mirror of
https://github.com/puma/puma.git
synced 2022-11-09 13:48:40 -05:00
ebeac4b031
git-svn-id: svn+ssh://rubyforge.org/var/svn/mongrel/trunk@116 19e92222-5c0b-0410-8929-a290d50e31e9
499 lines
14 KiB
C
499 lines
14 KiB
C
#include "ruby.h"
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#include "ext_help.h"
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#include <assert.h>
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#include <string.h>
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#include "http11_parser.h"
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#include <ctype.h>
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#include "tst.h"
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static VALUE mMongrel;
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static VALUE cHttpParser;
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static VALUE cURIClassifier;
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static int id_handler_map;
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static VALUE global_http_prefix;
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static VALUE global_request_method;
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static VALUE global_request_uri;
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static VALUE global_query_string;
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static VALUE global_http_version;
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static VALUE global_content_length;
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static VALUE global_http_content_length;
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static VALUE global_content_type;
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static VALUE global_http_content_type;
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static VALUE global_gateway_interface;
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static VALUE global_gateway_interface_value;
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static VALUE global_interface_value;
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static VALUE global_remote_address;
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static VALUE global_server_name;
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static VALUE global_server_port;
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static VALUE global_server_protocol;
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static VALUE global_server_protocol_value;
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static VALUE global_http_host;
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static VALUE global_mongrel_version;
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static VALUE global_server_software;
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void http_field(void *data, const char *field, size_t flen, const char *value, size_t vlen)
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{
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char *ch, *end;
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VALUE req = (VALUE)data;
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VALUE v = rb_str_new(value, vlen);
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VALUE f = rb_str_dup(global_http_prefix);
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f = rb_str_buf_cat(f, field, flen);
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for(ch = RSTRING(f)->ptr, end = ch + RSTRING(f)->len; ch < end; ch++) {
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if(*ch == '-') {
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*ch = '_';
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} else {
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*ch = toupper(*ch);
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}
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}
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rb_hash_aset(req, f, v);
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}
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void request_method(void *data, const char *at, size_t length)
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{
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VALUE req = (VALUE)data;
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VALUE val = rb_str_new(at, length);
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rb_hash_aset(req, global_request_method, val);
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}
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void request_uri(void *data, const char *at, size_t length)
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{
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VALUE req = (VALUE)data;
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VALUE val = rb_str_new(at, length);
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rb_hash_aset(req, global_request_uri, val);
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}
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void query_string(void *data, const char *at, size_t length)
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{
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VALUE req = (VALUE)data;
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VALUE val = rb_str_new(at, length);
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rb_hash_aset(req, global_query_string, val);
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}
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void http_version(void *data, const char *at, size_t length)
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{
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VALUE req = (VALUE)data;
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VALUE val = rb_str_new(at, length);
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rb_hash_aset(req, global_http_version, val);
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}
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/** Finalizes the request header to have a bunch of stuff that's
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needed. */
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void header_done(void *data, const char *at, size_t length)
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{
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VALUE req = (VALUE)data;
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VALUE temp = Qnil;
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VALUE host = Qnil;
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VALUE port = Qnil;
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char *colon = NULL;
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rb_hash_aset(req, global_content_length, rb_hash_aref(req, global_http_content_length));
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rb_hash_aset(req, global_content_type, rb_hash_aref(req, global_http_content_type));
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rb_hash_aset(req, global_gateway_interface, global_gateway_interface_value);
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if((temp = rb_hash_aref(req, global_http_host)) != Qnil) {
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// ruby better close strings off with a '\0' dammit
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colon = strchr(RSTRING(temp)->ptr, ':');
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if(colon != NULL) {
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rb_hash_aset(req, global_server_name, rb_str_substr(temp, 0, colon - RSTRING(temp)->ptr));
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rb_hash_aset(req, global_server_port,
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rb_str_substr(temp, colon - RSTRING(temp)->ptr+1,
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RSTRING(temp)->len));
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}
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}
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rb_hash_aset(req, global_server_protocol, global_server_protocol_value);
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rb_hash_aset(req, global_server_software, global_mongrel_version);
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}
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void HttpParser_free(void *data) {
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TRACE();
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if(data) {
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free(data);
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}
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}
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VALUE HttpParser_alloc(VALUE klass)
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{
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VALUE obj;
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http_parser *hp = ALLOC_N(http_parser, 1);
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TRACE();
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hp->http_field = http_field;
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hp->request_method = request_method;
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hp->request_uri = request_uri;
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hp->query_string = query_string;
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hp->http_version = http_version;
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hp->header_done = header_done;
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obj = Data_Wrap_Struct(klass, NULL, HttpParser_free, hp);
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return obj;
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}
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/**
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* call-seq:
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* parser.new -> parser
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*
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* Creates a new parser.
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*/
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VALUE HttpParser_init(VALUE self)
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{
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http_parser *http = NULL;
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DATA_GET(self, http_parser, http);
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http_parser_init(http);
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return self;
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}
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/**
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* call-seq:
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* parser.reset -> nil
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*
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* Resets the parser to it's initial state so that you can reuse it
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* rather than making new ones.
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*/
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VALUE HttpParser_reset(VALUE self)
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{
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http_parser *http = NULL;
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DATA_GET(self, http_parser, http);
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http_parser_init(http);
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return Qnil;
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}
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/**
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* call-seq:
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* parser.finish -> true/false
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*
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* Finishes a parser early which could put in a "good" or bad state.
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* You should call reset after finish it or bad things will happen.
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*/
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VALUE HttpParser_finish(VALUE self)
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{
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http_parser *http = NULL;
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DATA_GET(self, http_parser, http);
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http_parser_finish(http);
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return http_parser_is_finished(http) ? Qtrue : Qfalse;
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}
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/**
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* call-seq:
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* parser.execute(req_hash, data) -> Integer
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*
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* Takes a Hash and a String of data, parses the String of data filling in the Hash
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* returning an Integer to indicate how much of the data has been read. No matter
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* what the return value, you should call HttpParser#finished? and HttpParser#error?
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* to figure out if it's done parsing or there was an error.
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*
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* This function now throws an exception when there is a parsing error. This makes
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* the logic for working with the parser much easier. You can still test for an
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* error, but now you need to wrap the parser with an exception handling block.
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*/
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VALUE HttpParser_execute(VALUE self, VALUE req_hash, VALUE data)
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{
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http_parser *http = NULL;
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DATA_GET(self, http_parser, http);
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http->data = (void *)req_hash;
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http_parser_execute(http, RSTRING(data)->ptr, RSTRING(data)->len);
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if(http_parser_has_error(http)) {
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rb_raise(rb_eStandardError, "HTTP Parsing failure");
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} else {
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return INT2FIX(http_parser_nread(http));
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}
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}
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/**
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* call-seq:
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* parser.error? -> true/false
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*
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* Tells you whether the parser is in an error state.
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*/
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VALUE HttpParser_has_error(VALUE self)
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{
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http_parser *http = NULL;
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DATA_GET(self, http_parser, http);
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return http_parser_has_error(http) ? Qtrue : Qfalse;
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}
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/**
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* call-seq:
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* parser.finished? -> true/false
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*
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* Tells you whether the parser is finished or not and in a good state.
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*/
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VALUE HttpParser_is_finished(VALUE self)
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{
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http_parser *http = NULL;
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DATA_GET(self, http_parser, http);
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return http_parser_is_finished(http) ? Qtrue : Qfalse;
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}
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/**
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* call-seq:
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* parser.nread -> Integer
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*
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* Returns the amount of data processed so far during this processing cycle. It is
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* set to 0 on initialize or reset calls and is incremented each time execute is called.
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*/
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VALUE HttpParser_nread(VALUE self)
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{
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http_parser *http = NULL;
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DATA_GET(self, http_parser, http);
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return INT2FIX(http->nread);
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}
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void URIClassifier_free(void *data)
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{
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TRACE();
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if(data) {
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tst_cleanup((struct tst *)data);
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}
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}
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#define TRIE_INCREASE 30
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VALUE URIClassifier_alloc(VALUE klass)
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{
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VALUE obj;
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struct tst *tst = tst_init(TRIE_INCREASE);
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TRACE();
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assert(tst && "failed to initialize trie structure");
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obj = Data_Wrap_Struct(klass, NULL, URIClassifier_free, tst);
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return obj;
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}
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/**
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* call-seq:
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* URIClassifier.new -> URIClassifier
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*
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* Initializes a new URIClassifier object that you can use to associate URI sequences
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* with objects. You can actually use it with any string sequence and any objects,
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* but it's mostly used with URIs.
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*
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* It uses TST from http://www.octavian.org/cs/software.html to build an ternary search
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* trie to hold all of the URIs. It uses this to do an initial search for the a URI
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* prefix, and then to break the URI into SCRIPT_NAME and PATH_INFO portions. It actually
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* will do two searches most of the time in order to find the right handler for the
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* registered prefix portion.
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*
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*/
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VALUE URIClassifier_init(VALUE self)
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{
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VALUE hash;
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// we create an internal hash to protect stuff from the GC
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hash = rb_hash_new();
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rb_ivar_set(self, id_handler_map, hash);
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return self;
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}
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/**
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* call-seq:
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* uc.register("/someuri", SampleHandler.new) -> nil
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*
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* Registers the SampleHandler (one for all requests) with the "/someuri".
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* When URIClassifier::resolve is called with "/someuri" it'll return
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* SampleHandler immediately. When called with "/someuri/iwant" it'll also
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* return SomeHandler immediatly, with no additional searches, but it will
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* return path info with "/iwant".
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*
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* You actually can reuse this class to register nearly anything and
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* quickly resolve it. This could be used for caching, fast mapping, etc.
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* The downside is it uses much more memory than a Hash, but it can be
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* a lot faster. It's main advantage is that it works on prefixes, which
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* is damn hard to get right with a Hash.
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*/
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VALUE URIClassifier_register(VALUE self, VALUE uri, VALUE handler)
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{
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int rc = 0;
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void *ptr = NULL;
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struct tst *tst = NULL;
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DATA_GET(self, struct tst, tst);
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rc = tst_insert((unsigned char *)StringValueCStr(uri), (void *)handler , tst, 0, &ptr);
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if(rc == TST_DUPLICATE_KEY) {
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rb_raise(rb_eStandardError, "Handler already registered with that name");
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} else if(rc == TST_ERROR) {
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rb_raise(rb_eStandardError, "Memory error registering handler");
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} else if(rc == TST_NULL_KEY) {
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rb_raise(rb_eStandardError, "URI was empty");
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}
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rb_hash_aset(rb_ivar_get(self, id_handler_map), uri, handler);
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return Qnil;
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}
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/**
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* call-seq:
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* uc.unregister("/someuri")
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*
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* Yep, just removes this uri and it's handler from the trie.
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*/
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VALUE URIClassifier_unregister(VALUE self, VALUE uri)
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{
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void *handler = NULL;
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struct tst *tst = NULL;
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DATA_GET(self, struct tst, tst);
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handler = tst_delete((unsigned char *)StringValueCStr(uri), tst);
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if(handler) {
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rb_hash_delete(rb_ivar_get(self, id_handler_map), uri);
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return (VALUE)handler;
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} else {
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return Qnil;
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}
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}
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/**
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* call-seq:
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* uc.resolve("/someuri") -> "/someuri", "", handler
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* uc.resolve("/someuri/pathinfo") -> "/someuri", "/pathinfo", handler
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* uc.resolve("/notfound/orhere") -> nil, nil, nil
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* uc.resolve("/") -> "/", "/", handler # if uc.register("/", handler)
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* uc.resolve("/path/from/root") -> "/", "/path/from/root", handler # if uc.register("/", handler)
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*
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* Attempts to resolve either the whole URI or at the longest prefix, returning
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* the prefix (as script_info), path (as path_info), and registered handler
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* (usually an HttpHandler). If it doesn't find a handler registered at the longest
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* match then it returns nil,nil,nil.
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*
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* Because the resolver uses a trie you are able to register a handler at *any* character
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* in the URI and it will be handled as long as it's the longest prefix. So, if you
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* registered handler #1 at "/something/lik", and #2 at "/something/like/that", then a
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* a search for "/something/like" would give you #1. A search for "/something/like/that/too"
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* would give you #2.
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*
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* This is very powerful since it means you can also attach handlers to parts of the ;
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* (semi-colon) separated path params, any part of the path, use off chars, anything really.
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* It also means that it's very efficient to do this only taking as long as the URI has
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* characters.
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*
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* A slight modification to the CGI 1.2 standard is given for handlers registered to "/".
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* CGI expects all CGI scripts to be at some script path, so it doesn't really say anything
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* about a script that handles the root. To make this work, the resolver will detect that
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* the requested handler is at "/", and return that for script_name, and then simply return
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* the full URI back as path_info.
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*
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* It expects strings with no embedded '\0' characters. Don't try other string-like stuff yet.
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*/
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VALUE URIClassifier_resolve(VALUE self, VALUE uri)
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{
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void *handler = NULL;
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int pref_len = 0;
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struct tst *tst = NULL;
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VALUE result;
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unsigned char *uri_str = NULL;
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DATA_GET(self, struct tst, tst);
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uri_str = (unsigned char *)StringValueCStr(uri);
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handler = tst_search(uri_str, tst, &pref_len);
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// setup for multiple return values
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result = rb_ary_new();
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if(handler) {
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rb_ary_push(result, rb_str_substr (uri, 0, pref_len));
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// compensate for a script_name="/" where we need to add the "/" to path_info to keep it consistent
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if(pref_len == 1 && uri_str[0] == '/') {
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// matches the root URI so we have to use the whole URI as the path_info
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rb_ary_push(result, uri);
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} else {
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// matches a script so process like normal
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rb_ary_push(result, rb_str_substr(uri, pref_len, RSTRING(uri)->len));
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}
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rb_ary_push(result, (VALUE)handler);
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} else {
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// not found so push back nothing
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rb_ary_push(result, Qnil);
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rb_ary_push(result, Qnil);
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rb_ary_push(result, Qnil);
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}
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return result;
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}
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#define DEF_GLOBAL(name, val) global_##name = rb_str_new2(val); rb_global_variable(&global_##name)
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void Init_http11()
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{
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mMongrel = rb_define_module("Mongrel");
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id_handler_map = rb_intern("@handler_map");
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DEF_GLOBAL(http_prefix, "HTTP_");
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DEF_GLOBAL(request_method, "REQUEST_METHOD");
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DEF_GLOBAL(request_uri, "REQUEST_URI");
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DEF_GLOBAL(query_string, "QUERY_STRING");
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DEF_GLOBAL(http_version, "HTTP_VERSION");
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DEF_GLOBAL(content_length, "CONTENT_LENGTH");
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DEF_GLOBAL(http_content_length, "HTTP_CONTENT_LENGTH");
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DEF_GLOBAL(content_type, "CONTENT_TYPE");
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DEF_GLOBAL(http_content_type, "HTTP_CONTENT_TYPE");
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DEF_GLOBAL(gateway_interface, "GATEWAY_INTERFACE");
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DEF_GLOBAL(gateway_interface_value, "CGI/1.2");
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DEF_GLOBAL(remote_address, "REMOTE_ADDR");
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DEF_GLOBAL(server_name, "SERVER_NAME");
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DEF_GLOBAL(server_port, "SERVER_PORT");
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DEF_GLOBAL(server_protocol, "SERVER_PROTOCOL");
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DEF_GLOBAL(server_protocol_value, "HTTP/1.1");
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DEF_GLOBAL(http_host, "HTTP_HOST");
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DEF_GLOBAL(mongrel_version, "Mongrel 0.3.12");
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DEF_GLOBAL(server_software, "SERVER_SOFTWARE");
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cHttpParser = rb_define_class_under(mMongrel, "HttpParser", rb_cObject);
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rb_define_alloc_func(cHttpParser, HttpParser_alloc);
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rb_define_method(cHttpParser, "initialize", HttpParser_init,0);
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rb_define_method(cHttpParser, "reset", HttpParser_reset,0);
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rb_define_method(cHttpParser, "finish", HttpParser_finish,0);
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rb_define_method(cHttpParser, "execute", HttpParser_execute,2);
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rb_define_method(cHttpParser, "error?", HttpParser_has_error,0);
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rb_define_method(cHttpParser, "finished?", HttpParser_is_finished,0);
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rb_define_method(cHttpParser, "nread", HttpParser_nread,0);
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cURIClassifier = rb_define_class_under(mMongrel, "URIClassifier", rb_cObject);
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rb_define_alloc_func(cURIClassifier, URIClassifier_alloc);
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rb_define_method(cURIClassifier, "initialize", URIClassifier_init, 0);
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rb_define_method(cURIClassifier, "register", URIClassifier_register, 2);
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rb_define_method(cURIClassifier, "unregister", URIClassifier_unregister, 1);
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rb_define_method(cURIClassifier, "resolve", URIClassifier_resolve, 1);
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}
|
|
|
|
|