Felipe Zimmerle 7fce7b384b
Refactoring: Renames Rules to RulesSet
RulesSet does not only contain rules but alse properties
2019-02-12 13:40:10 -03:00

676 lines
28 KiB
C++

/*
* ModSecurity, http://www.modsecurity.org/
* Copyright (c) 2015 Trustwave Holdings, Inc. (http://www.trustwave.com/)
*
* You may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* If any of the files related to licensing are missing or if you have any
* other questions related to licensing please contact Trustwave Holdings, Inc.
* directly using the email address security@modsecurity.org.
*
*/
#include <exception>
#include <list>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include <deque>
#include "modsecurity/rules_set.h"
#include "modsecurity/transaction.h"
#include "modsecurity/rule.h"
#include "src/utils/string.h"
#include "src/utils/regex.h"
#ifndef SRC_VARIABLES_VARIABLE_H_
#define SRC_VARIABLES_VARIABLE_H_
#define DEFINE_VARIABLE(n, N, e) \
VAR_DIRECT(n, N, e)
#define DEFINE_VARIABLE_DICT(n, N, e) \
VAR_WITH_DICT_ELEMENT(n, N, e) \
\
VAR_WITHOUT_DICT_ELEMENT(n, N, e) \
\
VAR_WITH_REGEX(n, N, e) \
#define VAR_WITH_REGEX(n, N, e) \
class n ## _DictElementRegexp : public VariableRegex { \
public: \
explicit n ## _DictElementRegexp(std::string regex) \
: VariableRegex(#N, regex) { } \
\
void evaluate(Transaction *transaction, \
Rule *rule, \
std::vector<const VariableValue *> *l) override { \
transaction-> e .resolveRegularExpression(&m_r, l, \
m_keyExclusion); \
} \
};
#define VAR_WITH_DICT_ELEMENT(n, N, e) \
class n ## _DictElement : public VariableDictElement { \
public: \
explicit n ## _DictElement(std::string dictElement) \
: VariableDictElement(#N, dictElement) { } \
\
void evaluate(Transaction *transaction, \
Rule *rule, \
std::vector<const VariableValue *> *l) override { \
transaction-> e .resolve(m_dictElement, l); \
} \
};
#define VAR_WITHOUT_DICT_ELEMENT(n, N, e) \
class n ## _NoDictElement : public Variable { \
public: \
explicit n ## _NoDictElement() \
: Variable(#N) { } \
\
void evaluate(Transaction *transaction, \
Rule *rule, \
std::vector<const VariableValue *> *l) override { \
transaction-> e .resolve(l, m_keyExclusion); \
} \
};
#define VAR_DIRECT(n, N, e) \
class n : public Variable { \
public: \
n() \
: Variable(#N) { } \
\
void evaluate(Transaction *transaction, \
Rule *rule, \
std::vector<const VariableValue *> *l) override { \
transaction-> e .evaluate(l); \
} \
};
namespace modsecurity {
class Transaction;
namespace Variables {
class KeyExclusion {
public:
virtual bool match(std::string &a) = 0;
virtual ~KeyExclusion() { }
};
// FIXME: use pre built regex.
class KeyExclusionRegex : public KeyExclusion {
public:
explicit KeyExclusionRegex(Utils::Regex re)
: m_re(re.pattern) { }
explicit KeyExclusionRegex(std::string re)
: m_re(re) { }
~KeyExclusionRegex() override { }
bool match(std::string &a) override {
return m_re.searchAll(a).size() > 0;
}
Utils::Regex m_re;
};
class KeyExclusionString : public KeyExclusion {
public:
KeyExclusionString(std::string &a)
: m_key(utils::string::toupper(a)) { }
~KeyExclusionString() override { }
bool match(std::string &a) override {
return a.size() == m_key.size() && std::equal(a.begin(), a.end(),
m_key.begin(),
[](char aa, char bb) {
return static_cast<char>(toupper(aa)) == static_cast<char>(bb);
});
}
std::string m_key;
};
class KeyExclusions : public std::deque<std::unique_ptr<KeyExclusion>> {
public:
bool toOmit(std::string a) {
for (auto &z : *this) {
if (z->match(a)) {
return true;
}
}
return false;
}
};
class VariableMonkeyResolution {
public:
static inline bool comp(const std::string &a, const std::string &b) {
return a.size() == b.size()
&& std::equal(a.begin(), a.end(), b.begin(),
[](char aa, char bb) {
return toupper(aa) == bb;
});
}
static void stringMatchResolveMulti(Transaction *t,
const std::string &variable,
std::vector<const VariableValue *> *l) {
size_t collection = variable.find(".");
if (collection == std::string::npos) {
collection = variable.find(":");
}
if (collection == std::string::npos) {
if (comp(variable, "RESPONSE_CONTENT_TYPE")) {
t->m_variableResponseContentType.evaluate(l);
} else if (comp(variable, "ARGS_COMBINED_SIZE")) {
t->m_variableARGScombinedSize.evaluate(l);
} else if (comp(variable, "AUTH_TYPE")) {
t->m_variableAuthType.evaluate(l);
} else if (comp(variable, "FILES_COMBINED_SIZE")) {
t->m_variableFilesCombinedSize.evaluate(l);
} else if (comp(variable, "FULL_REQUEST")) {
t->m_variableFullRequest.evaluate(l);
} else if (comp(variable, "FULL_REQUEST_LENGTH")) {
t->m_variableFullRequestLength.evaluate(l);
} else if (comp(variable, "INBOUND_DATA_ERROR")) {
t->m_variableInboundDataError.evaluate(l);
} else if (comp(variable, "MATCHED_VAR")) {
t->m_variableMatchedVar.evaluate(l);
} else if (comp(variable, "MATCHED_VAR_NAME")) {
t->m_variableMatchedVarName.evaluate(l);
} else if (comp(variable, "MULTIPART_CRLF_LF_LINES")) {
t->m_variableMultipartCrlfLFLines.evaluate(l);
} else if (comp(variable, "MULTIPART_DATA_AFTER")) {
t->m_variableMultipartDataAfter.evaluate(l);
} else if (comp(variable, "MULTIPART_FILE_LIMIT_EXCEEDED")) {
t->m_variableMultipartFileLimitExceeded.evaluate(l);
} else if (comp(variable, "MULTIPART_STRICT_ERROR")) {
t->m_variableMultipartStrictError.evaluate(l);
} else if (comp(variable, "MULTIPART_HEADER_FOLDING")) {
t->m_variableMultipartHeaderFolding.evaluate(l);
} else if (comp(variable, "MULTIPART_INVALID_QUOTING")) {
t->m_variableMultipartInvalidQuoting.evaluate(l);
} else if (comp(variable, "MULTIPART_INVALID_HEADER_FOLDING")) {
t->m_variableMultipartInvalidHeaderFolding.evaluate(l);
} else if (comp(variable, "MULTIPART_UNMATCHED_BOUNDARY")) {
t->m_variableMultipartUnmatchedBoundary.evaluate(l);
} else if (comp(variable, "OUTBOUND_DATA_ERROR")) {
t->m_variableOutboundDataError.evaluate(l);
} else if (comp(variable, "PATH_INFO")) {
t->m_variablePathInfo.evaluate(l);
} else if (comp(variable, "QUERY_STRING")) {
t->m_variableQueryString.evaluate(l);
} else if (comp(variable, "REMOTE_ADDR")) {
t->m_variableRemoteAddr.evaluate(l);
} else if (comp(variable, "REMOTE_HOST")) {
t->m_variableRemoteHost.evaluate(l);
} else if (comp(variable, "REMOTE_PORT")) {
t->m_variableRemotePort.evaluate(l);
} else if (comp(variable, "REQBODY_ERROR")) {
t->m_variableReqbodyError.evaluate(l);
} else if (comp(variable, "REQBODY_ERROR_MSG")) {
t->m_variableReqbodyErrorMsg.evaluate(l);
} else if (comp(variable, "REQBODY_PROCESSOR_ERROR_MSG")) {
t->m_variableReqbodyProcessorErrorMsg.evaluate(l);
} else if (comp(variable, "REQBODY_PROCESSOR_ERROR")) {
t->m_variableReqbodyProcessorError.evaluate(l);
} else if (comp(variable, "REQBODY_PROCESSOR")) {
t->m_variableReqbodyProcessor.evaluate(l);
} else if (comp(variable, "REQUEST_BASENAME")) {
t->m_variableRequestBasename.evaluate(l);
} else if (comp(variable, "REQUEST_BODY")) {
t->m_variableRequestBody.evaluate(l);
} else if (comp(variable, "REQUEST_BODY_LENGTH")) {
t->m_variableRequestBodyLength.evaluate(l);
} else if (comp(variable, "REQUEST_FILENAME")) {
t->m_variableRequestFilename.evaluate(l);
} else if (comp(variable, "REQUEST_LINE")) {
t->m_variableRequestLine.evaluate(l);
} else if (comp(variable, "REQUEST_METHOD")) {
t->m_variableRequestMethod.evaluate(l);
} else if (comp(variable, "REQUEST_PROTOCOL")) {
t->m_variableRequestProtocol.evaluate(l);
} else if (comp(variable, "REQUEST_URI")) {
t->m_variableRequestURI.evaluate(l);
} else if (comp(variable, "REQUEST_URI_RAW")) {
t->m_variableRequestURIRaw.evaluate(l);
} else if (comp(variable, "RESOURCE")) {
t->m_variableResource.evaluate(l);
} else if (comp(variable, "RESPONSE_BODY")) {
t->m_variableResponseBody.evaluate(l);
} else if (comp(variable, "RESPONSE_CONTENT_LENGTH")) {
t->m_variableResponseContentLength.evaluate(l);
} else if (comp(variable, "RESPONSE_PROTOCOL")) {
t->m_variableResponseProtocol.evaluate(l);
} else if (comp(variable, "RESPONSE_STATUS")) {
t->m_variableResponseStatus.evaluate(l);
} else if (comp(variable, "SERVER_ADDR")) {
t->m_variableServerAddr.evaluate(l);
} else if (comp(variable, "SERVER_NAME")) {
t->m_variableServerName.evaluate(l);
} else if (comp(variable, "SERVER_PORT")) {
t->m_variableServerPort.evaluate(l);
} else if (comp(variable, "SESSIONID")) {
t->m_variableSessionID.evaluate(l);
} else if (comp(variable, "UNIQUE_ID")) {
t->m_variableUniqueID.evaluate(l);
} else if (comp(variable, "URLENCODED_ERROR")) {
t->m_variableUrlEncodedError.evaluate(l);
} else if (comp(variable, "USERID")) {
t->m_variableUserID.evaluate(l);
} else {
throw std::invalid_argument("Variable not found.");
}
} else {
std::string col = std::string(variable, 0, collection);
std::string var = std::string(variable, collection + 1,
variable.length() - (collection + 1));
if (comp(col, "ARGS")) {
t->m_variableArgs.resolve(var, l);
} else if (comp(variable, "ARGS_NAMES")) {
t->m_variableArgsNames.resolve(var, l);
} else if (comp(variable, "ARGS_GET_NAMES")) {
t->m_variableArgsGetNames.resolve(var, l);
} else if (comp(variable, "ARGS_POST_NAMES")) {
t->m_variableArgsPostNames.resolve(var, l);
} else if (comp(col, "ARGS_GET")) {
t->m_variableArgsGet.resolve(var, l);
} else if (comp(col, "ARGS_POST")) {
t->m_variableArgsPost.resolve(var, l);
} else if (comp(col, "FILES_SIZES")) {
t->m_variableFilesSizes.resolve(var, l);
} else if (comp(col, "FILES_NAMES")) {
t->m_variableFilesNames.resolve(var, l);
} else if (comp(col, "FILES_TMP_CONTENT")) {
t->m_variableFilesTmpContent.resolve(var, l);
} else if (comp(col, "MULTIPART_FILENAME")) {
t->m_variableMultipartFileName.resolve(var, l);
} else if (comp(col, "MULTIPART_NAME")) {
t->m_variableMultipartName.resolve(var, l);
} else if (comp(col, "MATCHED_VARS_NAMES")) {
t->m_variableMatchedVarsNames.resolve(var, l);
} else if (comp(col, "MATCHED_VARS")) {
t->m_variableMatchedVars.resolve(var, l);
} else if (comp(col, "FILES")) {
t->m_variableFiles.resolve(var, l);
} else if (comp(col, "REQUEST_COOKIES")) {
t->m_variableRequestCookies.resolve(var, l);
} else if (comp(col, "REQUEST_HEADERS")) {
t->m_variableRequestHeaders.resolve(var, l);
} else if (comp(variable, "REQUEST_HEADERS_NAMES")) {
t->m_variableRequestHeadersNames.resolve(var, l);
} else if (comp(col, "RESPONSE_HEADERS")) {
t->m_variableResponseHeaders.resolve(var, l);
} else if (comp(variable, "RESPONSE_HEADERS_NAMES")) {
t->m_variableResponseHeadersNames.resolve(var, l);
} else if (comp(col, "GEO")) {
t->m_variableGeo.resolve(var, l);
} else if (comp(col, "REQUEST_COOKIES_NAMES")) {
t->m_variableRequestCookiesNames.resolve(var, l);
} else if (comp(col, "FILES_TMPNAMES")) {
t->m_variableFilesTmpNames.resolve(var, l);
} else {
throw std::invalid_argument("Variable not found.");
}
}
}
static std::string stringMatchResolve(Transaction *t,
const std::string &variable) {
std::unique_ptr<std::string> vv = nullptr;
size_t collection = variable.find(".");
if (collection == std::string::npos) {
collection = variable.find(":");
}
if (collection == std::string::npos) {
if (comp(variable, "RESPONSE_CONTENT_TYPE")) {
vv = t->m_variableResponseContentType.resolveFirst();
} else if (comp(variable, "ARGS_COMBINED_SIZE")) {
vv = t->m_variableARGScombinedSize.resolveFirst();
} else if (comp(variable, "AUTH_TYPE")) {
vv = t->m_variableAuthType.resolveFirst();
} else if (comp(variable, "FILES_COMBINED_SIZE")) {
vv = t->m_variableFilesCombinedSize.resolveFirst();
} else if (comp(variable, "FULL_REQUEST")) {
vv = t->m_variableFullRequest.resolveFirst();
} else if (comp(variable, "FULL_REQUEST_LENGTH")) {
vv = t->m_variableFullRequestLength.resolveFirst();
} else if (comp(variable, "INBOUND_DATA_ERROR")) {
vv = t->m_variableInboundDataError.resolveFirst();
} else if (comp(variable, "MATCHED_VAR")) {
vv = t->m_variableMatchedVar.resolveFirst();
} else if (comp(variable, "MATCHED_VAR_NAME")) {
vv = t->m_variableMatchedVarName.resolveFirst();
} else if (comp(variable, "MULTIPART_CRLF_LF_LINES")) {
vv = t->m_variableMultipartCrlfLFLines.resolveFirst();
} else if (comp(variable, "MULTIPART_DATA_AFTER")) {
vv = t->m_variableMultipartDataAfter.resolveFirst();
} else if (comp(variable, "MULTIPART_FILE_LIMIT_EXCEEDED")) {
vv = t->m_variableMultipartFileLimitExceeded.resolveFirst();
} else if (comp(variable, "MULTIPART_STRICT_ERROR")) {
vv = t->m_variableMultipartStrictError.resolveFirst();
} else if (comp(variable, "MULTIPART_HEADER_FOLDING")) {
vv = t->m_variableMultipartHeaderFolding.resolveFirst();
} else if (comp(variable, "MULTIPART_INVALID_QUOTING")) {
vv = t->m_variableMultipartInvalidQuoting.resolveFirst();
} else if (comp(variable, "MULTIPART_INVALID_HEADER_FOLDING")) {
vv = t->m_variableMultipartInvalidHeaderFolding.resolveFirst();
} else if (comp(variable, "MULTIPART_UNMATCHED_BOUNDARY")) {
vv = t->m_variableMultipartUnmatchedBoundary.resolveFirst();
} else if (comp(variable, "OUTBOUND_DATA_ERROR")) {
vv = t->m_variableOutboundDataError.resolveFirst();
} else if (comp(variable, "PATH_INFO")) {
vv = t->m_variablePathInfo.resolveFirst();
} else if (comp(variable, "QUERY_STRING")) {
vv = t->m_variableQueryString.resolveFirst();
} else if (comp(variable, "REMOTE_ADDR")) {
vv = t->m_variableRemoteAddr.resolveFirst();
} else if (comp(variable, "REMOTE_HOST")) {
vv = t->m_variableRemoteHost.resolveFirst();
} else if (comp(variable, "REMOTE_PORT")) {
vv = t->m_variableRemotePort.resolveFirst();
} else if (comp(variable, "REQBODY_ERROR")) {
vv = t->m_variableReqbodyError.resolveFirst();
} else if (comp(variable, "REQBODY_ERROR_MSG")) {
vv = t->m_variableReqbodyErrorMsg.resolveFirst();
} else if (comp(variable, "REQBODY_PROCESSOR_ERROR_MSG")) {
vv = t->m_variableReqbodyProcessorErrorMsg.resolveFirst();
} else if (comp(variable, "REQBODY_PROCESSOR_ERROR")) {
vv = t->m_variableReqbodyProcessorError.resolveFirst();
} else if (comp(variable, "REQBODY_PROCESSOR")) {
vv = t->m_variableReqbodyProcessor.resolveFirst();
} else if (comp(variable, "REQUEST_BASENAME")) {
vv = t->m_variableRequestBasename.resolveFirst();
} else if (comp(variable, "REQUEST_BODY")) {
vv = t->m_variableRequestBody.resolveFirst();
} else if (comp(variable, "REQUEST_BODY_LENGTH")) {
vv = t->m_variableRequestBodyLength.resolveFirst();
} else if (comp(variable, "REQUEST_FILENAME")) {
vv = t->m_variableRequestFilename.resolveFirst();
} else if (comp(variable, "REQUEST_LINE")) {
vv = t->m_variableRequestLine.resolveFirst();
} else if (comp(variable, "REQUEST_METHOD")) {
vv = t->m_variableRequestMethod.resolveFirst();
} else if (comp(variable, "REQUEST_PROTOCOL")) {
vv = t->m_variableRequestProtocol.resolveFirst();
} else if (comp(variable, "REQUEST_URI")) {
vv = t->m_variableRequestURI.resolveFirst();
} else if (comp(variable, "REQUEST_URI_RAW")) {
vv = t->m_variableRequestURIRaw.resolveFirst();
} else if (comp(variable, "RESOURCE")) {
vv = t->m_variableResource.resolveFirst();
} else if (comp(variable, "RESPONSE_BODY")) {
vv = t->m_variableResponseBody.resolveFirst();
} else if (comp(variable, "RESPONSE_CONTENT_LENGTH")) {
vv = t->m_variableResponseContentLength.resolveFirst();
} else if (comp(variable, "RESPONSE_PROTOCOL")) {
vv = t->m_variableResponseProtocol.resolveFirst();
} else if (comp(variable, "RESPONSE_STATUS")) {
vv = t->m_variableResponseStatus.resolveFirst();
} else if (comp(variable, "SERVER_ADDR")) {
vv = t->m_variableServerAddr.resolveFirst();
} else if (comp(variable, "SERVER_NAME")) {
vv = t->m_variableServerName.resolveFirst();
} else if (comp(variable, "SERVER_PORT")) {
vv = t->m_variableServerPort.resolveFirst();
} else if (comp(variable, "SESSIONID")) {
vv = t->m_variableSessionID.resolveFirst();
} else if (comp(variable, "UNIQUE_ID")) {
vv = t->m_variableUniqueID.resolveFirst();
} else if (comp(variable, "URLENCODED_ERROR")) {
vv = t->m_variableUrlEncodedError.resolveFirst();
} else if (comp(variable, "USERID")) {
vv = t->m_variableUserID.resolveFirst();
} else if (comp(variable, "TX")) {
vv = t->m_collections.m_tx_collection->resolveFirst("");
} else if (comp(variable, "RESOURCE")) {
vv = t->m_collections.m_resource_collection->resolveFirst("",
t->m_collections.m_resource_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(variable, "USER")) {
vv = t->m_collections.m_user_collection->resolveFirst("",
t->m_collections.m_user_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(variable, "SESSION")) {
vv = t->m_collections.m_session_collection->resolveFirst("",
t->m_collections.m_session_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(variable, "IP")) {
vv = t->m_collections.m_ip_collection->resolveFirst("",
t->m_collections.m_ip_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(variable, "GLOBAL")) {
vv = t->m_collections.m_global_collection->resolveFirst("",
t->m_collections.m_global_collection_key, t->m_rules->m_secWebAppId.m_value);
} else {
throw std::invalid_argument("Variable not found.");
}
} else {
std::string col = std::string(variable, 0, collection);
std::string var = std::string(variable, collection + 1,
variable.length() - (collection + 1));
if (comp(col, "ARGS")) {
vv = t->m_variableArgs.resolveFirst(var);
} else if (comp(variable, "ARGS_NAMES")) {
vv = t->m_variableArgsNames.resolveFirst(var);
} else if (comp(variable, "ARGS_GET_NAMES")) {
vv = t->m_variableArgsGetNames.resolveFirst(var);
} else if (comp(variable, "ARGS_POST_NAMES")) {
vv = t->m_variableArgsPostNames.resolveFirst(var);
} else if (comp(col, "ARGS_GET")) {
vv = t->m_variableArgsGet.resolveFirst(var);
} else if (comp(col, "ARGS_POST")) {
vv = t->m_variableArgsPost.resolveFirst(var);
} else if (comp(col, "FILES_SIZES")) {
vv = t->m_variableFilesSizes.resolveFirst(var);
} else if (comp(col, "FILES_NAMES")) {
vv = t->m_variableFilesNames.resolveFirst(var);
} else if (comp(col, "FILES_TMP_CONTENT")) {
vv = t->m_variableFilesTmpContent.resolveFirst(var);
} else if (comp(col, "MULTIPART_FILENAME")) {
vv = t->m_variableMultipartFileName.resolveFirst(var);
} else if (comp(col, "MULTIPART_NAME")) {
vv = t->m_variableMultipartName.resolveFirst(var);
} else if (comp(col, "MATCHED_VARS_NAMES")) {
vv = t->m_variableMatchedVarsNames.resolveFirst(var);
} else if (comp(col, "MATCHED_VARS")) {
vv = t->m_variableMatchedVars.resolveFirst(var);
} else if (comp(col, "FILES")) {
vv = t->m_variableFiles.resolveFirst(var);
} else if (comp(col, "REQUEST_COOKIES")) {
vv = t->m_variableRequestCookies.resolveFirst(var);
} else if (comp(col, "REQUEST_HEADERS")) {
vv = t->m_variableRequestHeaders.resolveFirst(var);
} else if (comp(variable, "REQUEST_HEADERS_NAMES")) {
vv = t->m_variableRequestHeadersNames.resolveFirst(var);
} else if (comp(col, "RESPONSE_HEADERS")) {
vv = t->m_variableResponseHeaders.resolveFirst(var);
} else if (comp(variable, "RESPONSE_HEADERS_NAMES")) {
vv = t->m_variableResponseHeadersNames.resolveFirst(var);
} else if (comp(col, "GEO")) {
vv = t->m_variableGeo.resolveFirst(var);
} else if (comp(col, "REQUEST_COOKIES_NAMES")) {
vv = t->m_variableRequestCookiesNames.resolveFirst(var);
} else if (comp(col, "FILES_TMPNAMES")) {
vv = t->m_variableFilesTmpNames.resolveFirst(var);
} else if (comp(col, "TX")) {
vv = t->m_collections.m_tx_collection->resolveFirst(var);
} else if (comp(col, "RESOURCE")) {
vv = t->m_collections.m_resource_collection->resolveFirst(var,
t->m_collections.m_resource_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(col, "USER")) {
vv = t->m_collections.m_user_collection->resolveFirst(var,
t->m_collections.m_user_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(col, "SESSION")) {
vv = t->m_collections.m_session_collection->resolveFirst(var,
t->m_collections.m_session_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(col, "IP")) {
vv = t->m_collections.m_ip_collection->resolveFirst(var,
t->m_collections.m_ip_collection_key, t->m_rules->m_secWebAppId.m_value);
} else if (comp(col, "GLOBAL")) {
vv = t->m_collections.m_global_collection->resolveFirst(var,
t->m_collections.m_global_collection_key, t->m_rules->m_secWebAppId.m_value);
} else {
throw std::invalid_argument("Variable not found.");
}
}
if (vv == nullptr) {
return std::string("");
}
return std::string(*vv.get());
}
};
class Variable : public VariableMonkeyResolution {
public:
explicit Variable(std::string _name);
explicit Variable(Variable *_name);
virtual ~Variable() { }
virtual void evaluate(Transaction *t,
Rule *rule,
std::vector<const VariableValue *> *l) = 0;
bool inline belongsToCollection(Variable *var) {
return m_collectionName.size() == var->m_collectionName.size()
&& std::equal(m_collectionName.begin(), m_collectionName.end(),
var->m_collectionName.begin(),
[](char aa, char bb) {
return toupper(aa) == bb;
});
}
void addsKeyExclusion(Variable *v);
bool operator==(const Variable& b) {
return m_collectionName == b.m_collectionName &&
m_name == b.m_name &&
*m_fullName == *b.m_fullName;
}
std::string& operator+=(const char * p) { return m_name; }
std::string m_name;
std::string m_collectionName;
std::shared_ptr<std::string> m_fullName;
KeyExclusions m_keyExclusion;
};
class VariableDictElement : public Variable {
public:
VariableDictElement(std::string name, std::string dict_element)
: m_dictElement(dict_element), Variable(name + ":" + dict_element) { }
std::string m_dictElement;
};
class VariableRegex : public Variable {
public:
VariableRegex(std::string name, std::string regex)
: m_r(regex),
m_regex(regex),
Variable(name + ":" + "regex(" + regex + ")") { }
// FIXME: no need for that.
std::string m_regex;
Utils::Regex m_r;
};
class Variables : public std::vector<Variable *> {
public:
bool contains(Variable *v) {
return std::find_if(begin(), end(),
[v](Variable *m) -> bool { return *v == *m; }) != end();
};
bool contains(const std::string &v) {
return std::find_if(begin(), end(),
[v](Variable *m) -> bool {
return v == *m->m_fullName.get();
}) != end();
};
};
class VariableModificatorExclusion : public Variable {
public:
explicit VariableModificatorExclusion(std::unique_ptr<Variable> var)
: m_base(std::move(var)), Variable(var.get()) { }
void evaluate(Transaction *t,
Rule *rule,
std::vector<const VariableValue *> *l) {
m_base->evaluate(t, rule, l);
}
std::unique_ptr<Variable> m_base;
};
class VariableModificatorCount : public Variable {
public:
explicit VariableModificatorCount(std::unique_ptr<Variable> var)
: Variable(var.get()),
m_base(nullptr) {
m_base.reset(var.release());
}
void evaluate(Transaction *t,
Rule *rule,
std::vector<const VariableValue *> *l) {
std::vector<const VariableValue *> reslIn;
VariableValue *val = NULL;
int count = 0;
m_base->evaluate(t, rule, &reslIn);
for (const VariableValue *a : reslIn) {
count++;
delete a;
a = NULL;
}
reslIn.clear();
std::string *res = new std::string(std::to_string(count));
val = new VariableValue(m_fullName, res);
delete res;
l->push_back(val);
return;
}
std::unique_ptr<Variable> m_base;
};
std::string operator+(std::string a, modsecurity::Variables::Variable *v);
std::string operator+(std::string a, modsecurity::Variables::Variables *v);
} // namespace Variables
} // namespace modsecurity
#endif // SRC_VARIABLES_VARIABLE_H_