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package pam
//#include <security/pam_appl.h>
//#include <stdlib.h>
//#cgo CFLAGS: -Wall -std=c99
//#cgo LDFLAGS: -lpam
//struct pam_conv *make_pam_conv(void *);
import "C"
import (
"runtime"
"strings"
"unsafe"
)
type Style int
const (
PromptEchoOff Style = C.PAM_PROMPT_ECHO_OFF
PromptEchoOn = C.PAM_PROMPT_ECHO_ON
ErrorMsg = C.PAM_ERROR_MSG
TextInfo = C.PAM_TEXT_INFO
)
// Objects implementing the ConversationHandler interface can be registered as
// conversation callbacks to be used during PAM authentication. RespondPAM
// receives a message style and a message string. It is expected to return a
// response string.
type ConversationHandler interface {
RespondPAM(Style, string) (string, error)
}
// ConversationFunc is an adapter to allow the use of ordinary functions as
// conversation callbacks.
type ConversationFunc func(Style, string) (string, error)
func (f ConversationFunc) RespondPAM(s Style, msg string) (string, error) {
return f(s, msg)
}
// Internal conversation structure
type Conversation struct {
handler ConversationHandler
conv *C.struct_pam_conv
}
// Constructs a new conversation object with a given handler and a newly
// allocated pam_conv struct that uses this object as its appdata_ptr
func NewConversation(handler ConversationHandler) (*Conversation, C.int) {
c := &Conversation{}
c.handler = handler
c.conv = C.make_pam_conv(unsafe.Pointer(c))
if c.conv == nil {
return nil, C.PAM_BUF_ERR
}
return c, C.PAM_SUCCESS
}
// Go-side function for processing a single conversational message. Ultimately
// this calls the associated ConversationHandler's ResponsePAM callback with data
// coming in from a C-side call.
//export cbPAMConv
func cbPAMConv(s C.int, msg *C.char, appdata unsafe.Pointer) (*C.char, C.int) {
c := (*Conversation)(appdata)
r, err := c.handler.RespondPAM(Style(s), C.GoString(msg))
if err != nil {
return nil, C.PAM_CONV_ERR
}
return C.CString(r), C.PAM_SUCCESS
}
// Transaction is the application's handle for a PAM transaction.
type Transaction struct {
handle *C.pam_handle_t
conv *Conversation
status C.int
}
// Finalize a PAM transaction.
func TransactionFinalizer(t *Transaction) {
C.pam_end(t.handle, t.status)
C.free(unsafe.Pointer(t.conv.conv))
}
// Start initiates a new PAM transaction. service is treated identically
// to how pam_start treats it internally.
//
// All application calls to PAM begin with Start(). The returned *Transaction
// provides an interface to the remainder of the API.
//
// The returned status int may be ABORT, BUF_ERR, SUCCESS, or SYSTEM_ERR, as per
// the official PAM documentation.
func Start(service, user string, handler ConversationHandler) (*Transaction, error) {
t := &Transaction{}
t.conv, t.status = NewConversation(handler)
if t.status != C.PAM_SUCCESS {
return nil, t
}
s := C.CString(service)
defer C.free(unsafe.Pointer(s))
var u *C.char
if len(user) != 0 {
u = C.CString(user)
defer C.free(unsafe.Pointer(u))
}
t.status = C.pam_start(s, u, t.conv.conv, &t.handle)
if t.status != C.PAM_SUCCESS {
C.free(unsafe.Pointer(t.conv.conv))
return nil, t
}
runtime.SetFinalizer(t, TransactionFinalizer)
return t, nil
}
func StartFunc(service, user string, handler func(Style, string) (string, error)) (*Transaction, error) {
return Start(service, user, ConversationFunc(handler))
}
func (t *Transaction) Error() string {
return C.GoString(C.pam_strerror(t.handle, C.int(t.status)))
}
type Item int
const (
Service Item = C.PAM_SERVICE
User = C.PAM_USER
Tty = C.PAM_TTY
Rhost = C.PAM_RHOST
Authtok = C.PAM_AUTHTOK
Oldauthtok = C.PAM_OLDAUTHTOK
Ruser = C.PAM_RUSER
UserPrompt = C.PAM_USER_PROMPT
)
// pam_set_item
func (t *Transaction) SetItem(i Item, item string) error {
cs := unsafe.Pointer(C.CString(item))
defer C.free(cs)
t.status = C.pam_set_item(t.handle, C.int(i), cs)
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_get_item
func (t *Transaction) GetItem(i Item) (string, error) {
var s unsafe.Pointer
t.status = C.pam_get_item(t.handle, C.int(i), &s)
if t.status != C.PAM_SUCCESS {
return "", t
}
return C.GoString((*C.char)(s)), nil
}
type Flags int
const (
Silent Flags = C.PAM_SILENT
DisallowNullAuthtok = C.PAM_DISALLOW_NULL_AUTHTOK
EstablishCred = C.PAM_ESTABLISH_CRED
DeleteCred = C.PAM_DELETE_CRED
ReinitializeCred = C.PAM_REINITIALIZE_CRED
RefreshCred = C.PAM_REFRESH_CRED
ChangeExpiredAuthtok = C.PAM_CHANGE_EXPIRED_AUTHTOK
)
// pam_authenticate
func (t *Transaction) Authenticate(f Flags) error {
t.status = C.pam_authenticate(t.handle, C.int(f))
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_setcred
func (t *Transaction) SetCred(f Flags) error {
t.status = C.pam_setcred(t.handle, C.int(f))
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_acctmgmt
func (t *Transaction) AcctMgmt(f Flags) error {
t.status = C.pam_acct_mgmt(t.handle, C.int(f))
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_chauthtok
func (t *Transaction) ChangeAuthTok(f Flags) error {
t.status = C.pam_chauthtok(t.handle, C.int(f))
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_open_session
func (t *Transaction) OpenSession(f Flags) error {
t.status = C.pam_open_session(t.handle, C.int(f))
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_close_session
func (t *Transaction) CloseSession(f Flags) error {
t.status = C.pam_close_session(t.handle, C.int(f))
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_putenv
func (t *Transaction) PutEnv(nameval string) error {
cs := C.CString(nameval)
defer C.free(unsafe.Pointer(cs))
t.status = C.pam_putenv(t.handle, cs)
if t.status != C.PAM_SUCCESS {
return t
}
return nil
}
// pam_getenv
func (t *Transaction) GetEnv(name string) string {
cs := C.CString(name)
defer C.free(unsafe.Pointer(cs))
value := C.pam_getenv(t.handle, cs)
if value == nil {
return ""
}
return C.GoString(value)
}
// pam_getenvlist
func (t *Transaction) GetEnvList() (map[string]string, error) {
env := make(map[string]string)
p := C.pam_getenvlist(t.handle)
if p == nil {
t.status = C.PAM_BUF_ERR
return nil, t
}
for *p != nil {
chunks := strings.SplitN(C.GoString(*p), "=", 2)
if len(chunks) == 2 {
env[chunks[0]] = chunks[1]
}
C.free(unsafe.Pointer(*p))
p = (**C.char)(unsafe.Pointer(uintptr(unsafe.Pointer(p)) + unsafe.Sizeof(p)))
}
C.free(unsafe.Pointer(p))
return env, nil
}
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