963c3077a4
Signed-off-by: Mike Frysinger <vapier@gentoo.org> Reviewed-by: Andreas Schneider <asn@cryptomilk.org>
376 строки
13 KiB
Plaintext
376 строки
13 KiB
Plaintext
/**
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@page libssh_tutor_authentication Chapter 2: A deeper insight on authentication
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@section authentication_details A deeper insight on authentication
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In our guided tour, we merely mentioned that the user needed to authenticate.
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We didn't explain much in detail how that was supposed to happen.
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This chapter explains better the four authentication methods: with public keys,
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with a password, with challenges and responses (keyboard-interactive), and with
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no authentication at all.
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If your software is supposed to connect to an arbitrary server, then you
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might need to support all authentication methods. If your software will
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connect only to a given server, then it might be enough for your software
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to support only the authentication methods used by that server. If you are
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the administrator of the server, it might be your call to choose those
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authentication methods.
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It is not the purpose of this document to review in detail the advantages
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and drawbacks of each authentication method. You are therefore invited
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to read the abundant documentation on this topic to fully understand the
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advantages and security risks linked to each method.
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@subsection pubkeys Authenticating with public keys
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libssh is fully compatible with the openssh public and private keys. You
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can either use the automatic public key authentication method provided by
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libssh, or roll your own using the public key functions.
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The process of authenticating by public key to a server is the following:
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- you scan a list of files that contain public keys. each key is sent to
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the SSH server, until the server acknowledges a key (a key it knows can be
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used to authenticate the user).
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- then, you retrieve the private key for this key and send a message
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proving that you know that private key.
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The function ssh_userauth_autopubkey() does this using the available keys in
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"~/.ssh/". The return values are the following:
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- SSH_AUTH_ERROR: some serious error happened during authentication
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- SSH_AUTH_DENIED: no key matched
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- SSH_AUTH_SUCCESS: you are now authenticated
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- SSH_AUTH_PARTIAL: some key matched but you still have to provide an other
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mean of authentication (like a password).
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The ssh_userauth_publickey_auto() function also tries to authenticate using the
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SSH agent, if you have one running, or the "none" method otherwise.
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If you wish to authenticate with public key by your own, follow these steps:
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- Retrieve the public key with ssh_pki_import_pubkey_file().
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- Offer the public key to the SSH server using ssh_userauth_try_publickey().
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If the return value is SSH_AUTH_SUCCESS, the SSH server accepts to
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authenticate using the public key and you can go to the next step.
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- Retrieve the private key, using the ssh_pki_import_privkey_file() function.
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If a passphrase is needed, either the passphrase specified as argument or
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a callback will be used.
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- Authenticate using ssh_userauth_publickey() with your private key.
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- Do not forget cleaning up memory using ssh_key_free().
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Here is a minimalistic example of public key authentication:
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@code
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int authenticate_pubkey(ssh_session session)
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{
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int rc;
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rc = ssh_userauth_publickey_auto(session, NULL);
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if (rc == SSH_AUTH_ERROR)
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{
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fprintf(stderr, "Authentication failed: %s\n",
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ssh_get_error(session));
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return SSH_AUTH_ERROR;
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}
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return rc;
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}
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@endcode
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@see ssh_userauth_publickey_auto()
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@see ssh_userauth_try_publickey()
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@see ssh_userauth_publickey()
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@see ssh_pki_import_pubkey_file()
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@see ssh_pki_import_privkey_file()
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@see ssh_key_free()
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@subsection password Authenticating with a password
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The function ssh_userauth_password() serves the purpose of authenticating
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using a password. It will return SSH_AUTH_SUCCESS if the password worked,
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or one of other constants otherwise. It's your work to ask the password
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and to deallocate it in a secure manner.
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If your server complains that the password is wrong, but you can still
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authenticate using openssh's client (issuing password), it's probably
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because openssh only accept keyboard-interactive. Switch to
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keyboard-interactive authentication, or try to configure plain text passwords
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on the SSH server.
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Here is a small example of password authentication:
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@code
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int authenticate_password(ssh_session session)
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{
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char *password;
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int rc;
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password = getpass("Enter your password: ");
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rc = ssh_userauth_password(session, NULL, password);
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if (rc == SSH_AUTH_ERROR)
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{
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fprintf(stderr, "Authentication failed: %s\n",
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ssh_get_error(session));
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return SSH_AUTH_ERROR;
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}
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return rc;
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}
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@endcode
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@see ssh_userauth_password
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@subsection keyb_int The keyboard-interactive authentication method
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The keyboard-interactive method is, as its name tells, interactive. The
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server will issue one or more challenges that the user has to answer,
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until the server takes an authentication decision.
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ssh_userauth_kbdint() is the the main keyboard-interactive function.
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It will return SSH_AUTH_SUCCESS,SSH_AUTH_DENIED, SSH_AUTH_PARTIAL,
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SSH_AUTH_ERROR, or SSH_AUTH_INFO, depending on the result of the request.
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The keyboard-interactive authentication method of SSH2 is a feature that
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permits the server to ask a certain number of questions in an interactive
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manner to the client, until it decides to accept or deny the login.
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To begin, you call ssh_userauth_kbdint() (just set user and submethods to
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NULL) and store the answer.
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If the answer is SSH_AUTH_INFO, it means that the server has sent a few
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questions that you should ask the user. You can retrieve these questions
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with the following functions: ssh_userauth_kbdint_getnprompts(),
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ssh_userauth_kbdint_getname(), ssh_userauth_kbdint_getinstruction(), and
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ssh_userauth_kbdint_getprompt().
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Set the answer for each question in the challenge using
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ssh_userauth_kbdint_setanswer().
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Then, call again ssh_userauth_kbdint() and start the process again until
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these functions returns something else than SSH_AUTH_INFO.
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Here are a few remarks:
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- Even the first call can return SSH_AUTH_DENIED or SSH_AUTH_SUCCESS.
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- The server can send an empty question set (this is the default behavior
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on my system) after you have sent the answers to the first questions.
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You must still parse the answer, it might contain some
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message from the server saying hello or such things. Just call
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ssh_userauth_kbdint() until needed.
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- The meaning of "name", "prompt", "instruction" may be a little
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confusing. An explanation is given in the RFC section that follows.
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Here is a little note about how to use the information from
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keyboard-interactive authentication, coming from the RFC itself (rfc4256):
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@verbatim
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3.3 User Interface Upon receiving a request message, the client SHOULD
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prompt the user as follows: A command line interface (CLI) client SHOULD
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print the name and instruction (if non-empty), adding newlines. Then for
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each prompt in turn, the client SHOULD display the prompt and read the
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user input.
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A graphical user interface (GUI) client has many choices on how to prompt
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the user. One possibility is to use the name field (possibly prefixed
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with the application's name) as the title of a dialog window in which
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the prompt(s) are presented. In that dialog window, the instruction field
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would be a text message, and the prompts would be labels for text entry
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fields. All fields SHOULD be presented to the user, for example an
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implementation SHOULD NOT discard the name field because its windows lack
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titles; it SHOULD instead find another way to display this information. If
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prompts are presented in a dialog window, then the client SHOULD NOT
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present each prompt in a separate window.
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All clients MUST properly handle an instruction field with embedded
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newlines. They SHOULD also be able to display at least 30 characters for
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the name and prompts. If the server presents names or prompts longer than 30
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characters, the client MAY truncate these fields to the length it can
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display. If the client does truncate any fields, there MUST be an obvious
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indication that such truncation has occurred.
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The instruction field SHOULD NOT be truncated. Clients SHOULD use control
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character filtering as discussed in [SSH-ARCH] to avoid attacks by
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including terminal control characters in the fields to be displayed.
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For each prompt, the corresponding echo field indicates whether or not
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the user input should be echoed as characters are typed. Clients SHOULD
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correctly echo/mask user input for each prompt independently of other
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prompts in the request message. If a client does not honor the echo field
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for whatever reason, then the client MUST err on the side of
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masking input. A GUI client might like to have a checkbox toggling
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echo/mask. Clients SHOULD NOT add any additional characters to the prompt
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such as ": " (colon-space); the server is responsible for supplying all
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text to be displayed to the user. Clients MUST also accept empty responses
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from the user and pass them on as empty strings.
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@endverbatim
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The following example shows how to perform keyboard-interactive authentication:
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@code
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int authenticate_kbdint(ssh_session session)
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{
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int rc;
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rc = ssh_userauth_kbdint(session, NULL, NULL);
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while (rc == SSH_AUTH_INFO)
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{
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const char *name, *instruction;
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int nprompts, iprompt;
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name = ssh_userauth_kbdint_getname(session);
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instruction = ssh_userauth_kbdint_getinstruction(session);
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nprompts = ssh_userauth_kbdint_getnprompts(session);
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if (strlen(name) > 0)
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printf("%s\n", name);
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if (strlen(instruction) > 0)
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printf("%s\n", instruction);
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for (iprompt = 0; iprompt < nprompts; iprompt++)
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{
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const char *prompt;
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char echo;
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prompt = ssh_userauth_kbdint_getprompt(session, iprompt, &echo);
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if (echo)
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{
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char buffer[128], *ptr;
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printf("%s", prompt);
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if (fgets(buffer, sizeof(buffer), stdin) == NULL)
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return SSH_AUTH_ERROR;
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buffer[sizeof(buffer) - 1] = '\0';
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if ((ptr = strchr(buffer, '\n')) != NULL)
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*ptr = '\0';
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if (ssh_userauth_kbdint_setanswer(session, iprompt, buffer) < 0)
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return SSH_AUTH_ERROR;
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memset(buffer, 0, strlen(buffer));
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}
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else
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{
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char *ptr;
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ptr = getpass(prompt);
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if (ssh_userauth_kbdint_setanswer(session, iprompt, ptr) < 0)
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return SSH_AUTH_ERROR;
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}
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}
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rc = ssh_userauth_kbdint(session, NULL, NULL);
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}
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return rc;
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}
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@endcode
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@see ssh_userauth_kbdint()
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@see ssh_userauth_kbdint_getnprompts()
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@see ssh_userauth_kbdint_getname()
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@see ssh_userauth_kbdint_getinstruction()
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@see ssh_userauth_kbdint_getprompt()
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@see ssh_userauth_kbdint_setanswer()
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@subsection none Authenticating with "none" method
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The primary purpose of the "none" method is to get authenticated **without**
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any credential. Don't do that, use one of the other authentication methods,
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unless you really want to grant anonymous access.
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If the account has no password, and if the server is configured to let you
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pass, ssh_userauth_none() might answer SSH_AUTH_SUCCESS.
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The following example shows how to perform "none" authentication:
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@code
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int authenticate_kbdint(ssh_session session)
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{
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int rc;
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rc = ssh_userauth_none(session, NULL);
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return rc;
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}
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@endcode
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@subsection auth_list Getting the list of supported authentications
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You are not meant to choose a given authentication method, you can
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let the server tell you which methods are available. Once you know them,
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you try them one after the other.
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The following example shows how to get the list of available authentication
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methods with ssh_userauth_list() and how to use the result:
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@code
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int test_several_auth_methods(ssh_session session)
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{
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int method, rc;
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rc = ssh_userauth_none(session, NULL);
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if (rc == SSH_AUTH_SUCCESS || rc == SSH_AUTH_ERROR) {
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return rc;
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}
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method = ssh_userauth_list(session, NULL);
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if (method & SSH_AUTH_METHOD_NONE)
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{ // For the source code of function authenticate_none(),
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// refer to the corresponding example
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rc = authenticate_none(session);
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if (rc == SSH_AUTH_SUCCESS) return rc;
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}
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if (method & SSH_AUTH_METHOD_PUBLICKEY)
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{ // For the source code of function authenticate_pubkey(),
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// refer to the corresponding example
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rc = authenticate_pubkey(session);
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if (rc == SSH_AUTH_SUCCESS) return rc;
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}
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if (method & SSH_AUTH_METHOD_INTERACTIVE)
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{ // For the source code of function authenticate_kbdint(),
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// refer to the corresponding example
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rc = authenticate_kbdint(session);
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if (rc == SSH_AUTH_SUCCESS) return rc;
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}
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if (method & SSH_AUTH_METHOD_PASSWORD)
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{ // For the source code of function authenticate_password(),
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// refer to the corresponding example
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rc = authenticate_password(session);
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if (rc == SSH_AUTH_SUCCESS) return rc;
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}
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return SSH_AUTH_ERROR;
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}
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@endcode
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@subsection banner Getting the banner
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The SSH server might send a banner, which you can retrieve with
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ssh_get_issue_banner(), then display to the user.
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The following example shows how to retrieve and dispose the issue banner:
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@code
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int display_banner(ssh_session session)
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{
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int rc;
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char *banner;
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/*
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*** Does not work without calling ssh_userauth_none() first ***
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*** That will be fixed ***
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*/
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rc = ssh_userauth_none(session, NULL);
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if (rc == SSH_AUTH_ERROR)
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return rc;
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banner = ssh_get_issue_banner(session);
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if (banner)
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{
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printf("%s\n", banner);
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free(banner);
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}
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return rc;
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}
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@endcode
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*/
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