mkp224o/filters.h

// filters stuff

#ifndef INTFILTER
# define BINFILTER
#endif

#ifdef PCRE2FILTER
# undef BINFILTER
# undef INTFILTER
#endif

#ifdef INTFILTER
# ifdef BINSEARCH
#  ifndef BESORT
#   define OMITMASK
#  endif
# endif
#endif

#ifdef OMITMASK
# define EXPANDMASK
#endif

// whether binfilter struct is needed
#ifdef BINFILTER
# define NEEDBINFILTER
#endif
#ifdef INTFILTER
# define NEEDBINFILTER
#endif


#ifdef NEEDBINFILTER
# ifndef BINFILTERLEN
#  define BINFILTERLEN PUBLIC_LEN
# endif
struct binfilter {
	u8 f[BINFILTERLEN];
	size_t len; // real len minus one
	u8 mask;
} ;
#endif // NEEDBINFILTER


#ifdef BINFILTER
VEC_STRUCT(bfiltervec,struct binfilter) filters;
#endif // BINFILTER

#ifdef INTFILTER
struct intfilter {
	IFT f;
# ifndef OMITMASK
	IFT m;
# endif
} ;
VEC_STRUCT(ifiltervec,struct intfilter) filters;
# ifdef OMITMASK
IFT ifiltermask;
# endif
#endif // INTFILTER

#ifdef PCRE2FILTER

#define PCRE2_CODE_UNIT_WIDTH 8
#include <pcre2.h>

struct pcre2filter {
	char *str;
	pcre2_code *re;
} ;
VEC_STRUCT(pfiltervec,struct pcre2filter) filters;

#endif // PCRE2FILTER

static void filters_init()
{
	VEC_INIT(filters);
}

#ifdef INTFILTER

static inline size_t filter_len(size_t i)
{
# ifndef OMITMASK
	const u8 *m = (const u8 *)&VEC_BUF(filters,i).m;
# else // OMITMASK
	const u8 *m = (const u8 *)&ifiltermask;
# endif // OMITMASK
	size_t c = 0;
	for (size_t j = 0;;) {
		u8 v = m[j];
		for (size_t k = 0;;) {
			if (!v)
				return c;
			++c;
			if (++k >= 8)
				break;
			v <<= 1;
		}
		if (++j >= sizeof(IFT))
			break;
	}
	return c;
}

# ifdef OMITMASK

static inline int filter_compare(const void *p1,const void *p2)
{
	if (((const struct intfilter *)p1)->f < ((const struct intfilter *)p2)->f)
		return -1;
	if (((const struct intfilter *)p1)->f > ((const struct intfilter *)p2)->f)
		return 1;
	return 0;
}

#  ifdef EXPANDMASK

/*
 * raw representation -- FF.FF.F0.00
 * big endian         -- 0xFFFFF000
 * little endian      -- 0x00F0FFFF
 * b: 0xFFffF000 ^ 0xFFff0000 -> 0x0000F000
 *   0x0000F000 + 1 -> 0x0000F001
 *   0x0000F000 & 0x0000F001 -> 0x0000F000 <- shifted mask
 *   0x0000F000 ^ 0x0000F000 -> 0x00000000 <- direct mask
 *   0x0000F000 ^ 0x00000000 -> 0x0000F000 <- shifted mask
 * l: 0x00f0FFff ^ 0x0000FFff -> 0x00f00000
 *   0x00f00000 + 1 -> 0x00f00001
 *   0x00f00000 & 0x00f00001 -> 0x00f00000 <- shifted mask
 *   0x00f00000 ^ 0x00f00000 -> 0x00000000 <- direct mask
 *   0x00f00000 ^ 0x00000000 -> 0x00f00000 <- shifted mask
 *
 * b: 0xFFffFFff ^ 0xF0000000 -> 0x0FffFFff
 *   0x0FffFFff + 1 -> 0x10000000
 *   0x0FffFFff & 0x10000000 -> 0x00000000 <- shifted mask
 *   0x0FffFFff ^ 0x00000000 -> 0x0FffFFff <- direct mask
 *   0x0FffFFff ^ 0x0FffFFff -> 0x00000000 <- shifted mask
 * l: 0xFFffFFff ^ 0x000000f0 -> 0xFFffFF0f
 *   0xFFffFF0f + 1 -> 0xFFffFF10
 *   0xFFffFF0f & 0xFFffFF10 -> 0xFFffFF00 <- shifted mask
 *   0xFFffFF0f ^ 0xFFffFF00 -> 0x0000000f <- direct mask
 *   0xFFffFF0f ^ 0x0000000f -> 0xFFffFF00 <- shifted mask
 *
 * essentially, we have to make direct mask + shifted mask bits worth of information
 * and then split it into 2 parts
 * we do not need absolute shifted mask shifting value, just relative to direct mask
 * 0x0sss00dd - shifted & direct mask combo
 * 0x000sssdd - combined mask
 * 8 - relshiftval
 * generate values from 0x00000000 to 0x000sssdd
 * for each value, realmask <- (val & 0x000000dd) | ((val & 0x000sss00) << relshiftval)
 * or..
 * realmask <- (val & 0x000000dd) | ((val << relshiftval) & 0x0sss0000)
 * ...
 * above method doesn't work in some cases. better way:
 * l: 0x80ffFFff ^ 0x00f0FFff -> 0x800f0000
 *   0x800f0000 >> 16 -> 0x0000800f
 *   0x0000800f + 1 -> 0x00008010
 *   0x0000800f & 0x00008010 -> 0x00008000 <- smask
 *   0x0000800f ^ 0x00008000 -> 0x0000000f <- dmask
 */

static int flattened = 0;

#define EXPVAL(init,j,dmask,smask,ishift,rshift) \
	((init) | ((((j) & (dmask)) | (((j) << (rshift)) & (smask))) << (ishift)))
// add expanded set of values
// allocates space on its own
static void ifilter_addexpanded(
	struct intfilter *ifltr,
	IFT dmask,IFT smask,IFT cmask,
	int ishift,int rshift)
{
	flattened = 1;
	size_t i = VEC_LENGTH(filters);
	VEC_ADDN(filters,cmask + 1);
	for (size_t j = 0;;++j) {
		VEC_BUF(filters,i + j).f =
			EXPVAL(ifltr->f,j,dmask,smask,ishift,rshift);
		if (j == cmask)
			break;
	}
}

// expand existing stuff
// allocates needed stuff on its own
static void ifilter_expand(IFT dmask,IFT smask,IFT cmask,int ishift,int rshift)
{
	flattened = 1;
	size_t len = VEC_LENGTH(filters);
	VEC_ADDN(filters,cmask * len);
	size_t esz = cmask + 1; // size of expanded elements
	for (size_t i = len - 1;;--i) {
		for (IFT j = 0;;++j) {
			VEC_BUF(filters,i * esz + j).f =
				EXPVAL(VEC_BUF(filters,i).f,j,dmask,smask,ishift,rshift);
			if (j == cmask)
				break;
		}
		if (i == 0)
			break;
	}
}

static inline void ifilter_addflatten(struct intfilter *ifltr,IFT mask)
{
	if (VEC_LENGTH(filters) == 0) {
		// simple
		VEC_ADD(filters,*ifltr);
		ifiltermask = mask;
		return;
	}
	if (ifiltermask == mask) {
		// lucky
		VEC_ADD(filters,*ifltr);
		return;
	}
	IFT cross = ifiltermask ^ mask;
	int ishift = 0;
	while ((cross & 1) == 0) {
		++ishift;
		cross >>= 1;
	}
	IFT smask = cross & (cross + 1); // shift mask
	IFT dmask = cross ^ smask; // direct mask
	IFT cmask; // combined mask
	int rshift = 0; // relative shift
	while (cmask = (smask >> rshift) | dmask,(cmask & (cmask + 1)) != 0)
		++rshift;
	// preparations done
	if (ifiltermask > mask) {
		// already existing stuff has more precise mask than we
		// so we need to expand our stuff
		ifilter_addexpanded(ifltr,dmask,smask,cmask,ishift,rshift);
	}
	else {
		ifiltermask = mask;
		ifilter_expand(dmask,smask,cmask,ishift,rshift);
		VEC_ADD(filters,*ifltr);
	}
}

#  endif // EXPANDMASK

# else // OMITMASK

/*
 * struct intfilter layout: filter,mask
 * stuff is compared in big-endian way, so memcmp
 * filter needs to be compared first
 * if its equal, mask needs to be compared
 * memcmp is aplicable there too
 * due to struct intfilter layout, it all can be stuffed into one memcmp call
 */
static inline int filter_compare(const void *p1,const void *p2)
{
	return memcmp(p1,p2,sizeof(struct intfilter));
}

# endif // OMITMASK

static void filter_sort(void)
{
	qsort(&VEC_BUF(filters,0),VEC_LENGTH(filters),sizeof(struct intfilter),&filter_compare);
}

#endif // INTFILTER

#ifdef BINFILTER

static inline size_t filter_len(size_t i)
{
	size_t c = VEC_BUF(filters,i).len * 8;
	u8 v = VEC_BUF(filters,i).mask;
	for (size_t k = 0;;) {
		if (!v)
			return c;
		++c;
		if (++k >= 8)
			return c;
		v <<= 1;
	}
}

static inline int filter_compare(const void *p1,const void *p2)
{
	const struct binfilter *b1 = (const struct binfilter *)p1;
	const struct binfilter *b2 = (const struct binfilter *)p2;
	size_t l = b1->len <= b2->len ? b1->len : b2->len;
	int cmp = memcmp(b1->f,b2->f,l);
	if (cmp)
		return cmp;
	if (b1->len < b2->len)
		return -1;
	if (b1->len > b2->len)
		return 1;
	if (b1->mask < b2->mask)
		return -1;
	if (b1->mask > b2->mask)
		return 1;
	return 0;
}

static void filter_sort(void)
{
	qsort(&VEC_BUF(filters,0),VEC_LENGTH(filters),sizeof(struct binfilter),&filter_compare);
}

#endif // BINFILTER

#ifdef PCRE2FILTER

#define filter_len(i) ((pcre2ovector[1] - pcre2ovector[0]) * 5)

#endif // PCRE2FILTER

static void filters_add(const char *filter)
{
#ifdef NEEDBINFILTER
	struct binfilter bf;
	size_t ret;
# ifdef INTFILTER
	union intconv {
		IFT i;
		u8 b[sizeof(IFT)];
	} fc,mc;
# endif

	// skip regex start symbol. we do not support regex tho
	if (*filter == '^')
		++filter;

	memset(&bf,0,sizeof(bf));

	if (!base32_valid(filter,&ret)) {
		fprintf(stderr,"filter \"%s\" is invalid\n",filter);
		fprintf(stderr,"        ");
		while (ret--)
			fputc(' ',stderr);
		fprintf(stderr,"^\n");
		return;
	}
	ret = BASE32_FROM_LEN(ret);
	if (!ret)
		return;
# ifdef INTFILTER
	size_t maxsz = sizeof(IFT);
# else
	size_t maxsz = sizeof(bf.f);
# endif
	if (ret > maxsz) {
		fprintf(stderr,"filter \"%s\" is too long\n",filter);
		fprintf(stderr,"        ");
		maxsz = (maxsz * 8) / 5;
		while (maxsz--)
			fputc(' ',stderr);
		fprintf(stderr,"^\n");
		return;
	}
	base32_from(bf.f,&bf.mask,filter);
	bf.len = ret - 1;

# ifdef INTFILTER
	mc.i = 0;
	for (size_t i = 0;i < bf.len;++i)
		mc.b[i] = 0xFF;
	mc.b[bf.len] = bf.mask;
	memcpy(fc.b,bf.f,sizeof(fc.b));
	fc.i &= mc.i;
	struct intfilter ifltr = {
		.f = fc.i,
#  ifndef OMITMASK
		.m = mc.i,
#  endif
	};
#  ifdef OMITMASK
	ifilter_addflatten(&ifltr,mc.i);
#  else // OMITMASK
	VEC_ADD(filters,ifltr);
#  endif // OMITMASK
# endif // INTFILTER

# ifdef BINFILTER
	VEC_ADD(filters,bf);
# endif // BINFILTER
#endif // NEEDBINFILTER

#ifdef PCRE2FILTER
	int errornum;
	PCRE2_SIZE erroroffset;
	pcre2_code *re;
	re = pcre2_compile((PCRE2_SPTR8)filter,PCRE2_ZERO_TERMINATED,
		PCRE2_NO_UTF_CHECK | PCRE2_ANCHORED,&errornum,&erroroffset,0);
	if (!re) {
		PCRE2_UCHAR buffer[1024];
		pcre2_get_error_message(errornum,buffer,sizeof(buffer));
		fprintf(stderr,"PCRE2 compilation failed at offset " FSZ ": %s\n",
			(size_t)erroroffset,buffer);
		return;
	}
	// attempt to JIT. ignore error
	(void)pcre2_jit_compile(re,PCRE2_JIT_COMPLETE);
	struct pcre2filter f;
	memset(&f,0,sizeof(f));
	f.re = re;
	size_t fl = strlen(filter) + 1;
	f.str = malloc(fl);
	if (!f.str)
		abort();
	memcpy(f.str,filter,fl);
	VEC_ADD(filters,f);
#endif // PCRE2FILTER
}

#ifdef NEEDBINFILTER
static void filters_dedup()
{
	//TODO
}
#endif // NEEDBINFILTER

static void filters_prepare()
{
#ifndef PCRE2FILTER
	if (!quietflag)
		fprintf(stderr,"sorting filters...");
	filter_sort();
	if (wantdedup) {
		if (!quietflag)
			fprintf(stderr," removing duplicates...");
		filters_dedup();
	}
	if (!quietflag)
		fprintf(stderr," done.\n");
#endif
}

static void filters_clean()
{
#ifdef PCRE2FILTER
	for (size_t i = 0;i < VEC_LENGTH(filters);++i) {
		pcre2_code_free(VEC_BUF(filters,i).re);
		free(VEC_BUF(filters,i).str);
	}
#endif
	VEC_FREE(filters);
}

static size_t filters_count()
{
	return VEC_LENGTH(filters);
}

#ifdef INTFILTER

# ifndef BINSEARCH

#define MATCHFILTER(it,pk) \
	((*(IFT *)(pk) & VEC_BUF(filters,it).m) == VEC_BUF(filters,it).f)

#define DOFILTER(it,pk,code) \
do { \
	for (it = 0;it < VEC_LENGTH(filters);++it) { \
		if (unlikely(MATCHFILTER(it,pk))) { \
			code; \
			break; \
		} \
	} \
} while (0)

# else // BINSEARCH

#  ifdef OMITMASK

#define DOFILTER(it,pk,code) \
do { \
	register IFT maskedpk = *(IFT *)(pk) & ifiltermask; \
	for (size_t down = 0,up = VEC_LENGTH(filters);down < up;) { \
		it = (up + down) / 2; \
		if (maskedpk < VEC_BUF(filters,it).f) \
			up = it; \
		else if (maskedpk > VEC_BUF(filters,it).f) \
			down = it + 1; \
		else { \
			code; \
			break; \
		} \
	} \
} while (0)

#  else // OMITMASK

#define DOFILTER(it,pk,code) \
do { \
	for (size_t down = 0,up = VEC_LENGTH(filters);down < up;) { \
		it = (up + down) / 2; \
		IFT maskedpk = *(IFT *)(pk) & VEC_BUF(filters,it).m; \
		register int cmp = memcmp(&maskedpk,&VEC_BUF(filters,it).f,sizeof(IFT)); \
		if (cmp < 0) \
			up = it; \
		else if (cmp > 0) \
			down = it + 1; \
		else { \
			code; \
			break; \
		} \
	} \
} while (0)

#  endif // OMITMASK

# endif // BINSEARCH

#define PREFILTER
#define POSTFILTER

#endif // INTFILTER


#ifdef BINFILTER

# ifndef BINSEARCH

#define MATCHFILTER(it,pk) ( \
	memcmp(pk,VEC_BUF(filters,it).f,VEC_BUF(filters,it).len) == 0 && \
	(pk[VEC_BUF(filters,it).len] & VEC_BUF(filters,it).mask) == VEC_BUF(filters,it).f[VEC_BUF(filters,it).len])

#define DOFILTER(it,pk,code) \
do { \
	for (it = 0;it < VEC_LENGTH(filters);++it) { \
		if (unlikely(MATCHFILTER(it,pk))) { \
			code; \
			break; \
		} \
	} \
} while (0)

# else // BINSEARCH

#define DOFILTER(it,pk,code) \
do { \
	for (size_t down = 0,up = VEC_LENGTH(filters);down < up;) { \
		it = (up + down) / 2; \
		{ \
			register int filterdiff = memcmp(pk,VEC_BUF(filters,it).f,VEC_BUF(filters,it).len); \
			if (filterdiff < 0) { \
				up = it; \
				continue; \
			} \
			if (filterdiff > 0) { \
				down = it + 1; \
				continue; \
			} \
		} \
		if ((pk[VEC_BUF(filters,it).len] & VEC_BUF(filters,it).mask) < \
			VEC_BUF(filters,it).f[VEC_BUF(filters,it).len]) \
		{ \
			up = it; \
			continue; \
		} \
		if ((pk[VEC_BUF(filters,it).len] & VEC_BUF(filters,it).mask) > \
			VEC_BUF(filters,it).f[VEC_BUF(filters,it).len]) \
		{ \
			down = it + 1; \
			continue; \
		} \
		{ \
			code; \
			break; \
		} \
	} \
} while (0)

# endif // BINSEARCH

#define PREFILTER
#define POSTFILTER

#endif // BINFILTER


#ifdef PCRE2FILTER

#define PREFILTER \
	char pkconvbuf[BASE32_TO_LEN(PUBLIC_LEN) + 1]; \
	pcre2_match_data *pcre2md = pcre2_match_data_create(128,0); \
	PCRE2_SIZE *pcre2ovector = 0;

#define POSTFILTER \
	pcre2_match_data_free(pcre2md);

#define DOFILTER(it,pk,code) \
do { \
	base32_to(pkconvbuf,pk,PUBLIC_LEN); \
	size_t __l = VEC_LENGTH(filters); \
	for (it = 0;it < __l;++it) { \
		int rc = pcre2_match(VEC_BUF(filters,it).re,(PCRE2_SPTR8)pkconvbuf,BASE32_TO_LEN(PUBLIC_LEN),0, \
			PCRE2_NO_UTF_CHECK,pcre2md,0); \
		if (unlikely(rc >= 0)) { \
			pcre2ovector = pcre2_get_ovector_pointer(pcre2md); \
			code; \
			break; \
		} \
	} \
} while (0)

#endif // PCRE2FILTER


static void loadfilterfile(const char *fname)
{
	char buf[128];
	FILE *f = fopen(fname,"r");
	while (fgets(buf,sizeof(buf),f)) {
		for (char *p = buf;*p;++p) {
			if (*p == '\n') {
				*p = 0;
				break;
			}
		}
		if (*buf && *buf != '#' && memcmp(buf,"//",2) != 0)
			filters_add(buf);
	}
}

static void filters_print()
{
	if (quietflag)
		return;
	size_t i,l;
	l = VEC_LENGTH(filters);
	if (l)
		fprintf(stderr,"filters:\n");

	for (i = 0;i < l;++i) {
#ifdef NEEDBINFILTER
		char buf0[256],buf1[256];
		u8 bufx[128];
#endif

		if (i >= 20) {
			size_t notshown = l - i;
			fprintf(stderr,"[another " FSZ " %s not shown]\n",
				notshown,notshown == 1 ? "filter" : "filters");
			break;
		}

#ifdef INTFILTER
		size_t len = 0;
		u8 *imraw;

# ifndef OMITMASK
		imraw = (u8 *)&VEC_BUF(filters,i).m;
# else
		imraw = (u8 *)&ifiltermask;
# endif
		while (len < sizeof(IFT) && imraw[len] != 0x00) ++len;
		u8 mask = imraw[len-1];
		u8 *ifraw = (u8 *)&VEC_BUF(filters,i).f;
#endif // INTFILTER

#ifdef BINFILTER
		size_t len = VEC_BUF(filters,i).len + 1;
		u8 mask = VEC_BUF(filters,i).mask;
		u8 *ifraw = VEC_BUF(filters,i).f;
#endif // BINFILTER
#ifdef NEEDBINFILTER
		base32_to(buf0,ifraw,len);
		memcpy(bufx,ifraw,len);
		bufx[len - 1] |= ~mask;
		base32_to(buf1,bufx,len);
		char *a = buf0,*b = buf1;
		while (*a && *a == *b)
			++a, ++b;
		*a = 0;
		fprintf(stderr,"\t%s\n",buf0);
#endif // NEEDBINFILTER
#ifdef PCRE2FILTER
		fprintf(stderr,"\t%s\n",VEC_BUF(filters,i).str);
#endif // PCRE2FILTER
	}
	fprintf(stderr,"in total, " FSZ " %s\n",l,l == 1 ? "filter" : "filters");
}