/* * HTTP semantics * * Copyright 2000-2018 Willy Tarreau * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. * */ #include #include #include #include /* It is about twice as fast on recent architectures to lookup a byte in a * table than to perform a boolean AND or OR between two tests. Refer to * RFC2616/RFC5234/RFC7230 for those chars. A token is any ASCII char that is * neither a separator nor a CTL char. An http ver_token is any ASCII which can * be found in an HTTP version, which includes 'H', 'T', 'P', '/', '.' and any * digit. Note: please do not overwrite values in assignment since gcc-2.95 * will not handle them correctly. It's worth noting that chars 128..255 are * nothing, not even control chars. */ const unsigned char http_char_classes[256] = { [ 0] = HTTP_FLG_CTL, [ 1] = HTTP_FLG_CTL, [ 2] = HTTP_FLG_CTL, [ 3] = HTTP_FLG_CTL, [ 4] = HTTP_FLG_CTL, [ 5] = HTTP_FLG_CTL, [ 6] = HTTP_FLG_CTL, [ 7] = HTTP_FLG_CTL, [ 8] = HTTP_FLG_CTL, [ 9] = HTTP_FLG_SPHT | HTTP_FLG_LWS | HTTP_FLG_SEP | HTTP_FLG_CTL, [ 10] = HTTP_FLG_CRLF | HTTP_FLG_LWS | HTTP_FLG_CTL, [ 11] = HTTP_FLG_CTL, [ 12] = HTTP_FLG_CTL, [ 13] = HTTP_FLG_CRLF | HTTP_FLG_LWS | HTTP_FLG_CTL, [ 14] = HTTP_FLG_CTL, [ 15] = HTTP_FLG_CTL, [ 16] = HTTP_FLG_CTL, [ 17] = HTTP_FLG_CTL, [ 18] = HTTP_FLG_CTL, [ 19] = HTTP_FLG_CTL, [ 20] = HTTP_FLG_CTL, [ 21] = HTTP_FLG_CTL, [ 22] = HTTP_FLG_CTL, [ 23] = HTTP_FLG_CTL, [ 24] = HTTP_FLG_CTL, [ 25] = HTTP_FLG_CTL, [ 26] = HTTP_FLG_CTL, [ 27] = HTTP_FLG_CTL, [ 28] = HTTP_FLG_CTL, [ 29] = HTTP_FLG_CTL, [ 30] = HTTP_FLG_CTL, [ 31] = HTTP_FLG_CTL, [' '] = HTTP_FLG_SPHT | HTTP_FLG_LWS | HTTP_FLG_SEP, ['!'] = HTTP_FLG_TOK, ['"'] = HTTP_FLG_SEP, ['#'] = HTTP_FLG_TOK, ['$'] = HTTP_FLG_TOK, ['%'] = HTTP_FLG_TOK, ['&'] = HTTP_FLG_TOK, [ 39] = HTTP_FLG_TOK, ['('] = HTTP_FLG_SEP, [')'] = HTTP_FLG_SEP, ['*'] = HTTP_FLG_TOK, ['+'] = HTTP_FLG_TOK, [','] = HTTP_FLG_SEP, ['-'] = HTTP_FLG_TOK, ['.'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['/'] = HTTP_FLG_SEP | HTTP_FLG_VER, ['0'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['1'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['2'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['3'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['4'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['5'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['6'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['7'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['8'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, ['9'] = HTTP_FLG_TOK | HTTP_FLG_VER | HTTP_FLG_DIG, [':'] = HTTP_FLG_SEP, [';'] = HTTP_FLG_SEP, ['<'] = HTTP_FLG_SEP, ['='] = HTTP_FLG_SEP, ['>'] = HTTP_FLG_SEP, ['?'] = HTTP_FLG_SEP, ['@'] = HTTP_FLG_SEP, ['A'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['B'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['C'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['D'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['E'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['F'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['G'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['H'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['I'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['J'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['K'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['L'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['M'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['N'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['O'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['P'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['Q'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['R'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['S'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['T'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['U'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['V'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['W'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['X'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['Y'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['Z'] = HTTP_FLG_TOK | HTTP_FLG_VER, ['['] = HTTP_FLG_SEP, [ 92] = HTTP_FLG_SEP, [']'] = HTTP_FLG_SEP, ['^'] = HTTP_FLG_TOK, ['_'] = HTTP_FLG_TOK, ['`'] = HTTP_FLG_TOK, ['a'] = HTTP_FLG_TOK, ['b'] = HTTP_FLG_TOK, ['c'] = HTTP_FLG_TOK, ['d'] = HTTP_FLG_TOK, ['e'] = HTTP_FLG_TOK, ['f'] = HTTP_FLG_TOK, ['g'] = HTTP_FLG_TOK, ['h'] = HTTP_FLG_TOK, ['i'] = HTTP_FLG_TOK, ['j'] = HTTP_FLG_TOK, ['k'] = HTTP_FLG_TOK, ['l'] = HTTP_FLG_TOK, ['m'] = HTTP_FLG_TOK, ['n'] = HTTP_FLG_TOK, ['o'] = HTTP_FLG_TOK, ['p'] = HTTP_FLG_TOK, ['q'] = HTTP_FLG_TOK, ['r'] = HTTP_FLG_TOK, ['s'] = HTTP_FLG_TOK, ['t'] = HTTP_FLG_TOK, ['u'] = HTTP_FLG_TOK, ['v'] = HTTP_FLG_TOK, ['w'] = HTTP_FLG_TOK, ['x'] = HTTP_FLG_TOK, ['y'] = HTTP_FLG_TOK, ['z'] = HTTP_FLG_TOK, ['{'] = HTTP_FLG_SEP, ['|'] = HTTP_FLG_TOK, ['}'] = HTTP_FLG_SEP, ['~'] = HTTP_FLG_TOK, [127] = HTTP_FLG_CTL, }; const int http_err_codes[HTTP_ERR_SIZE] = { [HTTP_ERR_200] = 200, /* used by "monitor-uri" */ [HTTP_ERR_400] = 400, [HTTP_ERR_401] = 401, [HTTP_ERR_403] = 403, [HTTP_ERR_404] = 404, [HTTP_ERR_405] = 405, [HTTP_ERR_407] = 407, [HTTP_ERR_408] = 408, [HTTP_ERR_410] = 410, [HTTP_ERR_413] = 413, [HTTP_ERR_421] = 421, [HTTP_ERR_422] = 422, [HTTP_ERR_425] = 425, [HTTP_ERR_429] = 429, [HTTP_ERR_500] = 500, [HTTP_ERR_501] = 501, [HTTP_ERR_502] = 502, [HTTP_ERR_503] = 503, [HTTP_ERR_504] = 504, }; const char *http_err_msgs[HTTP_ERR_SIZE] = { [HTTP_ERR_200] = "HTTP/1.1 200 OK\r\n" "Content-length: 58\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

200 OK

\nService ready.\n\n", [HTTP_ERR_400] = "HTTP/1.1 400 Bad request\r\n" "Content-length: 90\r\n" "Cache-Control: no-cache\r\n" "Connection: close\r\n" "Content-Type: text/html\r\n" "\r\n" "

400 Bad request

\nYour browser sent an invalid request.\n\n", [HTTP_ERR_401] = "HTTP/1.1 401 Unauthorized\r\n" "Content-length: 112\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

401 Unauthorized

\nYou need a valid user and password to access this content.\n\n", [HTTP_ERR_403] = "HTTP/1.1 403 Forbidden\r\n" "Content-length: 93\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

403 Forbidden

\nRequest forbidden by administrative rules.\n\n", [HTTP_ERR_404] = "HTTP/1.1 404 Not Found\r\n" "Content-length: 83\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

404 Not Found

\nThe resource could not be found.\n\n", [HTTP_ERR_405] = "HTTP/1.1 405 Method Not Allowed\r\n" "Content-length: 146\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

405 Method Not Allowed

\nA request was made of a resource using a request method not supported by that resource\n\n", [HTTP_ERR_407] = "HTTP/1.1 407 Unauthorized\r\n" "Content-length: 112\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

407 Unauthorized

\nYou need a valid user and password to access this content.\n\n", [HTTP_ERR_408] = "HTTP/1.1 408 Request Time-out\r\n" "Content-length: 110\r\n" "Cache-Control: no-cache\r\n" "Connection: close\r\n" "Content-Type: text/html\r\n" "\r\n" "

408 Request Time-out

\nYour browser didn't send a complete request in time.\n\n", [HTTP_ERR_410] = "HTTP/1.1 410 Gone\r\n" "Content-length: 114\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

410 Gone

\nThe resource is no longer available and will not be available again.\n\n", [HTTP_ERR_413] = "HTTP/1.1 413 Payload Too Large\r\n" "Content-length: 106\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

413 Payload Too Large

\nThe request entity exceeds the maximum allowed.\n\n", [HTTP_ERR_421] = "HTTP/1.1 421 Misdirected Request\r\n" "Content-length: 104\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

421 Misdirected Request

\nRequest sent to a non-authoritative server.\n\n", [HTTP_ERR_422] = "HTTP/1.1 422 Unprocessable Content\r\n" "Content-length: 116\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

422 Unprocessable Content

\nThe server cannot process the contained instructions.\n\n", [HTTP_ERR_425] = "HTTP/1.1 425 Too Early\r\n" "Content-length: 80\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

425 Too Early

\nYour browser sent early data.\n\n", [HTTP_ERR_429] = "HTTP/1.1 429 Too Many Requests\r\n" "Content-length: 117\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

429 Too Many Requests

\nYou have sent too many requests in a given amount of time.\n\n", [HTTP_ERR_500] = "HTTP/1.1 500 Internal Server Error\r\n" "Content-length: 97\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

500 Internal Server Error

\nAn internal server error occurred.\n\n", [HTTP_ERR_501] = "HTTP/1.1 501 Not Implemented\r\n" "Content-length: 136\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

501 Not Implemented

\n.The server does not support the functionality required to fulfill the request.\n\n", [HTTP_ERR_502] = "HTTP/1.1 502 Bad Gateway\r\n" "Content-length: 107\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

502 Bad Gateway

\nThe server returned an invalid or incomplete response.\n\n", [HTTP_ERR_503] = "HTTP/1.1 503 Service Unavailable\r\n" "Content-length: 107\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

503 Service Unavailable

\nNo server is available to handle this request.\n\n", [HTTP_ERR_504] = "HTTP/1.1 504 Gateway Time-out\r\n" "Content-length: 92\r\n" "Cache-Control: no-cache\r\n" "Content-Type: text/html\r\n" "\r\n" "

504 Gateway Time-out

\nThe server didn't respond in time.\n\n", }; const struct ist http_known_methods[HTTP_METH_OTHER] = { [HTTP_METH_OPTIONS] = IST("OPTIONS"), [HTTP_METH_GET] = IST("GET"), [HTTP_METH_HEAD] = IST("HEAD"), [HTTP_METH_POST] = IST("POST"), [HTTP_METH_PUT] = IST("PUT"), [HTTP_METH_DELETE] = IST("DELETE"), [HTTP_METH_TRACE] = IST("TRACE"), [HTTP_METH_CONNECT] = IST("CONNECT"), }; /* * returns a known method among HTTP_METH_* or HTTP_METH_OTHER for all unknown * ones. */ enum http_meth_t find_http_meth(const char *str, const int len) { const struct ist m = ist2(str, len); if (isteq(m, ist("GET"))) return HTTP_METH_GET; else if (isteq(m, ist("HEAD"))) return HTTP_METH_HEAD; else if (isteq(m, ist("POST"))) return HTTP_METH_POST; else if (isteq(m, ist("CONNECT"))) return HTTP_METH_CONNECT; else if (isteq(m, ist("PUT"))) return HTTP_METH_PUT; else if (isteq(m, ist("OPTIONS"))) return HTTP_METH_OPTIONS; else if (isteq(m, ist("DELETE"))) return HTTP_METH_DELETE; else if (isteq(m, ist("TRACE"))) return HTTP_METH_TRACE; else return HTTP_METH_OTHER; } /* This function returns HTTP_ERR_ (enum) matching http status code. * Returned value should match codes from http_err_codes. */ int http_get_status_idx(unsigned int status) { switch (status) { case 200: return HTTP_ERR_200; case 400: return HTTP_ERR_400; case 401: return HTTP_ERR_401; case 403: return HTTP_ERR_403; case 404: return HTTP_ERR_404; case 405: return HTTP_ERR_405; case 407: return HTTP_ERR_407; case 408: return HTTP_ERR_408; case 410: return HTTP_ERR_410; case 413: return HTTP_ERR_413; case 421: return HTTP_ERR_421; case 422: return HTTP_ERR_422; case 425: return HTTP_ERR_425; case 429: return HTTP_ERR_429; case 500: return HTTP_ERR_500; case 501: return HTTP_ERR_501; case 502: return HTTP_ERR_502; case 503: return HTTP_ERR_503; case 504: return HTTP_ERR_504; default: return HTTP_ERR_500; } } /* This function returns a reason associated with the HTTP status. * This function never fails, a message is always returned. */ const char *http_get_reason(unsigned int status) { switch (status) { case 100: return "Continue"; case 101: return "Switching Protocols"; case 102: return "Processing"; case 200: return "OK"; case 201: return "Created"; case 202: return "Accepted"; case 203: return "Non-Authoritative Information"; case 204: return "No Content"; case 205: return "Reset Content"; case 206: return "Partial Content"; case 207: return "Multi-Status"; case 210: return "Content Different"; case 226: return "IM Used"; case 300: return "Multiple Choices"; case 301: return "Moved Permanently"; case 302: return "Moved Temporarily"; case 303: return "See Other"; case 304: return "Not Modified"; case 305: return "Use Proxy"; case 307: return "Temporary Redirect"; case 308: return "Permanent Redirect"; case 310: return "Too many Redirects"; case 400: return "Bad Request"; case 401: return "Unauthorized"; case 402: return "Payment Required"; case 403: return "Forbidden"; case 404: return "Not Found"; case 405: return "Method Not Allowed"; case 406: return "Not Acceptable"; case 407: return "Proxy Authentication Required"; case 408: return "Request Time-out"; case 409: return "Conflict"; case 410: return "Gone"; case 411: return "Length Required"; case 412: return "Precondition Failed"; case 413: return "Request Entity Too Large"; case 414: return "Request-URI Too Long"; case 415: return "Unsupported Media Type"; case 416: return "Requested range unsatisfiable"; case 417: return "Expectation failed"; case 418: return "I'm a teapot"; case 421: return "Misdirected Request"; case 422: return "Unprocessable Content"; case 423: return "Locked"; case 424: return "Method failure"; case 425: return "Too Early"; case 426: return "Upgrade Required"; case 428: return "Precondition Required"; case 429: return "Too Many Requests"; case 431: return "Request Header Fields Too Large"; case 449: return "Retry With"; case 450: return "Blocked by Windows Parental Controls"; case 451: return "Unavailable For Legal Reasons"; case 456: return "Unrecoverable Error"; case 499: return "client has closed connection"; case 500: return "Internal Server Error"; case 501: return "Not Implemented"; case 502: return "Bad Gateway or Proxy Error"; case 503: return "Service Unavailable"; case 504: return "Gateway Time-out"; case 505: return "HTTP Version not supported"; case 506: return "Variant also negotiate"; case 507: return "Insufficient storage"; case 508: return "Loop detected"; case 509: return "Bandwidth Limit Exceeded"; case 510: return "Not extended"; case 511: return "Network authentication required"; case 520: return "Web server is returning an unknown error"; default: switch (status) { case 100 ... 199: return "Informational"; case 200 ... 299: return "Success"; case 300 ... 399: return "Redirection"; case 400 ... 499: return "Client Error"; case 500 ... 599: return "Server Error"; default: return "Other"; } } } /* Returns the ist string corresponding to port part (without ':') in the host * , IST_NULL if no ':' is found or an empty IST if there is no digit. In * the last case, the result is the original ist trimmed to 0. So be sure to test * the result length before doing any pointer arithmetic. */ struct ist http_get_host_port(const struct ist host) { char *start, *end, *ptr; start = istptr(host); end = istend(host); for (ptr = end; ptr > start && isdigit((unsigned char)*--ptr);); /* no port found */ if (likely(*ptr != ':')) return IST_NULL; if (ptr+1 == end) return isttrim(host, 0); return istnext(ist2(ptr, end - ptr)); } /* Return non-zero if the port is a default port. If the scheme is * set, it is used to detect default ports (HTTP => 80 and HTTPS => 443) * port. Otherwise, both are considered as default ports. */ int http_is_default_port(const struct ist schm, const struct ist port) { if (!istlen(port)) return 1; if (!isttest(schm)) return (isteq(port, ist("443")) || isteq(port, ist("80"))); else return (isteq(port, ist("443")) && isteqi(schm, ist("https://"))) || (isteq(port, ist("80")) && isteqi(schm, ist("http://"))); } /* Returns non-zero if the scheme is syntactically correct according to * RFC3986#3.1, otherwise zero. It expects only the scheme and nothing else * (particularly not the following "://"). * Scheme = alpha *(alpha|digit|'+'|'-'|'.') */ int http_validate_scheme(const struct ist schm) { size_t i; for (i = 0; i < schm.len; i++) { if (likely((schm.ptr[i] >= 'a' && schm.ptr[i] <= 'z') || (schm.ptr[i] >= 'A' && schm.ptr[i] <= 'Z'))) continue; if (unlikely(!i)) // first char must be alpha return 0; if ((schm.ptr[i] >= '0' && schm.ptr[i] <= '9') || schm.ptr[i] == '+' || schm.ptr[i] == '-' || schm.ptr[i] == '.') continue; return 0; } return !!i; } /* Parse the uri and looks for the scheme. If not found, an empty ist is * returned. Otherwise, the ist pointing to the scheme is returned. * * must have been initialized via http_uri_parser_init. See the * related http_uri_parser documentation for the specific API usage. */ struct ist http_parse_scheme(struct http_uri_parser *parser) { const char *ptr, *start, *end; if (parser->state >= URI_PARSER_STATE_SCHEME_DONE) goto not_found; if (parser->format != URI_PARSER_FORMAT_ABSURI_OR_AUTHORITY) goto not_found; ptr = start = istptr(parser->uri); end = istend(parser->uri); if (isalpha((unsigned char)*ptr)) { /* this is a scheme as described by RFC3986, par. 3.1, or only * an authority (in case of a CONNECT method). */ ptr++; /* retrieve the scheme up to the suffix '://'. If the suffix is * not found, this means there is no scheme and it is an * authority-only uri. */ while (ptr < end && (isalnum((unsigned char)*ptr) || *ptr == '+' || *ptr == '-' || *ptr == '.')) ptr++; if (ptr == end || *ptr++ != ':') goto not_found; if (ptr == end || *ptr++ != '/') goto not_found; if (ptr == end || *ptr++ != '/') goto not_found; } else { goto not_found; } parser->uri = ist2(ptr, end - ptr); parser->state = URI_PARSER_STATE_SCHEME_DONE; return ist2(start, ptr - start); not_found: parser->state = URI_PARSER_STATE_SCHEME_DONE; return IST_NULL; } /* Parse the uri and looks for the authority, between the scheme and the * path. if no_userinfo is not zero, the part before the '@' (including it) is * skipped. If not found, an empty ist is returned. Otherwise, the ist pointing * on the authority is returned. * * must have been initialized via http_uri_parser_init. See the * related http_uri_parser documentation for the specific API usage. */ struct ist http_parse_authority(struct http_uri_parser *parser, int no_userinfo) { const char *ptr, *start, *end; if (parser->state >= URI_PARSER_STATE_AUTHORITY_DONE) goto not_found; if (parser->format != URI_PARSER_FORMAT_ABSURI_OR_AUTHORITY) goto not_found; if (parser->state < URI_PARSER_STATE_SCHEME_DONE) http_parse_scheme(parser); ptr = start = istptr(parser->uri); end = istend(parser->uri); while (ptr < end && *ptr != '/') { if (*ptr++ == '@' && no_userinfo) start = ptr; } /* OK, ptr point on the '/' or the end */ authority: parser->uri = ist2(ptr, end - ptr); parser->state = URI_PARSER_STATE_AUTHORITY_DONE; return ist2(start, ptr - start); not_found: parser->state = URI_PARSER_STATE_AUTHORITY_DONE; return IST_NULL; } /* Parse the URI from the given transaction (which is assumed to be in request * phase) and look for the "/" beginning the PATH. If not found, ist2(0,0) is * returned. Otherwise the pointer and length are returned. * * must have been initialized via http_uri_parser_init. See the * related http_uri_parser documentation for the specific API usage. */ struct ist http_parse_path(struct http_uri_parser *parser) { const char *ptr, *end; if (parser->state >= URI_PARSER_STATE_PATH_DONE) goto not_found; if (parser->format == URI_PARSER_FORMAT_EMPTY || parser->format == URI_PARSER_FORMAT_ASTERISK) { goto not_found; } ptr = istptr(parser->uri); end = istend(parser->uri); /* If the uri is in absolute-path format, first skip the scheme and * authority parts. No scheme will be found if the uri is in authority * format, which indicates that the path won't be present. */ if (parser->format == URI_PARSER_FORMAT_ABSURI_OR_AUTHORITY) { if (parser->state < URI_PARSER_STATE_SCHEME_DONE) { /* If no scheme found, uri is in authority format. No * path is present. */ if (!isttest(http_parse_scheme(parser))) goto not_found; } if (parser->state < URI_PARSER_STATE_AUTHORITY_DONE) http_parse_authority(parser, 1); ptr = istptr(parser->uri); if (ptr == end) goto not_found; } parser->state = URI_PARSER_STATE_PATH_DONE; return ist2(ptr, end - ptr); not_found: parser->state = URI_PARSER_STATE_PATH_DONE; return IST_NULL; } /* Parse Content-Length header field of an HTTP request. The function * checks all possible occurrences of a comma-delimited value, and verifies if * any of them doesn't match a previous value. is sanitized on return * to contain a single value if several identical values were found. * * must be a valid pointer and is used to return the parsed length * unless values differ. Also if is true, is assumed to * point to previously parsed value and which must be equal to the new length. * This is useful if an HTTP message contains several Content-Length headers. * * Returns <0 if a value differs, 0 if the whole header can be dropped (i.e. * already known), or >0 if the value can be indexed (first one). In the last * case, the value might be adjusted and the caller must only add the updated * value. */ int http_parse_cont_len_header(struct ist *value, unsigned long long *body_len, int not_first) { char *e, *n; unsigned long long cl; struct ist word; int check_prev = not_first; word.ptr = value->ptr - 1; // -1 for next loop's pre-increment e = value->ptr + value->len; while (++word.ptr < e) { /* skip leading delimiter and blanks */ if (unlikely(HTTP_IS_LWS(*word.ptr))) continue; /* digits only now */ for (cl = 0, n = word.ptr; n < e; n++) { unsigned int c = *n - '0'; if (unlikely(c > 9)) { /* non-digit */ if (unlikely(n == word.ptr)) // spaces only goto fail; break; } if (unlikely(cl > ULLONG_MAX / 10ULL)) goto fail; /* multiply overflow */ cl = cl * 10ULL; if (unlikely(cl + c < cl)) goto fail; /* addition overflow */ cl = cl + c; } /* keep a copy of the exact cleaned value */ word.len = n - word.ptr; /* skip trailing LWS till next comma or EOL */ for (; n < e; n++) { if (!HTTP_IS_LWS(*n)) { if (unlikely(*n != ',')) goto fail; break; } } /* if duplicate, must be equal */ if (check_prev && cl != *body_len) goto fail; /* OK, store this result as the one to be indexed */ *body_len = cl; *value = word; word.ptr = n; check_prev = 1; } /* here we've reached the end with a single value or a series of * identical values, all matching previous series if any. The last * parsed value was sent back into . We just have to decide * if this occurrence has to be indexed (it's the first one) or * silently skipped (it's not the first one) */ return !not_first; fail: return -1; } /* * Checks if is exactly for chars, and ends with a colon. * If so, returns the position of the first non-space character relative to * , or - if not found before. If no value is found, it tries * to return a pointer to the place after the first space. Returns 0 if the * header name does not match. Checks are case-insensitive. */ int http_header_match2(const char *hdr, const char *end, const char *name, int len) { const char *val; if (hdr + len >= end) return 0; if (hdr[len] != ':') return 0; if (strncasecmp(hdr, name, len) != 0) return 0; val = hdr + len + 1; while (val < end && HTTP_IS_SPHT(*val)) val++; if ((val >= end) && (len + 2 <= end - hdr)) return len + 2; /* we may replace starting from second space */ return val - hdr; } /* Find the end of the header value contained between and . See RFC7230, * par 3.2 for more information. Note that it requires a valid header to return * a valid result. This works for headers defined as comma-separated lists. */ char *http_find_hdr_value_end(char *s, const char *e) { int quoted, qdpair; quoted = qdpair = 0; #ifdef HA_UNALIGNED_LE /* speedup: skip everything not a comma nor a double quote */ for (; s <= e - sizeof(int); s += sizeof(int)) { unsigned int c = *(int *)s; // comma unsigned int q = c; // quote c ^= 0x2c2c2c2c; // contains one zero on a comma q ^= 0x22222222; // contains one zero on a quote c = (c - 0x01010101) & ~c; // contains 0x80 below a comma q = (q - 0x01010101) & ~q; // contains 0x80 below a quote if ((c | q) & 0x80808080) break; // found a comma or a quote } #endif for (; s < e; s++) { if (qdpair) qdpair = 0; else if (quoted) { if (*s == '\\') qdpair = 1; else if (*s == '"') quoted = 0; } else if (*s == '"') quoted = 1; else if (*s == ',') return s; } return s; } /* Find the end of a cookie value contained between and . It works the * same way as with headers above except that the semi-colon also ends a token. * See RFC2965 for more information. Note that it requires a valid header to * return a valid result. */ char *http_find_cookie_value_end(char *s, const char *e) { int quoted, qdpair; quoted = qdpair = 0; for (; s < e; s++) { if (qdpair) qdpair = 0; else if (quoted) { if (*s == '\\') qdpair = 1; else if (*s == '"') quoted = 0; } else if (*s == '"') quoted = 1; else if (*s == ',' || *s == ';') return s; } return s; } /* Try to find the next occurrence of a cookie name in a cookie header value. * To match on any cookie name, must be set to 0. * The lookup begins at . The pointer and size of the next occurrence of * the cookie value is returned into *value and *value_l, and the function * returns a pointer to the next pointer to search from if the value was found. * Otherwise if the cookie was not found, NULL is returned and neither value * nor value_l are touched. The input string should first point to the * header's value, and the pointer must point to the first character * not part of the value. must be non-zero if value may represent a list * of values (cookie headers). This makes it faster to abort parsing when no * list is expected. */ char *http_extract_cookie_value(char *hdr, const char *hdr_end, char *cookie_name, size_t cookie_name_l, int list, char **value, size_t *value_l) { char *equal, *att_end, *att_beg, *val_beg, *val_end; char *next; /* we search at least a cookie name followed by an equal, and more * generally something like this : * Cookie: NAME1 = VALUE 1 ; NAME2 = VALUE2 ; NAME3 = VALUE3\r\n */ for (att_beg = hdr; att_beg + cookie_name_l + 1 < hdr_end; att_beg = next + 1) { /* Iterate through all cookies on this line */ while (att_beg < hdr_end && HTTP_IS_SPHT(*att_beg)) att_beg++; /* find att_end : this is the first character after the last non * space before the equal. It may be equal to hdr_end. */ equal = att_end = att_beg; while (equal < hdr_end) { if (*equal == '=' || *equal == ';' || (list && *equal == ',')) break; if (HTTP_IS_SPHT(*equal++)) continue; att_end = equal; } /* here, points to '=', a delimiter or the end. * is between and , both may be identical. */ /* look for end of cookie if there is an equal sign */ if (equal < hdr_end && *equal == '=') { /* look for the beginning of the value */ val_beg = equal + 1; while (val_beg < hdr_end && HTTP_IS_SPHT(*val_beg)) val_beg++; /* find the end of the value, respecting quotes */ next = http_find_cookie_value_end(val_beg, hdr_end); /* make val_end point to the first white space or delimiter after the value */ val_end = next; while (val_end > val_beg && HTTP_IS_SPHT(*(val_end - 1))) val_end--; } else { val_beg = val_end = next = equal; } /* We have nothing to do with attributes beginning with '$'. However, * they will automatically be removed if a header before them is removed, * since they're supposed to be linked together. */ if (*att_beg == '$') continue; /* Ignore cookies with no equal sign */ if (equal == next) continue; /* Now we have the cookie name between att_beg and att_end, and * its value between val_beg and val_end. */ if (cookie_name_l == 0 || (att_end - att_beg == cookie_name_l && memcmp(att_beg, cookie_name, cookie_name_l) == 0)) { /* let's return this value and indicate where to go on from */ *value = val_beg; *value_l = val_end - val_beg; return next + 1; } /* Set-Cookie headers only have the name in the first attr=value part */ if (!list) break; } return NULL; } /* Parses a qvalue and returns it multiplied by 1000, from 0 to 1000. If the * value is larger than 1000, it is bound to 1000. The parser consumes up to * 1 digit, one dot and 3 digits and stops on the first invalid character. * Unparsable qvalues return 1000 as "q=1.000". */ int http_parse_qvalue(const char *qvalue, const char **end) { int q = 1000; if (!isdigit((unsigned char)*qvalue)) goto out; q = (*qvalue++ - '0') * 1000; if (*qvalue++ != '.') goto out; if (!isdigit((unsigned char)*qvalue)) goto out; q += (*qvalue++ - '0') * 100; if (!isdigit((unsigned char)*qvalue)) goto out; q += (*qvalue++ - '0') * 10; if (!isdigit((unsigned char)*qvalue)) goto out; q += (*qvalue++ - '0') * 1; out: if (q > 1000) q = 1000; if (end) *end = qvalue; return q; } /* * Given a url parameter, find the starting position of the first occurrence, * or NULL if the parameter is not found. * * Example: if query_string is "yo=mama;ye=daddy" and url_param_name is "ye", * the function will return query_string+8. * * Warning: this function returns a pointer that can point to the first chunk * or the second chunk. The caller must be check the position before using the * result. */ const char *http_find_url_param_pos(const char **chunks, const char* url_param_name, size_t url_param_name_l, char delim, char insensitive) { const char *pos, *last, *equal; const char **bufs = chunks; int l1, l2; pos = bufs[0]; last = bufs[1]; while (pos < last) { /* Check the equal. */ equal = pos + url_param_name_l; if (fix_pointer_if_wrap(chunks, &equal)) { if (equal >= chunks[3]) return NULL; } else { if (equal >= chunks[1]) return NULL; } if (*equal == '=') { if (pos + url_param_name_l > last) { /* process wrap case, we detect a wrap. In this case, the * comparison is performed in two parts. */ /* This is the end, we don't have any other chunk. */ if (bufs != chunks || !bufs[2]) return NULL; /* Compute the length of each part of the comparison. */ l1 = last - pos; l2 = url_param_name_l - l1; /* The second buffer is too short to contain the compared string. */ if (bufs[2] + l2 > bufs[3]) return NULL; if (insensitive) { if (strncasecmp(pos, url_param_name, l1) == 0 && strncasecmp(bufs[2], url_param_name+l1, l2) == 0) return pos; } else { if (memcmp(pos, url_param_name, l1) == 0 && memcmp(bufs[2], url_param_name+l1, l2) == 0) return pos; } /* Perform wrapping and jump the string who fail the comparison. */ bufs += 2; pos = bufs[0] + l2; last = bufs[1]; } else { /* process a simple comparison.*/ if (insensitive) { if (strncasecmp(pos, url_param_name, url_param_name_l) == 0) return pos; } else { if (memcmp(pos, url_param_name, url_param_name_l) == 0) return pos; } pos += url_param_name_l + 1; if (fix_pointer_if_wrap(chunks, &pos)) last = bufs[2]; } } while (1) { /* Look for the next delimiter. */ while (pos < last && !http_is_param_delimiter(*pos, delim)) pos++; if (pos < last) break; /* process buffer wrapping. */ if (bufs != chunks || !bufs[2]) return NULL; bufs += 2; pos = bufs[0]; last = bufs[1]; } pos++; } return NULL; } /* * Given a url parameter name and a query string, find the next value. * An empty url_param_name matches the first available parameter. * If the parameter is found, 1 is returned and *vstart / *vend are updated to * respectively provide a pointer to the value and its end. * Otherwise, 0 is returned and vstart/vend are not modified. */ int http_find_next_url_param(const char **chunks, const char* url_param_name, size_t url_param_name_l, const char **vstart, const char **vend, char delim, char insensitive) { const char *arg_start, *qs_end; const char *value_start, *value_end; arg_start = chunks[0]; qs_end = chunks[1]; if (url_param_name_l) { /* Looks for an argument name. */ arg_start = http_find_url_param_pos(chunks, url_param_name, url_param_name_l, delim, insensitive); /* Check for wrapping. */ if (arg_start >= qs_end) qs_end = chunks[3]; } if (!arg_start) return 0; if (!url_param_name_l) { while (1) { /* looks for the first argument. */ value_start = memchr(arg_start, '=', qs_end - arg_start); if (!value_start) { /* Check for wrapping. */ if (arg_start >= chunks[0] && arg_start < chunks[1] && chunks[2]) { arg_start = chunks[2]; qs_end = chunks[3]; continue; } return 0; } break; } value_start++; } else { /* Jump the argument length. */ value_start = arg_start + url_param_name_l + 1; /* Check for pointer wrapping. */ if (fix_pointer_if_wrap(chunks, &value_start)) { /* Update the end pointer. */ qs_end = chunks[3]; /* Check for overflow. */ if (value_start >= qs_end) return 0; } } value_end = value_start; while (1) { while ((value_end < qs_end) && !http_is_param_delimiter(*value_end, delim)) value_end++; if (value_end < qs_end) break; /* process buffer wrapping. */ if (value_end >= chunks[0] && value_end < chunks[1] && chunks[2]) { value_end = chunks[2]; qs_end = chunks[3]; continue; } break; } *vstart = value_start; *vend = value_end; return 1; } /* Parses a single header line (without the CRLF) and splits it into its name * and its value. The parsing is pretty naive and just skip spaces. */ int http_parse_header(const struct ist hdr, struct ist *name, struct ist *value) { char *p = hdr.ptr; char *end = p + hdr.len; name->len = value->len = 0; /* Skip leading spaces */ for (; p < end && HTTP_IS_SPHT(*p); p++); /* Set the header name */ name->ptr = p; for (; p < end && HTTP_IS_TOKEN(*p); p++); name->len = p - name->ptr; /* Skip the ':' and spaces before and after it */ for (; p < end && HTTP_IS_SPHT(*p); p++); if (p < end && *p == ':') p++; for (; p < end && HTTP_IS_SPHT(*p); p++); /* Set the header value */ value->ptr = p; value->len = end - p; return 1; } /* Parses a single start line (without the CRLF) and splits it into 3 parts. The * parsing is pretty naive and just skip spaces. */ int http_parse_stline(const struct ist line, struct ist *p1, struct ist *p2, struct ist *p3) { char *p = line.ptr; char *end = p + line.len; p1->len = p2->len = p3->len = 0; /* Skip leading spaces */ for (; p < end && HTTP_IS_SPHT(*p); p++); /* Set the first part */ p1->ptr = p; for (; p < end && HTTP_IS_TOKEN(*p); p++); p1->len = p - p1->ptr; /* Skip spaces between p1 and p2 */ for (; p < end && HTTP_IS_SPHT(*p); p++); /* Set the second part */ p2->ptr = p; for (; p < end && !HTTP_IS_SPHT(*p); p++); p2->len = p - p2->ptr; /* Skip spaces between p2 and p3 */ for (; p < end && HTTP_IS_SPHT(*p); p++); /* The remaining is the third value */ p3->ptr = p; p3->len = end - p; return 1; } /* Parses value of a Status header with the following format: "Status: Code[ * Reason]". The parsing is pretty naive and just skip spaces. It return the * numeric value of the status code. */ int http_parse_status_val(const struct ist value, struct ist *status, struct ist *reason) { char *p = value.ptr; char *end = p + value.len; uint16_t code; status->len = reason->len = 0; /* Skip leading spaces */ for (; p < end && HTTP_IS_SPHT(*p); p++); /* Set the status part */ status->ptr = p; for (; p < end && HTTP_IS_TOKEN(*p); p++); status->len = p - status->ptr; /* Skip spaces between status and reason */ for (; p < end && HTTP_IS_SPHT(*p); p++); /* the remaining is the reason */ reason->ptr = p; reason->len = end - p; code = strl2ui(status->ptr, status->len); return code; } /* Returns non-zero if the two ETags are comparable (see RFC 7232#2.3.2). * If any of them is a weak ETag, we discard the weakness prefix and perform * a strict string comparison. * Returns 0 otherwise. */ int http_compare_etags(struct ist etag1, struct ist etag2) { enum http_etag_type etag_type1; enum http_etag_type etag_type2; etag_type1 = http_get_etag_type(etag1); etag_type2 = http_get_etag_type(etag2); if (etag_type1 == ETAG_INVALID || etag_type2 == ETAG_INVALID) return 0; /* Discard the 'W/' prefix an ETag is a weak one. */ if (etag_type1 == ETAG_WEAK) etag1 = istadv(etag1, 2); if (etag_type2 == ETAG_WEAK) etag2 = istadv(etag2, 2); return isteq(etag1, etag2); } /* * Trim leading space or horizontal tab characters from string. * Returns the trimmed string. */ struct ist http_trim_leading_spht(struct ist value) { struct ist ret = value; while (ret.len && HTTP_IS_SPHT(ret.ptr[0])) { ++ret.ptr; --ret.len; } return ret; } /* * Trim trailing space or horizontal tab characters from string. * Returns the trimmed string. */ struct ist http_trim_trailing_spht(struct ist value) { struct ist ret = value; while (ret.len && HTTP_IS_SPHT(ret.ptr[-1])) --ret.len; return ret; }