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compiler.go
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compiler.go
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// Copyright © 2015-2020 Hilko Bengen <bengen@hilluzination.de>
// All rights reserved.
//
// Use of this source code is governed by the license that can be
// found in the LICENSE file.
package yara
/*
#include <yara.h>
#include "compat.h"
// rule_identifier is a union accessor function.
static const char* rule_identifier(YR_RULE* r) {
return r->identifier;
}
// rule_namespace is a union accessor function.
static const char* rule_namespace(YR_RULE* r) {
return r->ns->name;
}
void compilerCallback(int, char*, int, YR_RULE*, char*, void*);
char* includeCallback(char*, char*, char*, void*);
void freeCallback(char*, void*);
*/
import "C"
import (
"errors"
"fmt"
"os"
"reflect"
"runtime"
"unsafe"
)
//export compilerCallback
func compilerCallback(errorLevel C.int, filename *C.char, linenumber C.int, rule *C.YR_RULE, message *C.char, userData unsafe.Pointer) {
c := cgoHandle(*(*uintptr)(userData)).Value().(*Compiler)
var text string
if rule != nil {
text = fmt.Sprintf("rule \"%s\": %s",
C.GoString(C.rule_identifier(rule)),
C.GoString(message))
} else {
text = C.GoString(message)
}
msg := CompilerMessage{
Filename: C.GoString(filename),
Line: int(linenumber),
Text: text,
}
if rule != nil {
msg.Rule = C.GoString(C.rule_namespace(rule))
if msg.Rule == "default" {
msg.Rule = C.GoString(C.rule_identifier(rule))
} else {
msg.Rule += "." + C.GoString(C.rule_identifier(rule))
}
}
switch errorLevel {
case C.YARA_ERROR_LEVEL_ERROR:
c.Errors = append(c.Errors, msg)
case C.YARA_ERROR_LEVEL_WARNING:
c.Warnings = append(c.Warnings, msg)
}
}
// A Compiler encapsulates the YARA compiler that transforms rules
// into YARA's internal, binary form which in turn is used for
// scanning files or memory blocks.
//
// Since this type contains a C pointer to a YR_COMPILER structure
// that may be automatically freed, it should not be copied.
type Compiler struct {
Errors []CompilerMessage
Warnings []CompilerMessage
// used for include callback
callbackData *cgoHandle
cptr *C.YR_COMPILER
}
// A CompilerMessage contains an error or warning message produced
// while compiling sets of rules using AddString or AddFile.
type CompilerMessage struct {
Filename string
Line int
Text string
Rule string
}
// NewCompiler creates a YARA compiler.
func NewCompiler() (*Compiler, error) {
var yrCompiler *C.YR_COMPILER
if err := newError(C.yr_compiler_create(&yrCompiler)); err != nil {
return nil, err
}
c := &Compiler{cptr: yrCompiler, callbackData: (*cgoHandle)(C.malloc(C.size_t(unsafe.Sizeof(cgoHandle(0)))))}
*c.callbackData = 0
runtime.SetFinalizer(c, (*Compiler).Destroy)
return c, nil
}
// Destroy destroys the YARA data structure representing a compiler.
//
// It should not be necessary to call this method directly.
func (c *Compiler) Destroy() {
if c.cptr != nil {
C.yr_compiler_destroy(c.cptr)
c.cptr = nil
}
if c.callbackData != nil {
C.free(unsafe.Pointer(c.callbackData))
c.callbackData = nil
}
runtime.SetFinalizer(c, nil)
}
func (c *Compiler) setCallbackData(cb CompilerIncludeFunc) {
if *c.callbackData != 0 {
c.callbackData.Delete()
*c.callbackData = 0
}
if cb != nil {
*c.callbackData = cgoNewHandle(cb)
}
}
var (
errParse = errors.New("Compiler cannot be used after parse error")
errRules = errors.New("Compiler cannot be used after producing rule set")
)
func (c *Compiler) checkUsage() (err error) {
if c.cptr.errors != 0 {
err = errParse
} else if c.cptr.rules != nil {
err = errRules
}
return
}
// AddFile compiles rules from a file. Rules are added to the
// specified namespace.
//
// If this function returns an error, the Compiler object will become
// unusable.
func (c *Compiler) AddFile(file *os.File, namespace string) (err error) {
if err := c.checkUsage(); err != nil {
return err
}
var ns *C.char
if namespace != "" {
ns = C.CString(namespace)
defer C.free(unsafe.Pointer(ns))
}
filename := C.CString(file.Name())
defer C.free(unsafe.Pointer(filename))
id := cgoNewHandle(c)
defer id.Delete()
cbp := unsafe.Pointer(&id)
C.yr_compiler_set_callback(c.cptr, C.YR_COMPILER_CALLBACK_FUNC(C.compilerCallback), cbp)
numErrors := int(C._yr_compiler_add_fd(c.cptr, C.int(file.Fd()), ns, filename))
if numErrors > 0 {
var buf [1024]C.char
msg := C.GoString(C.yr_compiler_get_error_message(
c.cptr, (*C.char)(unsafe.Pointer(&buf[0])), 1024))
err = errors.New(msg)
}
runtime.KeepAlive(c)
runtime.KeepAlive(cbp)
return
}
// AddString compiles rules from a string. Rules are added to the
// specified namespace.
//
// If this function returns an error, the Compiler object will become
// unusable.
func (c *Compiler) AddString(rules string, namespace string) (err error) {
if err := c.checkUsage(); err != nil {
return err
}
var ns *C.char
if namespace != "" {
ns = C.CString(namespace)
defer C.free(unsafe.Pointer(ns))
}
crules := C.CString(rules)
defer C.free(unsafe.Pointer(crules))
id := cgoNewHandle(c)
defer id.Delete()
cbp := unsafe.Pointer(&id)
C.yr_compiler_set_callback(c.cptr, C.YR_COMPILER_CALLBACK_FUNC(C.compilerCallback), cbp)
numErrors := int(C.yr_compiler_add_string(c.cptr, crules, ns))
if numErrors > 0 {
var buf [1024]C.char
msg := C.GoString(C.yr_compiler_get_error_message(
c.cptr, (*C.char)(unsafe.Pointer(&buf[0])), 1024))
err = errors.New(msg)
}
runtime.KeepAlive(c)
runtime.KeepAlive(cbp)
return
}
// DefineVariable defines a named variable for use by the compiler.
// Boolean, int64, float64, and string types are supported.
func (c *Compiler) DefineVariable(identifier string, value interface{}) (err error) {
cid := C.CString(identifier)
defer C.free(unsafe.Pointer(cid))
switch value.(type) {
case bool:
var v int
if value.(bool) {
v = 1
}
err = newError(C.yr_compiler_define_boolean_variable(
c.cptr, cid, C.int(v)))
case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64:
value := toint64(value)
err = newError(C.yr_compiler_define_integer_variable(
c.cptr, cid, C.int64_t(value)))
case float64:
err = newError(C.yr_compiler_define_float_variable(
c.cptr, cid, C.double(value.(float64))))
case string:
cvalue := C.CString(value.(string))
defer C.free(unsafe.Pointer(cvalue))
err = newError(C.yr_compiler_define_string_variable(
c.cptr, cid, cvalue))
default:
err = errors.New("wrong value type passed to DefineVariable; bool, int64, float64, string are accepted")
}
runtime.KeepAlive(c)
return
}
// GetRules returns the compiled ruleset.
func (c *Compiler) GetRules() (*Rules, error) {
if err := c.checkUsage(); err != nil {
return nil, err
}
var yrRules *C.YR_RULES
if err := newError(C.yr_compiler_get_rules(c.cptr, &yrRules)); err != nil {
return nil, err
}
r := &Rules{cptr: yrRules}
runtime.SetFinalizer(r, (*Rules).Destroy)
runtime.KeepAlive(c)
return r, nil
}
//export includeCallback
func includeCallback(name, filename, namespace *C.char, userData unsafe.Pointer) *C.char {
callbackFunc := cgoHandle(*(*uintptr)(userData)).Value().(CompilerIncludeFunc)
if buf := callbackFunc(
C.GoString(name), C.GoString(filename), C.GoString(namespace),
); buf != nil {
ptr := C.calloc(1, C.size_t(len(buf)+1))
if ptr == nil {
return nil
}
outbuf := make([]byte, 0)
hdr := (*reflect.SliceHeader)(unsafe.Pointer(&outbuf))
hdr.Data, hdr.Len = uintptr(ptr), len(buf)+1
copy(outbuf, buf)
return (*C.char)(ptr)
}
return nil
}
//export freeCallback
func freeCallback(callbackResultPtr *C.char, userData unsafe.Pointer) {
if callbackResultPtr != nil {
C.free(unsafe.Pointer(callbackResultPtr))
}
return
}
// CompilerIncludeFunc is used with Compiler.SetIncludeCallback.
// Arguments are: name for the rule file to be included, filename for
// the file that contains the include statement, namespace for the rule
// namespace. The function returns a byte slice containing the
// contents of the included file. It must return a nil return value on
// error.
//
// See also: yr_compiler_set_include_callback in the YARA C API
// documentation.
type CompilerIncludeFunc func(name, filename, namespace string) []byte
// SetIncludeCallback registers an include function that is called
// (through Go glue code) by the YARA compiler for every include
// statement.
func (c *Compiler) SetIncludeCallback(cb CompilerIncludeFunc) {
if cb == nil {
c.DisableIncludes()
return
}
c.setCallbackData(cb)
C.yr_compiler_set_include_callback(
c.cptr,
C.YR_COMPILER_INCLUDE_CALLBACK_FUNC(C.includeCallback),
C.YR_COMPILER_INCLUDE_FREE_FUNC(C.freeCallback),
unsafe.Pointer(c.callbackData),
)
runtime.KeepAlive(c)
return
}
// DisableIncludes disables all include statements in the compiler.
// See yr_compiler_set_include_callbacks.
func (c *Compiler) DisableIncludes() {
C.yr_compiler_set_include_callback(c.cptr, nil, nil, nil)
c.setCallbackData(nil)
runtime.KeepAlive(c)
return
}
// Compile compiles rules and an (optional) set of variables into a
// Rules object in a single step.
func Compile(rules string, variables map[string]interface{}) (r *Rules, err error) {
var c *Compiler
if c, err = NewCompiler(); err != nil {
return
}
defer c.Destroy()
for k, v := range variables {
if err = c.DefineVariable(k, v); err != nil {
return
}
}
if err = c.AddString(rules, ""); err != nil {
return
}
r, err = c.GetRules()
return
}
// MustCompile is like Compile but panics if the rules and optional
// variables can't be compiled. Like regexp.MustCompile, it allows for
// simple, safe initialization of global or test data.
func MustCompile(rules string, variables map[string]interface{}) (r *Rules) {
r, err := Compile(rules, variables)
if err != nil {
panic(err)
}
return
}