code_device/hgsane/sane_hg_mdw.cpp

#include "sane_hg_mdw.h"
#include "json.h"
#include <stdarg.h>
#include <time.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <mutex>
#ifdef WIN32
#include <windows.h>
#include <direct.h>
#define pthread_t		DWORD
#define pthread_self	GetCurrentThreadId
#define MKDIR(a, b)		mkdir(a)
#else
#define MKDIR(a, b)		mkdir(a, b)
#include <pthread.h>
#endif

#include "../../sdk/include/sane/sane_option_definitions.h"
#include "sane_option.h"

#ifndef VERSION_BUILD
#define VERSION_BUILD	22030
#endif
#ifndef SIGUSR1
#define SIGUSR1 10
#endif

// copy to /usr/lib/x86_64-linux-gnu/sane
// export SANE_DEBUG_DLL=5

#ifndef iconv_t
#define iconv_t void*
#endif

namespace local_utility
{
	/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
	SANE_Status scanner_err_2_sane_statu(int hgerr)
	{
#define RETURN_MATCH_ERROR(hg, sane)	\
	if(hgerr == hg)						\
		return sane;

		RETURN_MATCH_ERROR(SCANNER_ERR_OK, SANE_STATUS_GOOD);
		RETURN_MATCH_ERROR(SCANNER_ERR_INVALID_PARAMETER, SANE_STATUS_INVAL);
		RETURN_MATCH_ERROR(SCANNER_ERR_INSUFFICIENT_MEMORY, SANE_STATUS_NO_MEM);
		RETURN_MATCH_ERROR(SCANNER_ERR_ACCESS_DENIED, SANE_STATUS_ACCESS_DENIED);
		RETURN_MATCH_ERROR(SCANNER_ERR_IO_PENDING, SANE_STATUS_GOOD);
		RETURN_MATCH_ERROR(SCANNER_ERR_NOT_EXACT, SANE_STATUS_GOOD);
		RETURN_MATCH_ERROR(SCANNER_ERR_CONFIGURATION_CHANGED, SANE_STATUS_GOOD);
		RETURN_MATCH_ERROR(SCANNER_ERR_NOT_OPEN, SANE_STATUS_NO_DOCS);
		RETURN_MATCH_ERROR(SCANNER_ERR_NOT_START, SANE_STATUS_NO_DOCS);
		RETURN_MATCH_ERROR(SCANNER_ERR_NO_DATA, SANE_STATUS_EOF);
		RETURN_MATCH_ERROR(SCANNER_ERR_HAS_DATA_YET, SANE_STATUS_IO_ERROR);
		RETURN_MATCH_ERROR(SCANNER_ERR_OUT_OF_RANGE, SANE_STATUS_NO_MEM);
		RETURN_MATCH_ERROR(SCANNER_ERR_IO, SANE_STATUS_IO_ERROR);
		RETURN_MATCH_ERROR(SCANNER_ERR_TIMEOUT, SANE_STATUS_IO_ERROR);

		RETURN_MATCH_ERROR(SCANNER_ERR_DEVICE_NOT_FOUND, SANE_STATUS_NO_DOCS);
		RETURN_MATCH_ERROR(SCANNER_ERR_DEVICE_NOT_SUPPORT, SANE_STATUS_UNSUPPORTED);
		RETURN_MATCH_ERROR(SCANNER_ERR_DEVICE_BUSY, SANE_STATUS_DEVICE_BUSY);
		RETURN_MATCH_ERROR(SCANNER_ERR_DEVICE_COVER_OPENNED, SANE_STATUS_COVER_OPEN);
		RETURN_MATCH_ERROR(SCANNER_ERR_DEVICE_NO_PAPER, SANE_STATUS_NO_DOCS);
		RETURN_MATCH_ERROR(SCANNER_ERR_DEVICE_PAPER_JAMMED, SANE_STATUS_JAMMED);

		return (SANE_Status)hgerr;
	}

	void* acquire_memory(size_t bytes, const char* info)
	{
		//if (!info)
		//	info = "";
		//hg_sane_middleware::log(strlen(info) + 80, "allocate memory with %u bytes from %s\n", bytes, info);

		return malloc(bytes);
	}
	void free_memory(void* m)
	{
		if (m)
			free(m);
	}

	

	/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
	// json parser ...
	bool is_space(char ch)
	{
		return ch == ' ' || ch == '\t';
	}
	bool is_digital(char ch)
	{
		return ch >= '0' && ch <= '9';
	}
	bool is_hex_num(char ch)
	{
		if (is_digital(ch))
			return true;

		return (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F');
	}
	bool to_num(char ch, int& v, bool hex)
	{
		if (is_digital(ch))
		{
			v = ch - '0';

			return true;
		}

		if (hex)
		{
			if (ch >= 'a' && ch <= 'f')
			{
				v = ch - 'a' + 10;
			}
			else if (ch >= 'A' && ch <= 'F')
			{
				v = ch - 'A' + 10;
			}
			else
			{
				hex = false;
			}
		}

		return hex;
	}

	bool skip_space(const char*& str)
	{
		const char* bgn = str;

		while (is_space(*str))
			str++;

		return str > bgn;
	}

	// 暂不支持科学计数<E8AEA1><E695B0>?1.2e+10
	bool get_number(const char*& str, double& val)
	{
		const char* bgn = str;
		double		val_race = 10.0f,
			val_sign = 1.0f,
			digit_race = 1.0f,
			digit_race_race = 1.0f;

		val = .0f;
		if (*str == '-')
		{
			str++;
			val_sign = -1.0f;
		}
		if (*str == '.')
		{
			str++;
			digit_race = digit_race_race = .1f;
			val_race = 1.0f;
		}
		bgn = str;
		while (*str && is_digital(*str))
		{
			int v = 0;

			val *= val_race;
			to_num(*str++, v, false);
			val += v * digit_race;
			digit_race *= digit_race_race;
		}
		if (*str == '.')
		{
			if (digit_race_race < 1.0f)
				return false;

			digit_race = digit_race_race = .1f;
			val_race = 1.0f;
			while (*str && is_digital(*str))
			{
				int v = 0;

				val *= val_race;
				to_num(*str++, v, false);
				val += v * digit_race;
				digit_race *= digit_race_race;
			}
		}

		return str > bgn;
	}
	bool get_limit(const char*& str, std::string& l, std::string& r)
	{
		// set l = "a", r = "b" in text "[a, b]"
		bool	ret = *str == '[';

		if (ret)
		{
			str++;
			skip_space(str);
			l = str;

			size_t pos = l.find("]");
			if (pos == -1)
				return false;

			l.erase(pos);
			pos = l.find(",");
			if (pos == -1)
				return false;

			r = l.substr(pos + 1);
			l.erase(pos);
		}

		return ret;
	}



	/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

	/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
	static sane_callback cb_ui_ = NULL;
	static void* cb_ui_parm_ = NULL;
	static SANE_Auth_Callback cb_auth_ = NULL;
	static std::mutex	cb_lock_;

	static std::string sane_event(SANE_Event ev)
	{
		RETURN_IF(ev, SANE_EVENT_NONE);
		RETURN_IF(ev, SANE_EVENT_SUPPORT_ASYNC_IO);
		RETURN_IF(ev, SANE_EVENT_IS_MEMORY_ENOUGH);
		RETURN_IF(ev, SANE_EVENT_NEED_AUTH);
		RETURN_IF(ev, SANE_EVENT_DEVICE_ARRIVED);
		RETURN_IF(ev, SANE_EVENT_DEVICE_LEFT);
		RETURN_IF(ev, SANE_EVENT_STATUS);
		RETURN_IF(ev, SANE_EVENT_ERROR);
		RETURN_IF(ev, SANE_EVENT_WORKING);
		RETURN_IF(ev, SANE_EVENT_IMAGE_OK);
		RETURN_IF(ev, SANE_EVENT_SCAN_FINISHED);
		RETURN_IF(ev, SANE_EVENT_ABOUT_INFORMATION);
		RETURN_IF(ev, SANE_EVENT_SCANNER_CLOSED);

		char unk[20];
		sprintf(unk, "%d", ev);

		return unk;
	}
	int ui_cb(scanner_handle dev, int code, void* data, unsigned int* len, void* unused)
	{
		std::lock_guard<std::mutex>	lck(cb_lock_);

		if (SANE_EVENT_SUPPORT_ASYNC_IO == code)
			return cb_ui_ ? SCANNER_ERR_OK : SCANNER_ERR_DEVICE_NOT_SUPPORT;

		SANE_Handle h = hg_sane_middleware::scanner_handle_to_sane(dev);

		VLOG_MINI_1(LOG_LEVEL_ALL, "sane callback invoked of event %s\n", sane_event((SANE_Event)code).c_str());

		if (cb_ui_)
		{
			return cb_ui_(h, code, data, len, cb_ui_parm_);
		}
		else if (cb_auth_ && code == SANE_EVENT_NEED_AUTH)
		{
			SANEAUTH* auth = (SANEAUTH*)data;
			cb_auth_(auth->resource, auth->name, auth->pwd);
		}

		return 0;
	}

	void get_version(SANE_Int* version_code)
	{
		if (version_code)
			*version_code = SANE_VERSION_CODE(SANE_CURRENT_MAJOR, SANE_CURRENT_MINOR, VERSION_BUILD);	// leading-char '1' is used for avoid compiler considering '0118' as an octal number :)

		unsigned long long v = hg_scanner_get_version();
		unsigned short* w = (unsigned short*)&v;
		
		VLOG_MINI_4(LOG_LEVEL_DEBUG_INFO, "scanner version: %u.%u.%u.%u\n", w[3], w[2], w[1], w[0]);
	}
	void stop_work(void)
	{
		std::lock_guard<std::mutex>	lck(cb_lock_);
		cb_ui_ = NULL;
		cb_ui_parm_ = NULL;
		cb_auth_ = NULL;
	}
}


/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

hg_sane_middleware* hg_sane_middleware::inst_ = NULL;
const SANE_Device** hg_sane_middleware::dev_list_ = NULL;

hg_sane_middleware::hg_sane_middleware(void) : opt_0_(nullptr), std_opt_(nullptr)
{
	char	sane_ver[40] = { 0 };

	sprintf(sane_ver, "%u.%u.%u", SANE_CURRENT_MAJOR, SANE_CURRENT_MINOR, VERSION_BUILD);
	signal(SIGUSR1, &hg_sane_middleware::device_pnp);
	hg_scanner_set_sane_info(GET_BACKEND_NAME, sane_ver);
	hg_scanner_initialize(local_utility::ui_cb, NULL);
}
hg_sane_middleware::~hg_sane_middleware()
{
	for (size_t i = 0; i < opts_.size(); ++i)
	{
		local_utility::free_memory(opts_[i].desc);
	}
	for (size_t i = 0; i < openning_.size(); ++i)
		hg_scanner_close(openning_[i].handle, true);
	hg_scanner_uninitialize();
	if (opt_0_)
		local_utility::free_memory(opt_0_);
	if (std_opt_)
		delete std_opt_;
}

const SANE_Device** hg_sane_middleware::to_sane_device(ScannerInfo* hgscanner, int count)
{
	// 将多级指针安排在一个连续的内存空间存放
	SANE_Device** ret = NULL, * dev = NULL;
	SANE_String		val = NULL;
	unsigned long	bytes = (count + 1) * (sizeof(SANE_Device) + sizeof(SANE_Device*)), total = 0;

	// calculate space ...
	for (int i = 0; i < count; ++i)
	{
		bytes += ALIGN_INT(strlen(hgscanner[i].name) + 1);
		bytes += ALIGN_INT(strlen(hgscanner[i].vendor) + 1);
		bytes += ALIGN_INT(strlen(hgscanner[i].model) + 1);
		bytes += ALIGN_INT(strlen(hgscanner[i].type) + 1);
	}

	bytes = ALIGN_INT(bytes + 16);
	dev = (SANE_Device*)local_utility::acquire_memory(bytes, "hg_sane_middleware::to_sane_device");
	total = bytes;
	if (!dev)
		return NULL;

	memset(dev, 0, bytes);
	ret = (SANE_Device**)dev;
	dev = (SANE_Device*)((SANE_Device**)dev + count + 1);
	val = (SANE_String)(dev + count);

#define COPY_DEVICE_MEMBER(m)							\
	dev->m = val;										\
	strcpy(val, hgscanner[i].m);						\
	bytes = ALIGN_INT(strlen(val) + 1);	\
	val += bytes;

	for (int i = 0; i < count; ++i, ++dev)
	{
		ret[i] = dev;
		COPY_DEVICE_MEMBER(name);
		COPY_DEVICE_MEMBER(vendor);
		COPY_DEVICE_MEMBER(model);
		COPY_DEVICE_MEMBER(type);
	}

	//VLOG_MINI_2(LOG_LEVEL_ALL, "Memory usage: %u / %u\n", val - (char*)ret, total);

	return (const SANE_Device**)ret;
}
void hg_sane_middleware::free_sane_device(SANE_Device** dev)
{
	char* mem = (char*)dev;

	if (mem)
	{
		free(mem);
	}
}
void hg_sane_middleware::device_pnp(int sig)
{
	VLOG_MINI_1(LOG_LEVEL_DEBUG_INFO, "Device list changed (%d)...", sig);
}
SANE_Fixed hg_sane_middleware::double_2_sane_fixed(double v)
{
	return SANE_FIX(v);
}
double hg_sane_middleware::sane_fixed_2_double(SANE_Fixed v)
{
	return SANE_UNFIX(v);
}
std::string hg_sane_middleware::option_value_2_string(SANE_Value_Type type, void* val)
{
	std::string	ret("unknown");
	char		buf[40];

	switch (type)
	{
	case SANE_TYPE_BOOL:
		ret = *(SANE_Bool*)val ? "true" : "false";
		break;
	case SANE_TYPE_INT:
		sprintf(buf, "%d", *(SANE_Word*)val);
		ret = buf;
		break;
	case SANE_TYPE_FIXED:
		sprintf(buf, "%f", hg_sane_middleware::sane_fixed_2_double(*(SANE_Word*)val));
		ret = buf;
		break;
	case SANE_TYPE_STRING:
		ret = (char*)val;
		break;
	case SANE_TYPE_BUTTON:
		ret = "Button";
		break;
	case SANE_TYPE_GROUP:
		ret = "Group";
		break;
	default:
		break;
	}

	return ret;
}

hg_sane_middleware* hg_sane_middleware::instance(void)
{
	if (!hg_sane_middleware::inst_)
		hg_sane_middleware::inst_ = new hg_sane_middleware();

	return hg_sane_middleware::inst_;
}
void hg_sane_middleware::clear(void)
{
	if (hg_sane_middleware::inst_)
	{
		delete hg_sane_middleware::inst_;
		hg_sane_middleware::inst_ = NULL;
	}
}
scanner_handle hg_sane_middleware::sane_handle_to_scanner(SANE_Handle h)
{
	int bits = sizeof(h) / 2 * 8;
	unsigned long long v = (unsigned long long)h;

	v ^= v >> bits;

	return (scanner_handle)(v);
}
SANE_Handle hg_sane_middleware::scanner_handle_to_sane(scanner_handle h)
{
	int bits = sizeof(h) / 2 * 8;
	unsigned long long v = (unsigned long long)h;

	v ^= v >> bits;

	return (SANE_Handle)(v);
}
SANE_Option_Descriptor* hg_sane_middleware::string_option_to_SANE_descriptor(const char* name, const char* title, const char* desc
	, const std::vector<std::string>& values)
{
	int						bytes = sizeof(SANE_Option_Descriptor) + sizeof(char*);
	SANE_Option_Descriptor	*sod = NULL;
	char					*str = NULL, **str_arr = NULL;

	bytes += ALIGN_INT(strlen(name) + 1);
	bytes += ALIGN_INT(strlen(title) + 1);
	bytes += ALIGN_INT(strlen(desc) + 1);
	bytes += sizeof(SANE_Option_Descriptor);
	bytes += sizeof(char*);
	for (size_t i = 0; i < values.size(); ++i)
		bytes += ALIGN_INT(values[i].length() + 1);
	bytes += sizeof(char*) * (values.size() + 1);
	sod = (SANE_Option_Descriptor*)local_utility::acquire_memory(bytes, "hg_sane_middleware::string_option_to_SANE_descriptor");
	bzero(sod, bytes);
	str = (char*)sod;
	str += sizeof(SANE_Option_Descriptor);

	sod->name = str;
	strcpy(str, name);
	str += ALIGN_INT(strlen(str) + 1);

	sod->title = str;
	strcpy(str, title);
	str += ALIGN_INT(strlen(str) + 1);
	
	sod->desc = str;
	strcpy(str, desc);
	str += ALIGN_INT(strlen(str) + 1);

	sod->type = SANE_TYPE_STRING;
	sod->unit = SANE_UNIT_NONE;
	sod->size = values.size();
	sod->cap = SANE_CAP_SOFT_SELECT | SANE_CAP_SOFT_DETECT		// 软件可设置选项
				| SANE_CAP_AUTOMATIC;							// 硬件可设置默认<E9BB98><E8AEA4>?
	if (values.size())
	{
		sod->constraint_type = SANE_CONSTRAINT_STRING_LIST;
		sod->constraint.string_list = (char**)str;
		str_arr = (char**)str;
		str += (values.size() + 1) * sizeof(char*);
		for (size_t i = 0; i < values.size(); ++i)
		{
			str_arr[i] = str;
			strcpy(str, values[i].c_str());

			str += ALIGN_INT(values[i].length() + 1);
		}
	}

	//VLOG_MINI_2(LOG_LEVEL_ALL, "Memory usage: %u/%u\n", str - (char*)sod, bytes);

	return sod;
}
SANE_Option_Descriptor* hg_sane_middleware::number_option_to_SANE_descriptor(const char* name, const char* title, const char* desc
	, bool double_val, double* lower, double* upper)
{
	int						bytes = sizeof(SANE_Option_Descriptor) + sizeof(SANE_Range);
	SANE_Option_Descriptor	*sod = NULL;
	char					*str = NULL;

	bytes += ALIGN_INT(strlen(name) + 1);
	bytes += ALIGN_INT(strlen(title) + 1);
	bytes += ALIGN_INT(strlen(desc) + 1);
	bytes += sizeof(SANE_Option_Descriptor);
	bytes += sizeof(SANE_Range*) + sizeof(SANE_Range);
	sod = (SANE_Option_Descriptor*)local_utility::acquire_memory(bytes, "hg_sane_middleware::number_option_to_SANE_descriptor");
	bzero(sod, bytes);
	str = (char*)sod;
	str += sizeof(SANE_Option_Descriptor);

	sod->name = str;
	strcpy(str, name);
	str += ALIGN_INT(strlen(str) + 1);

	sod->title = str;
	strcpy(str, title);
	str += ALIGN_INT(strlen(str) + 1);

	sod->desc = str;
	strcpy(str, desc);
	str += ALIGN_INT(strlen(str) + 1);

	sod->type = double_val ? SANE_TYPE_FIXED : SANE_TYPE_INT;
	sod->unit = SANE_UNIT_NONE;
	sod->size = sizeof(SANE_Word);
	sod->cap = SANE_CAP_SOFT_SELECT | SANE_CAP_SOFT_DETECT		// 软件可设置选项
		/*| SANE_CAP_AUTOMATIC*/;									// 硬件可设置默认<E9BB98><E8AEA4>?
	if (lower || upper)
	{
		sod->size = sizeof(SANE_Range);
		sod->constraint_type = SANE_CONSTRAINT_RANGE;
		sod->constraint.range = (SANE_Range*)str;
		if (lower)
		{
			if (double_val)
				(*(SANE_Range*)str).min = hg_sane_middleware::double_2_sane_fixed(*lower);
			else
				(*(SANE_Range*)str).min = *lower;
		}
		if (upper)
		{
			if (double_val)
				(*(SANE_Range*)str).max = hg_sane_middleware::double_2_sane_fixed(*upper);
			else
				(*(SANE_Range*)str).max = *upper;
		}
		(*(SANE_Range*)str).quant = 0;

		str = (char*)((SANE_Range*)str + 1);
	}
	//VLOG_MINI_2(LOG_LEVEL_ALL, "Memory usage: %u/%u\n", str - (char*)sod, bytes);

	return sod;
}
SANE_Option_Descriptor* hg_sane_middleware::number_option_to_SANE_descriptor(const char* name, const char* title, const char* desc
	, const std::vector<int>& values)
{
	int						bytes = sizeof(SANE_Option_Descriptor) + sizeof(SANE_Range);
	SANE_Option_Descriptor* sod = NULL;
	char* str = NULL;

	bytes += ALIGN_INT(strlen(name) + 1);
	bytes += ALIGN_INT(strlen(title) + 1);
	bytes += ALIGN_INT(strlen(desc) + 1);
	bytes += sizeof(SANE_Option_Descriptor);
	bytes += sizeof(SANE_Word*) + sizeof(SANE_Word) * (values.size() + 1);
	sod = (SANE_Option_Descriptor*)local_utility::acquire_memory(bytes, "hg_sane_middleware::number_option_to_SANE_descriptor");
	bzero(sod, bytes);
	str = (char*)sod;
	str += sizeof(SANE_Option_Descriptor);

	sod->name = str;
	strcpy(str, name);
	str += ALIGN_INT(strlen(str) + 1);

	sod->title = str;
	strcpy(str, title);
	str += ALIGN_INT(strlen(str) + 1);

	sod->desc = str;
	strcpy(str, desc);
	str += ALIGN_INT(strlen(str) + 1);

	sod->type = SANE_TYPE_INT;
	sod->unit = SANE_UNIT_NONE;
	sod->size = sizeof(SANE_Word);
	sod->cap = SANE_CAP_SOFT_SELECT | SANE_CAP_SOFT_DETECT		// 软件可设置选项
		/*| SANE_CAP_AUTOMATIC*/;									// 硬件可设置默认<E9BB98><E8AEA4>?

	if (values.size())
	{
		SANE_Word	*val = (SANE_Word*)str;
		sod->constraint.word_list = val;
		sod->constraint_type = SANE_CONSTRAINT_WORD_LIST;
		*val++ = values.size();
		for (size_t i = 0; i < values.size(); ++i)
			val[i] = values[i];

		str = (char*)(val + values.size());
	}
	//VLOG_MINI_2(LOG_LEVEL_ALL, "Memory usage: %u/%u\n", str - (char*)sod, bytes);

	return sod;
}
SANE_Option_Descriptor* hg_sane_middleware::number_option_to_SANE_descriptor(const char* name, const char* title, const char* desc
	, const std::vector<double>& values)
{
	int						bytes = sizeof(SANE_Option_Descriptor) + sizeof(SANE_Range);
	SANE_Option_Descriptor* sod = NULL;
	char* str = NULL;

	bytes += ALIGN_INT(strlen(name) + 1);
	bytes += ALIGN_INT(strlen(title) + 1);
	bytes += ALIGN_INT(strlen(desc) + 1);
	bytes += sizeof(SANE_Option_Descriptor);
	bytes += sizeof(SANE_Word*) + sizeof(SANE_Word) * (values.size() + 1);
	sod = (SANE_Option_Descriptor*)local_utility::acquire_memory(bytes, "hg_sane_middleware::number_option_to_SANE_descriptor");
	bzero(sod, bytes);
	str = (char*)sod;
	str += sizeof(SANE_Option_Descriptor);

	sod->name = str;
	strcpy(str, name);
	str += ALIGN_INT(strlen(str) + 1);

	sod->title = str;
	strcpy(str, title);
	str += ALIGN_INT(strlen(str) + 1);

	sod->desc = str;
	strcpy(str, desc);
	str += ALIGN_INT(strlen(str) + 1);

	sod->type = SANE_TYPE_FIXED;
	sod->unit = SANE_UNIT_NONE;
	sod->size = sizeof(SANE_Word);
	sod->cap = SANE_CAP_SOFT_SELECT | SANE_CAP_SOFT_DETECT		// 软件可设置选项
		/*| SANE_CAP_AUTOMATIC*/;									// 硬件可设置默认<E9BB98><E8AEA4>?

	if (values.size())
	{
		SANE_Word* val = (SANE_Word*)str;
		sod->constraint.word_list = val;
		sod->constraint_type = SANE_CONSTRAINT_WORD_LIST;
		*val++ = values.size();
		for (size_t i = 0; i < values.size(); ++i)
			val[i] = hg_sane_middleware::double_2_sane_fixed(values[i]);

		str = (char*)(val + values.size());
	}
	//VLOG_MINI_2(LOG_LEVEL_ALL, "Memory usage: %u/%u\n", str - (char*)sod, bytes);

	return sod;
}

void hg_sane_middleware::on_device_closed(scanner_handle h)
{
	// 由于目前对多设备的支持还不是刚需，故代码只考虑单设备情况，设备关闭后，清除所有变<E69C89><E58F98>?
	for (size_t i = 0; i < opts_.size(); ++i)
	{
		local_utility::free_memory(opts_[i].desc);
	}
	opts_.clear();
	for (size_t i = 0; i < openning_.size(); ++i)
	{
		if (openning_[i].handle == h)
		{
			openning_.erase(openning_.begin() + i);
			i--;
		}
	}
	cur_vals_.clear();
	slave_options_.clear();
	master_options_.clear();
	if (std_opt_)
		delete std_opt_;
	std_opt_ = nullptr;
}
SANE_Status hg_sane_middleware::open(SANE_String_Const devicename, SANE_Handle* handle, const char* name, const char* pwd, const char* method, char* rsc)
{
	scanner_handle	h = NULL;
	scanner_err		err = SCANNER_ERR_OK;

	if (handle == NULL)
		return SANE_STATUS_INVAL;

	err = hg_scanner_open(&h, devicename, false, NULL, NULL, NULL, rsc);
	if (err == SCANNER_ERR_OK)
	{
		OPENDEV	od;

		od.dev_name = devicename;
		od.handle = h;
		od.scan_count = -1;
		openning_.push_back(od);
		*handle = hg_sane_middleware::scanner_handle_to_sane(h);

		if (!local_utility::cb_ui_)
		{
			long count = 0;
			hg_scanner_get_parameter(h, 0, NULL, &count);
			std_opt_ = new sane_std_opts(count);
		}

		return SANE_STATUS_GOOD;
	}
	else if (err == SCANNER_ERR_ACCESS_DENIED)
	{
		return SANE_STATUS_ACCESS_DENIED;
	}
	else
		return SANE_STATUS_UNSUPPORTED;
}
SANE_Option_Descriptor* hg_sane_middleware::from_json(scanner_handle h, json* jsn, int opt_no)
{
	std::string	name(""), title(""), desc(""), val("");
	std::vector<std::string>	constraints;
	double						lower = .0f, upper = .0f;
	bool						db_val = false;
	
	jsn->get_value("name", name);
	jsn->get_value("title", title);
	jsn->get_value("desc", desc);

	if (!jsn->get_value("type", val))
		return NULL;

	SANE_Option_Descriptor* ret = NULL;
	if (val == "string")
	{
		json* range = NULL;
		std::vector<std::string>	constraints;

		jsn->get_value("range", range);
		if (range)
		{
			if (range->first_child(val))
			{
				constraints.push_back(val);
				while (range->next_child(val))
				{
					constraints.push_back(val);
				}
			}
			delete range;
		}

		ret = hg_sane_middleware::string_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
			, constraints);
	}
	else if (val == "int" || val == "float")
	{
		json* range = NULL;

		jsn->get_value("range", range);
		if (range)
		{
			if (val == "int")
			{
				int l = 0;
				if (range->get_value("min", l))
				{
					int u = 0;
					range->get_value("max", u);
					lower = l;
					upper = u;
					ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
						, false, &lower, &upper);
				}
				else
				{
					std::vector<int> constraints;
					if (range->first_child(val))
					{
						constraints.push_back(atoi(val.c_str()));
						while (range->next_child(val))
						{
							constraints.push_back(atoi(val.c_str()));
						}
					}
					ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
						, constraints);
				}
			}
			else
			{
				if (range->get_value("min", lower))
				{
					range->get_value("max", upper);
					ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
						, true, &lower, &upper);
				}
				else
				{
					std::vector<double> constraints;
					if (range->first_child(val))
					{
						constraints.push_back(atof(val.c_str()));
						while (range->next_child(val))
						{
							constraints.push_back(atof(val.c_str()));
						}
					}
					ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
						, constraints);
				}
			}
			delete range;
		}
		else
		{
			ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
				, false, NULL, NULL);
		}
	}
	else if (val == "bool")
	{
		ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
			, false, NULL, NULL);
		ret->type = SANE_TYPE_BOOL;
	}
	else if (val == "button")
	{
		ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
			, false, NULL, NULL);
		ret->type = SANE_TYPE_BUTTON;
	}
	else if (val == "group")
	{
		ret = hg_sane_middleware::number_option_to_SANE_descriptor(name.c_str(), title.c_str(), desc.c_str()
			, false, NULL, NULL);
		ret->type = SANE_TYPE_GROUP;
	}

	// fill the 'size' field, for SANE_ACTION_GET action ...
	if (ret)
	{
		int bytes = 0;
		jsn->get_value("size", bytes);
		ret->size = bytes;

		val = "";
		jsn->get_value("category", val);
		if (val == "advanced")
		{
			ret->cap |= SANE_CAP_ADVANCED;
		}
		
		if (strcmp(ret->title, "\345\210\206\350\276\250\347\216\207") == 0)
		{
			LOG_INFO(LOG_LEVEL_DEBUG_INFO, "set \345\210\206\350\276\250\347\216\207 unit to DPI\n");
			ret->unit = SANE_UNIT_DPI;
		}
		else if (strcmp(ret->name, SANE_STD_OPT_NAME_CUSTOM_AREA_LEFT) == 0 ||
			strcmp(ret->name, SANE_STD_OPT_NAME_CUSTOM_AREA_RIGHT) == 0 ||
			strcmp(ret->name, SANE_STD_OPT_NAME_CUSTOM_AREA_TOP) == 0 ||
			strcmp(ret->name, SANE_STD_OPT_NAME_CUSTOM_AREA_BOTTOM) == 0)
			ret->unit = SANE_UNIT_MM;

		//bool enabled = true;
		//if (jsn->get_value("enable", enabled) && !enabled)
		//	ret->cap |= SANE_CAP_INACTIVE;

		// 关联<E585B3><E88194>?
		json*	depend = NULL;
		SLAVEOP so;
		if (jsn->get_value("depend_or", depend))
		{
			so.is_enable = &hg_sane_middleware::is_enable_or;
		}
		else if (jsn->get_value("depend_and", depend))
		{
			so.is_enable = &hg_sane_middleware::is_enable_and;
		}
		if (depend)
		{
			if (parse_depends(depend, so))
			{
				so.enable_now = (ret->cap & SANE_CAP_INACTIVE) != SANE_CAP_INACTIVE;
				so.option_no = opt_no;

				// initializing status ...
				if (so.master.size())
				{
					std::string master(get_option_json(h, so.master[0].option_no));
					json* m = new json();
					if (m->attach_text(&master[0]))
					{
						bool integer = false;

						master = "";
						m->get_value("type", master);
						integer = master == "int";
						master = "";
						m->get_value_as_string("cur", master, integer);
						so.enable_now = so.is_enable(so.master, cur_vals_);
						if (!so.enable_now)
							ret->cap |= SANE_CAP_INACTIVE;
					}
					delete m;
				}
				slave_options_.push_back(so);
			}
			delete depend;
		}
	}

	return ret;
}
scanner_handle hg_sane_middleware::find_openning_device(SANE_Handle h, bool rmv, OPENDEV* dev)
{
	scanner_handle	handle = hg_sane_middleware::sane_handle_to_scanner(h);
	std::vector<OPENDEV>::iterator it = std::find(openning_.begin(), openning_.end(), handle);

	if (it == openning_.end())
		handle = NULL;
	else
	{
		if (dev)
			*dev = *it;
		if (rmv)
			openning_.erase(it);
	}
	
	return handle;
}
std::string hg_sane_middleware::get_option_json(scanner_handle handle, int opt_no)
{
	char* json_txt = NULL;
	long		length = 0;
	scanner_err	err = hg_scanner_get_parameter(handle, opt_no, json_txt, &length);
	std::string ret("");

	if (err == SCANNER_ERR_INSUFFICIENT_MEMORY)
	{
		json_txt = (char*)local_utility::acquire_memory(ALIGN_INT(length + 4), "hg_sane_middleware::get_option_json");
		bzero(json_txt, length + 4);
		err = hg_scanner_get_parameter(handle, opt_no, json_txt, &length);
		if (err == SCANNER_ERR_OK)
		{
			ret = json_txt;
		}
		free(json_txt);
	}

	return ret;
}
SANE_Option_Descriptor* hg_sane_middleware::find_stored_descriptor(const char* name, int option)
{
	for (size_t i = 0; i < opts_.size(); ++i)
	{
		if (opts_[i].dev_name == name && opts_[i].option_no == option)
			return opts_[i].desc;
	}

	return NULL;
}
SANE_Option_Descriptor* hg_sane_middleware::find_stored_descriptor(SANE_Handle handle, int option)
{
	OPENDEV			dev;
	scanner_handle	h = find_openning_device(handle, false, &dev);

	if (!h)
		return NULL;
	else
		return find_stored_descriptor(dev.dev_name.c_str(), option);
}

bool hg_sane_middleware::get_current_value(scanner_handle handle, int option, void* value, SANE_Value_Type *type)
{
	std::string val(get_option_json(handle, option));
	json*		jsn = new json();
	int			estimate = 20;
	bool		ret = false;

	if (jsn->attach_text(&val[0]) &&
		jsn->get_value("type", val))
	{
		SANE_Value_Type	t = SANE_TYPE_STRING;
		std::string		name("");

		jsn->get_value("name", name);
		ret = true;
		if (val == "int")
		{
			int v = 0;
			jsn->get_value("cur", v);
			*((SANE_Int*)value) = v;
			t = SANE_TYPE_INT;
		}
		else if (val == "bool")
		{
			bool yesorno = false;
			jsn->get_value("cur", yesorno);
			*(SANE_Bool*)value = yesorno;
			t = SANE_TYPE_BOOL;
		}
		else if (val == "float")
		{
			double v = .0f;
			jsn->get_value("cur", v);
			*((SANE_Fixed*)value) = hg_sane_middleware::double_2_sane_fixed(v);
			t = SANE_TYPE_FIXED;
		}
		else
		{
			val = "";
			jsn->get_value("cur", val);
			strcpy((char*)value, val.c_str());
			estimate += val.length();
		}
		if (type)
			*type = t;

		refresh_current_value(option, jsn);

		jsn->get_value("title", val);

		VLOG_MINI_3(LOG_LEVEL_DEBUG_INFO, "<--Get option(%d - %s) value: %s\n", option, val.c_str(), hg_sane_middleware::option_value_2_string(t, value).c_str());
	}

	delete jsn;

	return ret;
}
void* hg_sane_middleware::get_default_value(scanner_handle handle, int option)
{
	std::string val(get_option_json(handle, option));
	void*		data = nullptr;
	json*		jsn = new json();

	if (jsn->attach_text(&val[0]) &&
		jsn->get_value("type", val))
	{
		if (val == "bool")
		{
			bool v = false;
			jsn->get_value("default", v);

			data = local_utility::acquire_memory(sizeof(v), "");
			memcpy(data, &v, sizeof(v));
			VLOG_MINI_2(LOG_LEVEL_DEBUG_INFO, "option %d default value is: %s\n", option, v ? "true" : "false");
		}
		else if (val == "int")
		{
			int v = 0;
			jsn->get_value("default", v);

			data = local_utility::acquire_memory(sizeof(v), "");
			memcpy(data, &v, sizeof(v));
			VLOG_MINI_2(LOG_LEVEL_DEBUG_INFO, "option %d default value is: %d\n", option, v);
		}
		else if (val == "float")
		{
			double v = .0f;
			jsn->get_value("default", v);

			data = local_utility::acquire_memory(sizeof(v), "");
			memcpy(data, &v, sizeof(v));
			VLOG_MINI_2(LOG_LEVEL_DEBUG_INFO, "option %d default value is: %f\n", option, v);
		}
		else if (val == "string")
		{
			int	size = 0;

			jsn->get_value("size", size);
			val = "";
			jsn->get_value("default", val);

			if (size < val.length())
				size = val.length();
			data = local_utility::acquire_memory(size + 4, "");
			strcpy((char*)data, val.c_str());
			VLOG_MINI_2(LOG_LEVEL_DEBUG_INFO, "option %d default value is: %s\n", option, (char*)data);
		}
		else
		{
			VLOG_MINI_2(LOG_LEVEL_DEBUG_INFO, "option %d type is '%s' and cannot be set value.\n", option, val.c_str());
		}
	}
	delete jsn;
	
	return data;
}
void hg_sane_middleware::reload_current_value(scanner_handle handle, std::vector<int>* changed)
{
	long count = 0;

	if (changed)
		changed->clear();
	hg_scanner_get_parameter(handle, 0, NULL, &count);
	for (int i = 1; i < count; ++i)
	{
		std::string val(get_option_json(handle, i));
		json* jsn = new json();
		if (jsn->attach_text(&val[0]) &&
			jsn->get_value("type", val))
		{
			if (refresh_current_value(i, jsn))
				changed->push_back(i);
		}
		delete jsn;
	}
}
SANE_Status hg_sane_middleware::get_devices(const SANE_Device*** device_list, SANE_Bool local_only)
{
	if (!device_list)
		return SANE_STATUS_INVAL;

	ScannerInfo		* dev = NULL;
	long			count = 0;
	scanner_err			hgerr = hg_scanner_enum(dev, &count, local_only);
	SANE_Status		ret = SANE_STATUS_GOOD;

	if (hgerr == SCANNER_ERR_INSUFFICIENT_MEMORY)
	{
		count += 4;		// 为两次hg_scanner_enum间隙可能新增的设备预留空<E79599><E7A9BA>?
		dev = (ScannerInfo*)local_utility::acquire_memory(sizeof(ScannerInfo) * count, "hg_sane_middleware::get_devices");
		hgerr = hg_scanner_enum(dev, &count, local_only);
		if (hgerr != SCANNER_ERR_OK)
		{
			free(dev);
			dev = NULL;
		}
	}

	if (hgerr == SCANNER_ERR_OK)
	{
		*device_list = hg_sane_middleware::to_sane_device(dev, count);
		if (dev)
			free(dev);
	}
	else 
		ret = local_utility::scanner_err_2_sane_statu(hgerr);

	if (hg_sane_middleware::dev_list_)
		free(hg_sane_middleware::dev_list_);
	hg_sane_middleware::dev_list_ = *device_list;

	return ret;
}
SANE_Status hg_sane_middleware::open_device(SANE_String_Const devicename, SANE_Handle* handle)
{
	char		rsc[128];
	SANE_Status ret = SANE_STATUS_GOOD;
	
	bzero(rsc, sizeof(rsc));
	ret = open(devicename, handle, NULL, NULL, NULL, rsc);
	if (ret == SANE_STATUS_ACCESS_DENIED && rsc[0])
	{
		SANEAUTH	auth;
		bzero(&auth, sizeof(auth));
		auth.resource = rsc;
		if (local_utility::ui_cb(NULL, SANE_EVENT_NEED_AUTH, (void*)&auth, NULL, NULL))
		{
			return SANE_STATUS_CANCELLED;
		}

		ret = open(devicename, handle, auth.name, auth.pwd, auth.method, rsc);
	}

	return ret;
}
SANE_Status hg_sane_middleware::close_device(SANE_Handle h)
{
	scanner_handle	hs = find_openning_device(h, true);
	SANE_Status		err = SANE_STATUS_GOOD;

	if (hs)
		err = local_utility::scanner_err_2_sane_statu(hg_scanner_close(hs, true));
	if (err == SANE_STATUS_GOOD)
		on_device_closed(hs);

	return err;
}
SANE_Status hg_sane_middleware::get_image_parameters(SANE_Handle handle, SANE_Parameters* params)
{
	scanner_handle	h = find_openning_device(handle);
	scanner_err		err = SCANNER_ERR_NOT_START;

	if (!params)
		return SANE_STATUS_INVAL;

	err = hg_scanner_get_img_info(h, params, sizeof(*params));

	return local_utility::scanner_err_2_sane_statu(err);
}
SANE_Status hg_sane_middleware::start(SANE_Handle h, void* async_event)
{
	OPENDEV			dev;
	scanner_handle	hs = find_openning_device(h, false, &dev);
	scanner_err			err = SCANNER_ERR_INVALID_PARAMETER; 
	
	if(hs)
		err = hg_scanner_start(hs, async_event, dev.scan_count);

	return local_utility::scanner_err_2_sane_statu(err);
}
SANE_Status hg_sane_middleware::read(SANE_Handle h, void* buf, int* bytes)
{
	scanner_handle	hs = find_openning_device(h);
	scanner_err			err = SCANNER_ERR_INVALID_PARAMETER;
	long			r = bytes ? *bytes : 0;
	
	if (bytes && hs)
	{
		err = hg_scanner_read_img_data(hs, (unsigned char*)buf, &r);
		*bytes = r;
	}

	return local_utility::scanner_err_2_sane_statu(err);
}
SANE_Status hg_sane_middleware::stop(SANE_Handle h)
{
	scanner_handle	hs = find_openning_device(h);
	
	if(hs)
		hg_scanner_stop(hs);

	return SANE_STATUS_GOOD;
}
SANE_Option_Descriptor* hg_sane_middleware::get_option_descriptor(SANE_Handle h, SANE_Int option)
{
	OPENDEV			dev;
	scanner_handle	handle = find_openning_device(h, false, &dev);
	SANE_Option_Descriptor* ret = NULL;

	if (!handle)
		return NULL;

	if (option == 0)
	{
		if (!opt_0_)
		{
			opt_0_ = (SANE_Option_Descriptor*)local_utility::acquire_memory(sizeof(SANE_Option_Descriptor), "");
			opt_0_->cap = SANE_CAP_SOFT_DETECT;
			opt_0_->name = "option-count";
			opt_0_->title = "";
			opt_0_->desc = "Number of options";
			opt_0_->type = SANE_TYPE_INT;
			opt_0_->size = sizeof(SANE_TYPE_INT);
		}
		LOG_INFO(LOG_LEVEL_DEBUG_INFO, "get_option_descriptor(0)\n");
		return opt_0_;
	}

	ret = find_stored_descriptor(dev.dev_name.c_str(), option);
	if (!ret)
	{
		std::string	json_txt(get_option_json(handle, option));

		if (json_txt.length())
		{
			json* jsn = new json();
			if (jsn->attach_text(&json_txt[0]))
			{
				ret = from_json(handle, jsn, option);

				if (ret)
				{
					DEVOPT devopt;
					devopt.dev_name = dev.dev_name;
					devopt.option_no = option;
					devopt.desc = ret;
					opts_.push_back(devopt);

					refresh_current_value(option, jsn);
				}
			}
			delete jsn;
		}
	}
	
	if (ret)
	{
		if (std_opt_)
			std_opt_->init_known_opt(option, ret);
	}
	else if (std_opt_)
		ret = std_opt_->get_option(option);

	return ret;
}
SANE_Status hg_sane_middleware::set_option(SANE_Handle h, SANE_Int option, SANE_Action action, void* value, SANE_Int* after_do)
{
	OPENDEV			dev;
	scanner_handle	handle = find_openning_device(h, false, &dev);

	if (!handle || (action == SANE_ACTION_GET_VALUE && !value))
		return SANE_STATUS_INVAL;


	if (action == SANE_ACTION_GET_VALUE)
	{
		if (after_do)
			*after_do = 0;

		SANE_Status	ret = SANE_STATUS_IO_ERROR;
		if (option == 0)
		{
			long count = 0;
			hg_scanner_get_parameter(handle, option, NULL, &count);
			*((SANE_Int*)value) = count;
			ret = SANE_STATUS_GOOD;
			VLOG_MINI_1(LOG_LEVEL_WARNING, "get option count = %d.\n", count);
		}
		else
		{
			if (std_opt_ && std_opt_->is_known_option(option))
			{
				std_opt_->get_value(h, option, value);
				ret = SANE_STATUS_GOOD;
			}
			else if(get_current_value(handle, option, value))
				ret = SANE_STATUS_GOOD;
		}

		return ret;
	}
	else
	{
		SANE_Option_Descriptor* desc = find_stored_descriptor(dev.dev_name.c_str(), option);
		bool					release_value = false;
		scanner_err				err = SCANNER_ERR_OK;
		SANE_Status	status = SANE_STATUS_GOOD;
		std::string	prev(""), v("");

		if (std_opt_ && std_opt_->is_known_option(option, &desc))
		{
			SANE_Option_Descriptor* known = std_opt_->get_option(option);
			prev = hg_sane_middleware::option_value_2_string(known->type, value);
			err = std_opt_->set_value(handle, option, value);
			v = hg_sane_middleware::option_value_2_string(known->type, value);
		}
		else
		{
			if (!desc)
			{
				VLOG_MINI_1(LOG_LEVEL_FATAL, "Option descriptor %d not found.\n", option);
				return SANE_STATUS_UNSUPPORTED;
			}
			else if (!value && desc->type != SANE_TYPE_BUTTON)
			{
				if (action == SANE_ACTION_SET_AUTO)	// we assume the driver can set the option properbly, and no work to do
				{
					VLOG_MINI_2(LOG_LEVEL_WARNING, "Option %d(%s) call SANE_ACTION_SET_AUTO, we set default value.\n", option, desc->title);

					value = get_default_value(handle, option);
					if (!value)
						return SANE_STATUS_GOOD;
					release_value = true;
				}
				else
				{
					VLOG_MINI_2(LOG_LEVEL_WARNING, "Option descriptor %d(%s) need a value!.\n", option, desc->title);

					return SANE_STATUS_INVAL;
				}
			}

			void* pass = value;
			double		dv = .0f;
			bool		bv = false;
			int			size = desc->size;

			prev = hg_sane_middleware::option_value_2_string(desc->type, value);
			if (desc->type == SANE_TYPE_BOOL)
			{
				bv = *((SANE_Bool*)value) == SANE_TRUE;
				pass = &bv;
				size = sizeof(bv);
			}
			else if (desc->type == SANE_TYPE_FIXED)
			{
				dv = hg_sane_middleware::sane_fixed_2_double(*((SANE_Fixed*)value));
				pass = &dv;
				size = sizeof(dv);
			}

			err = hg_scanner_set_parameter(handle, option, pass, size);

			if (desc->type == SANE_TYPE_BOOL)
			{
				*((SANE_Bool*)value) = bv ? SANE_TRUE : SANE_FALSE;
			}
			else if (desc->type == SANE_TYPE_FIXED)
			{
				*((SANE_Fixed*)value) = hg_sane_middleware::double_2_sane_fixed(dv);
			}
			v = hg_sane_middleware::option_value_2_string(desc->type, value);
		}

		if (prev == v)
		{
			VLOG_MINI_3(LOG_LEVEL_DEBUG_INFO, "-->Set option(%d - %s) value: %s\n", option, desc->title, v.c_str());
		}
		else
		{
			VLOG_4(LOG_LEVEL_DEBUG_INFO, 512, "-->Set option(%d - %s) value: %s(Applied: %s)\n", option, desc->title, prev.c_str(), v.c_str());
		}

		if (err == SCANNER_ERR_OK)
		{
			err = (scanner_err)something_after_do(handle, dev.dev_name.c_str(), option, v.c_str());
		}
		else if (err == SCANNER_ERR_NOT_EXACT)
		{
			err = (scanner_err)(something_after_do(handle, dev.dev_name.c_str(), option, v.c_str()) | SANE_INFO_INEXACT);
		}
		else if (err == SCANNER_ERR_CONFIGURATION_CHANGED)
		{
			VLOG_MINI_1(LOG_LEVEL_DEBUG_INFO, "the setting '%s' affects other options value, RELOAD ...\n", desc->title);
			on_SCANNER_ERR_CONFIGURATION_CHANGED(handle, dev.dev_name.c_str());
			err = (scanner_err)SANE_INFO_RELOAD_OPTIONS;
		}
		else if (err == SCANNER_ERR_ACCESS_DENIED)
			status = SANE_STATUS_ACCESS_DENIED;
		else
			status = SANE_STATUS_INVAL;
		if (after_do)
			*after_do = err;

		if (release_value)
			local_utility::free_memory(value);

		return status;
	}
}
SANE_Status hg_sane_middleware::io_control(SANE_Handle h, unsigned long code, void* data, unsigned* len)
{
	OPENDEV			od;
	scanner_handle	handle = find_openning_device(h, false, &od);

	// commented at 2022-03-23 for getting app about info before open any device
	// 
	//if (!handle)
	//	return SANE_STATUS_INVAL;

	int ret = hg_scanner_control(handle, code, data, len);
	if (ret == SCANNER_ERR_CONFIGURATION_CHANGED)
	{
		int nc = code;
		VLOG_MINI_1(LOG_LEVEL_DEBUG_INFO, "the setting '0x%08x' affects other options value, RELOAD ...\n", nc);
		on_SCANNER_ERR_CONFIGURATION_CHANGED(handle, od.dev_name.c_str());
	}

	return local_utility::scanner_err_2_sane_statu(ret);
}

/// <summary>
/// 关联项处<E9A1B9><E5A484>?
bool hg_sane_middleware::compare_val_equal(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return strcmp(cur_val, limit_l) == 0;
}
bool hg_sane_middleware::compare_val_not_equal(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return !hg_sane_middleware::compare_val_equal(cur_val, limit_l, limit_r);
}
bool hg_sane_middleware::compare_val_great(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return atof(cur_val) > atof(limit_l);
}
bool hg_sane_middleware::compare_val_not_less(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return !hg_sane_middleware::compare_val_less(cur_val, limit_l, limit_r);
}
bool hg_sane_middleware::compare_val_less(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return atof(cur_val) < atof(limit_l);
}
bool hg_sane_middleware::compare_val_not_great(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return !hg_sane_middleware::compare_val_great(cur_val, limit_l, limit_r);
}
bool hg_sane_middleware::compare_val_between(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return atof(limit_l) < atof(cur_val) && atof(cur_val) < atof(limit_r);
}
bool hg_sane_middleware::compare_val_not_between(const char* cur_val, const char* limit_l, const char* limit_r)
{
	return !hg_sane_middleware::compare_val_between(cur_val, limit_l, limit_r);
}

bool hg_sane_middleware::is_enable_and(const std::vector<MASTEROP>& master, std::vector<CURVAL>& curvals)
{
	// NOTE: logical operator '&&' should get all master's value to check, here we only consider ONE master !!!!
	bool enabled = true;

	for (size_t i = 0; enabled && i < master.size(); ++i)
	{
		std::vector<CURVAL>::iterator it = std::find(curvals.begin(), curvals.end(), master[i].option_no);
		if (it == curvals.end())
		{
			VLOG_MINI_1(LOG_LEVEL_WARNING, "option %d's current value is not found, other options depend it maybe in wrong status.\n", master[i].option_no);
			continue;
		}
		enabled &= master[i].compare_val(it->val.c_str(), master[i].limit_l.c_str(), master[i].limit_r.c_str());
	}

	return enabled;
}
bool hg_sane_middleware::is_enable_or(const std::vector<MASTEROP>& master, std::vector<CURVAL>& curvals)
{
	bool enabled = false;

	for (size_t i = 0; !enabled && i < master.size(); ++i)
	{
		std::vector<CURVAL>::iterator it = std::find(curvals.begin(), curvals.end(), master[i].option_no);
		if (it == curvals.end())
		{
			VLOG_MINI_1(LOG_LEVEL_WARNING, "option %d's current value is not found, other options depend it maybe in wrong status.\n", master[i].option_no);
			continue;
		}

		enabled |= master[i].compare_val(it->val.c_str(), master[i].limit_l.c_str(), master[i].limit_r.c_str());
	}

	return enabled;
}

bool hg_sane_middleware::parse_master_option(const char* depend_str, MASTEROP& mo)
{
	bool	ret = true;
	double	num = .0f;

	mo.option_no = 0;
	mo.compare_val = &hg_sane_middleware::compare_val_equal;
	mo.limit_l = mo.limit_r = "";

	local_utility::skip_space(depend_str);
	ret = local_utility::get_number(depend_str, num);
	if (ret)
	{
		mo.option_no = num;
		local_utility::skip_space(depend_str);
		if (*depend_str == '=')
		{
			depend_str++;
			if (*depend_str == '=')
			{
				depend_str++;
				if (*depend_str == '[')
				{
					ret = local_utility::get_limit(depend_str, mo.limit_l, mo.limit_r);
					mo.compare_val = &hg_sane_middleware::compare_val_between;
				}
				else
				{
					mo.compare_val = &hg_sane_middleware::compare_val_equal;
					mo.limit_l = depend_str;
				}
			}
			else
			{
				ret = false;
			}
		}
		else if (*depend_str == '>')
		{
			depend_str++;
			if (*depend_str == '=')
			{
				depend_str++;
				mo.compare_val = &hg_sane_middleware::compare_val_not_less;
			}
			else
			{
				mo.compare_val = &hg_sane_middleware::compare_val_great;
			}
			mo.limit_l = depend_str;
		}
		else if (*depend_str == '<')
		{
			depend_str++;
			if (*depend_str == '=')
			{
				depend_str++;
				mo.compare_val = &hg_sane_middleware::compare_val_not_great;
			}
			else
			{
				mo.compare_val = &hg_sane_middleware::compare_val_less;
			}
			mo.limit_l = depend_str;
		}
		else if (*depend_str == '!')
		{
			depend_str++;
			if (*depend_str == '=')
			{
				depend_str++;
				if (*depend_str == '[')
				{
					ret = local_utility::get_limit(depend_str, mo.limit_l, mo.limit_r);
					mo.compare_val = &hg_sane_middleware::compare_val_not_between;
				}
				else
				{
					mo.compare_val = &hg_sane_middleware::compare_val_not_equal;
					mo.limit_l = depend_str;
				}
			}
			else
			{
				ret = false;
			}
		}
		else 
		{
			ret = false;
		}
	}

	return ret;
}
bool hg_sane_middleware::parse_depends(json* jsn, SLAVEOP& so)
{
	std::string val("");
	bool		ret = jsn->first_child(val);

	while(ret)
	{
		MASTEROP mo;

		ret = parse_master_option(val.c_str(), mo);
		if (!ret)
			break;

		so.master.push_back(mo);
		if (std::find(master_options_.begin(), master_options_.end(), mo.option_no) == master_options_.end())
		{
			master_options_.push_back(mo.option_no);
			std::sort(master_options_.begin(), master_options_.end());
		}
		ret = jsn->next_child(val);
	}

	return so.master.size() > 0;
}

bool hg_sane_middleware::is_associatived(const SLAVEOP& slave, int master_opt)
{
	bool result = false;

	for (size_t i = 0; i < slave.master.size(); ++i)
	{
		if (slave.master[i].option_no == master_opt)
		{
			result = true;
			break;
		}
	}

	return result;
}
bool hg_sane_middleware::set_stored_option_enabled(const char* dev_name, int option, bool enable, int* size)
{
	SANE_Option_Descriptor* opt = find_stored_descriptor(dev_name, option);
	bool					ret = false;

	if (opt)
	{
		if(size)
			*size = opt->size;
		ret = true;
		if (enable)
			opt->cap &= ~SANE_CAP_INACTIVE;
		else
			opt->cap |= SANE_CAP_INACTIVE;
	}

	return ret;
}
int hg_sane_middleware::something_after_do(scanner_handle h, const char* dev_name, int option_no, const char* cur_val)
{
	int			after = 0;
	OPTENABLE	oe;
	std::vector<OPTENABLE>	changed_options;
	 
	refresh_current_value(option_no, cur_val);
	if (std::find(master_options_.begin(), master_options_.end(), option_no) == master_options_.end())
	{
		return after;
	}

	oe.opt_no = option_no;
	oe.enable = true;
	changed_options.push_back(oe);
	for (size_t i = 0; i < changed_options.size(); ++i)
	{
		for (size_t slave = 0; slave < slave_options_.size(); ++slave)
		{
			if (slave_options_[slave].option_no == changed_options[i].opt_no ||
				!is_associatived(slave_options_[slave], changed_options[i].opt_no))
				continue;

			bool enable = changed_options[i].enable;
			int	 bytes = 0;
			if (enable)
				enable = slave_options_[slave].is_enable(slave_options_[slave].master, cur_vals_);
			if (enable == slave_options_[slave].enable_now)
				continue;

			slave_options_[slave].enable_now = enable;
			if (!set_stored_option_enabled(dev_name, slave_options_[slave].option_no, enable, &bytes))
				continue;

			OPTEN* op = get_control_enalbe_data(slave_options_[slave]);
			hg_scanner_control(h, HG_CONTROL_CODE_OPTION_ENABLE, op, NULL);
			free_control_enable_data(op);

			if (std::find(changed_options.begin(), changed_options.end(), slave_options_[slave].option_no) != changed_options.end())
				continue;

			oe.opt_no = slave_options_[slave].option_no;
			oe.enable = slave_options_[slave].enable_now;
			changed_options.push_back(oe);
		}
	}

	if (changed_options.size() > 1)
		after = SANE_INFO_RELOAD_OPTIONS;

	return after;
}
bool hg_sane_middleware::refresh_current_value(int opt, json* jsn)
{
	std::vector<CURVAL>::iterator it = std::find(cur_vals_.begin(), cur_vals_.end(), opt);
	if (it == cur_vals_.end())
	{
		CURVAL	cv;
		jsn->get_value("type", cv.type);
		cv.opt_no = opt;
		jsn->get_value_as_string("cur", cv.val, cv.type == "int");
		cur_vals_.push_back(cv);

		return false;
	}
	else
	{
		std::string old(it->val);
		jsn->get_value_as_string("cur", it->val, it->type == "int");

		return old != it->val;
	}
}
bool hg_sane_middleware::refresh_current_value(int opt, const char* val)
{
	std::vector<CURVAL>::iterator it = std::find(cur_vals_.begin(), cur_vals_.end(), opt);
	if (it != cur_vals_.end())
	{
		bool ret = strcmp(it->val.c_str(), val) == 0;

		it->val = val;

		return ret;
	}

	return false;
}
OPTEN* hg_sane_middleware::get_control_enalbe_data(const SLAVEOP& slave)
{
	std::vector<int> master;
	OPTEN* opt = NULL;
	size_t	size = sizeof(OPTEN);

	for (size_t i = 0; i < slave.master.size(); ++i)
	{
		if (std::find(master.begin(), master.end(), slave.master[i].option_no) == master.end())
			master.push_back(slave.master[i].option_no);
	}
	size += master.size() * sizeof(OPTVAL);
	opt = (OPTEN*)malloc(size);
	bzero(opt, size);

	opt->enabled = slave.enable_now;
	opt->opt_num = slave.option_no;
	opt->master_count = 0;
	for (size_t i = 0; i < master.size(); ++i)
	{
		std::vector<CURVAL>::iterator m = std::find(cur_vals_.begin(), cur_vals_.end(), master[i]);
		if (m == cur_vals_.end())
			continue;

		opt->master[opt->master_count].opt_num = master[i];
		if (m->type == "string")
		{
			opt->master[opt->master_count].data = malloc(m->val.length() + 4);
			strcpy((char*)opt->master[opt->master_count].data, m->val.c_str());
		}
		else
		{
			opt->master[opt->master_count].data = malloc(sizeof(double));
			if (m->type == "bool")
				*((bool*)opt->master[opt->master_count].data) = (m->val == "true");
			else if (m->type == "int")
				*((int*)opt->master[opt->master_count].data) = atoi(m->val.c_str());
			else
				*((double*)opt->master[opt->master_count].data) = atof(m->val.c_str());
			opt->master_count++;
		}
	}

	return opt;
}
void hg_sane_middleware::free_control_enable_data(OPTEN* opt)
{
	if (opt)
	{
		for (int i = 0; i < opt->master_count; ++i)
		{
			if (opt->master[i].data)
				free(opt->master[i].data);
		}

		free(opt);
	}
}
void hg_sane_middleware::on_SCANNER_ERR_CONFIGURATION_CHANGED(scanner_handle handle, const char* dev_name)
{
	std::vector<int> changed;
	reload_current_value(handle, &changed);
	if (changed.size())
	{
		for (size_t i = 0; i < changed.size(); ++i)
		{
			std::vector<CURVAL>::iterator it = std::find(cur_vals_.begin(), cur_vals_.end(), changed[i]);
			if (it != cur_vals_.end())
				something_after_do(handle, dev_name, it->opt_no, it->val.c_str());
		}
	}
}
/// </summary>

/// <summary>
/// 导出接口
/// </summary>
extern "C" {	// avoid compiler exporting name in C++ style !!!
	SANE_Status inner_sane_init(SANE_Int* version_code, SANE_Auth_Callback authorize)
	{
		local_utility::cb_auth_ = authorize;
		hg_sane_middleware::instance();
		local_utility::get_version(version_code);

		return SANE_STATUS_GOOD;
	}
	void inner_sane_exit(void)
	{
		local_utility::stop_work();
		hg_sane_middleware::clear();
	}
	SANE_Status inner_sane_get_devices(const SANE_Device*** device_list, SANE_Bool local_only)
	{
		SANE_Status code = hg_sane_middleware::instance()->get_devices(device_list, local_only);

		return code;
	}
	SANE_Status inner_sane_open(SANE_String_Const devicename, SANE_Handle* handle)
	{
		return hg_sane_middleware::instance()->open_device(devicename, handle);
	}
	void inner_sane_close(SANE_Handle handle)
	{
		hg_sane_middleware::instance()->close_device(handle);
	}
	const SANE_Option_Descriptor*
		inner_sane_get_option_descriptor(SANE_Handle handle, SANE_Int option)
	{
		return hg_sane_middleware::instance()->get_option_descriptor(handle, option);
	}
	SANE_Status inner_sane_control_option(SANE_Handle handle, SANE_Int option, SANE_Action action, void* value, SANE_Int* info)
	{
		return hg_sane_middleware::instance()->set_option(handle, option, action, value, info);
	}
	SANE_Status inner_sane_get_parameters(SANE_Handle handle, SANE_Parameters* params)
	{
		return hg_sane_middleware::instance()->get_image_parameters(handle, params);
	}
	SANE_Status inner_sane_start(SANE_Handle handle)
	{
		LOG_INFO(LOG_LEVEL_ALL, "sane_start\n");

		return hg_sane_middleware::instance()->start(handle, NULL);
	}
	SANE_Status inner_sane_read(SANE_Handle handle, SANE_Byte* data, SANE_Int max_length, SANE_Int* length)
	{
		if (!length)
			length = &max_length;
		else
			*length = max_length;

		return hg_sane_middleware::instance()->read(handle, data, length);
	}
	void inner_sane_cancel(SANE_Handle handle)
	{
		hg_sane_middleware::instance()->stop(handle);
	}
	SANE_Status inner_sane_set_io_mode(SANE_Handle handle, SANE_Bool non_blocking)
	{
		LOG_INFO(LOG_LEVEL_ALL, "sane_set_io_mode\n");

		return non_blocking ? SANE_STATUS_UNSUPPORTED : SANE_STATUS_GOOD;
	}
	SANE_Status inner_sane_get_select_fd(SANE_Handle handle, SANE_Int* fd)
	{
		return SANE_STATUS_UNSUPPORTED;
	}
	SANE_String_Const inner_sane_strstatus(SANE_Status status)
	{
		return hg_scanner_err_name(status);
	}

	SANE_Status inner_sane_init_ex(SANE_Int* version_code, sane_callback cb, void* param)
	{
		local_utility::cb_ui_ = cb;
		local_utility::cb_ui_parm_ = param;
		hg_sane_middleware::instance();
		local_utility::get_version(version_code);

		return SANE_STATUS_GOOD;
	}
	SANE_Status inner_sane_io_control(SANE_Handle h, unsigned long code, void* data, unsigned* len)
	{
		return hg_sane_middleware::instance()->io_control(h, code, data, len);
	}

	void sanei_debug_msg(int level, int max_level, const char* be, const char* fmt, va_list ap)
	{
	}
}


#ifdef WIN32
std::string g_module_path = "";

BOOL WINAPI DllMain(HINSTANCE inst, DWORD reason, LPVOID reserved)
{
	if (reason == DLL_PROCESS_ATTACH)
	{
		if (g_module_path.empty())
		{
			char	path[MAX_PATH] = { 0 };

			GetModuleFileNameA(inst, path, _countof(path) - 1);
			if (strrchr(path, '\\'))
			{
				strrchr(path, '\\')[1] = 0;
				g_module_path = path;
			}
		}
	}

	return TRUE;
}
#endif