#include "HGSaneImpl.hpp" #include "../base/HGInc.h" HGSaneManagerImpl::HGSaneManagerImpl() { } HGSaneManagerImpl::~HGSaneManagerImpl() { } HGResult HGSaneManagerImpl::Create() { std::string archName; FILE *file = popen("arch", "r"); if (NULL != file) { char str[256] = {0}; if (NULL != fgets(str, 256, file)) { char *p = str; while (0 != *p && '\n' != *p) { archName.push_back(*p); ++p; } } pclose(file); } if (archName.empty()) { return HGBASE_ERR_FAIL; } char manuPath[] = "/etc/sane.d/dll.d"; DIR* dir = opendir(manuPath); if (NULL != dir) { struct dirent* dire = NULL; while (dire = readdir(dir)) { if (0 == strcmp(dire->d_name, ".") || 0 == strcmp(dire->d_name, "..")) { continue; } char fileName[256]; sprintf(fileName, "%s/%s", manuPath, dire->d_name); struct stat filebuf; lstat(fileName, &filebuf); if (S_ISDIR(filebuf.st_mode)) { continue; } std::string manuName; FILE *file = fopen(fileName, "r"); if (NULL != file) { char str[256] = {0}; while (NULL != fgets(str, 256, file)) { if ('#' == str[0] || '\n' == str[0]) { continue; } char *p = str; while (0 != *p && '\n' != *p) { manuName.push_back(*p); ++p; } break; } fclose(file); } if (manuName.empty()) { continue; } std::pair pr; pr.first = manuName; char sanePath[256]; sprintf(sanePath, "/usr/lib/%s-linux-gnu/sane/libsane-%s.so.1", archName.c_str(), manuName.c_str()); pr.second = sanePath; if(!filterDeviceSource(pr.first.c_str())) m_vSource.push_back(pr); } closedir(dir); } return HGBASE_ERR_OK; } HGResult HGSaneManagerImpl::Destroy() { if (!m_listSourceImpl.empty()) { return HGBASE_ERR_FAIL; } return HGBASE_ERR_OK; } HGResult HGSaneManagerImpl::GetSourceCount(HGUInt *count) { if (NULL == count) { return HGBASE_ERR_INVALIDARG; } *count = (HGUInt)m_vSource.size(); return HGBASE_ERR_OK; } HGResult HGSaneManagerImpl::GetSourceName(HGUInt index, HGChar* name, HGUInt maxLen) { if (index >= (HGUInt)m_vSource.size() || NULL == name || 0 == maxLen) { return HGBASE_ERR_INVALIDARG; } if (maxLen < m_vSource[index].first.size() + 1) return HGBASE_ERR_FAIL; strcpy(name, m_vSource[index].first.c_str()); return HGBASE_ERR_OK; } HGResult HGSaneManagerImpl::OpenSource(HGUInt index, class HGSaneSourceImpl **sourceImpl) { if (index >= (HGUInt)m_vSource.size() || NULL == sourceImpl) { return HGBASE_ERR_INVALIDARG; } HGSaneSourceImpl *newSourceImpl = new HGSaneSourceImpl(this); HGResult ret = newSourceImpl->Open(m_vSource[index].first.c_str(), m_vSource[index].second.c_str()); if (HGBASE_ERR_OK != ret) { delete newSourceImpl; return ret; } m_listSourceImpl.push_back(newSourceImpl); *sourceImpl = newSourceImpl; return HGBASE_ERR_OK; } HGResult HGSaneManagerImpl::OpenDefaultSource(HGSaneSourceImpl **sourceImpl) { if (m_vSource.empty() || NULL == sourceImpl) { return HGBASE_ERR_INVALIDARG; } HGSaneSourceImpl *newSourceImpl = new HGSaneSourceImpl(this); HGResult ret = newSourceImpl->Open(m_vSource[0].first.c_str(), m_vSource[0].second.c_str()); if (HGBASE_ERR_OK != ret) { delete newSourceImpl; return ret; } m_listSourceImpl.push_back(newSourceImpl); *sourceImpl = newSourceImpl; return HGBASE_ERR_OK; } HGResult HGSaneManagerImpl::OpenSelectedSource(HGWindow parent, class HGSaneSourceImpl **sourceImpl) { if (NULL == sourceImpl) { return HGBASE_ERR_INVALIDARG; } const char **manuNames = new const char *[m_vSource.size() + 1]; const char **sanePaths = new const char *[m_vSource.size() + 1]; for (int i = 0; i < (int)m_vSource.size(); ++i) { manuNames[i] = m_vSource[i].first.c_str(); sanePaths[i] = m_vSource[i].second.c_str(); } manuNames[m_vSource.size()] = NULL; sanePaths[m_vSource.size()] = NULL; HGDll dll = NULL; SANEAPI saneAPI; char manuName[256]; if (-2 == show_srclist_ui(manuNames, sanePaths, parent, &dll, &saneAPI, manuName, 256)) { delete [] sanePaths; delete [] manuNames; return HGBASE_ERR_NOTSUPPORT; } delete [] sanePaths; delete [] manuNames; if (NULL == dll) { return HGSANE_ERR_FAIL; } HGSaneSourceImpl* newSourceImpl = new HGSaneSourceImpl(this); HGResult ret = newSourceImpl->Init(manuName, dll, &saneAPI); if (HGBASE_ERR_OK != ret) { delete newSourceImpl; HGBase_DestroyDll(dll); return ret; } m_listSourceImpl.push_back(newSourceImpl); *sourceImpl = newSourceImpl; return HGBASE_ERR_OK; } void HGSaneManagerImpl::RemoveSource(class HGSaneSourceImpl* sourceImpl) { std::list::iterator iter; for (iter = m_listSourceImpl.begin(); iter != m_listSourceImpl.end(); ++iter) { if (*iter == sourceImpl) { m_listSourceImpl.erase(iter); delete sourceImpl; break; } } } bool HGSaneManagerImpl::filterDeviceSource(const char *sourceName) { #if !defined(OEM_HANWANG) && !defined(OEM_LISICHENG) && !defined(OEM_CANGTIAN) && !defined(OEM_ZHONGJING) && !defined(OEM_ZIGUANG) && !defined(OEM_NEUTRAL) std::string oemIden = "hgsane"; #elif defined(OEM_HANWANG) std::string oemIden = "hwsane"; #elif defined(OEM_LISICHENG) std::string oemIden = "lscsane"; #elif defined(OEM_CANGTIAN) std::string oemIden = "ctssane"; #elif defined(OEM_ZHONGJING) std::string oemIden = "zjsane"; #elif defined(OEM_ZIGUANG) std::string oemIden = "zgsane"; #endif if (sourceName != strstr(sourceName, oemIden.c_str())) { return true; } return false; } HGSaneSourceImpl::HGSaneSourceImpl(HGSaneManagerImpl *managerImpl) { m_managerImpl = managerImpl; m_manuName.clear(); m_dll = NULL; memset(&m_saneApi, 0, sizeof(SANEAPI)); } HGSaneSourceImpl::~HGSaneSourceImpl() { } HGResult HGSaneSourceImpl::Init(const HGChar* saneManu, HGDll dll, const SANEAPI *saneAPI) { assert(NULL == m_dll); if (NULL == saneManu || 0 == *saneManu || NULL == dll || NULL == saneAPI) { return HGBASE_ERR_INVALIDARG; } if (NULL == saneAPI->sane_open_api || NULL == saneAPI->sane_close_api || NULL == saneAPI->sane_start_api || NULL == saneAPI->sane_read_api || NULL == saneAPI->sane_cancel_api || NULL == saneAPI->sane_get_devices_api || NULL == saneAPI->sane_get_option_descriptor_api || NULL == saneAPI->sane_control_option_api || NULL == saneAPI->sane_get_parameters_api || NULL == saneAPI->sane_set_io_mode_api || NULL == saneAPI->sane_strstatus_api || NULL == saneAPI->sane_init_api || NULL == saneAPI->sane_exit_api) { return HGBASE_ERR_INVALIDARG; } if (SANE_STATUS_GOOD != saneAPI->sane_init_api(NULL, NULL)) { return HGSANE_ERR_FAIL; } m_manuName = saneManu; m_dll = dll; memcpy(&m_saneApi, saneAPI, sizeof(SANEAPI)); return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::Open(const HGChar* saneManu, const HGChar* sanePath) { assert(NULL == m_dll); if (NULL == saneManu || 0 == *saneManu || NULL == sanePath || 0 == *sanePath) { return HGBASE_ERR_INVALIDARG; } HGDll dll = NULL; HGResult ret = HGBase_CreateDll(sanePath, &dll); if (HGBASE_ERR_OK != ret) { return ret; } SANEAPI saneAPI; ret = FindFunctions(dll, saneManu, &saneAPI); if (HGBASE_ERR_OK != ret) { HGBase_DestroyDll(dll); dll = NULL; return ret; } if (SANE_STATUS_GOOD != saneAPI.sane_init_api(NULL, NULL)) { HGBase_DestroyDll(m_dll); m_dll = NULL; return HGSANE_ERR_FAIL; } m_manuName = saneManu; m_dll = dll; memcpy(&m_saneApi, &saneAPI, sizeof(SANEAPI)); return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::Close() { assert(NULL != m_dll); if (!m_listDeviceImpl.empty()) { return HGBASE_ERR_FAIL; } m_saneApi.sane_exit_api(); HGBase_DestroyDll(m_dll); m_dll = NULL; m_managerImpl->RemoveSource(this); return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::GetName(HGChar* name, HGUInt maxLen) { if (NULL == name || 0 == maxLen) { return HGBASE_ERR_INVALIDARG; } if (maxLen < m_manuName.size() + 1) return HGBASE_ERR_FAIL; strcpy(name, m_manuName.c_str()); return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::GetDeviceCount(HGUInt* count) { if (NULL == count) { return HGBASE_ERR_INVALIDARG; } const SANE_Device** device_list; if (SANE_STATUS_GOOD != m_saneApi.sane_get_devices_api(&device_list, SANE_TRUE)) { return HGSANE_ERR_FAIL; } *count = 0; const SANE_Device** p; for (p = device_list; *p != NULL; ++p) ++(*count); return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::GetDeviceName(HGUInt index, HGChar* name, HGUInt maxLen) { if (NULL == name || 0 == maxLen) { return HGBASE_ERR_INVALIDARG; } const SANE_Device** device_list; if (SANE_STATUS_GOOD != m_saneApi.sane_get_devices_api(&device_list, SANE_TRUE)) { return HGSANE_ERR_FAIL; } HGUInt count = 0; const SANE_Device** p; for (p = device_list; *p != NULL; ++p) ++count; if (index >= count) return HGBASE_ERR_INVALIDARG; if (NULL == device_list[index]->name) return HGBASE_ERR_FAIL; if (maxLen < strlen(device_list[index]->name) + 1) return HGBASE_ERR_FAIL; strcpy(name, device_list[index]->name); return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::OpenDevice(HGUInt index, HGSaneDeviceImpl** deviceImpl, HGChar* errInfo, HGUInt errInfoLen) { if (NULL == deviceImpl) { return HGBASE_ERR_INVALIDARG; } const SANE_Device** device_list; if (SANE_STATUS_GOOD != m_saneApi.sane_get_devices_api(&device_list, SANE_TRUE)) { return HGSANE_ERR_FAIL; } HGUInt count = 0; const SANE_Device** p; for (p = device_list; *p != NULL; ++p) ++count; if (index >= count) return HGBASE_ERR_INVALIDARG; HGSaneDeviceImpl* newDeviceImpl = new HGSaneDeviceImpl(this); HGResult ret = newDeviceImpl->Open(device_list[index]->name, errInfo, errInfoLen); if (HGBASE_ERR_OK != ret) { delete newDeviceImpl; return ret; } m_listDeviceImpl.push_back(newDeviceImpl); *deviceImpl = newDeviceImpl; return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::OpenSelectedDevice(HGWindow parent, class HGSaneDeviceImpl** deviceImpl) { if (NULL == deviceImpl) { return HGBASE_ERR_INVALIDARG; } SANE_Handle handle = NULL; char devName[256] = {0}; if (-2 == show_devlist_ui(&m_saneApi, NULL, parent, &handle, devName, 256)) { return HGBASE_ERR_NOTSUPPORT; } if (NULL == handle) { return HGSANE_ERR_FAIL; } HGSaneDeviceImpl* newDeviceImpl = new HGSaneDeviceImpl(this); HGResult ret = newDeviceImpl->Init(devName, handle); if (HGBASE_ERR_OK != ret) { delete newDeviceImpl; m_saneApi.sane_close_api(handle); return ret; } m_listDeviceImpl.push_back(newDeviceImpl); *deviceImpl = newDeviceImpl; return HGBASE_ERR_OK; } HGResult HGSaneSourceImpl::FindFunctions(HGDll dll, const HGChar* saneManu, SANEAPI *saneAPI) { HGResult ret = HGBASE_ERR_OK; do { HGChar funcName[256]; sprintf(funcName, "sane_%s_init", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_init_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_exit", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_exit_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_get_devices", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_get_devices_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_open", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_open_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_close", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_close_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_start", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_start_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_read", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_read_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_cancel", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_cancel_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_set_io_mode", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_set_io_mode_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_strstatus", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_strstatus_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_get_parameters", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_get_parameters_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_get_option_descriptor", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_get_option_descriptor_api); if (HGBASE_ERR_OK != ret) break; sprintf(funcName, "sane_%s_control_option", saneManu); ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_control_option_api); if (HGBASE_ERR_OK != ret) break; } while (0); return ret; } void HGSaneSourceImpl::RemoveDevice(class HGSaneDeviceImpl* deviceImpl) { std::list::iterator iter; for (iter = m_listDeviceImpl.begin(); iter != m_listDeviceImpl.end(); ++iter) { if (*iter == deviceImpl) { m_listDeviceImpl.erase(iter); delete deviceImpl; break; } } } HGSaneDeviceImpl::HGSaneDeviceImpl(HGSaneSourceImpl* sourceImpl) { m_sourceImpl = sourceImpl; m_devName.clear(); m_devHandle = NULL; m_buffer = NULL; m_bufferSize = 0; m_dpi = 0; m_eventFunc = NULL; m_eventParam = NULL; m_imageFunc = NULL; m_imageParam = NULL; } HGSaneDeviceImpl::~HGSaneDeviceImpl() { } HGResult HGSaneDeviceImpl::Init(const HGChar* devName, SANE_Handle handle) { assert(NULL == m_devHandle); if (NULL == devName || NULL == handle) { return HGBASE_ERR_INVALIDARG; } m_devName = devName; m_sourceImpl->m_saneApi.sane_set_io_mode_api(handle, SANE_FALSE); m_devHandle = handle; return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::Open(const HGChar* devName, HGChar* errInfo, HGUInt errInfoLen) { assert(NULL == m_devHandle); if (NULL == devName) { return HGBASE_ERR_INVALIDARG; } SANE_Handle handle = NULL; SANE_Status stat = m_sourceImpl->m_saneApi.sane_open_api(devName, &handle); if (SANE_STATUS_GOOD != stat) { if (NULL != errInfo) { const char* err = m_sourceImpl->m_saneApi.sane_strstatus_api(stat); if (NULL != err && errInfoLen >= strlen(err) + 1) { strcpy(errInfo, err); } } return HGSANE_ERR_FAIL; } m_devName = devName; m_sourceImpl->m_saneApi.sane_set_io_mode_api(handle, SANE_FALSE); m_devHandle = handle; return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::Close() { assert(NULL != m_devHandle); m_sourceImpl->m_saneApi.sane_close_api(m_devHandle); m_devHandle = NULL; m_devName.clear(); m_sourceImpl->RemoveDevice(this); return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::GetName(HGChar* name, HGUInt maxLen) { if (NULL == name || 0 == maxLen) { return HGBASE_ERR_INVALIDARG; } if (maxLen < m_devName.size() + 1) return HGBASE_ERR_FAIL; strcpy(name, m_devName.c_str()); return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::GetCustomInfo(HGSaneDeviceCustomInfo *info) { if (NULL == info) { return HGBASE_ERR_INVALIDARG; } memset(info, 0, sizeof(HGSaneDeviceCustomInfo)); GetValueInt32(0x8852, &info->vid); GetValueInt32(0x8853, &info->pid); GetValueStr256(0x8856, info->sn, sizeof(info->sn)); GetValueStr256(0x8855, info->type, sizeof(info->type)); GetValueStr256(0x8857, info->fwVer, sizeof(info->fwVer)); GetValueStr256(0x8858, info->ip, sizeof(info->ip)); GetValueStr256(0x8859, info->mac, sizeof(info->mac)); GetValueStr256(0x884A, info->driverVer, sizeof(info->driverVer)); GetValueStr256(0x884B, info->vendor, sizeof(info->vendor)); GetValueStr256(0x884C, info->copyright, sizeof(info->copyright)); GetValueStr256(0x884D, info->comUrl, sizeof(info->comUrl)); GetValueStr256(0x884E, info->comTel, sizeof(info->comTel)); GetValueStr256(0x884F, info->comAddr, sizeof(info->comAddr)); GetValueStr256(0x8850, info->comGps, sizeof(info->comGps)); GetValueInt32(0x9902, &info->rollerCount); GetValueInt32(0x8849, &info->totalCount); return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::Login(const HGChar *user, const HGChar *pwd) { if (NULL == user || strlen(user) >= 32 || NULL == pwd || strlen(pwd) >= 32) { return HGBASE_ERR_INVALIDARG; } HGChar value[256] = {0}; strcpy(value, user); strcpy(value + 32, pwd); return SetValueStr256(0x9900, value); } HGResult HGSaneDeviceImpl::Logout() { HGChar value[256] = {0}; return SetValueStr256(0x9901, value); } HGResult HGSaneDeviceImpl::ClearRollerCount() { return SetValueInt32(0x9902, 0); } HGResult HGSaneDeviceImpl::GetRollerLife(HGInt *rollerLife) { return GetValueInt32(0x885B, rollerLife); } HGResult HGSaneDeviceImpl::GetDriverLog(const HGChar *fileName) { if (NULL == fileName || strlen(fileName) >= 256) { return HGBASE_ERR_INVALIDARG; } char v[256]; strcpy(v, fileName); SANE_Status status = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, (SANE_Int)0x9903, SANE_ACTION_GET_VALUE, (void*)v, NULL); return (SANE_STATUS_GOOD == status) ? HGBASE_ERR_OK : HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::ClearDriverLog() { HGChar value[256] = {0}; return SetValueStr256(0x9903, value); } HGResult HGSaneDeviceImpl::GetDeviceLog(const HGChar *fileName) { if (NULL == fileName || strlen(fileName) >= 256) { return HGBASE_ERR_INVALIDARG; } char v[256]; strcpy(v, fileName); SANE_Status status = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, (SANE_Int)0x9904, SANE_ACTION_GET_VALUE, (void*)v, NULL); return (SANE_STATUS_GOOD == status) ? HGBASE_ERR_OK : HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::ClearDeviceLog() { HGChar value[256] = {0}; return SetValueStr256(0x9904, value); } HGResult HGSaneDeviceImpl::ShowSettingDlg(HGWindow parent) { int ret = show_setting_ui(&m_sourceImpl->m_saneApi, m_devHandle, m_devName.c_str(), parent); if (-1 == ret) { return HGSANE_ERR_FAIL; } else if (-2 == ret) { return HGBASE_ERR_NOTSUPPORT; } else if (-3 == ret) { return HGSANE_ERR_DEVICEOFFLINE; } return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::Start(HGWindow parent, HGSane_DeviceEventFunc eventFunc, HGPointer eventParam, HGSane_DeviceImageFunc imageFunc, HGPointer imageParam) { HGResult ret = GetDpi(&m_dpi); if (HGBASE_ERR_OK != ret) { return ret; } m_eventFunc = eventFunc; m_eventParam = eventParam; m_imageFunc = imageFunc; m_imageParam = imageParam; if (-2 == show_scan_ui(&m_sourceImpl->m_saneApi, m_devHandle, m_devName.c_str(), parent, show_scan_ui_event_func, this, show_scan_ui_image_func, this)) { m_dpi = 0; return HGBASE_ERR_NOTSUPPORT; } return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::StartWithSingleScan(HGWindow parent, HGSane_DeviceEventFunc eventFunc, HGPointer eventParam, HGSane_DeviceImageFunc imageFunc, HGPointer imageParam) { HGChar scanMode[256] = {0}; HGResult ret = GetScanMode(scanMode, 256); if (HGBASE_ERR_OK != ret) { return ret; } HGInt scanCount = 0; ret = GetScanCount(&scanCount); if (HGBASE_ERR_OK != ret) { return ret; } ret = GetDpi(&m_dpi); if (HGBASE_ERR_OK != ret) { return ret; } HGChar newScanMode[256] = {0}; strcpy(newScanMode, OPTION_VALUE_SMZS_SMZDZS); SetScanMode(newScanMode); SetScanCount(1); m_eventFunc = eventFunc; m_eventParam = eventParam; m_imageFunc = imageFunc; m_imageParam = imageParam; if (-2 == show_scan_ui(&m_sourceImpl->m_saneApi, m_devHandle, m_devName.c_str(), parent, show_scan_ui_event_func, this, show_scan_ui_image_func, this)) { SetScanMode(scanMode); SetScanCount(scanCount); m_dpi = 0; return HGBASE_ERR_NOTSUPPORT; } SetScanMode(scanMode); SetScanCount(scanCount); return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::SetValueInt32(HGUInt optionId, HGInt value) { SANE_Int v = (SANE_Int)value; SANE_Status status = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, (SANE_Int)optionId, SANE_ACTION_SET_VALUE, &v, NULL); return (SANE_STATUS_GOOD == status) ? HGBASE_ERR_OK : HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::GetValueInt32(HGUInt optionId, HGInt *value) { SANE_Int v = 0; SANE_Status status = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, (SANE_Int)optionId, SANE_ACTION_GET_VALUE, &v, NULL); if (SANE_STATUS_GOOD != status) { return HGBASE_ERR_FAIL; } *value = (HGInt)v; return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::SetValueStr256(HGUInt optionId, const HGChar *value) { if (NULL == value || strlen(value) >= 256) { return HGBASE_ERR_INVALIDARG; } const char *v = value; SANE_Status status = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, (SANE_Int)optionId, SANE_ACTION_SET_VALUE, (void*)v, NULL); return (SANE_STATUS_GOOD == status) ? HGBASE_ERR_OK : HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::GetValueStr256(HGUInt optionId, HGChar *value, HGUInt maxLen) { if (NULL == value || 0 == maxLen) { return HGBASE_ERR_INVALIDARG; } char v[256] = {0}; SANE_Status status = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, (SANE_Int)optionId, SANE_ACTION_GET_VALUE, v, NULL); if (SANE_STATUS_GOOD != status) { return HGBASE_ERR_FAIL; } if (maxLen <= strlen(v)) { return HGBASE_ERR_INVALIDARG; } strcpy(value, v); return HGBASE_ERR_OK; } HGResult HGSaneDeviceImpl::GetDpi(HGInt *dpi) { SANE_Int dev_options = 0; SANE_Int method = 0; m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, 0, SANE_ACTION_GET_VALUE, &dev_options, nullptr); for (int i = 1; i < dev_options; ++i) { const SANE_Option_Descriptor* opt = m_sourceImpl->m_saneApi.sane_get_option_descriptor_api(m_devHandle, i); if (strcmp(opt->name, SANE_STD_OPT_NAME_RESOLUTION) == 0) { SANE_Int value = 0; SANE_Status ret = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, i, SANE_ACTION_GET_VALUE, &value, &method); if (ret == SANE_STATUS_GOOD) { *dpi = (HGInt)value; return HGBASE_ERR_OK; } } } return HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::GetScanMode(HGChar *scanMode, HGUInt maxLen) { if (NULL == scanMode || 0 == maxLen) { return HGBASE_ERR_INVALIDARG; } SANE_Int dev_options = 0; SANE_Int method = 0; m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, 0, SANE_ACTION_GET_VALUE, &dev_options, nullptr); for (int i = 1; i < dev_options; ++i) { const SANE_Option_Descriptor* opt = m_sourceImpl->m_saneApi.sane_get_option_descriptor_api(m_devHandle, i); HGChar *value = (char*)malloc(opt->size * 2 + 4); if (strcmp(opt->name, SANE_STD_OPT_NAME_SCAN_MODE) == 0) { SANE_Status ret = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, i, SANE_ACTION_GET_VALUE, &value, &method); if (ret == SANE_STATUS_GOOD) { strcpy(scanMode, value); free(value); return HGBASE_ERR_OK; } } free(value); } return HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::GetScanCount(HGInt *scanCount) { SANE_Int dev_options = 0; SANE_Int method = 0; m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, 0, SANE_ACTION_GET_VALUE, &dev_options, nullptr); for (int i = 1; i < dev_options; ++i) { const SANE_Option_Descriptor* opt = m_sourceImpl->m_saneApi.sane_get_option_descriptor_api(m_devHandle, i); if (strcmp(opt->name, SANE_STD_OPT_NAME_SCAN_COUNT) == 0) { SANE_Int value = 0; SANE_Status ret = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, i, SANE_ACTION_GET_VALUE, &value, &method); if (ret == SANE_STATUS_GOOD) { *scanCount = (HGInt)value; return HGBASE_ERR_OK; } } } return HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::SetScanMode(const HGChar *scanMode) { SANE_Int dev_options = 0; SANE_Int method = 0; SANE_String value = nullptr; m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, 0, SANE_ACTION_GET_VALUE, &dev_options, nullptr); for (int i = 1; i < dev_options; ++i) { const SANE_Option_Descriptor* opt = m_sourceImpl->m_saneApi.sane_get_option_descriptor_api(m_devHandle, i); SANE_String value = (SANE_String)malloc(opt->size * 2 + 4); strcpy(value, scanMode); if (strcmp(opt->name, SANE_STD_OPT_NAME_SCAN_MODE) == 0) { SANE_Status ret = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, i, SANE_ACTION_SET_VALUE, value, &method); if (ret == SANE_STATUS_GOOD) { free(value); return HGBASE_ERR_OK; } } free(value); } return HGBASE_ERR_FAIL; } HGResult HGSaneDeviceImpl::SetScanCount(HGInt scanCount) { SANE_Int dev_options = 0; SANE_Int method = 0; m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, 0, SANE_ACTION_GET_VALUE, &dev_options, nullptr); for (int i = 1; i < dev_options; ++i) { const SANE_Option_Descriptor* opt = m_sourceImpl->m_saneApi.sane_get_option_descriptor_api(m_devHandle, i); SANE_Int value = (SANE_Int)scanCount; if (strcmp(opt->name, SANE_STD_OPT_NAME_SCAN_COUNT) == 0) { SANE_Status ret = m_sourceImpl->m_saneApi.sane_control_option_api(m_devHandle, i, SANE_ACTION_SET_VALUE, &value, &method); if (ret == SANE_STATUS_GOOD) { return HGBASE_ERR_OK; } } } return HGBASE_ERR_FAIL; } void HGSaneDeviceImpl::show_scan_ui_event_func(HGUInt event, HGPointer param) { HGSaneDeviceImpl* p = (HGSaneDeviceImpl*)param; if (NULL != p->m_eventFunc) { p->m_eventFunc((HGSaneDevice)p, event, p->m_eventParam); } } void HGSaneDeviceImpl::show_scan_ui_image_func(HGImage image, HGPointer param) { HGSaneDeviceImpl* p = (HGSaneDeviceImpl*)param; if (NULL != p->m_imageFunc) { HGBase_SetImageDpi(image, p->m_dpi, p->m_dpi); p->m_imageFunc((HGSaneDevice)p, image, p->m_imageParam); } }