package gost import ( "bufio" "bytes" "fmt" "io" "net" "strconv" "strings" "sync" "time" glob "github.com/gobwas/glob" ) // Matcher is a generic pattern matcher, // it gives the match result of the given pattern for specific v. type Matcher interface { Match(v string) bool String() string } // NewMatcher creates a Matcher for the given pattern. // The acutal Matcher depends on the pattern: // IP Matcher if pattern is a valid IP address. // CIDR Matcher if pattern is a valid CIDR address. // Domain Matcher if both of the above are not. func NewMatcher(pattern string) Matcher { if pattern == "" { return nil } if ip := net.ParseIP(pattern); ip != nil { return IPMatcher(ip) } if _, inet, err := net.ParseCIDR(pattern); err == nil { return CIDRMatcher(inet) } return DomainMatcher(pattern) } type ipMatcher struct { ip net.IP } // IPMatcher creates a Matcher for a specific IP address. func IPMatcher(ip net.IP) Matcher { return &ipMatcher{ ip: ip, } } func (m *ipMatcher) Match(ip string) bool { if m == nil { return false } return m.ip.Equal(net.ParseIP(ip)) } func (m *ipMatcher) String() string { return "ip " + m.ip.String() } type cidrMatcher struct { ipNet *net.IPNet } // CIDRMatcher creates a Matcher for a specific CIDR notation IP address. func CIDRMatcher(inet *net.IPNet) Matcher { return &cidrMatcher{ ipNet: inet, } } func (m *cidrMatcher) Match(ip string) bool { if m == nil || m.ipNet == nil { return false } return m.ipNet.Contains(net.ParseIP(ip)) } func (m *cidrMatcher) String() string { return "cidr " + m.ipNet.String() } type domainMatcher struct { pattern string glob glob.Glob } // DomainMatcher creates a Matcher for a specific domain pattern, // the pattern can be a plain domain such as 'example.com', // a wildcard such as '*.exmaple.com' or a special wildcard '.example.com'. func DomainMatcher(pattern string) Matcher { p := pattern if strings.HasPrefix(pattern, ".") { p = pattern[1:] // trim the prefix '.' pattern = "*" + p } return &domainMatcher{ pattern: p, glob: glob.MustCompile(pattern), } } func (m *domainMatcher) Match(domain string) bool { if m == nil || m.glob == nil { return false } if domain == m.pattern { return true } return m.glob.Match(domain) } func (m *domainMatcher) String() string { return "domain " + m.pattern } // Bypass is a filter for address (IP or domain). // It contains a list of matchers. type Bypass struct { matchers []Matcher period time.Duration // the period for live reloading reversed bool stopped chan struct{} mux sync.RWMutex } // NewBypass creates and initializes a new Bypass using matchers as its match rules. // The rules will be reversed if the reversed is true. func NewBypass(reversed bool, matchers ...Matcher) *Bypass { return &Bypass{ matchers: matchers, reversed: reversed, stopped: make(chan struct{}), } } // NewBypassPatterns creates and initializes a new Bypass using matcher patterns as its match rules. // The rules will be reversed if the reverse is true. func NewBypassPatterns(reversed bool, patterns ...string) *Bypass { var matchers []Matcher for _, pattern := range patterns { if m := NewMatcher(pattern); m != nil { matchers = append(matchers, m) } } bp := NewBypass(reversed) bp.AddMatchers(matchers...) return bp } // Contains reports whether the bypass includes addr. func (bp *Bypass) Contains(addr string) bool { if bp == nil || addr == "" { return false } // try to strip the port if host, port, _ := net.SplitHostPort(addr); host != "" && port != "" { if p, _ := strconv.Atoi(port); p > 0 { // port is valid addr = host } } bp.mux.RLock() defer bp.mux.RUnlock() if len(bp.matchers) == 0 { return false } var matched bool for _, matcher := range bp.matchers { if matcher == nil { continue } if matcher.Match(addr) { matched = true break } } return !bp.reversed && matched || bp.reversed && !matched } // AddMatchers appends matchers to the bypass matcher list. func (bp *Bypass) AddMatchers(matchers ...Matcher) { bp.mux.Lock() defer bp.mux.Unlock() bp.matchers = append(bp.matchers, matchers...) } // Matchers return the bypass matcher list. func (bp *Bypass) Matchers() []Matcher { bp.mux.RLock() defer bp.mux.RUnlock() return bp.matchers } // Reversed reports whether the rules of the bypass are reversed. func (bp *Bypass) Reversed() bool { bp.mux.RLock() defer bp.mux.RUnlock() return bp.reversed } // Reload parses config from r, then live reloads the bypass. func (bp *Bypass) Reload(r io.Reader) error { var matchers []Matcher var period time.Duration var reversed bool if r == nil || bp.Stopped() { return nil } scanner := bufio.NewScanner(r) for scanner.Scan() { line := scanner.Text() ss := splitLine(line) if len(ss) == 0 { continue } switch ss[0] { case "reload": // reload option if len(ss) > 1 { period, _ = time.ParseDuration(ss[1]) } case "reverse": // reverse option if len(ss) > 1 { reversed, _ = strconv.ParseBool(ss[1]) } default: matchers = append(matchers, NewMatcher(ss[0])) } } if err := scanner.Err(); err != nil { return err } bp.mux.Lock() defer bp.mux.Unlock() bp.matchers = matchers bp.period = period bp.reversed = reversed return nil } // Period returns the reload period. func (bp *Bypass) Period() time.Duration { if bp.Stopped() { return -1 } bp.mux.RLock() defer bp.mux.RUnlock() return bp.period } // Stop stops reloading. func (bp *Bypass) Stop() { select { case <-bp.stopped: default: close(bp.stopped) } } // Stopped checks whether the reloader is stopped. func (bp *Bypass) Stopped() bool { select { case <-bp.stopped: return true default: return false } } func (bp *Bypass) String() string { b := &bytes.Buffer{} fmt.Fprintf(b, "reversed: %v\n", bp.Reversed()) fmt.Fprintf(b, "reload: %v\n", bp.Period()) for _, m := range bp.Matchers() { b.WriteString(m.String()) b.WriteByte('\n') } return b.String() }