/* Copyright 2011-2020 David Robillard Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "string_utils.h" #include "uri_utils.h" #include "serd/serd.h" #include #include #include #include #include const char* serd_uri_to_path(const char* uri) { const char* path = uri; if (!is_windows_path(uri) && serd_uri_string_has_scheme(uri)) { if (strncmp(uri, "file:", 5)) { fprintf(stderr, "Non-file URI `%s'\n", uri); return NULL; } else if (!strncmp(uri, "file://localhost/", 17)) { path = uri + 16; } else if (!strncmp(uri, "file://", 7)) { path = uri + 7; } else { fprintf(stderr, "Invalid file URI `%s'\n", uri); return NULL; } if (is_windows_path(path + 1)) { ++path; // Special case for terrible Windows file URIs } } return path; } char* serd_file_uri_parse(const char* uri, char** hostname) { const char* path = uri; if (hostname) { *hostname = NULL; } if (!strncmp(uri, "file://", 7)) { const char* auth = uri + 7; if (*auth == '/') { // No hostname path = auth; } else { // Has hostname if (!(path = strchr(auth, '/'))) { return NULL; } if (hostname) { *hostname = (char*)calloc((size_t)(path - auth + 1), 1); memcpy(*hostname, auth, (size_t)(path - auth)); } } } if (is_windows_path(path + 1)) { ++path; } SerdBuffer buffer = { NULL, 0 }; for (const char* s = path; *s; ++s) { if (*s == '%') { if (*(s + 1) == '%') { serd_buffer_sink("%", 1, &buffer); ++s; } else if (is_hexdig(*(s + 1)) && is_hexdig(*(s + 2))) { const char code[3] = {*(s + 1), *(s + 2), 0}; const char c = (char)strtoul((const char*)code, NULL, 16); serd_buffer_sink(&c, 1, &buffer); s += 2; } else { s += 2; // Junk escape, ignore } } else { serd_buffer_sink(s, 1, &buffer); } } return serd_buffer_sink_finish(&buffer); } bool serd_uri_string_has_scheme(const char* utf8) { // RFC3986: scheme ::= ALPHA *( ALPHA / DIGIT / "+" / "-" / "." ) if (!utf8 || !is_alpha(utf8[0])) { return false; // Invalid scheme initial character, URI is relative } for (char c = 0; (c = *++utf8) != '\0';) { if (!is_uri_scheme_char(c)) { return false; } else if (c == ':') { return true; // End of scheme } } return false; } SerdStatus serd_uri_parse(const char* utf8, SerdURI* out) { *out = SERD_URI_NULL; const char* ptr = utf8; /* See http://tools.ietf.org/html/rfc3986#section-3 URI = scheme ":" hier-part [ "?" query ] [ "#" fragment ] */ /* S3.1: scheme ::= ALPHA *( ALPHA / DIGIT / "+" / "-" / "." ) */ if (is_alpha(*ptr)) { for (char c = *++ptr; true; c = *++ptr) { switch (c) { case '\0': case '/': case '?': case '#': ptr = utf8; goto path; // Relative URI (starts with path by definition) case ':': out->scheme.buf = utf8; out->scheme.len = (size_t)((ptr++) - utf8); goto maybe_authority; // URI with scheme case '+': case '-': case '.': continue; default: if (is_alpha(c) || is_digit(c)) { continue; } } } } /* S3.2: The authority component is preceded by a double slash ("//") and is terminated by the next slash ("/"), question mark ("?"), or number sign ("#") character, or by the end of the URI. */ maybe_authority: if (*ptr == '/' && *(ptr + 1) == '/') { ptr += 2; out->authority.buf = ptr; for (char c = 0; (c = *ptr) != '\0'; ++ptr) { switch (c) { case '/': goto path; case '?': goto query; case '#': goto fragment; default: ++out->authority.len; } } } /* RFC3986 S3.3: The path is terminated by the first question mark ("?") or number sign ("#") character, or by the end of the URI. */ path: switch (*ptr) { case '?': goto query; case '#': goto fragment; case '\0': goto end; default: break; } out->path.buf = ptr; out->path.len = 0; for (char c = 0; (c = *ptr) != '\0'; ++ptr) { switch (c) { case '?': goto query; case '#': goto fragment; default: ++out->path.len; } } /* RFC3986 S3.4: The query component is indicated by the first question mark ("?") character and terminated by a number sign ("#") character or by the end of the URI. */ query: if (*ptr == '?') { out->query.buf = ++ptr; for (char c = 0; (c = *ptr) != '\0'; ++ptr) { if (c == '#') { goto fragment; } ++out->query.len; } } /* RFC3986 S3.5: A fragment identifier component is indicated by the presence of a number sign ("#") character and terminated by the end of the URI. */ fragment: if (*ptr == '#') { out->fragment.buf = ptr; while (*ptr++ != '\0') { ++out->fragment.len; } } end: return SERD_SUCCESS; } /** Remove leading dot components from `path`. See http://tools.ietf.org/html/rfc3986#section-5.2.3 @param up Set to the number of up-references (e.g. "../") trimmed @return A pointer to the new start of `path` */ static const char* remove_dot_segments(const char* path, size_t len, size_t* up) { const char* begin = path; const char* const end = path + len; *up = 0; while (begin < end) { switch (begin[0]) { case '.': switch (begin[1]) { case '/': begin += 2; // Chop leading "./" break; case '.': switch (begin[2]) { case '\0': ++*up; begin += 2; // Chop input ".." break; case '/': ++*up; begin += 3; // Chop leading "../" break; default: return begin; } break; case '\0': ++begin; // Chop input "." // fallthru default: return begin; } break; case '/': switch (begin[1]) { case '.': switch (begin[2]) { case '/': begin += 2; // Leading "/./" => "/" break; case '.': switch (begin[3]) { case '/': ++*up; begin += 3; // Leading "/../" => "/" } break; default: return begin; } } // else fall through default: return begin; // Finished chopping dot components } } return begin; } /// Merge `base` and `path` in-place static void merge(SerdChunk* base, SerdChunk* path) { size_t up = 0; const char* begin = remove_dot_segments(path->buf, path->len, &up); const char* end = path->buf + path->len; if (base->len) { // Find the up'th last slash const char* base_last = (base->buf + base->len - 1); ++up; do { if (*base_last == '/') { --up; } } while (up > 0 && (--base_last > base->buf)); // Set path prefix base->len = (size_t)(base_last - base->buf + 1); } // Set path suffix path->buf = begin; path->len = (size_t)(end - begin); } /// See http://tools.ietf.org/html/rfc3986#section-5.2.2 void serd_uri_resolve(const SerdURI* r, const SerdURI* base, SerdURI* t) { if (!base->scheme.len) { *t = *r; // Don't resolve against non-absolute URIs return; } t->path_base.buf = NULL; t->path_base.len = 0; if (r->scheme.len) { *t = *r; } else { if (r->authority.len) { t->authority = r->authority; t->path = r->path; t->query = r->query; } else { t->path = r->path; if (!r->path.len) { t->path_base = base->path; if (r->query.len) { t->query = r->query; } else { t->query = base->query; } } else { if (r->path.buf[0] != '/') { t->path_base = base->path; } merge(&t->path_base, &t->path); t->query = r->query; } t->authority = base->authority; } t->scheme = base->scheme; t->fragment = r->fragment; } } /** Write the path of `uri` starting at index `i` */ static size_t write_path_tail(SerdSink sink, void* stream, const SerdURI* uri, size_t i) { size_t len = 0; if (i < uri->path_base.len) { len += sink(uri->path_base.buf + i, uri->path_base.len - i, stream); } if (uri->path.buf) { if (i < uri->path_base.len) { len += sink(uri->path.buf, uri->path.len, stream); } else { const size_t j = (i - uri->path_base.len); len += sink(uri->path.buf + j, uri->path.len - j, stream); } } return len; } /** Write the path of `uri` relative to the path of `base`. */ static size_t write_rel_path(SerdSink sink, void* stream, const SerdURI* uri, const SerdURI* base) { const size_t path_len = uri_path_len(uri); const size_t base_len = uri_path_len(base); const size_t min_len = (path_len < base_len) ? path_len : base_len; // Find the last separator common to both paths size_t last_shared_sep = 0; size_t i = 0; for (; i < min_len && uri_path_at(uri, i) == uri_path_at(base, i); ++i) { if (uri_path_at(uri, i) == '/') { last_shared_sep = i; } } if (i == path_len && i == base_len) { // Paths are identical return 0; } // Find the number of up references ("..") required size_t up = 0; for (size_t s = last_shared_sep + 1; s < base_len; ++s) { if (uri_path_at(base, s) == '/') { ++up; } } // Write up references size_t len = 0; for (size_t u = 0; u < up; ++u) { len += sink("../", 3, stream); } if (last_shared_sep == 0 && up == 0) { len += sink("/", 1, stream); } // Write suffix return len + write_path_tail(sink, stream, uri, last_shared_sep + 1); } static uint8_t serd_uri_path_starts_without_slash(const SerdURI* uri) { return ((uri->path_base.len || uri->path.len) && ((!uri->path_base.len || uri->path_base.buf[0] != '/') && (!uri->path.len || uri->path.buf[0] != '/'))); } /// See http://tools.ietf.org/html/rfc3986#section-5.3 size_t serd_uri_serialise_relative(const SerdURI* uri, const SerdURI* base, const SerdURI* root, SerdSink sink, void* stream) { size_t len = 0; const bool relative = root ? uri_is_under(uri, root) : uri_is_related(uri, base); if (relative) { len = write_rel_path(sink, stream, uri, base); } if (!relative || (!len && base->query.buf)) { if (uri->scheme.buf) { len += sink(uri->scheme.buf, uri->scheme.len, stream); len += sink(":", 1, stream); } if (uri->authority.buf) { len += sink("//", 2, stream); len += sink(uri->authority.buf, uri->authority.len, stream); if (uri->authority.buf[uri->authority.len - 1] != '/' && serd_uri_path_starts_without_slash(uri)) { // Special case: ensure path begins with a slash // https://tools.ietf.org/html/rfc3986#section-3.2 len += sink("/", 1, stream); } } len += write_path_tail(sink, stream, uri, 0); } if (uri->query.buf) { len += sink("?", 1, stream); len += sink(uri->query.buf, uri->query.len, stream); } if (uri->fragment.buf) { // Note uri->fragment.buf includes the leading `#' len += sink(uri->fragment.buf, uri->fragment.len, stream); } return len; } /// See http://tools.ietf.org/html/rfc3986#section-5.3 size_t serd_uri_serialise(const SerdURI* uri, SerdSink sink, void* stream) { return serd_uri_serialise_relative(uri, NULL, NULL, sink, stream); }