hwdev_ver.bMinor < HWSTUB_VERSION_MINOR) goto Lerr; // get target ret = hwstub_get_desc(m_hwdev, HWSTUB_DT_TARGET, &m_hwdev_target, sizeof(m_hwdev_target)); if(ret != sizeof(m_hwdev_target)) goto Lerr; // get STMP information if(m_hwdev_target.dID == HWSTUB_TARGET_STMP) { ret = hwstub_get_desc(m_hwdev, HWSTUB_DT_STMP, &m_hwdev_stmp, sizeof(m_hwdev_stmp)); if(ret != sizeof(m_hwdev_stmp)) goto Lerr; } Close(); return true; Lerr: Close(); return false; } bool HWStubDevice::Open() { if(libusb_open(m_dev, &m_handle)) return false; m_hwdev = hwstub_open(m_handle); if(m_hwdev == 0) { libusb_close(m_handle); return false; } return true; } void HWStubDevice::Close() { if(m_hwdev) hwstub_release(m_hwdev); m_hwdev = 0; if(m_handle) libusb_close(m_handle); m_handle = 0; } bool HWStubDevice::ReadMem(soc_addr_t addr, size_t length, void *buffer) { if(!m_hwdev) return false; int ret = hwstub_rw_mem(m_hwdev, 1, addr, buffer, length); return ret >= 0 && (size_t)ret == length; } bool HWStubDevice::WriteMem(soc_addr_t addr, size_t length, void *buffer) { if(!m_hwdev) return false; int ret = hwstub_rw_mem(m_hwdev, 0, addr, buffer, length); return ret >= 0 && (size_t)ret == length; } bool HWStubDevice::IsValid() { return m_valid; } /** * HWStubIoBackend */ HWStubIoBackend::HWStubIoBackend(HWStubDevice *dev) { m_dev = dev; m_dev->Open(); struct hwstub_target_desc_t target = m_dev->GetTargetInfo(); if(target.dID == HWSTUB_TARGET_STMP) { struct hwstub_stmp_desc_t stmp = m_dev->GetSTMPInfo(); if(stmp.wChipID == 0x3780) m_soc = "imx233"; else if(stmp.wChipID >= 0x3700 && stmp.wChipID < 0x3780) m_soc = "stmp3700"; else if(stmp.wChipID >= 0x3600 && stmp.wChipID < 0x3700) m_soc = "stmp3600"; else m_soc = QString("stmp%1").arg(stmp.wChipID, 4, 16, QChar('0')); } else if(target.dID == HWSTUB_TARGET_RK27) m_soc = "rk27x"; else m_soc = target.bName; } QString HWStubIoBackend::GetSocName() { return m_soc; } HWStubIoBackend::~HWStubIoBackend() { m_dev->Close(); } bool HWStubIoBackend::ReadRegister(soc_addr_t addr, soc_word_t& value) { return m_dev->ReadMem(addr, sizeof(value), &value); } bool HWStubIoBackend:: WriteRegister(soc_addr_t addr, soc_word_t value) { return m_dev->WriteMem(addr, sizeof(value), &value); } bool HWStubIoBackend::Reload() { return true; } /** * HWStubBackendHelper */ HWStubBackendHelper::HWStubBackendHelper() { libusb_init(NULL); #ifdef LIBUSB_NO_HOTPLUG m_hotplug = false; #else m_hotplug = libusb_has_capability(LIBUSB_CAP_HAS_HOTPLUG); if(m_hotplug) { m_hotplug = LIBUSB_SUCCESS == libusb_hotplug_register_callback( NULL, LIBUSB_HOTPLUG_EVENT_DEVICE_ARRIVED | LIBUSB_HOTPLUG_EVENT_DEVICE_LEFT, LIBUSB_HOTPLUG_ENUMERATE, HWSTUB_USB_VID, HWSTUB_USB_PID, HWSTUB_CLASS, &HWStubBackendHelper::HotPlugCallback, reinterpret_cast< void* >(this), &m_hotplug_handle); } #endif } HWStubBackendHelper::~HWStubBackendHelper() { #ifndef LIBUSB_NO_HOTPLUG if(m_hotplug) libusb_hotplug_deregister_callback(NULL, m_hotplug_handle); #endif } QList< HWStubDevice* > HWStubBackendHelper::GetDevList() { QList< HWStubDevice* > list; libusb_device **dev_list; ssize_t cnt = libusb_get_device_list(NULL, &dev_list); for(int i = 0; i < cnt; i++) { HWStubDevice *dev = new HWStubDevice(dev_list[i]); /* filter out non-hwstub devices */ if(dev->IsValid()) list.push_back(dev); else delete dev; } libusb_free_device_list(dev_list, 1); return list; } #ifndef LIBUSB_NO_HOTPLUG void HWStubBackendHelper::OnHotPlug(bool arrived, struct libusb_device *dev) { /* signal it */ emit OnDevListChanged(arrived, dev); } int HWStubBackendHelper::HotPlugCallback(struct libusb_context *ctx, struct libusb_device *dev, libusb_hotplug_event event, void *user_data) { HWStubBackendHelper *helper = reinterpret_cast< HWStubBackendHelper* >(user_data); switch(event) { case LIBUSB_HOTPLUG_EVENT_DEVICE_ARRIVED: helper->OnHotPlug(true, dev); break; case LIBUSB_HOTPLUG_EVENT_DEVICE_LEFT: helper->OnHotPlug(false, dev); break; default: break; } return 0; } #endif bool HWStubBackendHelper::HasHotPlugSupport() { return m_hotplug; } #endif /** * BackendHelper */ BackendHelper::BackendHelper(IoBackend *io_backend, const SocRef& soc) :m_io_backend(io_backend), m_soc(soc) { } bool BackendHelper::ReadRegister(const QString& dev, const QString& reg, soc_word_t& v) { if(m_io_backend->SupportAccess(IoBackend::ByName)) return m_io_backend->ReadRegister("HW." + dev + "." + reg, v); if(m_io_backend->SupportAccess(IoBackend::ByAddress)) { soc_addr_t addr; if(GetRegisterAddress(dev, reg, addr)) return m_io_backend->ReadRegister(addr, v); } return false; } bool BackendHelper::GetDevRef(const QString& sdev, SocDevRef& ref) { for(size_t i = 0; i < m_soc.GetSoc().dev.size(); i++) { const soc_dev_t& dev = m_soc.GetSoc().dev[i]; for(size_t j = 0; j < dev.addr.size(); j++) if(dev.addr[j].name.c_str() == sdev) { ref = SocDevRef(m_soc, i, j); return true; } } return false; } bool BackendHelper::GetRegRef(const SocDevRef& dev, const QString& sreg, SocRegRef& ref) { const soc_dev_t& sdev = dev.GetDev(); for(size_t i = 0; i < sdev.reg.size(); i++) { const soc_reg_t& reg = sdev.reg[i]; for(size_t j = 0; j < reg.addr.size(); j++) { if(reg.addr[j].name.c_str() == sreg) { ref = SocRegRef(dev, i, j); return true; } } } return false; } bool BackendHelper::GetFieldRef(const SocRegRef& reg, const QString& sfield, SocFieldRef& ref) { for(size_t i = 0; i < reg.GetReg().field.size(); i++) if(reg.GetReg().field[i].name.c_str() == sfield) { ref = SocFieldRef(reg, i); return true; } return false; } bool BackendHelper::GetRegisterAddress(const QString& dev, const QString& reg, soc_addr_t& addr) { SocDevRef dev_ref; SocRegRef reg_ref; if(!GetDevRef(dev, dev_ref) || !GetRegRef(dev_ref, reg, reg_ref)) return false; addr = dev_ref.GetDevAddr().addr + reg_ref.GetRegAddr().addr; return true; } bool BackendHelper::ReadRegisterField(const QString& dev, const QString& reg, const QString& field, soc_word_t& v) { SocDevRef dev_ref; SocRegRef reg_ref; SocFieldRef field_ref; if(!GetDevRef(dev, dev_ref) || !GetRegRef(dev_ref, reg, reg_ref) || !GetFieldRef(reg_ref, field, field_ref)) return false; if(!ReadRegister(dev, reg, v)) return false; v = (v & field_ref.GetField().bitmask()) >> field_ref.GetField().first_bit; return true; }