/** * Copyright (c) 2005 Zed A. Shaw * You can redistribute it and/or modify it under the same terms as Ruby. */ #define RSTRING_NOT_MODIFIED 1 #include "ruby.h" #include "ext_help.h" #include #include #include "http11_parser.h" #ifndef MANAGED_STRINGS #ifndef RSTRING_PTR #define RSTRING_PTR(s) (RSTRING(s)->ptr) #endif #ifndef RSTRING_LEN #define RSTRING_LEN(s) (RSTRING(s)->len) #endif #define rb_extract_chars(e, sz) (*sz = RSTRING_LEN(e), RSTRING_PTR(e)) #define rb_free_chars(e) /* nothing */ #endif static VALUE eHttpParserError; #define HTTP_PREFIX "HTTP_" #define HTTP_PREFIX_LEN (sizeof(HTTP_PREFIX) - 1) static VALUE global_request_method; static VALUE global_request_uri; static VALUE global_fragment; static VALUE global_query_string; static VALUE global_http_version; static VALUE global_request_path; /** Defines common length and error messages for input length validation. */ #define DEF_MAX_LENGTH(N,length) const size_t MAX_##N##_LENGTH = length; const char *MAX_##N##_LENGTH_ERR = "HTTP element " # N " is longer than the " # length " allowed length (was %d)" /** Validates the max length of given input and throws an HttpParserError exception if over. */ #define VALIDATE_MAX_LENGTH(len, N) if(len > MAX_##N##_LENGTH) { rb_raise(eHttpParserError, MAX_##N##_LENGTH_ERR, len); } /** Defines global strings in the init method. */ #define DEF_GLOBAL(N, val) global_##N = rb_str_new2(val); rb_global_variable(&global_##N) /* Defines the maximum allowed lengths for various input elements.*/ DEF_MAX_LENGTH(FIELD_NAME, 256); DEF_MAX_LENGTH(FIELD_VALUE, 80 * 1024); DEF_MAX_LENGTH(REQUEST_URI, 1024 * 12); DEF_MAX_LENGTH(FRAGMENT, 1024); /* Don't know if this length is specified somewhere or not */ DEF_MAX_LENGTH(REQUEST_PATH, 2048); DEF_MAX_LENGTH(QUERY_STRING, (1024 * 10)); DEF_MAX_LENGTH(HEADER, (1024 * (80 + 32))); struct common_field { const size_t len; const char *name; int raw; VALUE value; }; /* * A list of common HTTP headers we expect to receive. * This allows us to avoid repeatedly creating identical string * objects to be used with rb_hash_aset(). */ static struct common_field common_http_fields[] = { # define f(N) { (sizeof(N) - 1), N, 0, Qnil } # define fr(N) { (sizeof(N) - 1), N, 1, Qnil } f("ACCEPT"), f("ACCEPT_CHARSET"), f("ACCEPT_ENCODING"), f("ACCEPT_LANGUAGE"), f("ALLOW"), f("AUTHORIZATION"), f("CACHE_CONTROL"), f("CONNECTION"), f("CONTENT_ENCODING"), fr("CONTENT_LENGTH"), fr("CONTENT_TYPE"), f("COOKIE"), f("DATE"), f("EXPECT"), f("FROM"), f("HOST"), f("IF_MATCH"), f("IF_MODIFIED_SINCE"), f("IF_NONE_MATCH"), f("IF_RANGE"), f("IF_UNMODIFIED_SINCE"), f("KEEP_ALIVE"), /* Firefox sends this */ f("MAX_FORWARDS"), f("PRAGMA"), f("PROXY_AUTHORIZATION"), f("RANGE"), f("REFERER"), f("TE"), f("TRAILER"), f("TRANSFER_ENCODING"), f("UPGRADE"), f("USER_AGENT"), f("VIA"), f("X_FORWARDED_FOR"), /* common for proxies */ f("X_REAL_IP"), /* common for proxies */ f("WARNING") # undef f }; /* * qsort(3) and bsearch(3) improve average performance slightly, but may * not be worth it for lack of portability to certain platforms... */ #if defined(HAVE_QSORT_BSEARCH) /* sort by length, then by name if there's a tie */ static int common_field_cmp(const void *a, const void *b) { struct common_field *cfa = (struct common_field *)a; struct common_field *cfb = (struct common_field *)b; signed long diff = cfa->len - cfb->len; return diff ? diff : memcmp(cfa->name, cfb->name, cfa->len); } #endif /* HAVE_QSORT_BSEARCH */ static void init_common_fields(void) { unsigned i; struct common_field *cf = common_http_fields; char tmp[256]; /* MAX_FIELD_NAME_LENGTH */ memcpy(tmp, HTTP_PREFIX, HTTP_PREFIX_LEN); for(i = 0; i < ARRAY_SIZE(common_http_fields); cf++, i++) { if(cf->raw) { cf->value = rb_str_new(cf->name, cf->len); } else { memcpy(tmp + HTTP_PREFIX_LEN, cf->name, cf->len + 1); cf->value = rb_str_new(tmp, HTTP_PREFIX_LEN + cf->len); } rb_global_variable(&cf->value); } #if defined(HAVE_QSORT_BSEARCH) qsort(common_http_fields, ARRAY_SIZE(common_http_fields), sizeof(struct common_field), common_field_cmp); #endif /* HAVE_QSORT_BSEARCH */ } static VALUE find_common_field_value(const char *field, size_t flen) { #if defined(HAVE_QSORT_BSEARCH) struct common_field key; struct common_field *found; key.name = field; key.len = (signed long)flen; found = (struct common_field *)bsearch(&key, common_http_fields, ARRAY_SIZE(common_http_fields), sizeof(struct common_field), common_field_cmp); return found ? found->value : Qnil; #else /* !HAVE_QSORT_BSEARCH */ unsigned i; struct common_field *cf = common_http_fields; for(i = 0; i < ARRAY_SIZE(common_http_fields); i++, cf++) { if (cf->len == flen && !memcmp(cf->name, field, flen)) return cf->value; } return Qnil; #endif /* !HAVE_QSORT_BSEARCH */ } void http_field(puma_parser* hp, const char *field, size_t flen, const char *value, size_t vlen) { VALUE v = Qnil; VALUE f = Qnil; VALIDATE_MAX_LENGTH(flen, FIELD_NAME); VALIDATE_MAX_LENGTH(vlen, FIELD_VALUE); v = rb_str_new(value, vlen); f = find_common_field_value(field, flen); if (f == Qnil) { /* * We got a strange header that we don't have a memoized value for. * Fallback to creating a new string to use as a hash key. */ size_t new_size = HTTP_PREFIX_LEN + flen; assert(new_size < BUFFER_LEN); memcpy(hp->buf, HTTP_PREFIX, HTTP_PREFIX_LEN); memcpy(hp->buf + HTTP_PREFIX_LEN, field, flen); f = rb_str_new(hp->buf, new_size); } rb_hash_aset(hp->request, f, v); } void request_method(puma_parser* hp, const char *at, size_t length) { VALUE val = Qnil; val = rb_str_new(at, length); rb_hash_aset(hp->request, global_request_method, val); } void request_uri(puma_parser* hp, const char *at, size_t length) { VALUE val = Qnil; VALIDATE_MAX_LENGTH(length, REQUEST_URI); val = rb_str_new(at, length); rb_hash_aset(hp->request, global_request_uri, val); } void fragment(puma_parser* hp, const char *at, size_t length) { VALUE val = Qnil; VALIDATE_MAX_LENGTH(length, FRAGMENT); val = rb_str_new(at, length); rb_hash_aset(hp->request, global_fragment, val); } void request_path(puma_parser* hp, const char *at, size_t length) { VALUE val = Qnil; VALIDATE_MAX_LENGTH(length, REQUEST_PATH); val = rb_str_new(at, length); rb_hash_aset(hp->request, global_request_path, val); } void query_string(puma_parser* hp, const char *at, size_t length) { VALUE val = Qnil; VALIDATE_MAX_LENGTH(length, QUERY_STRING); val = rb_str_new(at, length); rb_hash_aset(hp->request, global_query_string, val); } void http_version(puma_parser* hp, const char *at, size_t length) { VALUE val = rb_str_new(at, length); rb_hash_aset(hp->request, global_http_version, val); } /** Finalizes the request header to have a bunch of stuff that's needed. */ void header_done(puma_parser* hp, const char *at, size_t length) { hp->body = rb_str_new(at, length); } void HttpParser_free(void *data) { TRACE(); if(data) { xfree(data); } } void HttpParser_mark(puma_parser* hp) { if(hp->request) rb_gc_mark(hp->request); if(hp->body) rb_gc_mark(hp->body); } VALUE HttpParser_alloc(VALUE klass) { puma_parser *hp = ALLOC_N(puma_parser, 1); TRACE(); hp->http_field = http_field; hp->request_method = request_method; hp->request_uri = request_uri; hp->fragment = fragment; hp->request_path = request_path; hp->query_string = query_string; hp->http_version = http_version; hp->header_done = header_done; hp->request = Qnil; puma_parser_init(hp); return Data_Wrap_Struct(klass, HttpParser_mark, HttpParser_free, hp); } /** * call-seq: * parser.new -> parser * * Creates a new parser. */ VALUE HttpParser_init(VALUE self) { puma_parser *http = NULL; DATA_GET(self, puma_parser, http); puma_parser_init(http); return self; } /** * call-seq: * parser.reset -> nil * * Resets the parser to it's initial state so that you can reuse it * rather than making new ones. */ VALUE HttpParser_reset(VALUE self) { puma_parser *http = NULL; DATA_GET(self, puma_parser, http); puma_parser_init(http); return Qnil; } /** * call-seq: * parser.finish -> true/false * * Finishes a parser early which could put in a "good" or bad state. * You should call reset after finish it or bad things will happen. */ VALUE HttpParser_finish(VALUE self) { puma_parser *http = NULL; DATA_GET(self, puma_parser, http); puma_parser_finish(http); return puma_parser_is_finished(http) ? Qtrue : Qfalse; } /** * call-seq: * parser.execute(req_hash, data, start) -> Integer * * Takes a Hash and a String of data, parses the String of data filling in the Hash * returning an Integer to indicate how much of the data has been read. No matter * what the return value, you should call HttpParser#finished? and HttpParser#error? * to figure out if it's done parsing or there was an error. * * This function now throws an exception when there is a parsing error. This makes * the logic for working with the parser much easier. You can still test for an * error, but now you need to wrap the parser with an exception handling block. * * The third argument allows for parsing a partial request and then continuing * the parsing from that position. It needs all of the original data as well * so you have to append to the data buffer as you read. */ VALUE HttpParser_execute(VALUE self, VALUE req_hash, VALUE data, VALUE start) { puma_parser *http = NULL; int from = 0; char *dptr = NULL; long dlen = 0; DATA_GET(self, puma_parser, http); from = FIX2INT(start); dptr = rb_extract_chars(data, &dlen); if(from >= dlen) { rb_free_chars(dptr); rb_raise(eHttpParserError, "%s", "Requested start is after data buffer end."); } else { http->request = req_hash; puma_parser_execute(http, dptr, dlen, from); rb_free_chars(dptr); VALIDATE_MAX_LENGTH(puma_parser_nread(http), HEADER); if(puma_parser_has_error(http)) { rb_raise(eHttpParserError, "%s", "Invalid HTTP format, parsing fails."); } else { return INT2FIX(puma_parser_nread(http)); } } } /** * call-seq: * parser.error? -> true/false * * Tells you whether the parser is in an error state. */ VALUE HttpParser_has_error(VALUE self) { puma_parser *http = NULL; DATA_GET(self, puma_parser, http); return puma_parser_has_error(http) ? Qtrue : Qfalse; } /** * call-seq: * parser.finished? -> true/false * * Tells you whether the parser is finished or not and in a good state. */ VALUE HttpParser_is_finished(VALUE self) { puma_parser *http = NULL; DATA_GET(self, puma_parser, http); return puma_parser_is_finished(http) ? Qtrue : Qfalse; } /** * call-seq: * parser.nread -> Integer * * Returns the amount of data processed so far during this processing cycle. It is * set to 0 on initialize or reset calls and is incremented each time execute is called. */ VALUE HttpParser_nread(VALUE self) { puma_parser *http = NULL; DATA_GET(self, puma_parser, http); return INT2FIX(http->nread); } /** * call-seq: * parser.body -> nil or String * * If the request included a body, returns it. */ VALUE HttpParser_body(VALUE self) { puma_parser *http = NULL; DATA_GET(self, puma_parser, http); return http->body; } void Init_io_buffer(VALUE puma); void Init_mini_ssl(VALUE mod); void Init_puma_http11() { VALUE mPuma = rb_define_module("Puma"); VALUE cHttpParser = rb_define_class_under(mPuma, "HttpParser", rb_cObject); DEF_GLOBAL(request_method, "REQUEST_METHOD"); DEF_GLOBAL(request_uri, "REQUEST_URI"); DEF_GLOBAL(fragment, "FRAGMENT"); DEF_GLOBAL(query_string, "QUERY_STRING"); DEF_GLOBAL(http_version, "HTTP_VERSION"); DEF_GLOBAL(request_path, "REQUEST_PATH"); eHttpParserError = rb_define_class_under(mPuma, "HttpParserError", rb_eIOError); rb_global_variable(&eHttpParserError); rb_define_alloc_func(cHttpParser, HttpParser_alloc); rb_define_method(cHttpParser, "initialize", HttpParser_init, 0); rb_define_method(cHttpParser, "reset", HttpParser_reset, 0); rb_define_method(cHttpParser, "finish", HttpParser_finish, 0); rb_define_method(cHttpParser, "execute", HttpParser_execute, 3); rb_define_method(cHttpParser, "error?", HttpParser_has_error, 0); rb_define_method(cHttpParser, "finished?", HttpParser_is_finished, 0); rb_define_method(cHttpParser, "nread", HttpParser_nread, 0); rb_define_method(cHttpParser, "body", HttpParser_body, 0); init_common_fields(); Init_io_buffer(mPuma); Init_mini_ssl(mPuma); }