violet/certs/certs.go

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package certs
import (
"code.mrmelon54.com/melon/certgen"
"crypto/tls"
"crypto/x509/pkix"
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"fmt"
"github.com/MrMelon54/violet/utils"
"io/fs"
"log"
"math/big"
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"path/filepath"
"sync"
"sync/atomic"
"time"
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)
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// Certs is the certificate loader and management system.
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type Certs struct {
cDir fs.FS
kDir fs.FS
ss bool
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s *sync.RWMutex
m map[string]*tls.Certificate
ca *certgen.CertGen
sn atomic.Int64
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}
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// New creates a new cert list
func New(certDir fs.FS, keyDir fs.FS, selfCert bool) *Certs {
c := &Certs{
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cDir: certDir,
kDir: keyDir,
ss: selfCert,
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s: &sync.RWMutex{},
m: make(map[string]*tls.Certificate),
}
if c.ss {
ca, err := certgen.MakeCaTls(pkix.Name{
Country: []string{"GB"},
Organization: []string{"Violet"},
OrganizationalUnit: []string{"Development"},
SerialNumber: "0",
CommonName: fmt.Sprintf("%d.violet.test", time.Now().Unix()),
}, big.NewInt(0))
if err != nil {
log.Fatalln("Failed to generate CA cert for self-signed mode:", err)
}
c.ca = ca
}
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// run compile to get the initial data
c.Compile()
return c
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}
func (c *Certs) GetCertForDomain(domain string) *tls.Certificate {
// safety read lock
c.s.RLock()
defer c.s.RUnlock()
// lookup and return cert
if cert, ok := c.m[domain]; ok {
return cert
}
// if self-signed certificate is enabled then generate a certificate
if c.ss {
sn := c.sn.Add(1)
serverTls, err := certgen.MakeServerTls(c.ca, pkix.Name{
Country: []string{"GB"},
Organization: []string{domain},
OrganizationalUnit: []string{domain},
SerialNumber: fmt.Sprintf("%d", sn),
CommonName: domain,
}, big.NewInt(sn), []string{domain}, nil)
if err != nil {
return nil
}
leaf := serverTls.GetTlsLeaf()
c.m[domain] = &leaf
return &leaf
}
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// lookup and return wildcard cert
if wildcardDomain, ok := utils.ReplaceSubdomainWithWildcard(domain); ok {
if cert, ok := c.m[wildcardDomain]; ok {
return cert
}
}
// no cert found
return nil
}
func (c *Certs) Compile() {
// don't bother compiling in self-signed mode
if c.ss {
return
}
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// async compile magic
go func() {
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// new map
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certMap := make(map[string]*tls.Certificate)
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// compile map and check errors
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err := c.internalCompile(certMap)
if err != nil {
log.Printf("[Certs] Compile failed: %s\n", err)
return
}
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// lock while replacing the map
c.s.Lock()
c.m = certMap
c.s.Unlock()
}()
}
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// internalCompile is a hidden internal method for loading the certificate and
// key files
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func (c *Certs) internalCompile(m map[string]*tls.Certificate) error {
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if c.cDir == nil {
return nil
}
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// try to read dir
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files, err := fs.ReadDir(c.cDir, ".")
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if err != nil {
return fmt.Errorf("failed to read cert dir: %w", err)
}
log.Printf("[Certs] Compiling lookup table for %d certificates\n", len(files))
// find and parse certs
for _, i := range files {
// skip dirs
if i.IsDir() {
continue
}
// get file name and extension
name := i.Name()
ext := filepath.Ext(name)
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keyName := name[:len(name)-len(ext)] + ".key"
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// try to read cert file
certData, err := fs.ReadFile(c.cDir, name)
if err != nil {
return fmt.Errorf("failed to read cert file '%s': %w", name, err)
}
// try to read key file
keyData, err := fs.ReadFile(c.kDir, keyName)
if err != nil {
return fmt.Errorf("failed to read key file '%s': %w", keyName, err)
}
// load key pair
pair, err := tls.X509KeyPair(certData, keyData)
if err != nil {
return fmt.Errorf("failed to load x509 key pair '%s + %s': %w", name, keyName, err)
}
// load tls leaf
cert := &pair
leaf := certgen.TlsLeaf(cert)
// save in map under each dns name
for _, j := range leaf.DNSNames {
m[j] = cert
}
}
// well no errors happened
return nil
}