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#ifndef CREDENTIAL_H
#define CREDENTIAL_H
#include "string-list.h"
/**
* The credentials API provides an abstracted way of gathering username and
* password credentials from the user.
*
* Typical setup
* -------------
*
* ------------
* +-----------------------+
* | Git code (C) |--- to server requiring --->
* | | authentication
* |.......................|
* | C credential API |--- prompt ---> User
* +-----------------------+
* ^ |
* | pipe |
* | v
* +-----------------------+
* | Git credential helper |
* +-----------------------+
* ------------
*
* The Git code (typically a remote-helper) will call the C API to obtain
* credential data like a login/password pair (credential_fill). The
* API will itself call a remote helper (e.g. "git credential-cache" or
* "git credential-store") that may retrieve credential data from a
* store. If the credential helper cannot find the information, the C API
* will prompt the user. Then, the caller of the API takes care of
* contacting the server, and does the actual authentication.
*
* C API
* -----
*
* The credential C API is meant to be called by Git code which needs to
* acquire or store a credential. It is centered around an object
* representing a single credential and provides three basic operations:
* fill (acquire credentials by calling helpers and/or prompting the user),
* approve (mark a credential as successfully used so that it can be stored
* for later use), and reject (mark a credential as unsuccessful so that it
* can be erased from any persistent storage).
*
* Example
* ~~~~~~~
*
* The example below shows how the functions of the credential API could be
* used to login to a fictitious "foo" service on a remote host:
*
* -----------------------------------------------------------------------
* int foo_login(struct foo_connection *f)
* {
* int status;
* // Create a credential with some context; we don't yet know the
* // username or password.
*
* struct credential c = CREDENTIAL_INIT;
* c.protocol = xstrdup("foo");
* c.host = xstrdup(f->hostname);
*
* // Fill in the username and password fields by contacting
* // helpers and/or asking the user. The function will die if it
* // fails.
* credential_fill(&c);
*
* // Otherwise, we have a username and password. Try to use it.
*
* status = send_foo_login(f, c.username, c.password);
* switch (status) {
* case FOO_OK:
* // It worked. Store the credential for later use.
* credential_accept(&c);
* break;
* case FOO_BAD_LOGIN:
* // Erase the credential from storage so we don't try it again.
* credential_reject(&c);
* break;
* default:
* // Some other error occurred. We don't know if the
* // credential is good or bad, so report nothing to the
* // credential subsystem.
* }
*
* // Free any associated resources.
* credential_clear(&c);
*
* return status;
* }
* -----------------------------------------------------------------------
*
* Credential Helpers
* ------------------
*
* Credential helpers are programs executed by Git to fetch or save
* credentials from and to long-term storage (where "long-term" is simply
* longer than a single Git process; e.g., credentials may be stored
* in-memory for a few minutes, or indefinitely on disk).
*
* Each helper is specified by a single string in the configuration
* variable `credential.helper` (and others, see Documentation/git-config.txt).
* The string is transformed by Git into a command to be executed using
* these rules:
*
* 1. If the helper string begins with "!", it is considered a shell
* snippet, and everything after the "!" becomes the command.
*
* 2. Otherwise, if the helper string begins with an absolute path, the
* verbatim helper string becomes the command.
*
* 3. Otherwise, the string "git credential-" is prepended to the helper
* string, and the result becomes the command.
*
* The resulting command then has an "operation" argument appended to it
* (see below for details), and the result is executed by the shell.
*
* Here are some example specifications:
*
* ----------------------------------------------------
* # run "git credential-foo"
* foo
*
* # same as above, but pass an argument to the helper
* foo --bar=baz
*
* # the arguments are parsed by the shell, so use shell
* # quoting if necessary
* foo --bar="whitespace arg"
*
* # you can also use an absolute path, which will not use the git wrapper
* /path/to/my/helper --with-arguments
*
* # or you can specify your own shell snippet
* !f() { echo "password=`cat $HOME/.secret`"; }; f
* ----------------------------------------------------
*
* Generally speaking, rule (3) above is the simplest for users to specify.
* Authors of credential helpers should make an effort to assist their
* users by naming their program "git-credential-$NAME", and putting it in
* the $PATH or $GIT_EXEC_PATH during installation, which will allow a user
* to enable it with `git config credential.helper $NAME`.
*
* When a helper is executed, it will have one "operation" argument
* appended to its command line, which is one of:
*
* `get`::
*
* Return a matching credential, if any exists.
*
* `store`::
*
* Store the credential, if applicable to the helper.
*
* `erase`::
*
* Remove a matching credential, if any, from the helper's storage.
*
* The details of the credential will be provided on the helper's stdin
* stream. The exact format is the same as the input/output format of the
* `git credential` plumbing command (see the section `INPUT/OUTPUT
* FORMAT` in Documentation/git-credential.txt for a detailed specification).
*
* For a `get` operation, the helper should produce a list of attributes
* on stdout in the same format. A helper is free to produce a subset, or
* even no values at all if it has nothing useful to provide. Any provided
* attributes will overwrite those already known about by Git. If a helper
* outputs a `quit` attribute with a value of `true` or `1`, no further
* helpers will be consulted, nor will the user be prompted (if no
* credential has been provided, the operation will then fail).
*
* For a `store` or `erase` operation, the helper's output is ignored.
* If it fails to perform the requested operation, it may complain to
* stderr to inform the user. If it does not support the requested
* operation (e.g., a read-only store), it should silently ignore the
* request.
*
* If a helper receives any other operation, it should silently ignore the
* request. This leaves room for future operations to be added (older
* helpers will just ignore the new requests).
*
*/
/**
* This struct represents a single username/password combination
* along with any associated context. All string fields should be
* heap-allocated (or NULL if they are not known or not applicable).
* The meaning of the individual context fields is the same as
* their counterparts in the helper protocol.
*
* This struct should always be initialized with `CREDENTIAL_INIT` or
* `credential_init`.
*/
struct credential {
/**
* A `string_list` of helpers. Each string specifies an external
* helper which will be run, in order, to either acquire or store
* credentials. This list is filled-in by the API functions
* according to the corresponding configuration variables before
* consulting helpers, so there usually is no need for a caller to
* modify the helpers field at all.
*/
struct string_list helpers;
unsigned approved:1,
configured:1,
quit:1,
use_http_path:1;
char *username;
char *password;
char *protocol;
char *host;
char *path;
};
#define CREDENTIAL_INIT { STRING_LIST_INIT_DUP }
/* Initialize a credential structure, setting all fields to empty. */
void credential_init(struct credential *);
/**
* Free any resources associated with the credential structure, returning
* it to a pristine initialized state.
*/
void credential_clear(struct credential *);
/**
* Instruct the credential subsystem to fill the username and
* password fields of the passed credential struct by first
* consulting helpers, then asking the user. After this function
* returns, the username and password fields of the credential are
* guaranteed to be non-NULL. If an error occurs, the function will
* die().
*/
void credential_fill(struct credential *);
/**
* Inform the credential subsystem that the provided credentials
* were successfully used for authentication. This will cause the
* credential subsystem to notify any helpers of the approval, so
* that they may store the result to be used again. Any errors
* from helpers are ignored.
*/
void credential_approve(struct credential *);
/**
* Inform the credential subsystem that the provided credentials
* have been rejected. This will cause the credential subsystem to
* notify any helpers of the rejection (which allows them, for
* example, to purge the invalid credentials from storage). It
* will also free() the username and password fields of the
* credential and set them to NULL (readying the credential for
* another call to `credential_fill`). Any errors from helpers are
* ignored.
*/
void credential_reject(struct credential *);
int credential_read(struct credential *, FILE *);
void credential_write(const struct credential *, FILE *);
/* Parse a URL into broken-down credential fields. */
void credential_from_url(struct credential *, const char *url);
int credential_match(const struct credential *have,
const struct credential *want);
#endif /* CREDENTIAL_H */