flips.cpp

//Module name: Floating IPS, shared core for all frontends
//Author: Alcaro
//Date: See Git history
//Licence: GPL v3.0 or higher

#include "flips.h"
#include "crc32.h"

#ifdef __MINGW32__
//get rid of dependencies on libstdc++, they waste 200KB on this platform
void* operator new(size_t n) { return malloc(n); } // forget allocation failures, let them segfault.
void operator delete(void * p) { free(p); }
void operator delete(void * p, size_t n) { free(p); }
// removed extern
//     https://github.com/Alcaro/Flips/issues/26#issuecomment-573674247
//     https://github.com/Alcaro/Flips/issues/32#issuecomment-1036141144
// extern "C" void __cxa_pure_virtual() { abort(); }

#if __GNUC__ && (__cpp_rtti || __cpp_exceptions)
#warning "Consider building with -fno-exceptions -fno-rtti, to avoid dependencies on libgcc_s_sjlj-1.dll and libstdc++-6.dll."
#endif
#endif

//TODO: source ROM chooser
//given a target, from all known source ROMs with same extension, find the most similar
// read 1MB from each; check how many bytes are same and same location as target
//  (only counting offsets where both source and target bytes are different from previous, to avoid false positives on long runs of 00)
// if one is >80% same (not counting repeated runs), and all others are <20%, use that
//if no match, multiple matches, or one or more half-matches:
// read first 64K from each of the listed sources, create BPS, and see if one is <20% of size of bps with blank source, while others are >70%
//if still nothing unambiguous:
// fail
//this goes on a separate thread

//TODO: more manual GUI
// has three text fields, for patch / source / target, and 'pick' buttons nearby that open file dialogs
// also Create / Apply / ApplyRun buttons at the bottom
//auto selection (only if target field is blank):
// patch -> source (crc32 database)
// target -> source (algorithm above)
// target -> patch (set extension to bps)
// (source&patch) -> target (source extension, name/path from patch; also happens if triggering patch->source)
//all text fields are scrolled to the end on creation
//no auto selection in simple UI
//applying or creating clears patch/target, but keeps source
//ips creation is allowed, but only by changing filetype in picker, or editing text field; it does not keep last used type
// ips application remains unchanged
// multi-patching is allowed, each filename is wrapped in <>; if filename doesn't start or end with right char, it's a single name
//  colon-separated or semicolon-separated are more common, but they're plausible (uncommon, but possible) in filenames
//   (Super Mario World 2: Yoshi's Island, or Marios;Gate, for example), and I don't want to fail on that
// multi-creation is not allowed; technically feasible, but super rare, should probably be CLI instead
// if first file isn't found, it tries using the entire field as filename, in case it actually contains semicolon


//TODO: delete
struct mem ReadWholeFile(LPCWSTR filename)
{
	return file::read(filename);
}

bool WriteWholeFile(LPCWSTR filename, struct mem data)
{
	return filewrite::write(filename, data);
}

bool WriteWholeFileWithHeader(LPCWSTR filename, struct mem header, struct mem data)
{
	filewrite* f = filewrite::create(filename);
	if (!f) return false;
	bool ret = (f->append(header.ptr, 512) && f->append(data.ptr, data.len)); // do not use header.len, that'd prepend the entire file
	delete f;
	return ret;
}

void FreeFileMemory(struct mem mem)
{
	free(mem.ptr);
}





class file_libc : public file {
	size_t size;
	FILE* io;
	
public:
	static file* create(const char * filename)
	{
		FILE* f = fopen(filename, "rb");
		if (!f) return NULL;
		return new file_libc(f);
	}
	
private:
	file_libc(FILE* io) : io(io)
	{
		fseek(io, 0, SEEK_END);
		size = ftell(io);
	}
	
public:
	size_t len() { return size; }
	
	bool read(uint8_t* target, size_t start, size_t len)
	{
		fseek(io, start, SEEK_SET);
		return (fread(target, 1,len, io) == len);
	}
	
	~file_libc() { fclose(io); }
};
file* file::create_libc(const char * filename) { return file_libc::create(filename); }
bool file::exists_libc(const char * filename)
{
	FILE* f = fopen(filename, "rb");
	if (f) fclose(f);
	return (bool)f;
}


class filewrite_libc : public filewrite {
	FILE* io;
	
public:
	static filewrite* create(const char * filename)
	{
		FILE* f = fopen(filename, "wb");
		if (!f) return NULL;
		return new filewrite_libc(f);
	}
	
private:
	filewrite_libc(FILE* io) : io(io) {}
	
public:
	bool append(const uint8_t* data, size_t len)
	{
		return (fwrite(data, 1,len, io)==len);
	}
	
	~filewrite_libc() { fclose(io); }
};

filewrite* filewrite::create_libc(const char * filename) { return filewrite_libc::create(filename); }


class filemap_fallback : public filemap {
public:
	size_t m_len;
	uint8_t* m_ptr;
	
	static filemap* create(file* f)
	{
		if (!f) return NULL;
		
		size_t len = f->len();
		uint8_t* ptr = (uint8_t*)malloc(len);
		if (!ptr) return NULL;
		if (!f->read(ptr, 0, len)) { free(ptr); return NULL; }
		return new filemap_fallback(f, len, ptr);
	}
	
	size_t len() { return m_len; }
	const uint8_t * ptr() { return m_ptr; }
	
	//delete the file early, to avoid file sharing issues on Windows (and because keeping it is useless)
	// https://github.com/Alcaro/Flips/pull/14
	filemap_fallback(file* f, size_t len, uint8_t* ptr) : m_len(len), m_ptr(ptr) { delete f; }
	~filemap_fallback() { free(m_ptr); }
};
filemap* filemap::create_fallback(LPCWSTR filename)
{
	return filemap_fallback::create(file::create(filename));
}





LPWSTR GetExtension(LPCWSTR fname)
{
	LPWSTR ptr1=(LPWSTR)fname;
	LPWSTR ptr2;
	ptr2=wcsrchr(ptr1, '/'); if (ptr2) ptr1=ptr2;
#ifdef FLIPS_WINDOWS
	ptr2=wcsrchr(ptr1, '\\'); if (ptr2) ptr1=ptr2;
#endif
	ptr2=wcsrchr(ptr1, '.'); if (ptr2) ptr1=ptr2;
	if (*ptr1=='.') return ptr1;
	else return wcsrchr(ptr1, '\0');
}

LPWSTR GetBaseName(LPCWSTR fname)
{
	LPWSTR ptr1=(LPWSTR)fname;
	LPWSTR ptr2;
	ptr2=wcsrchr(ptr1, '/'); if (ptr2) ptr1=ptr2+1;
#ifdef FLIPS_WINDOWS
	ptr2=wcsrchr(ptr1, '\\'); if (ptr2) ptr1=ptr2+1;
#endif
	return ptr1;
}

bool forceKeepHeader=false;

#ifndef FLIPS_CLI
bool guiActive=false;
#endif


struct mem file::read()
{
	struct mem out;
	out.len = len();
	out.ptr = (uint8_t*)malloc(out.len + sizeof(WCHAR));
	memset(out.ptr + out.len, 0, sizeof(WCHAR));
	if (!read(out.ptr, 0, out.len))
	{
		free(out.ptr);
		struct mem err = {NULL, 0};
		return err;
	}
	return out;
}

struct mem file::read(LPCWSTR filename)
{
	struct mem err = {NULL, 0};
	file* f = file::create(filename);
	if (!f) return err;
	struct mem ret = f->read();
	delete f;
	return ret;
}

bool filewrite::write(LPCWSTR filename, struct mem data)
{
	filewrite* f = filewrite::create(filename);
	if (!f) return false;
	bool ret = f->append(data.ptr, data.len);
	delete f;
	return ret;
}


class fileheader : public file {
	file* child;
	
public:
	fileheader(file* child) : child(child) {}
	
	size_t len() { return child->len()-512; }
	bool read(uint8_t* target, size_t start, size_t len) { return child->read(target, start+512, len); }
	
	~fileheader() { delete child; }
};

class fileheadermap : public filemap {
	filemap* child;
	
public:
	fileheadermap(filemap* child) : child(child) {}
	
	size_t len() { return child->len()-512; }
	//bool read(uint8_t* target, size_t start, size_t len) { return child->read(target, start+512, len); }
	const uint8_t* ptr() { return child->ptr()+512; }
	
	~fileheadermap() { delete child; }
};




const struct errorinfo ipserrors[]={
		{ el_ok, NULL },//ips_ok
		{ el_unlikelythis, "The patch was applied, but is most likely not intended for this ROM." },//ips_notthis
		{ el_unlikelythis, "The patch was applied, but did nothing. You most likely already had the output file of this patch." },//ips_thisout
		{ el_warning, "The patch was applied, but appears scrambled or malformed." },//ips_suspicious
		{ el_broken, "The patch is broken and can't be used." },//ips_invalid
		
		{ el_broken, "The IPS format does not support files larger than 16MB." },//ips_16MB
		{ el_warning, "The files are identical! The patch will do nothing." },//ips_identical
	};

const struct errorinfo bpserrors[]={
		{ el_ok, NULL },//bps_ok,
		{ el_notthis, "That's the output file already." },//bps_to_output
		{ el_notthis, "This patch is not intended for this ROM." },//bps_not_this
		{ el_broken, "This patch is broken and can't be used." },//bps_broken
		{ el_broken, "Couldn't read input patch." },//bps_io
		
		{ el_warning, "The files are identical! The patch will do nothing." },//bps_identical
		{ el_broken, "These files are too big for this program to handle." },//bps_too_big
		{ el_broken, "These files are too big for this program to handle." },//bps_out_of_mem (same message as above, it's accurate for both.)
		{ el_broken, "Patch creation was canceled." },//bps_canceled
	};

LPCWSTR GetManifestName(LPCWSTR romname)
{
	//static WCHAR manifestname[MAX_PATH];
	//wcscpy(manifestname, romname);
	//LPWSTR manifestext=GetExtension(manifestname);
	//if (!manifestext) manifestext=wcschr(manifestname, '\0');
	//wcscpy(manifestext, TEXT(".xml"));
	//return manifestname;
	
	static WCHAR * manifestname=NULL;
	if (manifestname) free(manifestname);
	manifestname=(WCHAR*)malloc((wcslen(romname)+1+4)*sizeof(WCHAR));
	wcscpy(manifestname, romname);
	LPWSTR manifestext=GetExtension(manifestname);
	if (manifestext) wcscpy(manifestext, TEXT(".xml"));
	return manifestname;
}

enum patchtype IdentifyPatch(file* patch)
{
	size_t len = patch->len();
	uint8_t data[16];
	if (len>16) len=16;
	
	patch->read(data, 0, len);
	if (len>=5 && !memcmp(data, "PATCH", 5)) return ty_ips;
	if (len>=4 && !memcmp(data, "BPS1", 4)) return ty_bps;
	if (len>=4 && !memcmp(data, "UPS1", 4)) return ty_ups;
	return ty_null;
}





//this is the most inefficient possible implementation, but since it only needs about 10 entries,
//performance is irrelevant
void config::init_raw(LPWSTR contents)
{
	LPCWSTR header = TEXT("[Flips]\n");
	
	if (wcsncmp(contents, header, wcslen(header)) != 0) return;
	contents += wcslen(header);
	
	//I need to somehow ensure that stepping backwards across whitespace doesn't go before the original string.
	//This can be done with while (iswspace(*contents)) contents++;, but demanding the header above works just as well.
	
	while (true)
	{
		LPWSTR key;
		LPWSTR keyend;
		LPWSTR val;
		LPWSTR valend;
		
		LPWSTR nextline = wcschr(contents, '\n');
		
		if (nextline != NULL) valend = nextline;
		else valend = wcschr(contents, '\0');
		//do not move inside the conditional, it screws up the strchr
		while (iswspace(valend[-1])) valend--;
		*valend = '\0';
		
		LPWSTR sep = wcschr(contents, '=');
		if (sep != NULL)
		{
			key = contents;
			keyend = sep;
			val = sep+1;
			
			while (iswspace(key[0])) key++;
			while (iswspace(keyend[-1])) keyend--;
			*keyend = '\0';
			while (iswspace(val[0])) val++;
			
			if (valend>val && keyend>key && iswalnum(key[0]))
			{
				set(key, val);
			}
		}
		
		if (!nextline) break;
		contents = nextline+1;
		while (contents && iswspace(*contents)) contents++;
	}
	
	for (size_t i=0;i<numentries;i++)
	{
		AddConfigToRomList(names[i], values[i]);
	}
}

void config::init_file(LPCWSTR filename)
{
	struct mem data = file::read(filename);
	if (data.len > 0 && data.len%sizeof(WCHAR) == 0)
	{
		this->init_raw((LPWSTR)(data.ptr));
	}
	free(data.ptr);
	
	this->filename = wcsdup(filename);
}

void config::sort()
{
	//bubble sort, and called for every insertion... super fun
	//but it's easy, it works, and it's fast for numentries=10 and there's no reason to go much higher than that
	for (size_t i=0;i<numentries;i++)
	for (size_t j=i+1;j<numentries;j++)
	{
		if (wcscmp(names[i], names[j]) > 0)
		{
			LPWSTR tmp = names[i];
			names[i] = names[j];
			names[j] = tmp;
			
			tmp = values[i];
			values[i] = values[j];
			values[j] = tmp;
		}
	}
}

void config::set(LPCWSTR name, LPCWSTR value)
{
	for (size_t i=0;i<this->numentries;i++)
	{
		if (!wcscmp(name, this->names[i]))
		{
			if (value == this->values[i])
				return;
			free(this->values[i]);
			if (value!=NULL)
			{
				this->values[i] = wcsdup(value);
			}
			else
			{
				free(this->names[i]);
				
				this->names[i] = this->names[this->numentries-1];
				this->values[i] = this->values[this->numentries-1];
				this->numentries--;
			}
			return;
		}
	}
	
	this->numentries++;
	this->names = (LPWSTR*)realloc(this->names, sizeof(LPWSTR)*this->numentries);
	this->values = (LPWSTR*)realloc(this->values, sizeof(LPWSTR)*this->numentries);
	
	this->names[this->numentries-1] = wcsdup(name);
	this->values[this->numentries-1] = wcsdup(value);
	
	sort();
}

LPCWSTR config::get(LPCWSTR name, LPCWSTR def)
{
	for (size_t i=0;i<this->numentries;i++)
	{
		if (!wcscmp(name, this->names[i]))
		{
			if (this->values[i]) return this->values[i];
			else return def;
		}
	}
	return def;
}

LPWSTR config::flatten()
{
	LPCWSTR header = TEXT("[Flips]\n#Changing this file may void your warranty. Do not report any bugs if you do.\n");
	
	size_t len = wcslen(header);
	for (size_t i=0;i<this->numentries;i++)
	{
		if (this->values[i]!=NULL)
		{
			len += wcslen(this->names[i]) + 1 + wcslen(this->values[i]) + 1;
		}
	}
	
	LPWSTR ret = (LPWSTR)malloc((len+1)*sizeof(WCHAR));
	
	LPWSTR at = ret;
	at += wsprintf(at, TEXT("%s"), header);
	for (size_t i=0;i<this->numentries;i++)
	{
		if (this->values[i]!=NULL)
		{
			at += wsprintf(at, TEXT("%s=%s\n"), this->names[i], this->values[i]);
		}
	}
	
	return ret;
}

config::~config()
{
	if (this->filename)
	{
		LPWSTR data = this->flatten();
//puts(data);
		struct mem m = { (uint8_t*)data, wcslen(data)*sizeof(WCHAR) };
		filewrite::write(this->filename, m);
		free(data);
		free(this->filename);
	}
	
	for (size_t i=0;i<this->numentries;i++)
	{
//printf("#(%s)(%s)\n",this->names[i],this->values[i]);
		free(this->names[i]);
		free(this->values[i]);
	}
	free(this->names);
	free(this->values);
}

config cfg;




static LPWSTR EmuGetKey(LPCWSTR filename)
{
	static WCHAR ret[64];
	wsprintf(ret, TEXT("emu%s"), GetExtension(filename));
	return ret;
}

LPCWSTR GetEmuFor(LPCWSTR filename)
{
	return cfg.get(EmuGetKey(filename));
}

void SetEmuFor(LPCWSTR filename, LPCWSTR emu)
{
	cfg.set(EmuGetKey(filename), emu);
}





enum {
	ch_crc32,
	ch_last
};
static LPCWSTR checkmap_typenames[] = { TEXT("rom.crc32.") };
// sizeof rather than strlen to ensure compile-time evaluation; -1 for NUL
static const int checkmap_typenames_maxlen = sizeof("rom.crc32.")-1;
struct checkmap {
	uint8_t* sum;
	LPWSTR name;
};
static struct checkmap * checkmap[ch_last]={NULL};
static uint32_t checkmap_len[ch_last]={0};
static const uint8_t checkmap_sum_size[]={ 4 };
static const uint8_t checkmap_sum_size_max = 4;

static const int CfgSumNameMaxLen = checkmap_typenames_maxlen + checkmap_sum_size_max*2 + 1;
static void CfgSumName(WCHAR* out, int type, const void* sum)
{
	const uint8_t* sum8 = (uint8_t*)sum;
	wcscpy(out, checkmap_typenames[type]);
	WCHAR* end = out + wcslen(checkmap_typenames[type]);
	for (int i=0;i<checkmap_sum_size[type];i++)
		wsprintf(end+i*2, TEXT("%.2X"), sum8[i]);
}
static bool CfgSumParseName(int* type, void* sum, LPCWSTR in)
{
	if (wcsncmp(in, TEXT("rom."), strlen("rom.")) != 0)
		return false;
	uint8_t* out = (uint8_t*)sum;
	for (int t=0;t<ch_last;t++)
	{
		if (!wcsncmp(in, checkmap_typenames[t], wcslen(checkmap_typenames[t])))
		{
			*type = t;
			LPCWSTR hex = in + wcslen(checkmap_typenames[t]);
			if (wcslen(hex) != checkmap_sum_size[t]*2) return false;
			WCHAR tmp[3];
			unsigned tmpout = -1;
			tmp[2] = '\0';
			for (int i=0;i<checkmap_sum_size[t];i++)
			{
				tmp[0] = hex[i*2+0]; // let non-hex yield garbage, messing with config voids your warranty anyways
				tmp[1] = hex[i*2+1];
				swscanf(tmp, TEXT("%x"), &tmpout);
				out[i] = tmpout; // not %hhx because XP doesn't trust c99
			}
			return true;
		}
	}
	return false;
}

static LPCWSTR FindRomForSum(int type, void* sum)
{
	for (unsigned int i=0;i<checkmap_len[type];i++)
	{
		if (!memcmp(checkmap[type][i].sum, sum, checkmap_sum_size[type]))
		{
			return checkmap[type][i].name;
		}
	}
	return NULL;
}

static void AddRomForSum(int type, void* sum, LPCWSTR filename)
{
	if (FindRomForSum(type, sum)) return;
	
	int ch_pos=(checkmap_len[type]++);
	
	if (!(ch_pos&(ch_pos+1)))
	{
		checkmap[type]=(struct checkmap*)realloc(checkmap[type], sizeof(struct checkmap)*((ch_pos+1)*2));
	}
	
	struct checkmap* item=&checkmap[type][ch_pos];
	item->sum=(uint8_t*)malloc(checkmap_sum_size[type]);
	memcpy(item->sum, sum, checkmap_sum_size[type]);
	item->name=wcsdup(filename);
	
	WCHAR cfgname[CfgSumNameMaxLen];
	CfgSumName(cfgname, type, sum);
	cfg.set(cfgname, filename);
}

struct mem GetRomList()
{
	struct mem out={NULL, 0};
	for (unsigned int type=0;type<ch_last;type++)
	{
		out.len+=sizeof(uint32_t);
		for (uint32_t i=0;i<checkmap_len[type];i++)
		{
			out.len+=sizeof(uint8_t);
			out.len+=sizeof(uint16_t);
			out.len+=checkmap_sum_size[type];
			out.len+=sizeof(WCHAR)*wcslen(checkmap[type][i].name);
		}
	}
	out.ptr=(uint8_t*)malloc(out.len);
	uint8_t* data=out.ptr;
	for (unsigned int type=0;type<ch_last;type++)
	{
#define write(ptr, size) \
	memcpy(data, ptr, size); \
	data+=size
#define write_obj(obj) write(&obj, sizeof(obj))
		write_obj(checkmap_len[type]);
		for (uint32_t i=0;i<checkmap_len[type];i++)
		{
			write_obj(checkmap_sum_size[type]);
			uint16_t len=sizeof(WCHAR)*wcslen(checkmap[type][i].name);
			write_obj(len);
			
			write(checkmap[type][i].sum, checkmap_sum_size[type]);
			write(checkmap[type][i].name, len);
		}
#undef write
#undef write_obj
	}
	return out;
}

void FreeRomList(struct mem data)
{
	free(data.ptr);
}

void SetRomList(struct mem data)
{
	for (int type=0;type<ch_last;type++)
	{
#define read(target, bytes) \
	if (bytes > data.len) return; \
	memcpy(target, data.ptr, bytes); \
	data.ptr += bytes; \
	data.len -= bytes
#define read_discard(bytes) \
	if (bytes > data.len) return; \
	data.ptr += bytes; \
	data.len -= bytes
		uint32_t count;
		read(&count, sizeof(count));
		checkmap[type]=(struct checkmap*)malloc(sizeof(struct checkmap)*count*2);//overallocate so I won't need to round the count
		
		while (count--)
		{
			uint8_t hashlen;
			read(&hashlen, sizeof(hashlen));
			uint16_t strlen;
			read(&strlen, sizeof(strlen));
			if (hashlen==checkmap_sum_size[type])
			{
				if (data.len < hashlen+strlen) return;
				
				struct checkmap* item=&checkmap[type][checkmap_len[type]++];
				item->sum=(uint8_t*)malloc(checkmap_sum_size[type]);
				read(item->sum, hashlen);
				item->name=(WCHAR*)malloc(strlen+sizeof(WCHAR));
				read(item->name, strlen);
				memset((uint8_t*)item->name + strlen, 0, sizeof(WCHAR));
			}
			else
			{
				read_discard(hashlen);
				read_discard(strlen);
			}
		}
#undef read
	}
}

LPCWSTR FindRomForPatch(file* patch, bool * possibleToFind)
{
	if (possibleToFind) *possibleToFind=false;
	enum patchtype patchtype=IdentifyPatch(patch);
	if (patchtype==ty_bps)
	{
		struct bpsinfo info = bps_get_info(patch, false);
		if (info.error) return NULL;
		if (possibleToFind) *possibleToFind=true;
		return FindRomForSum(ch_crc32, &info.crc_in);
	}
	//UPS has checksums too, but screw UPS. Nobody cares.
	return NULL;
}

void AddToRomList(file* patch, LPCWSTR path)
{
	enum patchtype patchtype=IdentifyPatch(patch);
	if (patchtype==ty_bps)
	{
		struct bpsinfo info = bps_get_info(patch, false);
		if (info.error) return;
		AddRomForSum(ch_crc32, &info.crc_in, path);
	}
}

void AddConfigToRomList(LPCWSTR key, LPCWSTR value)
{
	int type;
	uint8_t sum[checkmap_sum_size_max];
	if (CfgSumParseName(&type, sum, key))
		AddRomForSum(type, sum, value);
}

void DeleteRomFromList(LPCWSTR path)
{
	for (unsigned int type=0;type<ch_last;type++)
	{
		for (unsigned int i=0;i<checkmap_len[type];i++)
		{
			if (!wcscmp(checkmap[type][i].name, path))
			{
				free(checkmap[type][i].name);
				free(checkmap[type][i].sum);
				memmove(&checkmap[type][i], &checkmap[type][i+1], sizeof(struct checkmap)*(checkmap_len[type]-1 - i));
				i--;
				checkmap_len[type]--;
			}
		}
	}
}





static struct errorinfo error(errorlevel level, const char * text)
{
	struct errorinfo errinf = { level, text };
	return errinf;
}

struct errorinfo ApplyPatchMem2(file* patch, struct mem inrom, bool verifyinput, bool removeheader,
                                LPCWSTR outromname, struct manifestinfo * manifestinfo)
{
	struct mem patchmem = patch->read(); // There's no real reason to remove this, no patcher knows how to handle these file objects.
	
	enum patchtype patchtype=IdentifyPatch(patch);
	struct errorinfo errinf;
	removeheader=(removeheader && patchtype==ty_bps);
	if (removeheader)
	{
		inrom.ptr+=512;
		inrom.len-=512;
	}
	struct mem outrom={NULL,0};
	struct mem manifest={NULL,0};
	
	errinf=error(el_broken, "Unknown patch format.");
	if (patchtype==ty_bps)
	{
		errinf=bpserrors[bps_apply(patchmem, inrom, &outrom, &manifest, !verifyinput)];
		if (errinf.level==el_notthis && !verifyinput && outrom.ptr)
			errinf = error(el_warning, "This patch is not intended for this ROM (output created anyways)");
		if (errinf.level==el_notthis)
		{
			bpsinfo inf = bps_get_info(patch, false);
			static char errtextbuf[2][256]; // ugly trick to get the nested invocation for the header remover to not screw up the error
			static int errtextid=0; // makes it impossible to save the error strings, but Flips doesn't do that anyways
			char* errtext=errtextbuf[errtextid];
			if (++errtextid == 2) errtextid=0;
			if (inf.size_in != inrom.len)
			{
//http://msdn.microsoft.com/en-us/library/vstudio/tcxf1dw6.aspx says %zX is not supported
//this is true up to and including Windows Vista; 7 adds support for it
//I could define it to "I", but my GCC does not acknowledge its legitimacy and throws bogus warnings
//nor does my GCC accept any supported alternative, so let's just nuke the entire warning.
//it's a poor solution, but it's the best I can find
#ifdef _WIN32
# ifdef _WIN64
#  ifdef __GNUC__
#   pragma GCC diagnostic ignored "-Wformat"
#  endif
#  define z "I"
# else
#  define z ""
# endif
#else
# define z "z"
#endif
				sprintf(errtext, "This patch is not intended for this ROM. Expected file size %" z "u, got %" z "u.", inf.size_in, inrom.len);
				errinf.description=errtext;
			}
			else
			{
				uint32_t crc = crc32(inrom.ptr, inrom.len);
				if (inf.crc_in != crc)
				{
					sprintf(errtext, "This patch is not intended for this ROM. Expected checksum %.8X, got %.8X.", inf.crc_in, crc);
					errinf.description=errtext;
				}
			}
		}
	}
	if (patchtype==ty_ips) errinf=ipserrors[ips_apply(patchmem, inrom, &outrom)];
	if (patchtype==ty_ups) errinf=bpserrors[ups_apply(patchmem, inrom, &outrom)];
	if (errinf.level==el_ok) errinf.description="The patch was applied successfully!";
	
	struct manifestinfo defmanifestinfo={true,false,NULL};
	if (!manifestinfo) manifestinfo=&defmanifestinfo;
	if (manifestinfo->use)
	{
		if (manifest.ptr)
		{
			LPCWSTR manifestname;
			if (manifestinfo->name) manifestname=manifestinfo->name;
			else manifestname=GetManifestName(outromname);
			if (!WriteWholeFile(manifestname, manifest) && manifestinfo->required)
			{
				if (errinf.level==el_ok) errinf=error(el_warning, "The patch was applied, but the manifest could not be created.");
			}
		}
		else if (manifestinfo->required && errinf.level==el_ok)
		{
			errinf=error(el_warning, "The patch was applied, but there was no manifest present.");
		}
	}
	
	if (removeheader)
	{
		inrom.ptr-=512;
		inrom.len+=512;
		if (errinf.level<el_notthis)
		{
			if (!WriteWholeFileWithHeader(outromname, inrom, outrom))
			{
				errinf=error(el_broken, "Couldn't write ROM");
			}
		}
	}
	else if (errinf.level<el_notthis)
	{
		if (!WriteWholeFile(outromname, outrom)) errinf=error(el_broken, "Couldn't write ROM");
	}
	free(outrom.ptr);
	free(patchmem.ptr);
	
	if (errinf.level==el_notthis && removeheader)
	{
		struct errorinfo errinf2=ApplyPatchMem2(patch, inrom, verifyinput, false, outromname, manifestinfo);
		if (errinf2.level < el_notthis)
		{
			if (errinf2.level==el_ok)
			{
				return error(el_warning, "The patch was applied, but it was created from a headered ROM, which may not work for everyone.");
			}
			else return errinf2;
		}
	}
	return errinf;
}

bool shouldRemoveHeader(LPCWSTR romname, size_t romlen)
{
	LPWSTR romext=GetExtension(romname);
	return ((romlen&0x7FFF)==512 &&
	        (!wcsicmp(romext, TEXT(".smc")) || !wcsicmp(romext, TEXT(".sfc"))) &&
	        !forceKeepHeader);
}

struct errorinfo ApplyPatchMem(file* patch, LPCWSTR inromname, bool verifyinput,
                               LPCWSTR outromname, struct manifestinfo * manifestinfo, bool update_rom_list)
{
	filemap* inrom = filemap::create(inromname);
	if (!inrom)
	{
		if (update_rom_list) DeleteRomFromList(inromname);
		return error(el_broken, "Couldn't read ROM");
	}
	struct errorinfo errinf = ApplyPatchMem2(patch, inrom->get(), verifyinput,
	                                         shouldRemoveHeader(inromname, inrom->len()), outromname, manifestinfo);
	if (update_rom_list && errinf.level==el_ok) AddToRomList(patch, inromname);
	delete inrom;
	return errinf;
}

struct errorinfo ApplyPatch(LPCWSTR patchname, LPCWSTR inromname, bool verifyinput,
                            LPCWSTR outromname, struct manifestinfo * manifestinfo, bool update_rom_list)
{
	file* patch = file::create(patchname);
	if (!patch)
	{
		return error(el_broken, "Couldn't read input patch");
	}
	struct errorinfo errinf=ApplyPatchMem(patch, inromname, verifyinput, outromname, manifestinfo, update_rom_list);
	delete patch;
	return errinf;
}


char bpsdProgStr[24];
int bpsdLastPromille=-1;

bool bpsdeltaGetProgress(size_t done, size_t total)
{
	if (total<1000) total=1000;//avoid div by zero
	int promille=done/(total/1000);//don't set this to done*1000/total, it'd just give overflows on huge stuff. 100% is handled later
	if (promille==bpsdLastPromille) return false;
	bpsdLastPromille=promille;
	if (promille>=1000) return false;
	strcpy(bpsdProgStr, "Please wait... ");
	bpsdProgStr[15]='0'+promille/100;
	int digit1=((promille<100)?15:16);
	bpsdProgStr[digit1+0]='0'+promille/10%10;
	bpsdProgStr[digit1+1]='.';
	bpsdProgStr[digit1+2]='0'+promille%10;
	bpsdProgStr[digit1+3]='%';
	bpsdProgStr[digit1+4]='\0';
	return true;
}

bool bpsdeltaProgressCLI(void* userdata, size_t done, size_t total)
{
	if (!bpsdeltaGetProgress(done, total)) return true;
	fputs(bpsdProgStr, stdout);
	putchar('\r');
	fflush(stdout);
	return true;
}

struct errorinfo CreatePatchToMem(LPCWSTR inromname, LPCWSTR outromname, enum patchtype patchtype,
                                  struct manifestinfo * manifestinfo, struct mem * patchmem)
{
	bool usemmap = (patchtype!=ty_bps && patchtype!=ty_bps_moremem);
	
	//pick roms
	filemap* romsmap[2]={NULL, NULL};
	file* roms[2]={NULL, NULL};
	size_t lens[2];
	
	for (int i=0;i<2;i++)
	{
		LPCWSTR romname=((i==0)?inromname:outromname);
		
		if (usemmap)
		{
			romsmap[i] = filemap::create(romname);
			
			if (!romsmap[i])
			{
				if (i==1) delete romsmap[0];
				return error(el_broken, "Couldn't read this ROM.");
			}
			if (shouldRemoveHeader(romname, romsmap[i]->len()) && (patchtype==ty_bps || patchtype==ty_bps_linear || patchtype==ty_bps_moremem))
			{
				romsmap[i] = new fileheadermap(romsmap[i]);
			}
			
			lens[i] = romsmap[i]->len();
		}
		else
		{
			roms[i] = file::create(romname);
			
			if (!roms[i])
			{
				if (i==1) delete roms[0];
				return error(el_broken, "Couldn't read this ROM.");
			}
			if (shouldRemoveHeader(romname, roms[i]->len()) && (patchtype==ty_bps || patchtype==ty_bps_linear || patchtype==ty_bps_moremem))
			{
				roms[i] = new fileheader(roms[i]);
			}
			lens[i] = roms[i]->len();
		}
	}
	
	struct mem manifest={NULL,0};
	struct errorinfo manifesterr={el_ok, NULL};
	struct manifestinfo defmanifestinfo={true,false,NULL};
	if (!manifestinfo) manifestinfo=&defmanifestinfo;
	if (patchtype==ty_bps || patchtype==ty_bps_linear || patchtype==ty_bps_moremem)
	{
		LPCWSTR manifestname;
		if (manifestinfo->name) manifestname=manifestinfo->name;
		else manifestname=GetManifestName(outromname);
		manifest=ReadWholeFile(manifestname);
		if (!manifest.ptr) manifesterr=error(el_warning, "The patch was created, but the manifest could not be read.");
	}
	else manifesterr=error(el_warning, "The patch was created, but this patch format does not support manifests.");
	
	struct errorinfo errinf={ el_broken, "Unknown patch format." };
	if (patchtype==ty_ips)
	{
		errinf=ipserrors[ips_create(romsmap[0]->get(), romsmap[1]->get(), patchmem)];
	}
	if (patchtype==ty_bps || patchtype==ty_bps_moremem)
	{
#ifndef FLIPS_CLI
		if (guiActive)
		{
			bpsdeltaBegin();
			errinf=bpserrors[bps_create_delta(roms[0], roms[1], manifest, patchmem, bpsdeltaProgress, NULL, (patchtype==ty_bps_moremem))];
			bpsdeltaEnd();
		}
		else
#endif
		{
			errinf=bpserrors[bps_create_delta(roms[0], roms[1], manifest, patchmem, bpsdeltaProgressCLI, NULL, (patchtype==ty_bps_moremem))];
		}
	}
	if (patchtype==ty_bps_linear)
	{
		errinf=bpserrors[bps_create_linear(romsmap[0]->get(), romsmap[1]->get(), manifest, patchmem)];
	}
	FreeFileMemory(manifest);
	if (errinf.level==el_ok) errinf.description="The patch was created successfully!";
	
	if (manifestinfo->required && errinf.level==el_ok && manifesterr.level!=el_ok) errinf=manifesterr;
	
	if (errinf.level==el_ok && lens[0] > lens[1])
	{
		errinf=error(el_warning, "The patch was created, but the input ROM is larger than the "
		                         "output ROM. Double check whether you've gotten them backwards.");
	}
	
	if (usemmap)
	{
		delete romsmap[0];
		delete romsmap[1];
	}
	else
	{
		delete roms[0];
		delete roms[1];
	}
	
	return errinf;
}

struct errorinfo CreatePatch(LPCWSTR inromname, LPCWSTR outromname, enum patchtype patchtype,
                             struct manifestinfo * manifestinfo, LPCWSTR patchname)
{
	struct mem patch={NULL,0};
	struct errorinfo errinf = CreatePatchToMem(inromname, outromname, patchtype, manifestinfo, &patch);
	
	if (errinf.level<el_notthis)
	{
		if (!WriteWholeFile(patchname, patch)) errinf=error(el_broken, "Couldn't write patch.");
	}
	if (patch.ptr) free(patch.ptr);
	return errinf;
}

errorlevel patchinfo(LPCWSTR patchname, struct manifestinfo * manifestinfo, int verbosity)
{
	GUIClaimConsole();
	
	file* patch = file::create(patchname);
	if (!patch)
	{
		puts("Couldn't read file");
		return el_broken;
	}
	
	enum patchtype patchtype=IdentifyPatch(patch);
	if (patchtype==ty_bps)
	{
		struct bpsinfo info = bps_get_info(patch, false);
		if (info.error)
		{
			puts(bpserrors[info.error].description);
			return bpserrors[info.error].level;
		}
		
		struct mem meta = {};
		if (info.meta_size)
		{
			meta.len = info.meta_size;
			meta.ptr = (uint8_t*)malloc(info.meta_size);
			patch->read(meta.ptr, info.meta_start, info.meta_size);
			
			if (manifestinfo->required)
			{
				if (manifestinfo->name)
				{
					filewrite::write(manifestinfo->name, meta);
				}
				else
				{
					fwrite(meta.ptr, 1,meta.len, stdout);
					free(meta.ptr);
					return el_ok;
				}
			}
		}
		
		LPCWSTR inromname = FindRomForPatch(patch, NULL);
		//'z' macro defined above
		printf("Input ROM: %" z "u bytes, CRC32 %.8X", info.size_in, info.crc_in);
		if (inromname) wprintf(TEXT(", %s"), inromname);
		puts("");
		
		printf("Output ROM: %" z "u bytes, CRC32 %.8X\n", info.size_out, info.crc_out);
		//floating point may lose a little precision, but it's easier than dodging overflows, and this
		//is the output of inaccurate heuristics anyways, losing a little more makes no difference.
		//Windows MulDiv could also work, but it's kinda nonportable.
		//printf("Change index: %i / 1000\n", (int)(info.change_num / (float)info.change_denom * 1000));
		
		if (info.meta_size)
		{
			printf("Metadata: %" z "u bytes:\n", info.meta_size);
			char* meta_iter = (char*)meta.ptr;
			char* meta_end = meta_iter + meta.len;
			for (int i=0;i<3;i++)
			{
				int n_chars = meta_end-meta_iter;
				if (n_chars > 75) n_chars = 75;
				char* nextline = (char*)memchr(meta_iter, '\n', n_chars);
				if (nextline && nextline-meta_iter < n_chars) n_chars = nextline-meta_iter;
				if (!nextline && !n_chars) break; // wipe trailing linebreaks
				printf("  %.*s\n", n_chars, meta_iter);
				if (!nextline) break;
				meta_iter = nextline+1;
			}
		}
		
		if (verbosity >= 1)
		{
			puts("Disassembly:");
			struct mem patchmem = patch->read();
			bps_disassemble(patchmem, stdout);
			free(patchmem.ptr);
		}
		
		free(meta.ptr);
		return el_ok;
	}
	puts("No information available for this patch type");
	return el_broken;
}



void usage()
{
	GUIClaimConsole();
	fputs(
	// 12345678901234567890123456789012345678901234567890123456789012345678901234567890
	   flipsversion "\n"
	  "usage:\n"
	  "   "
#ifndef FLIPS_CLI
	     "flips\n"
	  "or flips patch.bps\n"
	  "or "
#endif
	     "flips [--apply] [--exact] patch.bps rom.smc [outrom.smc]\n"
	  "or flips [--create] [--exact] [--bps | etc] clean.smc hack.smc [patch.bps]\n"
	  "\n"
	// 12345678901234567890123456789012345678901234567890123456789012345678901234567890
	  "options:\n"
	  "-a --apply: apply IPS, BPS or UPS patch (default if given two arguments)\n"
	  "  if output filename is not given, Flips defaults to patch.smc beside the patch\n"
	  "-c --create: create IPS or BPS patch (default if given three arguments)\n"
	  "-I --info: BPS files contain information about input and output roms, print it\n"
	  "  with --verbose, disassemble the entire patch\n"
	  //"  also estimates how much of the source file is retained\n"
	  //"  anything under 400 is fine, anything over 600 should be treated with suspicion\n"
	  //(TODO: --info --verbose)
	  "-i --ips, -b -B --bps --bps-delta, --bps-delta-moremem, --bps-linear:\n"
	  "  create this patch format instead of guessing based on file extension\n"
	  "  ignored when applying\n"
	  " bps creation styles:\n"
	  "  delta is the recommended and default one; it's a good balance between creation\n"
	  "    performance and patch size\n"
	  "  delta-moremem is usually slightly (~3%) faster than delta, but uses about\n"
	  "    twice as much memory; it gives identical patches to delta\n"
	  "  linear is the fastest, but tends to give pretty big patches\n"
	  "  all BPS patchers can apply all patch styles, the only difference is file size\n"
	  "    and creation performance\n"
	  "--exact: do not remove SMC headers when applying or creating a BPS patch\n"
	  "    not recommended, may affect patcher compatibility\n"
	  "--ignore-checksum: accept checksum mismatches (BPS only)\n"
	  "-m or --manifest: emit or insert a manifest file as romname.xml (BPS only)\n"
	  "-mfilename or --manifest=filename: emit or insert a manifest file exactly here\n"
	  "-h -? --help: show this information\n"
	  "-v --version: show application version\n"
	  "\n"
	// 12345678901234567890123456789012345678901234567890123456789012345678901234567890
	, stdout);
	exit(0);
}


int error_to_exit(errorlevel level)
{
	return (level >= el_notthis ? EXIT_FAILURE : EXIT_SUCCESS);
}
int flipsmain(int argc, WCHAR * argv[])
{
	enum patchtype patchtype=ty_null;
	enum { a_default, a_apply_filepicker, a_apply_given, a_create, a_info } action=a_default;
	int numargs=0;
	LPCWSTR arg[3]={NULL,NULL,NULL};
	bool hasFlags=false;
	int verbosity = 0;
	
	bool ignoreChecksum=false;
	
	struct manifestinfo manifestinfo={false, false, NULL};
//	 {
//	bool use;
//	bool required;
//	LPCWSTR name;
//	bool success;
//};
	for (int i=1;i<argc;i++)
	{
		if (argv[i][0]=='-')
		{
			hasFlags=true;
			if(0);
			else if (!wcscmp(argv[i], TEXT("--apply")) || !wcscmp(argv[i], TEXT("-a")))
			{
				if (action==a_default) action=a_apply_given;
				else usage();
			}
			else if (!wcscmp(argv[i], TEXT("--create")) || !wcscmp(argv[i], TEXT("-c")))
			{
				if (action==a_default) action=a_create;
				else usage();
			}
			else if (!wcscmp(argv[i], TEXT("--info")) || !wcscmp(argv[i], TEXT("-I")))
			{
				if (action==a_default) action=a_info;
				else usage();
			}
			else if (!wcscmp(argv[i], TEXT("--ips")) || !wcscmp(argv[i], TEXT("-i")))
			{
				if (patchtype==ty_null) patchtype=ty_ips;
				else usage();
			}
			else if (!wcscmp(argv[i], TEXT("--bps")) || !wcscmp(argv[i], TEXT("--bps-delta")) ||
			         !wcscmp(argv[i], TEXT("-b")) || !wcscmp(argv[i], TEXT("-B")))
			{
				if (patchtype==ty_null) patchtype=ty_bps;
				else usage();
			}
			else if (!wcscmp(argv[i], TEXT("--bps-delta-moremem")))
			{
				if (patchtype==ty_null) patchtype=ty_bps_moremem;
				else usage();
			}
			else if (!wcscmp(argv[i], TEXT("--bps-linear")))
			{
				if (patchtype==ty_null) patchtype=ty_bps_linear;
				else usage();
			}
			else if (!wcscmp(argv[i], TEXT("--exact"))) // no short form
			{
				if (forceKeepHeader) usage();
				forceKeepHeader=true;
			}
			else if (!wcscmp(argv[i], TEXT("--ignore-checksum")))
			{
				if (ignoreChecksum) usage();
				ignoreChecksum=true;
			}
			else if (!wcscmp(argv[i], TEXT("--manifest")) || !wcscmp(argv[i], TEXT("-m")))
			{
				manifestinfo.use=true;
				manifestinfo.required=true;
			}
			else if (!wcsncmp(argv[i], TEXT("--manifest="), wcslen(TEXT("--manifest="))))
			{
				manifestinfo.use=true;
				manifestinfo.required=true;
				manifestinfo.name=argv[i]+wcslen(TEXT("--manifest="));
			}
			else if (!wcsncmp(argv[i], TEXT("-m"), wcslen(TEXT("-m"))))
			{
				manifestinfo.use=true;
				manifestinfo.required=true;
				manifestinfo.name=argv[i]+wcslen(TEXT("-m"));
			}
			else if (!wcscmp(argv[i], TEXT("--version")) || !wcscmp(argv[i], TEXT("-v")))
			{
				GUIClaimConsole();
				puts(flipsversion);
				return 0;
			}
			else if (!wcscmp(argv[i], TEXT("--help")) || !wcscmp(argv[i], TEXT("-h")) || !wcscmp(argv[i], TEXT("-?"))) usage();
			else if (!wcscmp(argv[i], TEXT("--verbose"))) verbosity++;
			else usage();
		}
#ifdef _WIN32
		else if (!wcscmp(argv[i], TEXT("/?"))) usage();
#endif
		else
		{
			if (numargs==3) usage();
			arg[numargs++]=argv[i];
		}
	}
	if (action==a_default)
	{
		if (numargs==0) action=a_default;
		if (numargs==1) action=a_apply_filepicker;
		if (numargs==2) action=a_apply_given;
		if (numargs==3) action=a_create;
	}
	switch (action)
	{
		case a_default:
		{
			if (numargs!=0 || hasFlags) usage();
#ifndef FLIPS_CLI
			guiActive=true;
			return GUIShow(NULL);
#else
			usage();
#endif
		}
		case a_apply_filepicker:
		{
			if (numargs!=1 || hasFlags) usage();
#ifndef FLIPS_CLI
			guiActive=true;
			return GUIShow(arg[0]);
#else
			usage();
#endif
		}
		case a_apply_given:
		{
			if (numargs!=2 && numargs!=3) usage();
			GUIClaimConsole();
			LPCWSTR outname = arg[2];
			LPWSTR outname_buf = NULL;
			if (!outname)
			{
				WCHAR* base_ext = GetExtension(arg[1]);
				int extlen = wcslen(base_ext);
				outname_buf = (WCHAR*)malloc(sizeof(WCHAR)*(wcslen(arg[0])+extlen));
				wcscpy(outname_buf, arg[0]);
				wcscpy(GetExtension(outname_buf), base_ext);
				outname = outname_buf;
				if (wcscmp(arg[1], outname) != 0 && file::exists(outname))
				{
					wprintf(TEXT("You have requested creation of file %s, but that file already exists.\n"
					             "If you want to overwrite it, supply that filename explicitly; if not, provide another filename.\n"),
					             outname);
					return 1;
				}
			}
			struct errorinfo errinf=ApplyPatch(arg[0], arg[1], !ignoreChecksum, outname, &manifestinfo, false);
			free(outname_buf);
			puts(errinf.description);
			return error_to_exit(errinf.level);
		}
		case a_create:
		{
			if (numargs!=2 && numargs!=3) usage();
			GUIClaimConsole();
			if (!arg[2])
			{
				if (patchtype==ty_null)
				{
					puts("Error: Unknown patch type.");
					return error_to_exit(el_broken);
				}
				LPWSTR arg2=(WCHAR*)malloc(sizeof(WCHAR)*(wcslen(arg[1])+4+1));
				arg[2]=arg2;
				wcscpy(arg2, arg[1]);
				GetExtension(arg2)[0]='\0';
				if (patchtype==ty_ips) wcscat(arg2, TEXT(".ips"));
				if (patchtype==ty_bps) wcscat(arg2, TEXT(".bps"));
				if (patchtype==ty_bps_linear) wcscat(arg2, TEXT(".bps"));
			}
			if (patchtype==ty_null)
			{
				LPCWSTR patchext=GetExtension(arg[2]);
				if (!*patchext)
				{
					puts("Error: Unknown patch type.");
					return el_broken;
				}
				else if (!wcsicmp(patchext, TEXT(".ips"))) patchtype=ty_ips;
				else if (!wcsicmp(patchext, TEXT(".bps"))) patchtype=ty_bps;
				else
				{
					wprintf(TEXT("Error: Unknown patch type (%s)\n"), patchext);
					return error_to_exit(el_broken);
				}
			}
			struct errorinfo errinf=CreatePatch(arg[0], arg[1], patchtype, &manifestinfo, arg[2]);
			puts(errinf.description);
			return error_to_exit(errinf.level);
		}
		case a_info:
		{
			if (numargs!=1) usage();
			return error_to_exit(patchinfo(arg[0], &manifestinfo, verbosity));
		}
	}
	return 99;//doesn't happen
}