bring scan_cescape up to speed

master
leitner 8 years ago
parent 8526ae3d0d
commit ac2df2bf20

@ -0,0 +1,35 @@
.TH scan_cescape 3
.SH NAME
scan_cescape \- parse C escaped string
.SH SYNTAX
.B #include <libowfat/textcode.h>
size_t \fBscan_cescape\fP(const char *\fIsrc\fR,char *\fIdest\fR,size_t* \fIdestlen\fR);
.SH DESCRIPTION
scan_cescape parses C escaped text from src into dest.
Parsing stops at the 0 terminator, invalid input characters or a double
quote that was not escaped.
C escape sequences like \\n and \\x0a and \\012 are translated into
their binary counterparts. The C99 escape sequences \\u and \\U are
supported and lead to UTF-8 sequences being output.
scan_cescape will then write the number of bytes in dest into *destlen,
and return the number of bytes decoded from src.
dest can be NULL. destlen can be NULL.
To make sure dest is large enough, either allocate strlen(src)+1 bytes
or call scan_cescape twice, the first time with dest == NULL (*destlen
will still be written).
.SH "RETURN VALUE"
scan_cescape returns the number of bytes successfully parsed
from src.
.SH EXAMPLES
scan_cescape("test\\n\");",buf,&i) -> return 7, i=5, buf="test\n".
.SH "SEE ALSO"
fmt_jsonescape(3), fmt_cescape(3), scan_ldapescape(3)

@ -18,25 +18,84 @@ size_t scan_cescape(const char *src,char *dest,size_t *destlen) {
case 't': c='\t'; break; case 't': c='\t'; break;
case 'v': c='\v'; case 'v': c='\v';
case '\\': break; case '\\': break;
case 'x': case 'x': // hex escape; \x0a -> 10
{ {
unsigned char a,b; unsigned char a,b;
a=scan_fromhex(s[i+2]); a=scan_fromhex(s[i+2]);
b=scan_fromhex(s[i+3]); b=scan_fromhex(s[i+3]);
if (a<16 && b<16) { if (a<16) {
if (b<16) {
c=(a<<4)+b; c=(a<<4)+b;
i+=2; i+=2;
} else {
c=a;
i+=1;
}
} }
} }
break; break;
case 'u': // C99 unicode escape: \u000a -> 10
case 'U': // C99 unicode escape: \U0000000a -> 10
{
unsigned int j,k=0,l=(s[i+1]=='U'?10:6);
for (j=2; j<l; ++j) {
unsigned char c=scan_fromhex(s[i+j]);
if (c>=16) // error
goto error; // don't allow short sequences
k=k*16+c;
}
written+=fmt_utf8(dest?dest+written:0,k);
i+=j-1;
continue;
}
default: default:
if (s[i+1]>='0' && s[i+1]<='7') { // octal escape; \012 -> 10
unsigned int j,k;
for (k=0,j=1; j<4; ++j) {
unsigned int l=s[i+j]-'0';
if (l<8)
k=k*8+l;
else
break;
}
if (dest) dest[written++]=k;
i+=j-1;
continue;
}
--i; --i;
} }
++i; ++i;
} } else if (c=='"')
dest[written]=c; break;
if (dest) dest[written]=c;
++written; ++written;
} }
*destlen=written; error:
if (destlen) *destlen=written;
return i; return i;
} }
#ifdef UNITTEST
#include <assert.h>
#undef UNITTEST
#include <scan/scan_fromhex.c>
#include <fmt/fmt_utf8.c>
int main() {
size_t dl;
char buf[100];
assert(scan_cescape("test\\n\");",buf,&dl)==6 && dl==5 && !memcmp(buf,"test\n",5));
/* check hex and octal escaping */
assert(scan_cescape("test\\x0a\");",buf,&dl)==8 && dl==5 && !memcmp(buf,"test\n",5));
assert(scan_cescape("test\\012\");",buf,&dl)==8 && dl==5 && !memcmp(buf,"test\n",5));
/* check short escape sequences */
assert(scan_cescape("test\\xa\");",buf,&dl)==7 && dl==5 && !memcmp(buf,"test\n",5));
assert(scan_cescape("test\\12\");",buf,&dl)==7 && dl==5 && !memcmp(buf,"test\n",5));
assert(scan_cescape("test\\1\");",buf,&dl)==6 && dl==5 && !memcmp(buf,"test\1",5));
/* check unicode */
assert(scan_cescape("test\\u000a\");",buf,&dl)==10 && dl==5 && !memcmp(buf,"test\n",5));
assert(scan_cescape("test\\U0000000a\");",buf,&dl)==14 && dl==5 && !memcmp(buf,"test\n",5));
/* check that short sequences are rejected */
assert(scan_cescape("test\\Ua\");",buf,&dl)==4 && dl==4 && !memcmp(buf,"test",4));
}
#endif

@ -0,0 +1,31 @@
.TH scan_jsonescape 3
.SH NAME
scan_jsonescape \- parse JSON escaped string
.SH SYNTAX
.B #include <libowfat/textcode.h>
size_t \fBscan_jsonescape\fP(const char *\fIsrc\fR,char *\fIdest\fR,size_t* \fIdestlen\fR);
.SH DESCRIPTION
scan_jsonescape parses JSON escaped text from src into dest, leaving a
UTF-8 string in dest. Parsing stops at the 0 terminator, invalid input
characters or a double quote that was not escaped.
It will then write the number of bytes in dest into *destlen,
and return the number of bytes decoded from src.
dest can be NULL. destlen can be NULL.
To make sure dest is large enough, either allocate strlen(src)+1 bytes
or call scan_jsonescape twice, the first time with dest == NULL (*destlen
will still be written).
.SH "RETURN VALUE"
scan_jsonescape returns the number of bytes successfully parsed
from src.
.SH EXAMPLES
scan_jsonescape("test\n\");",buf,&i) -> return 6, i=5, buf="test\n".
.SH "SEE ALSO"
fmt_jsonescape(3), scan_cescape(3), scan_ldapescape(3)

@ -73,6 +73,10 @@ abort:
#ifdef UNITTEST #ifdef UNITTEST
#include <assert.h> #include <assert.h>
#include <string.h> #include <string.h>
#undef UNITTEST
#include <scan/scan_fromhex.c>
#include <scan/scan_utf8.c>
#include <fmt/fmt_utf8.c>
int main() { int main() {
char buf[100]; char buf[100];
@ -105,3 +109,5 @@ int main() {
return 0; return 0;
} }
#endif #endif

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