code_app/modules/sane_user/HGSaneImpl.cpp

#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<std::string, std::string> 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;

            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::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<class HGSaneSourceImpl*>::iterator iter;
    for (iter = m_listSourceImpl.begin(); iter != m_listSourceImpl.end(); ++iter)
    {
        if (*iter == sourceImpl)
        {
            m_listSourceImpl.erase(iter);
            delete sourceImpl;
            break;
        }
    }
}


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_io_control_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;

        sprintf(funcName, "sane_%s_io_control", saneManu);
        ret = HGBase_GetDllProcAddress(dll, funcName, (HGPointer*)&saneAPI->sane_io_control_api);
        if (HGBASE_ERR_OK != ret)
            break;

	} while (0);

	return ret;
}

void HGSaneSourceImpl::RemoveDevice(class HGSaneDeviceImpl* deviceImpl)
{
	std::list<class HGSaneDeviceImpl*>::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;
	m_stopThread = HGFALSE;
	m_thread = 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);

	Stop();
    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(CAP_SERIALNUMBER, info->sn, 32);
    GetValueStr256(0x8855, info->type, 32);
    GetValueStr256(0x8025, info->fwVer, 32);
    GetValueStr256(0x8200, info->ip, 32);
    GetValueStr256(0x884A, info->driverVer, 32);
    GetValueStr256(0x884B, info->vendor, 32);
    GetValueStr256(0x884C, info->copyright, 32);
    GetValueStr256(0x884D, info->comUrl, 128);
    GetValueStr256(0x884E, info->comTel, 32);
    GetValueStr256(0x884F, info->comAddr, 256);
    GetValueStr256(0x8850, info->comGps, 256);
    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::GetDriverLogPath(HGChar *path, HGUInt maxLen)
{
    return GetValueStr256(0x9903, path, maxLen);
}

HGResult HGSaneDeviceImpl::ClearDriverLog()
{
    HGChar value[256] = {0};
    return SetValueStr256(0x9903, value);
}

HGResult HGSaneDeviceImpl::GetDeviceLogPath(HGChar *path, HGUInt maxLen)
{
    return GetValueStr256(0x9904, path, maxLen);
}

HGResult HGSaneDeviceImpl::ClearDeviceLog()
{
    HGChar value[256] = {0};
    return SetValueStr256(0x9904, value);
}

HGResult HGSaneDeviceImpl::ShowSettingDlg(HGWindow parent)
{
	if (NULL != m_thread)
	{
		return HGBASE_ERR_FAIL;
	}

    if (-2 == show_setting_ui(&m_sourceImpl->m_saneApi, m_devHandle, m_devName.c_str(), parent))
	{
		return HGBASE_ERR_NOTSUPPORT;
	}

	return HGBASE_ERR_OK;
}

HGResult HGSaneDeviceImpl::Start(HGSane_DeviceEventFunc eventFunc, HGPointer eventParam,
	HGSane_DeviceImageFunc imageFunc, HGPointer imageParam, HGChar* errInfo, HGUInt errInfoLen)
{
	if (NULL != m_thread)
	{
		return HGBASE_ERR_FAIL;
	}

	SANE_Parameters params;
	memset(&params, 0, sizeof(SANE_Parameters));
    SANE_Status stat = m_sourceImpl->m_saneApi.sane_get_parameters_api(m_devHandle, &params);
	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_bufferSize = 5000 * 4000;
	m_buffer = (HGByte *)malloc(m_bufferSize);
	if (NULL == m_buffer)
	{
		return HGBASE_ERR_OUTOFMEMORY;
	}

    HGResult ret = GetValueInt32(0x8818, &m_dpi);
    if (HGBASE_ERR_OK != ret)
    {
        free(m_buffer);
        m_buffer = NULL;
        m_bufferSize = 0;
        return ret;
    }

    stat = m_sourceImpl->m_saneApi.sane_start_api(m_devHandle);
	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);
			}
		}

		m_dpi = 0;
		free(m_buffer);
		m_buffer = NULL;
		m_bufferSize = 0;
		return HGSANE_ERR_FAIL;
	}

	m_eventFunc = eventFunc;
	m_eventParam = eventParam;
	m_imageFunc = imageFunc;
	m_imageParam = imageParam;
	m_stopThread = HGFALSE;
	HGBase_OpenThread(ThreadFunc, this, &m_thread);
	return HGBASE_ERR_OK;
}

HGResult HGSaneDeviceImpl::Stop()
{
	if (NULL == m_thread)
	{
		return HGBASE_ERR_FAIL;
	}

	m_stopThread = HGTRUE;
    m_sourceImpl->m_saneApi.sane_cancel_api(m_devHandle);
	HGBase_CloseThread(m_thread);
	m_thread = NULL;
	m_eventFunc = NULL;
	m_eventParam = NULL;
	m_imageFunc = NULL;
	m_imageParam = NULL;

	m_dpi = 0;
	free(m_buffer);
	m_buffer = NULL;
	m_bufferSize = 0;
	return HGBASE_ERR_OK;
}

HGResult HGSaneDeviceImpl::StartWithUI(HGWindow parent, HGSane_DeviceImageFunc imageFunc, HGPointer imageParam)
{
	if (NULL != m_thread)
	{
		return HGBASE_ERR_FAIL;
	}

    HGResult ret = GetValueInt32(0x8818, &m_dpi);
    if (HGBASE_ERR_OK != ret)
    {
        return ret;
    }

	m_imageFunc = imageFunc;
	m_imageParam = imageParam;

    if (-2 == show_scan_ui(&m_sourceImpl->m_saneApi, m_devHandle, m_devName.c_str(), parent, ShowScanImageCallback, this))
	{
        m_dpi = 0;
		return HGBASE_ERR_NOTSUPPORT;
	}

	return HGBASE_ERR_OK;
}

HGResult HGSaneDeviceImpl::StartWithSingleScan(HGWindow parent, HGSane_DeviceImageFunc imageFunc, HGPointer imageParam)
{
    if (NULL != m_thread)
    {
        return HGBASE_ERR_FAIL;
    }

    HGChar scanMode[256] = {0};
    HGResult ret = GetValueStr256(0x882E, scanMode, 256);
    if (HGBASE_ERR_OK != ret)
    {
        return ret;
    }

    HGInt scanCount = 0;
    ret = GetValueInt32(0x882F, &scanCount);
    if (HGBASE_ERR_OK != ret)
    {
        return ret;
    }

    ret = GetValueInt32(0x8818, &m_dpi);
    if (HGBASE_ERR_OK != ret)
    {
        return ret;
    }

    HGChar newScanMode[256] = {0};
    strcpy(newScanMode, OPTION_VALUE_SMZS_SMZDZS);
    SetValueStr256(0x882E, newScanMode);
    SetValueInt32(0x882F, 1);

    m_imageFunc = imageFunc;
    m_imageParam = imageParam;

    if (-2 == show_scan_ui(&m_sourceImpl->m_saneApi, m_devHandle, m_devName.c_str(), parent, ShowScanImageCallback, this))
    {
        SetValueStr256(0x882E, scanMode);
        SetValueInt32(0x882F, scanCount);
        m_dpi = 0;
        return HGBASE_ERR_NOTSUPPORT;
    }

    SetValueStr256(0x882E, scanMode);
    SetValueInt32(0x882F, 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, 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;
}

void HGAPI HGSaneDeviceImpl::ThreadFunc(HGThread thread, HGPointer param)
{
	HGSaneDeviceImpl* p = (HGSaneDeviceImpl*)param;
	while (!p->m_stopThread)
	{
		SANE_Parameters params;
		memset(&params, 0, sizeof(SANE_Parameters));
        SANE_Status stat1 = p->m_sourceImpl->m_saneApi.sane_get_parameters_api(p->m_devHandle, &params);

		SANE_Int readSize = 0;
		SANE_Status stat2 = SANE_STATUS_GOOD;
		while (readSize < p->m_bufferSize)
		{
			SANE_Int len = 0;
            stat2 = p->m_sourceImpl->m_saneApi.sane_read_api(p->m_devHandle, p->m_buffer + readSize, p->m_bufferSize - readSize, &len);
			readSize += len;
			if (SANE_STATUS_GOOD != stat2)
			{
				break;
			}
		}

		if (SANE_STATUS_GOOD == stat2)
		{
			// m_bufferSize空间不够
			if (NULL != p->m_eventFunc)
                p->m_eventFunc((HGSaneDevice)p, HGSANE_ERR_FAIL, p->m_sourceImpl->m_saneApi.sane_strstatus_api(SANE_STATUS_INVAL), p->m_eventParam);
			break;
		}
		else if (SANE_STATUS_EOF == stat2)
		{
			if (0 == readSize)
			{
				if (NULL != p->m_eventFunc)
                    p->m_eventFunc((HGSaneDevice)p, HGBASE_ERR_OK, NULL, p->m_eventParam);
				break;
			}
			else if (SANE_STATUS_GOOD != stat1 || readSize != params.bytes_per_line * params.lines)
			{
				if (NULL != p->m_eventFunc)
                    p->m_eventFunc((HGSaneDevice)p, HGSANE_ERR_FAIL, p->m_sourceImpl->m_saneApi.sane_strstatus_api(SANE_STATUS_INVAL), p->m_eventParam);
				break;
			}
		}
		else if (SANE_STATUS_CANCELLED == stat2)
		{
			break;
		}
		else
		{
			if (NULL != p->m_eventFunc)
                p->m_eventFunc((HGSaneDevice)p, HGSANE_ERR_FAIL, p->m_sourceImpl->m_saneApi.sane_strstatus_api(stat2), p->m_eventParam);
			break;
		}

		if (NULL != p->m_imageFunc)
		{
			HGUInt imgType = 0;
			if (params.format == SANE_FRAME_GRAY)
			{
				if (1 == params.depth)
					imgType = HGBASE_IMGTYPE_BINARY;
				else if (8 == params.depth)
					imgType = HGBASE_IMGTYPE_GRAY;
			}
			else if (params.format == SANE_FRAME_RGB)
			{
				imgType = HGBASE_IMGTYPE_RGB;
			}

			HGImageInfo imgInfo = { (HGUInt)params.pixels_per_line, (HGUInt)params.lines,
									imgType, (HGUInt)params.bytes_per_line, HGBASE_IMGORIGIN_TOP };
			HGImage img = NULL;
			HGBase_CreateImageWithData(p->m_buffer, &imgInfo, &img);
			if (NULL != img)
			{
				HGBase_SetImageDpi(img, p->m_dpi, p->m_dpi);
				p->m_imageFunc((HGSaneDevice)p, img, p->m_imageParam);
				HGBase_DestroyImage(img);
			}
		}
	}
}

void HGSaneDeviceImpl::ShowScanImageCallback(const SANE_Parameters* imageFormat, const SANE_Byte* imageData, void* callbackParam)
{
	HGSaneDeviceImpl* p = (HGSaneDeviceImpl*)callbackParam;

	if (NULL != p->m_imageFunc)
	{
		HGUInt imgType = 0;
		if (imageFormat->format == SANE_FRAME_GRAY)
		{
			if (1 == imageFormat->depth)
				imgType = HGBASE_IMGTYPE_BINARY;
			else if (8 == imageFormat->depth)
				imgType = HGBASE_IMGTYPE_GRAY;
		}
		else if (imageFormat->format == SANE_FRAME_RGB)
		{
			imgType = HGBASE_IMGTYPE_RGB;
		}

		HGImageInfo imgInfo = { (HGUInt)imageFormat->pixels_per_line, (HGUInt)imageFormat->lines,
								imgType, (HGUInt)imageFormat->bytes_per_line, HGBASE_IMGORIGIN_TOP };
		HGImage img = NULL;
		HGBase_CreateImageWithData((HGByte*)imageData, &imgInfo, &img);
		if (NULL != img)
		{
			HGBase_SetImageDpi(img, p->m_dpi, p->m_dpi);
			p->m_imageFunc((HGSaneDevice)p, img, p->m_imageParam);
			HGBase_DestroyImage(img);
		}
	}
}