963c3077a4
Signed-off-by: Mike Frysinger <vapier@gentoo.org> Reviewed-by: Andreas Schneider <asn@cryptomilk.org>
471 строка
14 KiB
Plaintext
471 строка
14 KiB
Plaintext
/**
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@page libssh_tutor_guided_tour Chapter 1: A typical SSH session
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@section ssh_session A typical SSH session
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A SSH session goes through the following steps:
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- Before connecting to the server, you can set up if you wish one or other
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server public key authentication, i.e. DSA or RSA. You can choose
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cryptographic algorithms you trust and compression algorithms if any. You
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must of course set up the hostname.
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- The connection is established. A secure handshake is made, and resulting from
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it, a public key from the server is gained. You MUST verify that the public
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key is legitimate, using for instance the MD5 fingerprint or the known hosts
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file.
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- The client must authenticate: the classical ways are password, or
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public keys (from dsa and rsa key-pairs generated by openssh).
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If a SSH agent is running, it is possible to use it.
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- Now that the user has been authenticated, you must open one or several
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channels. Channels are different subways for information into a single ssh
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connection. Each channel has a standard stream (stdout) and an error stream
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(stderr). You can theoretically open an infinity of channels.
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- With the channel you opened, you can do several things:
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- Execute a single command.
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- Open a shell. You may want to request a pseudo-terminal before.
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- Invoke the sftp subsystem to transfer files.
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- Invoke the scp subsystem to transfer files.
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- Invoke your own subsystem. This is outside the scope of this document,
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but can be done.
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- When everything is finished, just close the channels, and then the connection.
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The sftp and scp subsystems use channels, but libssh hides them to
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the programmer. If you want to use those subsystems, instead of a channel,
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you'll usually open a "sftp session" or a "scp session".
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@subsection setup Creating the session and setting options
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The most important object in a SSH connection is the SSH session. In order
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to allocate a new SSH session, you use ssh_new(). Don't forget to
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always verify that the allocation succeeded.
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@code
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#include <libssh/libssh.h>
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#include <stdlib.h>
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int main()
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{
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ssh_session my_ssh_session = ssh_new();
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if (my_ssh_session == NULL)
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exit(-1);
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...
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ssh_free(my_ssh_session);
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}
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@endcode
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libssh follows the allocate-it-deallocate-it pattern. Each object that you allocate
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using xxxxx_new() must be deallocated using xxxxx_free(). In this case, ssh_new()
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does the allocation and ssh_free() does the contrary.
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The ssh_options_set() function sets the options of the session. The most important options are:
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- SSH_OPTIONS_HOST: the name of the host you want to connect to
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- SSH_OPTIONS_PORT: the used port (default is port 22)
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- SSH_OPTIONS_USER: the system user under which you want to connect
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- SSH_OPTIONS_LOG_VERBOSITY: the quantity of messages that are printed
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The complete list of options can be found in the documentation of ssh_options_set().
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The only mandatory option is SSH_OPTIONS_HOST. If you don't use SSH_OPTIONS_USER,
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the local username of your account will be used.
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Here is a small example of how to use it:
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@code
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#include <libssh/libssh.h>
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#include <stdlib.h>
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int main()
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{
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ssh_session my_ssh_session;
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int verbosity = SSH_LOG_PROTOCOL;
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int port = 22;
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my_ssh_session = ssh_new();
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if (my_ssh_session == NULL)
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exit(-1);
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ssh_options_set(my_ssh_session, SSH_OPTIONS_HOST, "localhost");
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ssh_options_set(my_ssh_session, SSH_OPTIONS_LOG_VERBOSITY, &verbosity);
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ssh_options_set(my_ssh_session, SSH_OPTIONS_PORT, &port);
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...
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ssh_free(my_ssh_session);
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}
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@endcode
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Please notice that all parameters are passed to ssh_options_set() as pointers,
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even if you need to set an integer value.
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@see ssh_new
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@see ssh_free
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@see ssh_options_set
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@see ssh_options_parse_config
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@see ssh_options_copy
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@see ssh_options_getopt
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@subsection connect Connecting to the server
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Once all settings have been made, you can connect using ssh_connect(). That
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function will return SSH_OK if the connection worked, SSH_ERROR otherwise.
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You can get the English error string with ssh_get_error() in order to show the
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user what went wrong. Then, use ssh_disconnect() when you want to stop
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the session.
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Here's an example:
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@code
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#include <libssh/libssh.h>
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#include <stdlib.h>
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#include <stdio.h>
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int main()
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{
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ssh_session my_ssh_session;
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int rc;
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my_ssh_session = ssh_new();
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if (my_ssh_session == NULL)
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exit(-1);
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ssh_options_set(my_ssh_session, SSH_OPTIONS_HOST, "localhost");
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rc = ssh_connect(my_ssh_session);
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if (rc != SSH_OK)
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{
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fprintf(stderr, "Error connecting to localhost: %s\n",
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ssh_get_error(my_ssh_session));
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exit(-1);
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}
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...
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ssh_disconnect(my_ssh_session);
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ssh_free(my_ssh_session);
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}
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@endcode
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@subsection serverauth Authenticating the server
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Once you're connected, the following step is mandatory: you must check that the server
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you just connected to is known and safe to use (remember, SSH is about security and
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authentication).
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There are two ways of doing this:
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- The first way (recommended) is to use the ssh_session_is_known_server()
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function. This function will look into the known host file
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(~/.ssh/known_hosts on UNIX), look for the server hostname's pattern,
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and determine whether this host is present or not in the list.
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- The second way is to use ssh_get_pubkey_hash() to get a binary version
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of the public key hash value. You can then use your own database to check
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if this public key is known and secure.
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You can also use the ssh_get_pubkey_hash() to show the public key hash
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value to the user, in case he knows what the public key hash value is
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(some paranoid people write their public key hash values on paper before
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going abroad, just in case ...).
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If the remote host is being used to for the first time, you can ask the user whether
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he/she trusts it. Once he/she concluded that the host is valid and worth being
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added in the known hosts file, you use ssh_write_knownhost() to register it in
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the known hosts file, or any other way if you use your own database.
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The following example is part of the examples suite available in the
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examples/ directory:
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@code
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#include <errno.h>
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#include <string.h>
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int verify_knownhost(ssh_session session)
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{
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enum ssh_known_hosts_e state;
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unsigned char *hash = NULL;
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ssh_key srv_pubkey = NULL;
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size_t hlen;
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char buf[10];
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char *hexa;
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char *p;
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int cmp;
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int rc;
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rc = ssh_get_server_publickey(session, &srv_pubkey);
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if (rc < 0) {
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return -1;
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}
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rc = ssh_get_publickey_hash(srv_pubkey,
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SSH_PUBLICKEY_HASH_SHA1,
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&hash,
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&hlen);
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ssh_key_free(srv_pubkey);
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if (rc < 0) {
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return -1;
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}
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state = ssh_session_is_known_server(session);
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switch (state) {
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case SSH_KNOWN_HOSTS_OK:
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/* OK */
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break;
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case SSH_KNOWN_HOSTS_CHANGED:
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fprintf(stderr, "Host key for server changed: it is now:\n");
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ssh_print_hexa("Public key hash", hash, hlen);
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fprintf(stderr, "For security reasons, connection will be stopped\n");
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ssh_clean_pubkey_hash(&hash);
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return -1;
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case SSH_KNOWN_HOSTS_OTHER:
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fprintf(stderr, "The host key for this server was not found but an other"
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"type of key exists.\n");
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fprintf(stderr, "An attacker might change the default server key to"
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"confuse your client into thinking the key does not exist\n");
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ssh_clean_pubkey_hash(&hash);
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return -1;
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case SSH_KNOWN_HOSTS_NOT_FOUND:
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fprintf(stderr, "Could not find known host file.\n");
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fprintf(stderr, "If you accept the host key here, the file will be"
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"automatically created.\n");
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/* FALL THROUGH to SSH_SERVER_NOT_KNOWN behavior */
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case SSH_KNOWN_HOSTS_UNKNOWN:
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hexa = ssh_get_hexa(hash, hlen);
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fprintf(stderr,"The server is unknown. Do you trust the host key?\n");
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fprintf(stderr, "Public key hash: %s\n", hexa);
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ssh_string_free_char(hexa);
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ssh_clean_pubkey_hash(&hash);
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p = fgets(buf, sizeof(buf), stdin);
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if (p == NULL) {
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return -1;
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}
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cmp = strncasecmp(buf, "yes", 3);
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if (cmp != 0) {
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return -1;
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}
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rc = ssh_session_update_known_hosts(session);
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if (rc < 0) {
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fprintf(stderr, "Error %s\n", strerror(errno));
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return -1;
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}
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break;
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case SSH_KNOWN_HOSTS_ERROR:
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fprintf(stderr, "Error %s", ssh_get_error(session));
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ssh_clean_pubkey_hash(&hash);
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return -1;
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}
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ssh_clean_pubkey_hash(&hash);
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return 0;
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}
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@endcode
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@see ssh_connect
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@see ssh_disconnect
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@see ssh_get_error
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@see ssh_get_error_code
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@see ssh_get_server_publickey
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@see ssh_get_publickey_hash
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@see ssh_session_is_known_server
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@see ssh_session_update_known_hosts
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@subsection auth Authenticating the user
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The authentication process is the way a service provider can identify a
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user and verify his/her identity. The authorization process is about enabling
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the authenticated user the access to resources. In SSH, the two concepts
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are linked. After authentication, the server can grant the user access to
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several resources such as port forwarding, shell, sftp subsystem, and so on.
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libssh supports several methods of authentication:
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- "none" method. This method allows to get the available authentications
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methods. It also gives the server a chance to authenticate the user with
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just his/her login. Some very old hardware uses this feature to fallback
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the user on a "telnet over SSH" style of login.
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- password method. A password is sent to the server, which accepts it or not.
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- keyboard-interactive method. The server sends several challenges to the
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user, who must answer correctly. This makes possible the authentication
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via a codebook for instance ("give code at 23:R on page 3").
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- public key method. The host knows the public key of the user, and the
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user must prove he knows the associated private key. This can be done
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manually, or delegated to the SSH agent as we'll see later.
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All these methods can be combined. You can for instance force the user to
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authenticate with at least two of the authentication methods. In that case,
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one speaks of "Partial authentication". A partial authentication is a
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response from authentication functions stating that your credential was
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accepted, but yet another one is required to get in.
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The example below shows an authentication with password:
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@code
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#include <libssh/libssh.h>
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#include <stdlib.h>
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#include <stdio.h>
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int main()
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{
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ssh_session my_ssh_session;
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int rc;
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char *password;
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// Open session and set options
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my_ssh_session = ssh_new();
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if (my_ssh_session == NULL)
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exit(-1);
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ssh_options_set(my_ssh_session, SSH_OPTIONS_HOST, "localhost");
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// Connect to server
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rc = ssh_connect(my_ssh_session);
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if (rc != SSH_OK)
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{
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fprintf(stderr, "Error connecting to localhost: %s\n",
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ssh_get_error(my_ssh_session));
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ssh_free(my_ssh_session);
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exit(-1);
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}
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// Verify the server's identity
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// For the source code of verify_knownhost(), check previous example
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if (verify_knownhost(my_ssh_session) < 0)
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{
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ssh_disconnect(my_ssh_session);
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ssh_free(my_ssh_session);
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exit(-1);
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}
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// Authenticate ourselves
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password = getpass("Password: ");
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rc = ssh_userauth_password(my_ssh_session, NULL, password);
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if (rc != SSH_AUTH_SUCCESS)
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{
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fprintf(stderr, "Error authenticating with password: %s\n",
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ssh_get_error(my_ssh_session));
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ssh_disconnect(my_ssh_session);
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ssh_free(my_ssh_session);
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exit(-1);
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}
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...
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ssh_disconnect(my_ssh_session);
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ssh_free(my_ssh_session);
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}
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@endcode
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@see @ref authentication_details
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@subsection using_ssh Doing something
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At this point, the authenticity of both server and client is established.
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Time has come to take advantage of the many possibilities offered by the SSH
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protocol: execute a remote command, open remote shells, transfer files,
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forward ports, etc.
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The example below shows how to execute a remote command:
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@code
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int show_remote_processes(ssh_session session)
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{
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ssh_channel channel;
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int rc;
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char buffer[256];
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int nbytes;
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channel = ssh_channel_new(session);
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if (channel == NULL)
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return SSH_ERROR;
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rc = ssh_channel_open_session(channel);
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if (rc != SSH_OK)
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{
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ssh_channel_free(channel);
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return rc;
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}
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rc = ssh_channel_request_exec(channel, "ps aux");
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if (rc != SSH_OK)
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{
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ssh_channel_close(channel);
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ssh_channel_free(channel);
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return rc;
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}
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nbytes = ssh_channel_read(channel, buffer, sizeof(buffer), 0);
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while (nbytes > 0)
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{
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if (write(1, buffer, nbytes) != (unsigned int) nbytes)
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{
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ssh_channel_close(channel);
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ssh_channel_free(channel);
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return SSH_ERROR;
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}
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nbytes = ssh_channel_read(channel, buffer, sizeof(buffer), 0);
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}
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if (nbytes < 0)
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{
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ssh_channel_close(channel);
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ssh_channel_free(channel);
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return SSH_ERROR;
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}
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ssh_channel_send_eof(channel);
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ssh_channel_close(channel);
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ssh_channel_free(channel);
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return SSH_OK;
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}
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@endcode
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@see @ref opening_shell
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@see @ref remote_command
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@see @ref sftp_subsystem
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@see @ref scp_subsystem
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@subsection errors Handling the errors
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All the libssh functions which return an error value also set an English error message
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describing the problem.
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Error values are typically SSH_ERROR for integer values, or NULL for pointers.
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The function ssh_get_error() returns a pointer to the static error message.
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ssh_error_code() returns the error code number : SSH_NO_ERROR,
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SSH_REQUEST_DENIED, SSH_INVALID_REQUEST, SSH_CONNECTION_LOST, SSH_FATAL,
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or SSH_INVALID_DATA. SSH_REQUEST_DENIED means the ssh server refused your
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request, but the situation is recoverable. The others mean something happened
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to the connection (some encryption problems, server problems, ...).
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SSH_INVALID_REQUEST means the library got some garbage from server, but
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might be recoverable. SSH_FATAL means the connection has an important
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problem and isn't probably recoverable.
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Most of time, the error returned are SSH_FATAL, but some functions
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(generally the ssh_request_xxx ones) may fail because of server denying request.
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In these cases, SSH_REQUEST_DENIED is returned.
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For thread safety, errors are bound to ssh_session objects.
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As long as your ssh_session object is not NULL, you can retrieve the last error
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message and error code from the ssh_session using ssh_get_error() and
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ssh_get_error_code() respectively.
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The SFTP subsystem has its own error codes, in addition to libssh ones.
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*/
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