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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 02:57:58 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 02:57:58 +0000 |
commit | be1c7e50e1e8809ea56f2c9d472eccd8ffd73a97 (patch) | |
tree | 9754ff1ca740f6346cf8483ec915d4054bc5da2d /logsmanagement/parser.c | |
parent | Initial commit. (diff) | |
download | netdata-be1c7e50e1e8809ea56f2c9d472eccd8ffd73a97.tar.xz netdata-be1c7e50e1e8809ea56f2c9d472eccd8ffd73a97.zip |
Adding upstream version 1.44.3.upstream/1.44.3upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'logsmanagement/parser.c')
-rw-r--r-- | logsmanagement/parser.c | 1500 |
1 files changed, 1500 insertions, 0 deletions
diff --git a/logsmanagement/parser.c b/logsmanagement/parser.c new file mode 100644 index 00000000..272352bb --- /dev/null +++ b/logsmanagement/parser.c @@ -0,0 +1,1500 @@ +// SPDX-License-Identifier: GPL-3.0-or-later + +/** @file parser.c + * @brief API to parse and search logs + */ + +#if !defined(_XOPEN_SOURCE) && !defined(__DARWIN__) && !defined(__APPLE__) && !defined(__FreeBSD__) +/* _XOPEN_SOURCE 700 required by strptime (POSIX 2004) and strndup (POSIX 2008) + * Will need to find a cleaner way of doing this, as currently defining + * _XOPEN_SOURCE 700 can cause issues on Centos 7, MacOS and FreeBSD too. */ +#define _XOPEN_SOURCE 700 +/* _BSD_SOURCE (glibc <= 2.19) and _DEFAULT_SOURCE (glibc >= 2.20) are required + * to silence "warning: implicit declaration of function ‘strsep’;" that is + * included through libnetdata/inlined.h. */ +#define _BSD_SOURCE +#define _DEFAULT_SOURCE +#include <time.h> +#endif + +#include "parser.h" +#include "helper.h" +#include <stdio.h> +#include <sys/resource.h> +#include <math.h> +#include <string.h> + +static regex_t vhost_regex, req_client_regex, cipher_suite_regex; + +const char* const csv_auto_format_guess_matrix[] = { + "$host:$server_port $remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent - - $request_length $request_time $upstream_response_time", // csvVhostCustom4 + "$host:$server_port $remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent - - $request_length $request_time", // csvVhostCustom3 + "$host:$server_port $remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent - -", // csvVhostCombined + "$host:$server_port $remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent $request_length $request_time $upstream_response_time", // csvVhostCustom2 + "$host:$server_port $remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent $request_length $request_time", // csvVhostCustom1 + "$host:$server_port $remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent", // csvVhostCommon + "$remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent - - $request_length $request_time $upstream_response_time", // csvCustom4 + "$remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent - - $request_length $request_time", // csvCustom3 + "$remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent - -", // csvCombined + "$remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent $request_length $request_time $upstream_response_time", // csvCustom2 + "$remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent $request_length $request_time", // csvCustom1 + "$remote_addr - - [$time_local] \"$request\" $status $body_bytes_sent", // csvCommon + NULL} +; + +UNIT_STATIC int count_fields(const char *line, const char delimiter){ + const char *ptr; + int cnt, fQuote; + + for (cnt = 1, fQuote = 0, ptr = line; *ptr != '\n' && *ptr != '\r' && *ptr != '\0'; ptr++ ){ + if (fQuote) { + if (*ptr == '\"') { + if ( ptr[1] == '\"' ) { + ptr++; + continue; + } + fQuote = 0; + } + continue; + } + + if(*ptr == '\"'){ + fQuote = 1; + continue; + } + if(*ptr == delimiter){ + cnt++; + while(*(ptr+1) == delimiter){ ptr++;}; + continue; + } + } + + if (fQuote) { + return -1; + } + + return cnt; +} + +/** + * @brief Parse a delimited string into an array of strings. + * @details Given a string containing no linebreaks, or containing line breaks + * which are escaped by "double quotes", extract a NULL-terminated + * array of strings, one for every delimiter-separated value in the row. + * @param[in] line The input string to be parsed. + * @param[in] delimiter The delimiter to be used to split the string. + * @param[in] num_fields The expected number of fields in \p line. If a negative + * number is provided, they will be counted. + * @return A NULL-terminated array of strings with the delimited values in \p line, + * or NULL in any other case. + * @todo This function has not been benchmarked or optimised. + */ +static inline char **parse_csv( const char *line, const char delimiter, int num_fields) { + char **buf, **bptr, *tmp, *tptr; + const char *ptr; + int fQuote, fEnd; + + if(num_fields < 0){ + num_fields = count_fields(line, delimiter); + + if ( num_fields == -1 ) { + return NULL; + } + } + + buf = mallocz( sizeof(char*) * (num_fields+1) ); + + tmp = mallocz( strlen(line) + 1 ); + + bptr = buf; + + for ( ptr = line, fQuote = 0, *tmp = '\0', tptr = tmp, fEnd = 0; ; ptr++ ) { + if ( fQuote ) { + if ( !*ptr ) { + break; + } + + if ( *ptr == '\"' ) { + if ( ptr[1] == '\"' ) { + *tptr++ = '\"'; + ptr++; + continue; + } + fQuote = 0; + } + else { + *tptr++ = *ptr; + } + + continue; + } + + + if(*ptr == '\"'){ + fQuote = 1; + continue; + } + else if(*ptr == '\0'){ + fEnd = 1; + *tptr = '\0'; + *bptr = strdupz( tmp ); + + if ( !*bptr ) { + for ( bptr--; bptr >= buf; bptr-- ) { + freez( *bptr ); + } + freez( buf ); + freez( tmp ); + + return NULL; + } + + bptr++; + tptr = tmp; + break; + } + else if(*ptr == delimiter){ + *tptr = '\0'; + *bptr = strdupz( tmp ); + + if ( !*bptr ) { + for ( bptr--; bptr >= buf; bptr-- ) { + freez( *bptr ); + } + freez( buf ); + freez( tmp ); + + return NULL; + } + + bptr++; + tptr = tmp; + + continue; + } + else{ + *tptr++ = *ptr; + continue; + } + + if ( fEnd ) { + break; + } + } + + *bptr = NULL; + freez( tmp ); + return buf; +} + +/** + * @brief Search a buffer for a keyword (or regular expression) + * @details Search the source buffer for a keyword (or regular expression) and + * copy matches to the destination buffer. + * @param[in] src The source buffer to be searched + * @param[in] src_sz Size of \p src + * @param[in, out] dest The destination buffer where the results will be + * written out to. If NULL, the results will just be discarded. + * @param[out] dest_sz Size of \p dest + * @param[in] keyword The keyword or pattern to be searched in the src buffer + * @param[in] regex The precompiled regular expression to be search in the + * src buffer. If NULL, \p keyword will be used instead. + * @param[in] ignore_case Perform case insensitive search if 1. + * @return Number of matches, or -1 in case of error + */ +int search_keyword( char *src, size_t src_sz __maybe_unused, + char *dest, size_t *dest_sz, + const char *keyword, regex_t *regex, + const int ignore_case){ + + m_assert(src[src_sz - 1] == '\0', "src[src_sz - 1] should be '\0' but it's not"); + m_assert((dest && dest_sz) || (!dest && !dest_sz), "either both dest and dest_sz exist, or none does"); + + if(unlikely(dest && !dest_sz)) + return -1; + + regex_t regex_compiled; + + if(regex) + regex_compiled = *regex; + else{ + char regexString[MAX_REGEX_SIZE]; + const int regex_flags = ignore_case ? REG_EXTENDED | REG_NEWLINE | REG_ICASE : REG_EXTENDED | REG_NEWLINE; + snprintf(regexString, MAX_REGEX_SIZE, ".*(%s).*", keyword); + int rc; + if (unlikely((rc = regcomp(®ex_compiled, regexString, regex_flags)))){ + size_t regcomp_err_str_size = regerror(rc, ®ex_compiled, 0, 0); + char *regcomp_err_str = mallocz(regcomp_err_str_size); + regerror(rc, ®ex_compiled, regcomp_err_str, regcomp_err_str_size); + freez(regcomp_err_str); + fatal("Could not compile regular expression:%.*s, error: %s", (int) MAX_REGEX_SIZE, regexString, regcomp_err_str); + }; + } + + regmatch_t groupArray[1]; + int matches = 0; + char *cursor = src; + + if(dest_sz) + *dest_sz = 0; + + for ( ; ; matches++){ + if (regexec(®ex_compiled, cursor, 1, groupArray, REG_NOTBOL | REG_NOTEOL)) + break; // No more matches + if (groupArray[0].rm_so == -1) + break; // No more groups + + size_t match_len = (size_t) (groupArray[0].rm_eo - groupArray[0].rm_so); + + // debug_log( "Match %d [%2d-%2d]:%.*s\n", matches, groupArray[0].rm_so, + // groupArray[0].rm_eo, (int) match_len, cursor + groupArray[0].rm_so); + + if(dest && dest_sz){ + memcpy( &dest[*dest_sz], cursor + groupArray[0].rm_so, match_len); + *dest_sz += match_len + 1; + dest[*dest_sz - 1] = '\n'; + } + + cursor += groupArray[0].rm_eo; + } + + if(!regex) + regfree(®ex_compiled); + + return matches; +} + +/** + * @brief Extract web log parser configuration from string + * @param[in] log_format String that describes the log format + * @param[in] delimiter Delimiter to be used when parsing a CSV log format + * @return Pointer to struct that contains the extracted log format + * configuration or NULL if no fields found in log_format. + */ +Web_log_parser_config_t *read_web_log_parser_config(const char *log_format, const char delimiter){ + int num_fields = count_fields(log_format, delimiter); + if(num_fields <= 0) return NULL; + + /* If first execution of this function, initialise regexs */ + static int regexs_initialised = 0; + + // TODO: Tests needed for following regexs. + if(!regexs_initialised){ + assert(regcomp(&vhost_regex, "^[a-zA-Z0-9:.-]+$", REG_NOSUB | REG_EXTENDED) == 0); + assert(regcomp(&req_client_regex, "^([0-9a-f:.]+|localhost)$", REG_NOSUB | REG_EXTENDED) == 0); + assert(regcomp(&cipher_suite_regex, "^[A-Z0-9_-]+$", REG_NOSUB | REG_EXTENDED) == 0); + regexs_initialised = 1; + } + + Web_log_parser_config_t *wblp_config = callocz(1, sizeof(Web_log_parser_config_t)); + wblp_config->num_fields = num_fields; + wblp_config->delimiter = delimiter; + + char **parsed_format = parse_csv(log_format, delimiter, num_fields); // parsed_format is NULL-terminated + wblp_config->fields = callocz(num_fields, sizeof(web_log_line_field_t)); + unsigned int fields_off = 0; + + for(int i = 0; i < num_fields; i++ ){ + + if(strcmp(parsed_format[i], "$host:$server_port") == 0 || + strcmp(parsed_format[i], "%v:%p") == 0) { + wblp_config->fields[fields_off++] = VHOST_WITH_PORT; + continue; + } + + if(strcmp(parsed_format[i], "$host") == 0 || + strcmp(parsed_format[i], "$http_host") == 0 || + strcmp(parsed_format[i], "%v") == 0) { + wblp_config->fields[fields_off++] = VHOST; + continue; + } + + if(strcmp(parsed_format[i], "$server_port") == 0 || + strcmp(parsed_format[i], "%p") == 0) { + wblp_config->fields[fields_off++] = PORT; + continue; + } + + if(strcmp(parsed_format[i], "$scheme") == 0) { + wblp_config->fields[fields_off++] = REQ_SCHEME; + continue; + } + + if(strcmp(parsed_format[i], "$remote_addr") == 0 || + strcmp(parsed_format[i], "%a") == 0 || + strcmp(parsed_format[i], "%h") == 0) { + wblp_config->fields[fields_off++] = REQ_CLIENT; + continue; + } + + if(strcmp(parsed_format[i], "$request") == 0 || + strcmp(parsed_format[i], "%r") == 0) { + wblp_config->fields[fields_off++] = REQ; + continue; + } + + if(strcmp(parsed_format[i], "$request_method") == 0 || + strcmp(parsed_format[i], "%m") == 0) { + wblp_config->fields[fields_off++] = REQ_METHOD; + continue; + } + + if(strcmp(parsed_format[i], "$request_uri") == 0 || + strcmp(parsed_format[i], "%U") == 0) { + wblp_config->fields[fields_off++] = REQ_URL; + continue; + } + + if(strcmp(parsed_format[i], "$server_protocol") == 0 || + strcmp(parsed_format[i], "%H") == 0) { + wblp_config->fields[fields_off++] = REQ_PROTO; + continue; + } + + if(strcmp(parsed_format[i], "$request_length") == 0 || + strcmp(parsed_format[i], "%I") == 0) { + wblp_config->fields[fields_off++] = REQ_SIZE; + continue; + } + + if(strcmp(parsed_format[i], "$request_time") == 0 || + strcmp(parsed_format[i], "%D") == 0) { + wblp_config->fields[fields_off++] = REQ_PROC_TIME; + continue; + } + + if(strcmp(parsed_format[i], "$status") == 0 || + strcmp(parsed_format[i], "%>s") == 0 || + strcmp(parsed_format[i], "%s") == 0) { + wblp_config->fields[fields_off++] = RESP_CODE; + continue; + } + + if(strcmp(parsed_format[i], "$bytes_sent") == 0 || + strcmp(parsed_format[i], "$body_bytes_sent") == 0 || + strcmp(parsed_format[i], "%b") == 0 || + strcmp(parsed_format[i], "%O") == 0 || + strcmp(parsed_format[i], "%B") == 0) { + wblp_config->fields[fields_off++] = RESP_SIZE; + continue; + } + + if(strcmp(parsed_format[i], "$upstream_response_time") == 0) { + wblp_config->fields[fields_off++] = UPS_RESP_TIME; + continue; + } + + if(strcmp(parsed_format[i], "$ssl_protocol") == 0) { + wblp_config->fields[fields_off++] = SSL_PROTO; + continue; + } + + if(strcmp(parsed_format[i], "$ssl_cipher") == 0) { + wblp_config->fields[fields_off++] = SSL_CIPHER_SUITE; + continue; + } + + if(strcmp(parsed_format[i], "$time_local") == 0 || strcmp(parsed_format[i], "[$time_local]") == 0 || + strcmp(parsed_format[i], "%t") == 0 || strcmp(parsed_format[i], "[%t]") == 0) { + wblp_config->fields = reallocz(wblp_config->fields, (num_fields + 1) * sizeof(web_log_line_field_t)); + wblp_config->fields[fields_off++] = TIME; + wblp_config->fields[fields_off++] = TIME; // TIME takes 2 fields + wblp_config->num_fields++; // TIME takes 2 fields + continue; + } + + wblp_config->fields[fields_off++] = CUSTOM; + + } + + for(int i = 0; parsed_format[i] != NULL; i++) + freez(parsed_format[i]); + + freez(parsed_format); + return wblp_config; +} + +/** + * @brief Parse a web log line to extract individual fields. + * @param[in] wblp_config Configuration that specifies how to parse the line. + * @param[in] line Web log record to be parsed. '\n', '\r' or '\0' terminated. + * @param[out] log_line_parsed Struct that stores the results of parsing. + */ +void parse_web_log_line(const Web_log_parser_config_t *wblp_config, + char *line, size_t line_len, + Log_line_parsed_t *log_line_parsed){ + + /* Read parsing configuration */ + web_log_line_field_t *fields_format = wblp_config->fields; + const int num_fields_config = wblp_config->num_fields; + const char delimiter = wblp_config->delimiter; + const int verify = wblp_config->verify_parsed_logs; + + /* Consume new lines and spaces at end of line */ + for(; line[line_len-1] == '\n' || line[line_len-1] == '\r' || line[line_len-1] == ' '; line_len--); + + char *field = line; + char *offset = line; + size_t field_size = 0; + + for(int i = 0; i < num_fields_config; i++ ){ + + /* Consume double quotes and extra delimiters at beginning of field */ + while(*field == '"' || *field == delimiter) field++, offset++; + + /* Find offset boundaries of next field in line */ + while(((size_t)(offset - line) < line_len) && *offset != delimiter) offset++; + + if(unlikely(*(offset - 1) == '"')) offset--; + + field_size = (size_t) (offset - field); + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Field[%d]:%.*s", i, (int)field_size, field); + #endif + + if(fields_format[i] == CUSTOM){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: CUSTOM or UNKNOWN):%.*s", i, (int)field_size, field); + #endif + goto next_item; + } + + + char *port = field; + size_t port_size = 0; + size_t vhost_size = 0; + + if(fields_format[i] == VHOST_WITH_PORT){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: VHOST_WITH_PORT):%.*s", i, (int)field_size, field); + #endif + + if(unlikely(field[0] == '-' && field_size == 1)){ + log_line_parsed->vhost[0] = '\0'; + log_line_parsed->port = WEB_LOG_INVALID_PORT; + log_line_parsed->parsing_errors++; + goto next_item; + } + + while(*port != ':' && vhost_size < field_size) { port++; vhost_size++; }; + if(likely(vhost_size < field_size)){ + /* ':' detected in string */ + port++; + port_size = field_size - vhost_size - 1; + field_size = vhost_size; // now field represents vhost and port is separate + } + else { + /* no ':' detected in string - invalid */ + log_line_parsed->vhost[0] = '\0'; + log_line_parsed->port = WEB_LOG_INVALID_PORT; + log_line_parsed->parsing_errors++; + goto next_item; + } + } + + if(fields_format[i] == VHOST_WITH_PORT || fields_format[i] == VHOST){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: VHOST):%.*s", i, (int)field_size, field); + #endif + + if(unlikely(field[0] == '-' && field_size == 1)){ + log_line_parsed->vhost[0] = '\0'; + log_line_parsed->parsing_errors++; + goto next_item; + } + + // TODO: Add below case in code!!! + // nginx $host and $http_host return ipv6 in [], apache doesn't + // TODO: TEST! This case hasn't been tested! + // char *pch = strchr(parsed[i], ']'); + // if(pch){ + // *pch = '\0'; + // memmove(parsed[i], parsed[i]+1, strlen(parsed[i])); + // } + + snprintfz(log_line_parsed->vhost, VHOST_MAX_LEN, "%.*s", (int) field_size, field); + + if(verify){ + // if(field_size >= VHOST_MAX_LEN){ + // #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + // collector_error("VHOST is invalid"); + // #endif + // log_line_parsed->vhost[0] = '\0'; + // log_line_parsed->parsing_errors++; + // goto next_item; // TODO: Not entirely right, as it will also skip PORT parsing in case of VHOST_WITH_PORT + // } + + if(unlikely(regexec(&vhost_regex, log_line_parsed->vhost, 0, NULL, 0) == REG_NOMATCH)){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("VHOST is invalid"); + #endif + // log_line_parsed->vhost[0] = 'invalid'; + snprintf(log_line_parsed->vhost, sizeof(WEB_LOG_INVALID_HOST_STR), WEB_LOG_INVALID_HOST_STR); + log_line_parsed->parsing_errors++; + } + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted VHOST:%s", log_line_parsed->vhost); + #endif + + if(fields_format[i] == VHOST) goto next_item; + } + + if(fields_format[i] == VHOST_WITH_PORT || fields_format[i] == PORT){ + + if(fields_format[i] != VHOST_WITH_PORT){ + port = field; + port_size = field_size; + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: PORT):%.*s", i, (int) port_size, port); + #endif + + if(unlikely(port[0] == '-' && port_size == 1)){ + log_line_parsed->port = WEB_LOG_INVALID_PORT; + log_line_parsed->parsing_errors++; + goto next_item; + } + + char port_d[PORT_MAX_LEN]; + snprintfz( port_d, PORT_MAX_LEN, "%.*s", (int) port_size, port); + + if(likely(str2int(&log_line_parsed->port, port_d, 10) == STR2XX_SUCCESS)){ + if(verify){ + if(unlikely(log_line_parsed->port < 80 || log_line_parsed->port > 49151)){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("PORT is invalid (<80 or >49151)"); + #endif + log_line_parsed->port = WEB_LOG_INVALID_PORT; + log_line_parsed->parsing_errors++; + } + } + } + else{ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("Error while extracting PORT from string"); + #endif + log_line_parsed->port = WEB_LOG_INVALID_PORT; + log_line_parsed->parsing_errors++; + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted PORT:%d", log_line_parsed->port); + #endif + + goto next_item; + } + + if(fields_format[i] == REQ_SCHEME){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: REQ_SCHEME):%.*s", i, (int)field_size, field); + #endif + + if(unlikely(field[0] == '-' && field_size == 1)){ + log_line_parsed->req_scheme[0] = '\0'; + log_line_parsed->parsing_errors++; + goto next_item; + } + + snprintfz(log_line_parsed->req_scheme, REQ_SCHEME_MAX_LEN, "%.*s", (int) field_size, field); + + if(verify){ + if(unlikely( strcmp(log_line_parsed->req_scheme, "http") && + strcmp(log_line_parsed->req_scheme, "https"))){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("REQ_SCHEME is invalid (must be either 'http' or 'https')"); + #endif + log_line_parsed->req_scheme[0] = '\0'; + log_line_parsed->parsing_errors++; + } + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted REQ_SCHEME:%s", log_line_parsed->req_scheme); + #endif + goto next_item; + } + + if(fields_format[i] == REQ_CLIENT){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: REQ_CLIENT):%.*s", i, (int)field_size, field); + #endif + + if(unlikely(field[0] == '-' && field_size == 1)){ + log_line_parsed->req_client[0] = '\0'; + log_line_parsed->parsing_errors++; + goto next_item; + } + + snprintfz(log_line_parsed->req_client, REQ_CLIENT_MAX_LEN, "%.*s", (int)field_size, field); + + if(verify){ + int regex_rc = regexec(&req_client_regex, log_line_parsed->req_client, 0, NULL, 0); + if (likely(regex_rc == 0)) {/* do nothing */} + else if (unlikely(regex_rc == REG_NOMATCH)) { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("REQ_CLIENT is invalid"); + #endif + snprintf(log_line_parsed->req_client, REQ_CLIENT_MAX_LEN, "%s", WEB_LOG_INVALID_CLIENT_IP_STR); + log_line_parsed->parsing_errors++; + } + else { + size_t err_msg_size = regerror(regex_rc, &req_client_regex, NULL, 0); + char *err_msg = mallocz(err_msg_size); + regerror(regex_rc, &req_client_regex, err_msg, err_msg_size); + collector_error("req_client_regex error:%s", err_msg); + freez(err_msg); + m_assert(0, "req_client_regex has failed"); + } + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted REQ_CLIENT:%s", log_line_parsed->req_client); + #endif + + goto next_item; + } + + if(fields_format[i] == REQ || fields_format[i] == REQ_METHOD){ + + /* If fields_format[i] == REQ, then field is filled in with request in the previous code */ + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: REQ or REQ_METHOD):%.*s", i, (int)field_size, field); + #endif + + snprintfz( log_line_parsed->req_method, REQ_METHOD_MAX_LEN, "%.*s", (int)field_size, field); + + if(verify){ + if( unlikely( + /* GET and POST are the most common requests, so check them first */ + strcmp(log_line_parsed->req_method, "GET") && + strcmp(log_line_parsed->req_method, "POST") && + + strcmp(log_line_parsed->req_method, "ACL") && + strcmp(log_line_parsed->req_method, "BASELINE-CONTROL") && + strcmp(log_line_parsed->req_method, "BIND") && + strcmp(log_line_parsed->req_method, "CHECKIN") && + strcmp(log_line_parsed->req_method, "CHECKOUT") && + strcmp(log_line_parsed->req_method, "CONNECT") && + strcmp(log_line_parsed->req_method, "COPY") && + strcmp(log_line_parsed->req_method, "DELETE") && + strcmp(log_line_parsed->req_method, "HEAD") && + strcmp(log_line_parsed->req_method, "LABEL") && + strcmp(log_line_parsed->req_method, "LINK") && + strcmp(log_line_parsed->req_method, "LOCK") && + strcmp(log_line_parsed->req_method, "MERGE") && + strcmp(log_line_parsed->req_method, "MKACTIVITY") && + strcmp(log_line_parsed->req_method, "MKCALENDAR") && + strcmp(log_line_parsed->req_method, "MKCOL") && + strcmp(log_line_parsed->req_method, "MKREDIRECTREF") && + strcmp(log_line_parsed->req_method, "MKWORKSPACE") && + strcmp(log_line_parsed->req_method, "MOVE") && + strcmp(log_line_parsed->req_method, "OPTIONS") && + strcmp(log_line_parsed->req_method, "ORDERPATCH") && + strcmp(log_line_parsed->req_method, "PATCH") && + strcmp(log_line_parsed->req_method, "PRI") && + strcmp(log_line_parsed->req_method, "PROPFIND") && + strcmp(log_line_parsed->req_method, "PROPPATCH") && + strcmp(log_line_parsed->req_method, "PUT") && + strcmp(log_line_parsed->req_method, "REBIND") && + strcmp(log_line_parsed->req_method, "REPORT") && + strcmp(log_line_parsed->req_method, "SEARCH") && + strcmp(log_line_parsed->req_method, "TRACE") && + strcmp(log_line_parsed->req_method, "UNBIND") && + strcmp(log_line_parsed->req_method, "UNCHECKOUT") && + strcmp(log_line_parsed->req_method, "UNLINK") && + strcmp(log_line_parsed->req_method, "UNLOCK") && + strcmp(log_line_parsed->req_method, "UPDATE") && + strcmp(log_line_parsed->req_method, "UPDATEREDIRECTREF") && + strcmp(log_line_parsed->req_method, "-"))) { + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("REQ_METHOD is invalid"); + #endif + log_line_parsed->req_method[0] = '\0'; + log_line_parsed->parsing_errors++; + } + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted REQ_METHOD:%s", log_line_parsed->req_method); + #endif + + if(fields_format[i] == REQ && field[0] != '-') { + while(*(offset + 1) == delimiter) offset++; // Consume extra whitespace characters + field = ++offset; + while(*offset != delimiter && ((size_t)(offset - line) < line_len)) offset++; + field_size = (size_t) (offset - field); + } + else goto next_item; + } + + if(fields_format[i] == REQ || fields_format[i] == REQ_URL){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: REQ or REQ_URL):%.*s", i, (int)field_size, field); + #endif + + snprintfz( log_line_parsed->req_URL, REQ_URL_MAX_LEN, "%.*s", (int)field_size, field); + + // if(unlikely(field[0] == '-' && field_size == 1)){ + // log_line_parsed->req_method[0] = '\0'; + // log_line_parsed->parsing_errors++; + // } + + //if(verify){} ?? + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted REQ_URL:%s", log_line_parsed->req_URL ? log_line_parsed->req_URL : "NULL!"); + #endif + + if(fields_format[i] == REQ) { + while(*(offset + 1) == delimiter) offset++; // Consume extra whitespace characters + field = ++offset; + while(*offset != delimiter && ((size_t)(offset - line) < line_len)) offset++; + field_size = (size_t) (offset - field); + } + else goto next_item; + } + + if(fields_format[i] == REQ || fields_format[i] == REQ_PROTO){ + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: REQ or REQ_PROTO):%.*s", i, (int)field_size, field); + #endif + + if(unlikely(field[0] == '-' && field_size == 1)){ + log_line_parsed->req_proto[0] = '\0'; + log_line_parsed->parsing_errors++; + goto next_item; + } + + if(unlikely( field_size > REQ_PROTO_PREF_SIZE + REQ_PROTO_MAX_LEN - 1)){ + field_size = REQ_PROTO_PREF_SIZE + REQ_PROTO_MAX_LEN - 1; + } + + size_t req_proto_num_size = field_size - REQ_PROTO_PREF_SIZE; + + if(verify){ + if(unlikely(field_size < 6 || + req_proto_num_size == 0 || + strncmp(field, "HTTP/", REQ_PROTO_PREF_SIZE) || + ( strncmp(&field[REQ_PROTO_PREF_SIZE], "1", req_proto_num_size) && + strncmp(&field[REQ_PROTO_PREF_SIZE], "1.0", req_proto_num_size) && + strncmp(&field[REQ_PROTO_PREF_SIZE], "1.1", req_proto_num_size) && + strncmp(&field[REQ_PROTO_PREF_SIZE], "2", req_proto_num_size) && + strncmp(&field[REQ_PROTO_PREF_SIZE], "2.0", req_proto_num_size)))) { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("REQ_PROTO is invalid"); + #endif + log_line_parsed->req_proto[0] = '\0'; + log_line_parsed->parsing_errors++; + } + else snprintfz( log_line_parsed->req_proto, req_proto_num_size + 1, + "%.*s", (int)req_proto_num_size, &field[REQ_PROTO_PREF_SIZE]); + } + else snprintfz( log_line_parsed->req_proto, req_proto_num_size + 1, + "%.*s", (int)req_proto_num_size, &field[REQ_PROTO_PREF_SIZE]); + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted REQ_PROTO:%s", log_line_parsed->req_proto); + #endif + + goto next_item; + } + + if(fields_format[i] == REQ_SIZE){ + /* TODO: Differentiate between '-' or 0 and an invalid request size. + * right now, all these will set req_size == 0 */ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: REQ_SIZE):%.*s", i, (int)field_size, field); + #endif + + char req_size_d[REQ_SIZE_MAX_LEN]; + snprintfz( req_size_d, REQ_SIZE_MAX_LEN, "%.*s", (int) field_size, field); + + if(field[0] == '-' && field_size == 1) { + log_line_parsed->req_size = 0; // Request size can be '-' + } + else if(likely(str2int(&log_line_parsed->req_size, req_size_d, 10) == STR2XX_SUCCESS)){ + if(verify){ + if(unlikely(log_line_parsed->req_size < 0)){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("REQ_SIZE is invalid (<0)"); + #endif + log_line_parsed->req_size = 0; + log_line_parsed->parsing_errors++; + } + } + } + else{ + collector_error("Error while extracting REQ_SIZE from string"); + log_line_parsed->req_size = 0; + log_line_parsed->parsing_errors++; + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted REQ_SIZE:%d", log_line_parsed->req_size); + #endif + + goto next_item; + } + + if(fields_format[i] == REQ_PROC_TIME){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: REQ_PROC_TIME):%.*s", i, (int)field_size, field); + #endif + + if(unlikely(field[0] == '-' && field_size == 1)){ + log_line_parsed->req_proc_time = WEB_LOG_INVALID_PORT; + log_line_parsed->parsing_errors++; + goto next_item; + } + + float f = 0; + + char req_proc_time_d[REQ_PROC_TIME_MAX_LEN]; + snprintfz( req_proc_time_d, REQ_PROC_TIME_MAX_LEN, "%.*s", (int) field_size, field); + + if(memchr(field, '.', field_size)){ // nginx time is in seconds with a milliseconds resolution. + if(likely(str2float(&f, req_proc_time_d) == STR2XX_SUCCESS)){ + log_line_parsed->req_proc_time = (int) (f * 1.0E6); + } + else { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("Error while extracting REQ_PROC_TIME from string"); + #endif + log_line_parsed->req_proc_time = 0; + log_line_parsed->parsing_errors++; + } + } + else{ // apache time is in microseconds + if(unlikely(str2int(&log_line_parsed->req_proc_time, req_proc_time_d, 10) != STR2XX_SUCCESS)) { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("Error while extracting REQ_PROC_TIME from string"); + #endif + log_line_parsed->req_proc_time = 0; + log_line_parsed->parsing_errors++; + } + } + + if(verify){ + if(unlikely(log_line_parsed->req_proc_time < 0)){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("REQ_PROC_TIME is invalid (<0)"); + #endif + log_line_parsed->req_proc_time = 0; + log_line_parsed->parsing_errors++; + } + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted REQ_PROC_TIME:%d", log_line_parsed->req_proc_time); + #endif + + goto next_item; + } + + if(fields_format[i] == RESP_CODE){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: RESP_CODE):%.*s\n", i, (int)field_size, field); + #endif + + if(unlikely(field[0] == '-' && field_size == 1)){ + log_line_parsed->resp_code = 0; + log_line_parsed->parsing_errors++; + goto next_item; + } + + char resp_code_d[REQ_RESP_CODE_MAX_LEN]; + snprintfz( resp_code_d, REQ_RESP_CODE_MAX_LEN, "%.*s", (int)field_size, field); + + if(likely(str2int(&log_line_parsed->resp_code, resp_code_d, 10) == STR2XX_SUCCESS)){ + if(verify){ + /* rfc7231 + * Informational responses (100–199), + * Successful responses (200–299), + * Redirects (300–399), + * Client errors (400–499), + * Server errors (500–599). */ + if(unlikely(log_line_parsed->resp_code < 100 || log_line_parsed->resp_code > 599)){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("RESP_CODE is invalid (<100 or >599)"); + #endif + log_line_parsed->resp_code = 0; + log_line_parsed->parsing_errors++; + } + } + } + else{ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("Error while extracting RESP_CODE from string"); + #endif + log_line_parsed->resp_code = 0; + log_line_parsed->parsing_errors++; + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted RESP_CODE:%d", log_line_parsed->resp_code); + #endif + + goto next_item; + } + + if(fields_format[i] == RESP_SIZE){ + /* TODO: Differentiate between '-' or 0 and an invalid response size. + * right now, all these will set resp_size == 0 */ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: RESP_SIZE):%.*s", i, (int)field_size, field); + #endif + + char resp_size_d[REQ_RESP_SIZE_MAX_LEN]; + snprintfz( resp_size_d, REQ_RESP_SIZE_MAX_LEN, "%.*s", (int)field_size, field); + + if(field[0] == '-' && field_size == 1) { + log_line_parsed->resp_size = 0; // Response size can be '-' + } + else if(likely(str2int(&log_line_parsed->resp_size, resp_size_d, 10) == STR2XX_SUCCESS)){ + if(verify){ + if(unlikely(log_line_parsed->resp_size < 0)){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("RESP_SIZE is invalid (<0)"); + #endif + log_line_parsed->resp_size = 0; + log_line_parsed->parsing_errors++; + } + } + } + else { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("Error while extracting RESP_SIZE from string"); + #endif + log_line_parsed->resp_size = 0; + log_line_parsed->parsing_errors++; + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted RESP_SIZE:%d", log_line_parsed->resp_size); + #endif + + goto next_item; + } + + if(fields_format[i] == UPS_RESP_TIME){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: UPS_RESP_TIME):%.*s", i, (int)field_size, field); + #endif + + if(field[0] == '-' && field_size == 1) { + log_line_parsed->ups_resp_time = 0; + log_line_parsed->parsing_errors++; + goto next_item; + } + + /* Times of several responses are separated by commas and colons. Following the + * Go parser implementation, where only the first one is kept, the others are + * discarded. Also, there must be no space in between them. Needs testing... */ + char *pch = memchr(field, ',', field_size); + if(pch) field_size = pch - field; + + float f = 0; + + char ups_resp_time_d[UPS_RESP_TIME_MAX_LEN]; + snprintfz( ups_resp_time_d, UPS_RESP_TIME_MAX_LEN, "%.*s", (int)field_size, field); + + if(memchr(field, '.', field_size)){ // nginx time is in seconds with a milliseconds resolution. + if(likely(str2float(&f, ups_resp_time_d) == STR2XX_SUCCESS)){ + log_line_parsed->ups_resp_time = (int) (f * 1.0E6); + } + else { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("Error while extracting UPS_RESP_TIME from string"); + #endif + log_line_parsed->ups_resp_time = 0; + log_line_parsed->parsing_errors++; + } + } + else{ // unlike in the REQ_PROC_TIME case, apache doesn't have an equivalent here + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("Error while extracting UPS_RESP_TIME from string"); + #endif + log_line_parsed->ups_resp_time = 0; + log_line_parsed->parsing_errors++; + } + if(verify){ + if(unlikely(log_line_parsed->ups_resp_time < 0)){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("UPS_RESP_TIME is invalid (<0)"); + #endif + log_line_parsed->ups_resp_time = 0; + log_line_parsed->parsing_errors++; + } + } + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted UPS_RESP_TIME:%d", log_line_parsed->ups_resp_time); + #endif + + goto next_item; + } + + if(fields_format[i] == SSL_PROTO){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: SSL_PROTO):%.*s", i, (int)field_size, field); + #endif + + if(field[0] == '-' && field_size == 1) { + log_line_parsed->ssl_proto[0] = '\0'; + log_line_parsed->parsing_errors++; + goto next_item; + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "SSL_PROTO field size:%zu", field_size); + #endif + + snprintfz( log_line_parsed->ssl_proto, SSL_PROTO_MAX_LEN, "%.*s", (int)field_size, field); + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "log_line_parsed->ssl_proto:%s", log_line_parsed->ssl_proto); + #endif + + if(verify){ + if(unlikely(strcmp(log_line_parsed->ssl_proto, "TLSv1") && + strcmp(log_line_parsed->ssl_proto, "TLSv1.1") && + strcmp(log_line_parsed->ssl_proto, "TLSv1.2") && + strcmp(log_line_parsed->ssl_proto, "TLSv1.3") && + strcmp(log_line_parsed->ssl_proto, "SSLv2") && + strcmp(log_line_parsed->ssl_proto, "SSLv3"))) { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("SSL_PROTO is invalid"); + #endif + log_line_parsed->ssl_proto[0] = '\0'; + log_line_parsed->parsing_errors++; + } + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted SSL_PROTO:%s", log_line_parsed->ssl_proto); + #endif + + goto next_item; + } + + if(fields_format[i] == SSL_CIPHER_SUITE){ + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: SSL_CIPHER_SUITE):%.*s", i, (int)field_size, field); + #endif + + if(field[0] == '-' && field_size == 1) { + log_line_parsed->ssl_cipher[0] = '\0'; + log_line_parsed->parsing_errors++; + } + + snprintfz( log_line_parsed->ssl_cipher, SSL_CIPHER_SUITE_MAX_LEN, "%.*s", (int)field_size, field); + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "before: SSL_CIPHER_SUITE:%s", log_line_parsed->ssl_cipher); + #endif + + if(verify){ + int regex_rc = regexec(&cipher_suite_regex, log_line_parsed->ssl_cipher, 0, NULL, 0); + if (likely(regex_rc == 0)){/* do nothing */} + else if (unlikely(regex_rc == REG_NOMATCH)) { + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + collector_error("SSL_CIPHER_SUITE is invalid"); + #endif + log_line_parsed->ssl_cipher[0] = '\0'; + log_line_parsed->parsing_errors++; + } + else { + size_t err_msg_size = regerror(regex_rc, &cipher_suite_regex, NULL, 0); + char *err_msg = mallocz(err_msg_size); + regerror(regex_rc, &cipher_suite_regex, err_msg, err_msg_size); + collector_error("cipher_suite_regex error:%s", err_msg); + freez(err_msg); + m_assert(0, "cipher_suite_regex has failed"); + } + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Extracted SSL_CIPHER_SUITE:%s", log_line_parsed->ssl_cipher); + #endif + + goto next_item; + } + + if(fields_format[i] == TIME){ + + if(wblp_config->skip_timestamp_parsing){ + while(*offset != ']') {offset++;}; + i++; + offset++; + goto next_item; + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Item %d (type: TIME - 1st of 2 fields):%.*s", i, (int)field_size, field); + #endif + + // TODO: What if TIME is invalid? + // if(field[0] == '-' && field_size == 1) { + // log_line_parsed->timestamp = 0; + // log_line_parsed->parsing_errors++; + // ++i; + // goto next_item; + // } + + char *datetime = field; + + if(memchr(datetime, '[', field_size)) { + datetime++; + field_size--; + } + + struct tm ltm = {0}; + char *tz_str = strptime(datetime, "%d/%b/%Y:%H:%M:%S", <m); + if(unlikely(tz_str == NULL)){ + collector_error("TIME datetime parsing failed"); + log_line_parsed->timestamp = 0; + log_line_parsed->parsing_errors++; + goto next_item; + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "strptime() result: year:%d mon:%d day:%d hour:%d min:%d sec:%d", + ltm.tm_year, ltm.tm_mon, ltm.tm_mday, + ltm.tm_hour, ltm.tm_min, ltm.tm_sec); + #endif + + /* Deal with 2nd part of datetime i.e. timezone */ + + m_assert(*tz_str == ' ', "Invalid TIME timezone"); + ++tz_str; + m_assert(*tz_str == '+' || *tz_str == '-', "Invalid TIME timezone"); + char tz_sign = *tz_str; + + char *tz_str_end = ++tz_str; + while(*tz_str_end != ']') tz_str_end++; + + m_assert(tz_str_end - tz_str == 4, "Invalid TIME timezone string length"); + + char tz_num[4]; + memcpy(tz_num, tz_str, tz_str_end - tz_str); + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "TIME 2nd part: %.*s", (int)(tz_str_end - tz_str), tz_str); + #endif + + long int tz = strtol(tz_str, NULL, 10); + long int tz_h = tz / 100; + long int tz_m = tz % 100; + int64_t tz_adj = (int64_t) tz_h * 3600 + (int64_t) tz_m * 60; + if(tz_sign == '+') tz_adj *= -1; // if timezone is positive, we need to subtract it to get GMT + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + debug_log( "Timezone: int:%ld, hrs:%ld, mins:%ld", tz, tz_h, tz_m); + #endif + + if(-1 == (log_line_parsed->timestamp = timegm(<m) + tz_adj)){ + collector_error("TIME datetime parsing failed"); + log_line_parsed->timestamp = 0; + log_line_parsed->parsing_errors++; + } + + #if ENABLE_PARSE_WEB_LOG_LINE_DEBUG + char tb[80]; + strftime(tb, sizeof(tb), "%c", <m ); + debug_log( "Extracted TIME:%ld", log_line_parsed->timestamp); + debug_log( "Extracted TIME string:%s", tb); + #endif + + offset = tz_str_end + 1; // WARNING! this modifies the offset but it is required in the TIME case. + ++i; // TIME takes up 2 fields_format[] spaces, so skip the next one + + goto next_item; + } + +next_item: + /* If offset is located beyond the end of the line, terminate parsing */ + if(unlikely((size_t) (offset - line) >= line_len)) break; + + field = ++offset; + } +} + +/** + * @brief Extract web log metrics from a group of web log fields. + * @param[in] parser_config Configuration specifying how and what web log + * metrics to extract. + * @param[in] line_parsed Web logs fields extracted from a web log line. + * @param[out] metrics Web logs metrics exctracted from the \p line_parsed + * web log fields, using the \p parser_config configuration. + */ +void extract_web_log_metrics(Log_parser_config_t *parser_config, + Log_line_parsed_t *line_parsed, + Web_log_metrics_t *metrics){ + + /* Extract number of parsed lines */ + /* NOTE: Commented out as it is done in flb_collect_logs_cb() now. */ + // metrics->num_lines++; + + /* Extract vhost */ + // TODO: Reduce number of reallocs + if((parser_config->chart_config & CHART_VHOST) && *line_parsed->vhost){ + int i; + for(i = 0; i < metrics->vhost_arr.size; i++){ + if(!strcmp(metrics->vhost_arr.vhosts[i].name, line_parsed->vhost)){ + metrics->vhost_arr.vhosts[i].count++; + break; + } + } + if(metrics->vhost_arr.size == i){ // Vhost not found in array - need to append + metrics->vhost_arr.size++; + if(metrics->vhost_arr.size >= metrics->vhost_arr.size_max){ + metrics->vhost_arr.size_max = metrics->vhost_arr.size * VHOST_BUFFS_SCALE_FACTOR + 1; + metrics->vhost_arr.vhosts = reallocz( metrics->vhost_arr.vhosts, + metrics->vhost_arr.size_max * sizeof(struct log_parser_metrics_vhost)); + } + snprintf(metrics->vhost_arr.vhosts[metrics->vhost_arr.size - 1].name, VHOST_MAX_LEN, "%s", line_parsed->vhost); + metrics->vhost_arr.vhosts[metrics->vhost_arr.size - 1].count = 1; + } + } + + /* Extract port */ + // TODO: Reduce number of reallocs + if((parser_config->chart_config & CHART_PORT) && line_parsed->port){ + int i; + for(i = 0; i < metrics->port_arr.size; i++){ + if(metrics->port_arr.ports[i].port == line_parsed->port){ + metrics->port_arr.ports[i].count++; + break; + } + } + if(metrics->port_arr.size == i){ // Port not found in array - need to append + metrics->port_arr.size++; + if(metrics->port_arr.size >= metrics->port_arr.size_max){ + metrics->port_arr.size_max = metrics->port_arr.size * PORT_BUFFS_SCALE_FACTOR + 1; + metrics->port_arr.ports = reallocz( metrics->port_arr.ports, + metrics->port_arr.size_max * sizeof(struct log_parser_metrics_port)); + } + if(line_parsed->port == WEB_LOG_INVALID_PORT) + snprintfz(metrics->port_arr.ports[metrics->port_arr.size - 1].name, PORT_MAX_LEN, WEB_LOG_INVALID_PORT_STR); + else + snprintfz(metrics->port_arr.ports[metrics->port_arr.size - 1].name, PORT_MAX_LEN, "%d", line_parsed->port); + metrics->port_arr.ports[metrics->port_arr.size - 1].port = line_parsed->port; + metrics->port_arr.ports[metrics->port_arr.size - 1].count = 1; + } + } + + /* Extract client metrics */ + if(( parser_config->chart_config & ( CHART_IP_VERSION | CHART_REQ_CLIENT_CURRENT | CHART_REQ_CLIENT_ALL_TIME)) && *line_parsed->req_client) { + + /* Invalid IP version */ + if(unlikely(!strcmp(line_parsed->req_client, WEB_LOG_INVALID_CLIENT_IP_STR))){ + if(parser_config->chart_config & CHART_IP_VERSION) metrics->ip_ver.invalid++; + } + + else if(strchr(line_parsed->req_client, ':')){ + /* IPv6 version */ + if(parser_config->chart_config & CHART_IP_VERSION) metrics->ip_ver.v6++; + + /* Unique Client IPv6 Address current poll */ + if(parser_config->chart_config & CHART_REQ_CLIENT_CURRENT){ + int i; + for(i = 0; i < metrics->req_clients_current_arr.ipv6_size; i++){ + if(!strcmp(metrics->req_clients_current_arr.ipv6_req_clients[i], line_parsed->req_client)) break; + } + if(metrics->req_clients_current_arr.ipv6_size == i){ // Req client not found in array - need to append + metrics->req_clients_current_arr.ipv6_size++; + metrics->req_clients_current_arr.ipv6_req_clients = reallocz(metrics->req_clients_current_arr.ipv6_req_clients, + metrics->req_clients_current_arr.ipv6_size * sizeof(*metrics->req_clients_current_arr.ipv6_req_clients)); + snprintf(metrics->req_clients_current_arr.ipv6_req_clients[metrics->req_clients_current_arr.ipv6_size - 1], + REQ_CLIENT_MAX_LEN, "%s", line_parsed->req_client); + } + } + + /* Unique Client IPv6 Address all-time */ + if(parser_config->chart_config & CHART_REQ_CLIENT_ALL_TIME){ + int i; + for(i = 0; i < metrics->req_clients_alltime_arr.ipv6_size; i++){ + if(!strcmp(metrics->req_clients_alltime_arr.ipv6_req_clients[i], line_parsed->req_client)) break; + } + if(metrics->req_clients_alltime_arr.ipv6_size == i){ // Req client not found in array - need to append + metrics->req_clients_alltime_arr.ipv6_size++; + metrics->req_clients_alltime_arr.ipv6_req_clients = reallocz(metrics->req_clients_alltime_arr.ipv6_req_clients, + metrics->req_clients_alltime_arr.ipv6_size * sizeof(*metrics->req_clients_alltime_arr.ipv6_req_clients)); + snprintf(metrics->req_clients_alltime_arr.ipv6_req_clients[metrics->req_clients_alltime_arr.ipv6_size - 1], + REQ_CLIENT_MAX_LEN, "%s", line_parsed->req_client); + } + } + } + + + else{ + /* IPv4 version */ + if(parser_config->chart_config & CHART_IP_VERSION) metrics->ip_ver.v4++; + + /* Unique Client IPv4 Address current poll */ + if(parser_config->chart_config & CHART_REQ_CLIENT_CURRENT){ + int i; + for(i = 0; i < metrics->req_clients_current_arr.ipv4_size; i++){ + if(!strcmp(metrics->req_clients_current_arr.ipv4_req_clients[i], line_parsed->req_client)) break; + } + if(metrics->req_clients_current_arr.ipv4_size == i){ // Req client not found in array - need to append + metrics->req_clients_current_arr.ipv4_size++; + metrics->req_clients_current_arr.ipv4_req_clients = reallocz(metrics->req_clients_current_arr.ipv4_req_clients, + metrics->req_clients_current_arr.ipv4_size * sizeof(*metrics->req_clients_current_arr.ipv4_req_clients)); + snprintf(metrics->req_clients_current_arr.ipv4_req_clients[metrics->req_clients_current_arr.ipv4_size - 1], + REQ_CLIENT_MAX_LEN, "%s", line_parsed->req_client); + } + } + + /* Unique Client IPv4 Address all-time */ + if(parser_config->chart_config & CHART_REQ_CLIENT_ALL_TIME){ + int i; + for(i = 0; i < metrics->req_clients_alltime_arr.ipv4_size; i++){ + if(!strcmp(metrics->req_clients_alltime_arr.ipv4_req_clients[i], line_parsed->req_client)) break; + } + if(metrics->req_clients_alltime_arr.ipv4_size == i){ // Req client not found in array - need to append + metrics->req_clients_alltime_arr.ipv4_size++; + metrics->req_clients_alltime_arr.ipv4_req_clients = reallocz(metrics->req_clients_alltime_arr.ipv4_req_clients, + metrics->req_clients_alltime_arr.ipv4_size * sizeof(*metrics->req_clients_alltime_arr.ipv4_req_clients)); + snprintf(metrics->req_clients_alltime_arr.ipv4_req_clients[metrics->req_clients_alltime_arr.ipv4_size - 1], + REQ_CLIENT_MAX_LEN, "%s", line_parsed->req_client); + } + } + } + } + + /* Extract request method */ + if(parser_config->chart_config & CHART_REQ_METHODS){ + for(int i = 0; i < REQ_METHOD_ARR_SIZE; i++){ + if(!strcmp(line_parsed->req_method, req_method_str[i])){ + metrics->req_method[i]++; + break; + } + } + } + + /* Extract request protocol */ + if(parser_config->chart_config & CHART_REQ_PROTO){ + if(!strcmp(line_parsed->req_proto, "1") || !strcmp(line_parsed->req_proto, "1.0")) metrics->req_proto.http_1++; + else if(!strcmp(line_parsed->req_proto, "1.1")) metrics->req_proto.http_1_1++; + else if(!strcmp(line_parsed->req_proto, "2") || !strcmp(line_parsed->req_proto, "2.0")) metrics->req_proto.http_2++; + else metrics->req_proto.other++; + } + + /* Extract bytes received and sent */ + if(parser_config->chart_config & CHART_BANDWIDTH){ + metrics->bandwidth.req_size += line_parsed->req_size; + metrics->bandwidth.resp_size += line_parsed->resp_size; + } + + /* Extract request processing time */ + if((parser_config->chart_config & CHART_REQ_PROC_TIME) && line_parsed->req_proc_time){ + if(line_parsed->req_proc_time < metrics->req_proc_time.min || metrics->req_proc_time.min == 0){ + metrics->req_proc_time.min = line_parsed->req_proc_time; + } + if(line_parsed->req_proc_time > metrics->req_proc_time.max || metrics->req_proc_time.max == 0){ + metrics->req_proc_time.max = line_parsed->req_proc_time; + } + metrics->req_proc_time.sum += line_parsed->req_proc_time; + metrics->req_proc_time.count++; + } + + /* Extract response code family, response code & response code type */ + if(parser_config->chart_config & (CHART_RESP_CODE_FAMILY | CHART_RESP_CODE | CHART_RESP_CODE_TYPE)){ + switch(line_parsed->resp_code / 100){ + /* Note: 304 and 401 should be treated as resp_success */ + case 1: + metrics->resp_code_family.resp_1xx++; + metrics->resp_code[line_parsed->resp_code - 100]++; + metrics->resp_code_type.resp_success++; + break; + case 2: + metrics->resp_code_family.resp_2xx++; + metrics->resp_code[line_parsed->resp_code - 100]++; + metrics->resp_code_type.resp_success++; + break; + case 3: + metrics->resp_code_family.resp_3xx++; + metrics->resp_code[line_parsed->resp_code - 100]++; + if(line_parsed->resp_code == 304) metrics->resp_code_type.resp_success++; + else metrics->resp_code_type.resp_redirect++; + break; + case 4: + metrics->resp_code_family.resp_4xx++; + metrics->resp_code[line_parsed->resp_code - 100]++; + if(line_parsed->resp_code == 401) metrics->resp_code_type.resp_success++; + else metrics->resp_code_type.resp_bad++; + break; + case 5: + metrics->resp_code_family.resp_5xx++; + metrics->resp_code[line_parsed->resp_code - 100]++; + metrics->resp_code_type.resp_error++; + break; + default: + metrics->resp_code_family.other++; + metrics->resp_code[RESP_CODE_ARR_SIZE - 1]++; + metrics->resp_code_type.other++; + break; + } + } + + /* Extract SSL protocol */ + if(parser_config->chart_config & CHART_SSL_PROTO){ + if(!strcmp(line_parsed->ssl_proto, "TLSv1")) metrics->ssl_proto.tlsv1++; + else if(!strcmp(line_parsed->ssl_proto, "TLSv1.1")) metrics->ssl_proto.tlsv1_1++; + else if(!strcmp(line_parsed->ssl_proto, "TLSv1.2")) metrics->ssl_proto.tlsv1_2++; + else if(!strcmp(line_parsed->ssl_proto, "TLSv1.3")) metrics->ssl_proto.tlsv1_3++; + else if(!strcmp(line_parsed->ssl_proto, "SSLv2")) metrics->ssl_proto.sslv2++; + else if(!strcmp(line_parsed->ssl_proto, "SSLv3")) metrics->ssl_proto.sslv3++; + else metrics->ssl_proto.other++; + } + + /* Extract SSL cipher suite */ + // TODO: Reduce number of reallocs + if((parser_config->chart_config & CHART_SSL_CIPHER) && *line_parsed->ssl_cipher){ + int i; + for(i = 0; i < metrics->ssl_cipher_arr.size; i++){ + if(!strcmp(metrics->ssl_cipher_arr.ssl_ciphers[i].name, line_parsed->ssl_cipher)){ + metrics->ssl_cipher_arr.ssl_ciphers[i].count++; + break; + } + } + if(metrics->ssl_cipher_arr.size == i){ // SSL cipher suite not found in array - need to append + metrics->ssl_cipher_arr.size++; + metrics->ssl_cipher_arr.ssl_ciphers = reallocz(metrics->ssl_cipher_arr.ssl_ciphers, + metrics->ssl_cipher_arr.size * sizeof(struct log_parser_metrics_ssl_cipher)); + snprintf( metrics->ssl_cipher_arr.ssl_ciphers[metrics->ssl_cipher_arr.size - 1].name, + SSL_CIPHER_SUITE_MAX_LEN, "%s", line_parsed->ssl_cipher); + metrics->ssl_cipher_arr.ssl_ciphers[metrics->ssl_cipher_arr.size - 1].count = 1; + } + } + + metrics->timestamp = line_parsed->timestamp; +} + +/** + * @brief Try to automatically detect the configuration for a web log parser. + * @details It tries to automatically detect the configuration to be used for + * a web log parser, by parsing a single web log line record and trying to pick + * a matching configuration (from a static list of predefined ones.) + * @param[in] line Null-terminated web log line to use in guessing the configuration. + * @param[in] delimiter Delimiter used to break down \p line in separate fields. + * @returns Pointer to the web log parser configuration if automatic detection + * was sucessful, otherwise NULL. + */ +Web_log_parser_config_t *auto_detect_web_log_parser_config(char *line, const char delimiter){ + for(int i = 0; csv_auto_format_guess_matrix[i] != NULL; i++){ + Web_log_parser_config_t *wblp_config = read_web_log_parser_config(csv_auto_format_guess_matrix[i], delimiter); + if(count_fields(line, delimiter) == wblp_config->num_fields){ + wblp_config->verify_parsed_logs = 1; // Verification must be turned on to be able to pick up parsing_errors + Log_line_parsed_t line_parsed = (Log_line_parsed_t) {0}; + parse_web_log_line(wblp_config, line, strlen(line), &line_parsed); + if(line_parsed.parsing_errors == 0){ + return wblp_config; + } + } + + freez(wblp_config->fields); + freez(wblp_config); + } + return NULL; +} |