Mercurial > hg > CbC > CbC_gcc
view libphobos/src/std/uri.d @ 158:494b0b89df80 default tip
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 25 May 2020 18:13:55 +0900 |
| parents | 1830386684a0 |
| children |
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// Written in the D programming language. /** * Encode and decode Uniform Resource Identifiers (URIs). * URIs are used in internet transfer protocols. * Valid URI characters consist of letters, digits, * and the characters $(B ;/?:@&=+$,-_.!~*'()) * Reserved URI characters are $(B ;/?:@&=+$,) * Escape sequences consist of $(B %) followed by two hex digits. * * See_Also: * $(LINK2 http://www.ietf.org/rfc/rfc3986.txt, RFC 3986)<br> * $(LINK2 http://en.wikipedia.org/wiki/Uniform_resource_identifier, Wikipedia) * Copyright: Copyright Digital Mars 2000 - 2009. * License: $(HTTP www.boost.org/LICENSE_1_0.txt, Boost License 1.0). * Authors: $(HTTP digitalmars.com, Walter Bright) * Source: $(PHOBOSSRC std/_uri.d) */ /* Copyright Digital Mars 2000 - 2009. * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE_1_0.txt or copy at * http://www.boost.org/LICENSE_1_0.txt) */ module std.uri; //debug=uri; // uncomment to turn on debugging writefln's debug(uri) import std.stdio; import std.traits : isSomeChar; /** This Exception is thrown if something goes wrong when encoding or decoding a URI. */ class URIException : Exception { import std.exception : basicExceptionCtors; mixin basicExceptionCtors; } private enum { URI_Alpha = 1, URI_Reserved = 2, URI_Mark = 4, URI_Digit = 8, URI_Hash = 0x10, // '#' } private immutable char[16] hex2ascii = "0123456789ABCDEF"; private immutable ubyte[128] uri_flags = // indexed by character ({ ubyte[128] uflags; // Compile time initialize uflags['#'] |= URI_Hash; foreach (c; 'A' .. 'Z' + 1) { uflags[c] |= URI_Alpha; uflags[c + 0x20] |= URI_Alpha; // lowercase letters } foreach (c; '0' .. '9' + 1) uflags[c] |= URI_Digit; foreach (c; ";/?:@&=+$,") uflags[c] |= URI_Reserved; foreach (c; "-_.!~*'()") uflags[c] |= URI_Mark; return uflags; })(); private string URI_Encode(dstring str, uint unescapedSet) { import core.exception : OutOfMemoryError; import core.stdc.stdlib : alloca; uint j; uint k; dchar V; dchar C; // result buffer char[50] buffer = void; char* R; uint Rlen; uint Rsize; // alloc'd size immutable len = str.length; R = buffer.ptr; Rsize = buffer.length; Rlen = 0; for (k = 0; k != len; k++) { C = str[k]; // if (C in unescapedSet) if (C < uri_flags.length && uri_flags[C] & unescapedSet) { if (Rlen == Rsize) { char* R2; Rsize *= 2; if (Rsize > 1024) { R2 = (new char[Rsize]).ptr; } else { R2 = cast(char *) alloca(Rsize * char.sizeof); if (!R2) throw new OutOfMemoryError("Alloca failure"); } R2[0 .. Rlen] = R[0 .. Rlen]; R = R2; } R[Rlen] = cast(char) C; Rlen++; } else { char[6] Octet; uint L; V = C; // Transform V into octets if (V <= 0x7F) { Octet[0] = cast(char) V; L = 1; } else if (V <= 0x7FF) { Octet[0] = cast(char)(0xC0 | (V >> 6)); Octet[1] = cast(char)(0x80 | (V & 0x3F)); L = 2; } else if (V <= 0xFFFF) { Octet[0] = cast(char)(0xE0 | (V >> 12)); Octet[1] = cast(char)(0x80 | ((V >> 6) & 0x3F)); Octet[2] = cast(char)(0x80 | (V & 0x3F)); L = 3; } else if (V <= 0x1FFFFF) { Octet[0] = cast(char)(0xF0 | (V >> 18)); Octet[1] = cast(char)(0x80 | ((V >> 12) & 0x3F)); Octet[2] = cast(char)(0x80 | ((V >> 6) & 0x3F)); Octet[3] = cast(char)(0x80 | (V & 0x3F)); L = 4; } else { throw new URIException("Undefined UTF-32 code point"); } if (Rlen + L * 3 > Rsize) { char *R2; Rsize = 2 * (Rlen + L * 3); if (Rsize > 1024) { R2 = (new char[Rsize]).ptr; } else { R2 = cast(char *) alloca(Rsize * char.sizeof); if (!R2) throw new OutOfMemoryError("Alloca failure"); } R2[0 .. Rlen] = R[0 .. Rlen]; R = R2; } for (j = 0; j < L; j++) { R[Rlen] = '%'; R[Rlen + 1] = hex2ascii[Octet[j] >> 4]; R[Rlen + 2] = hex2ascii[Octet[j] & 15]; Rlen += 3; } } } return R[0 .. Rlen].idup; } private uint ascii2hex(dchar c) @nogc @safe pure nothrow { return (c <= '9') ? c - '0' : (c <= 'F') ? c - 'A' + 10 : c - 'a' + 10; } private dstring URI_Decode(Char)(in Char[] uri, uint reservedSet) if (isSomeChar!Char) { import core.exception : OutOfMemoryError; import core.stdc.stdlib : alloca; import std.ascii : isHexDigit; uint j; uint k; uint V; dchar C; // Result array, allocated on stack dchar* R; uint Rlen; immutable len = uri.length; auto s = uri.ptr; // Preallocate result buffer R guaranteed to be large enough for result auto Rsize = len; if (Rsize > 1024 / dchar.sizeof) { R = (new dchar[Rsize]).ptr; } else { R = cast(dchar *) alloca(Rsize * dchar.sizeof); if (!R) throw new OutOfMemoryError("Alloca failure"); } Rlen = 0; for (k = 0; k != len; k++) { char B; uint start; C = s[k]; if (C != '%') { R[Rlen] = C; Rlen++; continue; } start = k; if (k + 2 >= len) throw new URIException("Unexpected end of URI"); if (!isHexDigit(s[k + 1]) || !isHexDigit(s[k + 2])) throw new URIException("Expected two hexadecimal digits after '%'"); B = cast(char)((ascii2hex(s[k + 1]) << 4) + ascii2hex(s[k + 2])); k += 2; if ((B & 0x80) == 0) { C = B; } else { uint n; for (n = 1; ; n++) { if (n > 4) throw new URIException("UTF-32 code point size too large"); if (((B << n) & 0x80) == 0) { if (n == 1) throw new URIException("UTF-32 code point size too small"); break; } } // Pick off (7 - n) significant bits of B from first byte of octet V = B & ((1 << (7 - n)) - 1); // (!!!) if (k + (3 * (n - 1)) >= len) throw new URIException("UTF-32 unaligned String"); for (j = 1; j != n; j++) { k++; if (s[k] != '%') throw new URIException("Expected: '%'"); if (!isHexDigit(s[k + 1]) || !isHexDigit(s[k + 2])) throw new URIException("Expected two hexadecimal digits after '%'"); B = cast(char)((ascii2hex(s[k + 1]) << 4) + ascii2hex(s[k + 2])); if ((B & 0xC0) != 0x80) throw new URIException("Incorrect UTF-32 multi-byte sequence"); k += 2; V = (V << 6) | (B & 0x3F); } if (V > 0x10FFFF) throw new URIException("Unknown UTF-32 code point"); C = V; } if (C < uri_flags.length && uri_flags[C] & reservedSet) { // R ~= s[start .. k + 1]; immutable width = (k + 1) - start; for (int ii = 0; ii < width; ii++) R[Rlen + ii] = s[start + ii]; Rlen += width; } else { R[Rlen] = C; Rlen++; } } assert(Rlen <= Rsize); // enforce our preallocation size guarantee // Copy array on stack to array in memory return R[0 .. Rlen].idup; } /************************************* * Decodes the URI string encodedURI into a UTF-8 string and returns it. * Escape sequences that resolve to reserved URI characters are not replaced. * Escape sequences that resolve to the '#' character are not replaced. */ string decode(Char)(in Char[] encodedURI) if (isSomeChar!Char) { import std.algorithm.iteration : each; import std.utf : encode; auto s = URI_Decode(encodedURI, URI_Reserved | URI_Hash); char[] r; s.each!(c => encode(r, c)); return r; } /******************************* * Decodes the URI string encodedURI into a UTF-8 string and returns it. All * escape sequences are decoded. */ string decodeComponent(Char)(in Char[] encodedURIComponent) if (isSomeChar!Char) { import std.algorithm.iteration : each; import std.utf : encode; auto s = URI_Decode(encodedURIComponent, 0); char[] r; s.each!(c => encode(r, c)); return r; } /***************************** * Encodes the UTF-8 string uri into a URI and returns that URI. Any character * not a valid URI character is escaped. The '#' character is not escaped. */ string encode(Char)(in Char[] uri) if (isSomeChar!Char) { import std.utf : toUTF32; auto s = toUTF32(uri); return URI_Encode(s, URI_Reserved | URI_Hash | URI_Alpha | URI_Digit | URI_Mark); } /******************************** * Encodes the UTF-8 string uriComponent into a URI and returns that URI. * Any character not a letter, digit, or one of -_.!~*'() is escaped. */ string encodeComponent(Char)(in Char[] uriComponent) if (isSomeChar!Char) { import std.utf : toUTF32; auto s = toUTF32(uriComponent); return URI_Encode(s, URI_Alpha | URI_Digit | URI_Mark); } /* Encode associative array using www-form-urlencoding * * Params: * values = an associative array containing the values to be encoded. * * Returns: * A string encoded using www-form-urlencoding. */ package string urlEncode(in string[string] values) { if (values.length == 0) return ""; import std.array : Appender; import std.format : formattedWrite; Appender!string enc; enc.reserve(values.length * 128); bool first = true; foreach (k, v; values) { if (!first) enc.put('&'); formattedWrite(enc, "%s=%s", encodeComponent(k), encodeComponent(v)); first = false; } return enc.data; } @system unittest { // @system because urlEncode -> encodeComponent -> URI_Encode // URI_Encode uses alloca and pointer slicing string[string] a; assert(urlEncode(a) == ""); assert(urlEncode(["name1" : "value1"]) == "name1=value1"); auto enc = urlEncode(["name1" : "value1", "name2" : "value2"]); assert(enc == "name1=value1&name2=value2" || enc == "name2=value2&name1=value1"); } /*************************** * Does string s[] start with a URL? * Returns: * -1 it does not * len it does, and s[0 .. len] is the slice of s[] that is that URL */ ptrdiff_t uriLength(Char)(in Char[] s) if (isSomeChar!Char) { /* Must start with one of: * http:// * https:// * www. */ import std.ascii : isAlphaNum; import std.uni : icmp; ptrdiff_t i; if (s.length <= 4) return -1; if (s.length > 7 && icmp(s[0 .. 7], "http://") == 0) { i = 7; } else { if (s.length > 8 && icmp(s[0 .. 8], "https://") == 0) i = 8; else return -1; } ptrdiff_t lastdot; for (; i < s.length; i++) { auto c = s[i]; if (isAlphaNum(c)) continue; if (c == '-' || c == '_' || c == '?' || c == '=' || c == '%' || c == '&' || c == '/' || c == '+' || c == '#' || c == '~' || c == '$') continue; if (c == '.') { lastdot = i; continue; } break; } if (!lastdot) return -1; return i; } /// @safe unittest { string s1 = "http://www.digitalmars.com/~fred/fredsRX.html#foo end!"; assert(uriLength(s1) == 49); string s2 = "no uri here"; assert(uriLength(s2) == -1); assert(uriLength("issue 14924") < 0); } /*************************** * Does string s[] start with an email address? * Returns: * -1 it does not * len it does, and s[0 .. i] is the slice of s[] that is that email address * References: * RFC2822 */ ptrdiff_t emailLength(Char)(in Char[] s) if (isSomeChar!Char) { import std.ascii : isAlpha, isAlphaNum; ptrdiff_t i; if (!isAlpha(s[0])) return -1; for (i = 1; 1; i++) { if (i == s.length) return -1; auto c = s[i]; if (isAlphaNum(c)) continue; if (c == '-' || c == '_' || c == '.') continue; if (c != '@') return -1; i++; break; } /* Now do the part past the '@' */ ptrdiff_t lastdot; for (; i < s.length; i++) { auto c = s[i]; if (isAlphaNum(c)) continue; if (c == '-' || c == '_') continue; if (c == '.') { lastdot = i; continue; } break; } if (!lastdot || (i - lastdot != 3 && i - lastdot != 4)) return -1; return i; } /// @safe unittest { string s1 = "my.e-mail@www.example-domain.com with garbage added"; assert(emailLength(s1) == 32); string s2 = "no email address here"; assert(emailLength(s2) == -1); assert(emailLength("issue 14924") < 0); } @system unittest { //@system because of encode -> URI_Encode debug(uri) writeln("uri.encodeURI.unittest"); string source = "http://www.digitalmars.com/~fred/fred's RX.html#foo"; string target = "http://www.digitalmars.com/~fred/fred's%20RX.html#foo"; auto result = encode(source); debug(uri) writefln("result = '%s'", result); assert(result == target); result = decode(target); debug(uri) writefln("result = '%s'", result); assert(result == source); result = encode(decode("%E3%81%82%E3%81%82")); assert(result == "%E3%81%82%E3%81%82"); result = encodeComponent("c++"); assert(result == "c%2B%2B"); auto str = new char[10_000_000]; str[] = 'A'; result = encodeComponent(str); foreach (char c; result) assert(c == 'A'); result = decode("%41%42%43"); debug(uri) writeln(result); import std.meta : AliasSeq; foreach (StringType; AliasSeq!(char[], wchar[], dchar[], string, wstring, dstring)) { import std.conv : to; StringType decoded1 = source.to!StringType; string encoded1 = encode(decoded1); assert(decoded1 == source.to!StringType); // check that `decoded1` wasn't changed assert(encoded1 == target); assert(decoded1 == decode(encoded1).to!StringType); StringType encoded2 = target.to!StringType; string decoded2 = decode(encoded2); assert(encoded2 == target.to!StringType); // check that `encoded2` wasn't changed assert(decoded2 == source); assert(encoded2 == encode(decoded2).to!StringType); } }