/*
* Define and handle the configuration dialog box for SSH host CAs,
* using the same portable dialog specification API as config.c.
*/
#include "putty.h"
#include "dialog.h"
#include "storage.h"
#include "tree234.h"
#include "ssh.h"
const bool has_ca_config_box = true;
#define NRSATYPES 3
struct ca_state {
dlgcontrol *ca_name_edit;
dlgcontrol *ca_reclist;
dlgcontrol *ca_pubkey_edit;
dlgcontrol *ca_pubkey_info;
dlgcontrol *ca_validity_edit;
dlgcontrol *rsa_type_checkboxes[NRSATYPES];
char *name, *pubkey, *validity;
tree234 *ca_names; /* stores plain 'char *' */
ca_options opts;
strbuf *ca_pubkey_blob;
};
static int ca_name_compare(void *av, void *bv)
{
return strcmp((const char *)av, (const char *)bv);
}
static inline void clear_string_tree(tree234 *t)
{
char *p;
while ((p = delpos234(t, 0)) != NULL)
sfree(p);
}
static void ca_state_free(void *vctx)
{
struct ca_state *st = (struct ca_state *)vctx;
clear_string_tree(st->ca_names);
freetree234(st->ca_names);
sfree(st->name);
sfree(st->validity);
sfree(st);
}
static void ca_refresh_name_list(struct ca_state *st)
{
clear_string_tree(st->ca_names);
host_ca_enum *hce = enum_host_ca_start();
if (hce) {
strbuf *namebuf = strbuf_new();
while (strbuf_clear(namebuf), enum_host_ca_next(hce, namebuf)) {
char *name = dupstr(namebuf->s);
char *added = add234(st->ca_names, name);
/* Just imaginable that concurrent filesystem access might
* cause a repetition; avoid leaking memory if so */
if (added != name)
sfree(name);
}
strbuf_free(namebuf);
enum_host_ca_finish(hce);
}
}
static void set_from_hca(struct ca_state *st, host_ca *hca)
{
sfree(st->name);
st->name = dupstr(hca->name ? hca->name : "");
sfree(st->pubkey);
if (hca->ca_public_key)
st->pubkey = strbuf_to_str(
base64_encode_sb(ptrlen_from_strbuf(hca->ca_public_key), 0));
else
st->pubkey = dupstr("");
st->validity = dupstr(hca->validity_expression ?
hca->validity_expression : "");
st->opts = hca->opts; /* structure copy */
}
static void ca_refresh_pubkey_info(struct ca_state *st, dlgparam *dp)
{
char *text = NULL;
ssh_key *key = NULL;
strbuf *blob = strbuf_new();
ptrlen data = ptrlen_from_asciz(st->pubkey);
if (st->ca_pubkey_blob)
strbuf_free(st->ca_pubkey_blob);
st->ca_pubkey_blob = NULL;
if (!data.len) {
text = dupstr(" ");
goto out;
}
/*
* See if we have a plain base64-encoded public key blob.
*/
if (base64_valid(data)) {
base64_decode_bs(BinarySink_UPCAST(blob), data);
} else {
/*
* Otherwise, try to decode as if it was a public key _file_.
*/
BinarySource src[1];
BinarySource_BARE_INIT_PL(src, data);
const char *error;
if (!ppk_loadpub_s(src, NULL, BinarySink_UPCAST(blob), NULL, &error)) {
text = dupprintf("Cannot decode key: %s", error);
goto out;
}
}
ptrlen alg_name = pubkey_blob_to_alg_name(ptrlen_from_strbuf(blob));
if (!alg_name.len) {
text = dupstr("Invalid key (no key type)");
goto out;
}
const ssh_keyalg *alg = find_pubkey_alg_len(alg_name);
if (!alg) {
text = dupprintf("Unrecognised key type '%.*s'",
PTRLEN_PRINTF(alg_name));
goto out;
}
if (alg->is_certificate) {
text = dupprintf("CA key may not be a certificate (type is '%.*s')",
PTRLEN_PRINTF(alg_name));
goto out;
}
key = ssh_key_new_pub(alg, ptrlen_from_strbuf(blob));
if (!key) {
text = dupprintf("Invalid '%.*s' key data", PTRLEN_PRINTF(alg_name));
goto out;
}
text = ssh2_fingerprint(key, SSH_FPTYPE_DEFAULT);
st->ca_pubkey_blob = blob;
blob = NULL; /* prevent free */
out:
dlg_text_set(st->ca_pubkey_info, dp, text);
if (key)
ssh_key_free(key);
sfree(text);
if (blob)
strbuf_free(blob);
}
static void ca_load_selected_record(struct ca_state *st, dlgparam *dp)
{
int i = dlg_listbox_index(st->ca_reclist, dp);
if (i < 0) {
dlg_beep(dp);
return;
}
const char *name = index234(st->ca_names, i);
if (!name) { /* in case the list box and the tree got out of sync */
dlg_beep(dp);
return;
}
host_ca *hca = host_ca_load(name);
if (!hca) {
char *msg = dupprintf("Unable to load host CA record '%s'", name);
dlg_error_msg(dp, msg);
sfree(msg);
return;
}
set_from_hca(st, hca);
host_ca_free(hca);
dlg_refresh(st->ca_name_edit, dp);
dlg_refresh(st->ca_pubkey_edit, dp);
dlg_refresh(st->ca_validity_edit, dp);
for (size_t i = 0; i < NRSATYPES; i++)
dlg_refresh(st->rsa_type_checkboxes[i], dp);
ca_refresh_pubkey_info(st, dp);
}
static void ca_ok_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
if (event == EVENT_ACTION)
dlg_end(dp, 0);
}
static void ca_name_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_REFRESH) {
dlg_editbox_set(ctrl, dp, st->name);
} else if (event == EVENT_VALCHANGE) {
sfree(st->name);
st->name = dlg_editbox_get(ctrl, dp);
/*
* Try to auto-select the typed name in the list.
*/
int index;
if (!findrelpos234(st->ca_names, st->name, NULL, REL234_GE, &index))
index = count234(st->ca_names) - 1;
if (index >= 0)
dlg_listbox_select(st->ca_reclist, dp, index);
}
}
static void ca_reclist_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_REFRESH) {
dlg_update_start(ctrl, dp);
dlg_listbox_clear(ctrl, dp);
const char *name;
for (int i = 0; (name = index234(st->ca_names, i)) != NULL; i++)
dlg_listbox_add(ctrl, dp, name);
dlg_update_done(ctrl, dp);
} else if (event == EVENT_ACTION) {
/* Double-clicking a session loads it */
ca_load_selected_record(st, dp);
}
}
static void ca_load_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_ACTION) {
ca_load_selected_record(st, dp);
}
}
static void ca_save_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_ACTION) {
if (!*st->validity) {
dlg_error_msg(dp, "No validity expression configured "
"for this key");
return;
}
char *error_msg;
ptrlen error_loc;
if (!cert_expr_valid(st->validity, &error_msg, &error_loc)) {
char *error_full = dupprintf("Error in expression: %s", error_msg);
dlg_error_msg(dp, error_full);
dlg_set_focus(st->ca_validity_edit, dp);
dlg_editbox_select_range(
st->ca_validity_edit, dp,
(const char *)error_loc.ptr - st->validity, error_loc.len);
sfree(error_msg);
sfree(error_full);
return;
}
if (!st->ca_pubkey_blob) {
dlg_error_msg(dp, "No valid CA public key entered");
return;
}
host_ca *hca = snew(host_ca);
memset(hca, 0, sizeof(*hca));
hca->name = dupstr(st->name);
hca->ca_public_key = strbuf_dup(ptrlen_from_strbuf(
st->ca_pubkey_blob));
hca->validity_expression = dupstr(st->validity);
hca->opts = st->opts; /* structure copy */
char *error = host_ca_save(hca);
host_ca_free(hca);
if (error) {
dlg_error_msg(dp, error);
sfree(error);
} else {
ca_refresh_name_list(st);
dlg_refresh(st->ca_reclist, dp);
}
}
}
static void ca_delete_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_ACTION) {
int i = dlg_listbox_index(st->ca_reclist, dp);
if (i < 0) {
dlg_beep(dp);
return;
}
const char *name = index234(st->ca_names, i);
if (!name) { /* in case the list box and the tree got out of sync */
dlg_beep(dp);
return;
}
char *error = host_ca_delete(name);
if (error) {
dlg_error_msg(dp, error);
sfree(error);
} else {
ca_refresh_name_list(st);
dlg_refresh(st->ca_reclist, dp);
}
}
}
static void ca_pubkey_edit_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_REFRESH) {
dlg_editbox_set(ctrl, dp, st->pubkey);
} else if (event == EVENT_VALCHANGE) {
sfree(st->pubkey);
st->pubkey = dlg_editbox_get(ctrl, dp);
ca_refresh_pubkey_info(st, dp);
}
}
static void ca_pubkey_file_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_ACTION) {
Filename *filename = dlg_filesel_get(ctrl, dp);
strbuf *keyblob = strbuf_new();
const char *load_error;
bool ok = ppk_loadpub_f(filename, NULL, BinarySink_UPCAST(keyblob),
NULL, &load_error);
if (!ok) {
char *message = dupprintf(
"Unable to load public key from '%s': %s",
filename_to_str(filename), load_error);
dlg_error_msg(dp, message);
sfree(message);
} else {
sfree(st->pubkey);
st->pubkey = strbuf_to_str(
base64_encode_sb(ptrlen_from_strbuf(keyblob), 0));
dlg_refresh(st->ca_pubkey_edit, dp);
}
filename_free(filename);
strbuf_free(keyblob);
}
}
static void ca_validity_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
if (event == EVENT_REFRESH) {
dlg_editbox_set(ctrl, dp, st->validity);
} else if (event == EVENT_VALCHANGE) {
sfree(st->validity);
st->validity = dlg_editbox_get(ctrl, dp);
}
}
static void ca_rsa_type_handler(dlgcontrol *ctrl, dlgparam *dp,
void *data, int event)
{
struct ca_state *st = (struct ca_state *)ctrl->context.p;
size_t offset = ctrl->context2.i;
bool *option = (bool *)((char *)&st->opts + offset);
if (event == EVENT_REFRESH) {
dlg_checkbox_set(ctrl, dp, *option);
} else if (event == EVENT_VALCHANGE) {
*option = dlg_checkbox_get(ctrl, dp);
}
}
void setup_ca_config_box(struct controlbox *b)
{
struct controlset *s;
dlgcontrol *c;
/* Internal state for manipulating the host CA system */
struct ca_state *st = (struct ca_state *)ctrl_alloc_with_free(
b, sizeof(struct ca_state), ca_state_free);
memset(st, 0, sizeof(*st));
st->ca_names = newtree234(ca_name_compare);
st->validity = dupstr("");
ca_refresh_name_list(st);
/* Initialise the settings to a default blank host_ca */
{
host_ca *hca = host_ca_new();
set_from_hca(st, hca);
host_ca_free(hca);
}
/* Action area, with the Done button in it */
s = ctrl_getset(b, "", "", "");
ctrl_columns(s, 5, 20, 20, 20, 20, 20);
c = ctrl_pushbutton(s, "Done", 'o', HELPCTX(ssh_kex_cert),
ca_ok_handler, P(st));
c->button.iscancel = true;
c->column = 4;
/* Load/save box, as similar as possible to the main saved sessions one */
s = ctrl_getset(b, "Main", "loadsave",
"Load, save or delete a host CA record");
ctrl_columns(s, 2, 75, 25);
c = ctrl_editbox(s, "Name for this CA (shown in log messages)",
'n', 100, HELPCTX(ssh_kex_cert),
ca_name_handler, P(st), P(NULL));
c->column = 0;
st->ca_name_edit = c;
/* Reset columns so that the buttons are alongside the list, rather
* than alongside that edit box. */
ctrl_columns(s, 1, 100);
ctrl_columns(s, 2, 75, 25);
c = ctrl_listbox(s, NULL, NO_SHORTCUT, HELPCTX(ssh_kex_cert),
ca_reclist_handler, P(st));
c->column = 0;
c->listbox.height = 6;
st->ca_reclist = c;
c = ctrl_pushbutton(s, "Load", 'l', HELPCTX(ssh_kex_cert),
ca_load_handler, P(st));
c->column = 1;
c = ctrl_pushbutton(s, "Save", 'v', HELPCTX(ssh_kex_cert),
ca_save_handler, P(st));
c->column = 1;
c = ctrl_pushbutton(s, "Delete", 'd', HELPCTX(ssh_kex_cert),
ca_delete_handler, P(st));
c->column = 1;
s = ctrl_getset(b, "Main", "pubkey", "Public key for this CA record");
ctrl_columns(s, 2, 75, 25);
c = ctrl_editbox(s, "Public key of certification authority", 'k', 100,
HELPCTX(ssh_kex_cert), ca_pubkey_edit_handler,
P(st), P(NULL));
c->column = 0;
st->ca_pubkey_edit = c;
c = ctrl_filesel(s, "Read from file", NO_SHORTCUT, NULL, false,
"Select public key file of certification authority",
HELPCTX(ssh_kex_cert), ca_pubkey_file_handler, P(st));
c->fileselect.just_button = true;
c->align_next_to = st->ca_pubkey_edit;
c->column = 1;
ctrl_columns(s, 1, 100);
st->ca_pubkey_info = c = ctrl_text(s, " ", HELPCTX(ssh_kex_cert));
c->text.wrap = false;
s = ctrl_getset(b, "Main", "options", "What this CA is trusted to do");
c = ctrl_editbox(s, "Valid hosts this key is trusted to certify", 'h', 100,
HELPCTX(ssh_cert_valid_expr), ca_validity_handler,
P(st), P(NULL));
st->ca_validity_edit = c;
ctrl_columns(s, 4, 44, 18, 18, 18);
c = ctrl_text(s, "Signature types (RSA keys only):",
HELPCTX(ssh_cert_rsa_hash));
c->column = 0;
dlgcontrol *sigtypelabel = c;
c = ctrl_checkbox(s, "SHA-1", NO_SHORTCUT, HELPCTX(ssh_cert_rsa_hash),
ca_rsa_type_handler, P(st));
c->column = 1;
c->align_next_to = sigtypelabel;
c->context2 = I(offsetof(ca_options, permit_rsa_sha1));
st->rsa_type_checkboxes[0] = c;
c = ctrl_checkbox(s, "SHA-256", NO_SHORTCUT, HELPCTX(ssh_cert_rsa_hash),
ca_rsa_type_handler, P(st));
c->column = 2;
c->align_next_to = sigtypelabel;
c->context2 = I(offsetof(ca_options, permit_rsa_sha256));
st->rsa_type_checkboxes[1] = c;
c = ctrl_checkbox(s, "SHA-512", NO_SHORTCUT, HELPCTX(ssh_cert_rsa_hash),
ca_rsa_type_handler, P(st));
c->column = 3;
c->align_next_to = sigtypelabel;
c->context2 = I(offsetof(ca_options, permit_rsa_sha512));
st->rsa_type_checkboxes[2] = c;
ctrl_columns(s, 1, 100);
}