git/credential.h

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#ifndef CREDENTIAL_H
#define CREDENTIAL_H
#include "string-list.h"
#include "strvec.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: gate new fields on capability We support the new credential and authtype fields, but we lack a way to indicate to a credential helper that we'd like them to be used. Without some sort of indication, the credential helper doesn't know if it should try to provide us a username and password, or a pre-encoded credential. For example, the helper might prefer a more restricted Bearer token if pre-encoded credentials are possible, but might have to fall back to more general username and password if not. Let's provide a simple way to indicate whether Git (or, for that matter, the helper) is capable of understanding the authtype and credential fields. We send this capability when we generate a request, and the other side may reply to indicate to us that it does, too. For now, don't enable sending capabilities for the HTTP code. In a future commit, we'll introduce appropriate handling for that code, which requires more in-depth work. The logic for determining whether a capability is supported may seem complex, but it is not. At each stage, we emit the capability to the following stage if all preceding stages have declared it. Thus, if the caller to git credential fill didn't declare it, then we won't send it to the helper, and if fill's caller did send but the helper doesn't understand it, then we won't send it on in the response. If we're an internal user, then we know about all capabilities and will request them. For "git credential approve" and "git credential reject", we set the helper capability before calling the helper, since we assume that the input we're getting from the external program comes from a previous call to "git credential fill", and thus we'll invoke send a capability to the helper if and only if we got one from the standard input, which is the correct behavior. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:29 +08:00
/*
* These values define the kind of operation we're performing and the
* capabilities at each stage. The first is either an external request (via git
* credential fill) or an internal request (e.g., via the HTTP) code. The
* second is the call to the credential helper, and the third is the response
* we're providing.
*
* At each stage, we will emit the capability only if the previous stage
* supported it.
*/
enum credential_op_type {
CREDENTIAL_OP_INITIAL = 1,
CREDENTIAL_OP_HELPER = 2,
CREDENTIAL_OP_RESPONSE = 3,
};
struct credential_capability {
unsigned request_initial:1,
request_helper:1,
response:1;
};
/**
* 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;
/**
* A `strvec` of WWW-Authenticate header values. Each string
* is the value of a WWW-Authenticate header in an HTTP response,
* in the order they were received in the response.
*/
struct strvec wwwauth_headers;
/**
credential: add support for multistage credential rounds Over HTTP, NTLM and Kerberos require two rounds of authentication on the client side. It's possible that there are custom authentication schemes that also implement this same approach. Since these are tricky schemes to implement and the HTTP library in use may not always handle them gracefully on all systems, it would be helpful to allow the credential helper to implement them instead for increased portability and robustness. To allow this to happen, add a boolean flag, continue, that indicates that instead of failing when we get a 401, we should retry another round of authentication. However, this necessitates some changes in our current credential code so that we can make this work. Keep the state[] headers between iterations, but only use them to send to the helper and only consider the new ones we read from the credential helper to be valid on subsequent iterations. That avoids us passing stale data when we finally approve or reject the credential. Similarly, clear the multistage and wwwauth[] values appropriately so that we don't pass stale data or think we're trying a multiround response when we're not. Remove the credential values so that we can actually fill a second time with new responses. Limit the number of iterations of reauthentication we do to 3. This means that if there's a problem, we'll terminate with an error message instead of retrying indefinitely and not informing the user (and possibly conducting a DoS on the server). In our tests, handle creating multiple response output files from our helper so we can verify that each of the messages sent is correct. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:37 +08:00
* A `strvec` of state headers received from credential helpers.
*/
struct strvec state_headers;
credential: add support for multistage credential rounds Over HTTP, NTLM and Kerberos require two rounds of authentication on the client side. It's possible that there are custom authentication schemes that also implement this same approach. Since these are tricky schemes to implement and the HTTP library in use may not always handle them gracefully on all systems, it would be helpful to allow the credential helper to implement them instead for increased portability and robustness. To allow this to happen, add a boolean flag, continue, that indicates that instead of failing when we get a 401, we should retry another round of authentication. However, this necessitates some changes in our current credential code so that we can make this work. Keep the state[] headers between iterations, but only use them to send to the helper and only consider the new ones we read from the credential helper to be valid on subsequent iterations. That avoids us passing stale data when we finally approve or reject the credential. Similarly, clear the multistage and wwwauth[] values appropriately so that we don't pass stale data or think we're trying a multiround response when we're not. Remove the credential values so that we can actually fill a second time with new responses. Limit the number of iterations of reauthentication we do to 3. This means that if there's a problem, we'll terminate with an error message instead of retrying indefinitely and not informing the user (and possibly conducting a DoS on the server). In our tests, handle creating multiple response output files from our helper so we can verify that each of the messages sent is correct. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:37 +08:00
/**
* A `strvec` of state headers to send to credential helpers.
*/
struct strvec state_headers_to_send;
/**
* Internal use only. Keeps track of if we previously matched against a
* WWW-Authenticate header line in order to re-fold future continuation
* lines into one value.
*/
unsigned header_is_last_match:1;
unsigned approved:1,
ephemeral:1,
credential: make relevance of http path configurable When parsing a URL into a credential struct, we carefully record each part of the URL, including the path on the remote host, and use the result as part of the credential context. This had two practical implications: 1. Credential helpers which store a credential for later access are likely to use the "path" portion as part of the storage key. That means that a request to https://example.com/foo.git would not use the same credential that was stored in an earlier request for: https://example.com/bar.git 2. The prompt shown to the user includes all relevant context, including the path. In most cases, however, users will have a single password per host. The behavior in (1) will be inconvenient, and the prompt in (2) will be overly long. This patch introduces a config option to toggle the relevance of http paths. When turned on, we use the path as before. When turned off, we drop the path component from the context: helpers don't see it, and it does not appear in the prompt. This is nothing you couldn't do with a clever credential helper at the start of your stack, like: [credential "http://"] helper = "!f() { grep -v ^path= ; }; f" helper = your_real_helper But doing this: [credential] useHttpPath = false is way easier and more readable. Furthermore, since most users will want the "off" behavior, that is the new default. Users who want it "on" can set the variable (either for all credentials, or just for a subset using credential.*.useHttpPath). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2011-12-10 18:31:34 +08:00
configured:1,
credential: add support for multistage credential rounds Over HTTP, NTLM and Kerberos require two rounds of authentication on the client side. It's possible that there are custom authentication schemes that also implement this same approach. Since these are tricky schemes to implement and the HTTP library in use may not always handle them gracefully on all systems, it would be helpful to allow the credential helper to implement them instead for increased portability and robustness. To allow this to happen, add a boolean flag, continue, that indicates that instead of failing when we get a 401, we should retry another round of authentication. However, this necessitates some changes in our current credential code so that we can make this work. Keep the state[] headers between iterations, but only use them to send to the helper and only consider the new ones we read from the credential helper to be valid on subsequent iterations. That avoids us passing stale data when we finally approve or reject the credential. Similarly, clear the multistage and wwwauth[] values appropriately so that we don't pass stale data or think we're trying a multiround response when we're not. Remove the credential values so that we can actually fill a second time with new responses. Limit the number of iterations of reauthentication we do to 3. This means that if there's a problem, we'll terminate with an error message instead of retrying indefinitely and not informing the user (and possibly conducting a DoS on the server). In our tests, handle creating multiple response output files from our helper so we can verify that each of the messages sent is correct. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:37 +08:00
multistage: 1,
quit:1,
use_http_path:1,
username_from_proto:1;
credential: gate new fields on capability We support the new credential and authtype fields, but we lack a way to indicate to a credential helper that we'd like them to be used. Without some sort of indication, the credential helper doesn't know if it should try to provide us a username and password, or a pre-encoded credential. For example, the helper might prefer a more restricted Bearer token if pre-encoded credentials are possible, but might have to fall back to more general username and password if not. Let's provide a simple way to indicate whether Git (or, for that matter, the helper) is capable of understanding the authtype and credential fields. We send this capability when we generate a request, and the other side may reply to indicate to us that it does, too. For now, don't enable sending capabilities for the HTTP code. In a future commit, we'll introduce appropriate handling for that code, which requires more in-depth work. The logic for determining whether a capability is supported may seem complex, but it is not. At each stage, we emit the capability to the following stage if all preceding stages have declared it. Thus, if the caller to git credential fill didn't declare it, then we won't send it to the helper, and if fill's caller did send but the helper doesn't understand it, then we won't send it on in the response. If we're an internal user, then we know about all capabilities and will request them. For "git credential approve" and "git credential reject", we set the helper capability before calling the helper, since we assume that the input we're getting from the external program comes from a previous call to "git credential fill", and thus we'll invoke send a capability to the helper if and only if we got one from the standard input, which is the correct behavior. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:29 +08:00
struct credential_capability capa_authtype;
struct credential_capability capa_state;
credential: gate new fields on capability We support the new credential and authtype fields, but we lack a way to indicate to a credential helper that we'd like them to be used. Without some sort of indication, the credential helper doesn't know if it should try to provide us a username and password, or a pre-encoded credential. For example, the helper might prefer a more restricted Bearer token if pre-encoded credentials are possible, but might have to fall back to more general username and password if not. Let's provide a simple way to indicate whether Git (or, for that matter, the helper) is capable of understanding the authtype and credential fields. We send this capability when we generate a request, and the other side may reply to indicate to us that it does, too. For now, don't enable sending capabilities for the HTTP code. In a future commit, we'll introduce appropriate handling for that code, which requires more in-depth work. The logic for determining whether a capability is supported may seem complex, but it is not. At each stage, we emit the capability to the following stage if all preceding stages have declared it. Thus, if the caller to git credential fill didn't declare it, then we won't send it to the helper, and if fill's caller did send but the helper doesn't understand it, then we won't send it on in the response. If we're an internal user, then we know about all capabilities and will request them. For "git credential approve" and "git credential reject", we set the helper capability before calling the helper, since we assume that the input we're getting from the external program comes from a previous call to "git credential fill", and thus we'll invoke send a capability to the helper if and only if we got one from the standard input, which is the correct behavior. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:29 +08:00
char *username;
char *password;
credential: add a field for pre-encoded credentials At the moment, our credential code wants to find a username and password for access, which, for HTTP, it will pass to libcurl to encode and process. However, many users want to use authentication schemes that libcurl doesn't support, such as Bearer authentication. In these schemes, the secret is not a username and password pair, but some sort of token that meets the production for authentication data in the RFC. In fact, in general, it's useful to allow our credential helper to have knowledge about what specifically to put in the protocol header. Thus, add a field, credential, which contains data that's preencoded to be suitable for the protocol in question. If we have such data, we need neither a username nor a password, so make that adjustment as well. It is in theory possible to reuse the password field for this. However, if we do so, we must know whether the credential helper supports our new scheme before sending it data, which necessitates some sort of capability inquiry, because otherwise an uninformed credential helper would store our preencoded data as a password, which would fail the next time we attempted to connect to the remote server. This design is substantially simpler, and we can hint to the credential helper that we support this approach with a simple new field instead of needing to query it first. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:28 +08:00
char *credential;
char *protocol;
char *host;
char *path;
credential: new attribute oauth_refresh_token Git authentication with OAuth access token is supported by every popular Git host including GitHub, GitLab and BitBucket [1][2][3]. Credential helpers Git Credential Manager (GCM) and git-credential-oauth generate OAuth credentials [4][5]. Following RFC 6749, the application prints a link for the user to authorize access in browser. A loopback redirect communicates the response including access token to the application. For security, RFC 6749 recommends that OAuth response also includes expiry date and refresh token [6]. After expiry, applications can use the refresh token to generate a new access token without user reauthorization in browser. GitLab and BitBucket set the expiry at two hours [2][3]. (GitHub doesn't populate expiry or refresh token.) However the Git credential protocol has no attribute to store the OAuth refresh token (unrecognised attributes are silently discarded). This means that the user has to regularly reauthorize the helper in browser. On a browserless system, this is particularly intrusive, requiring a second device. Introduce a new attribute oauth_refresh_token. This is especially useful when a storage helper and a read-only OAuth helper are configured together. Recall that `credential fill` calls each helper until it has a non-expired password. ``` [credential] helper = storage # eg. cache or osxkeychain helper = oauth ``` The OAuth helper can use the stored refresh token forwarded by `credential fill` to generate a fresh access token without opening the browser. See https://github.com/hickford/git-credential-oauth/pull/3/files for an implementation tested with this patch. Add support for the new attribute to credential-cache. Eventually, I hope to see support in other popular storage helpers. Alternatives considered: ask helpers to store all unrecognised attributes. This seems excessively complex for no obvious gain. Helpers would also need extra information to distinguish between confidential and non-confidential attributes. Workarounds: GCM abuses the helper get/store/erase contract to store the refresh token during credential *get* as the password for a fictitious host [7] (I wrote this hack). This workaround is only feasible for a monolithic helper with its own storage. [1] https://github.blog/2012-09-21-easier-builds-and-deployments-using-git-over-https-and-oauth/ [2] https://docs.gitlab.com/ee/api/oauth2.html#access-git-over-https-with-access-token [3] https://support.atlassian.com/bitbucket-cloud/docs/use-oauth-on-bitbucket-cloud/#Cloning-a-repository-with-an-access-token [4] https://github.com/GitCredentialManager/git-credential-manager [5] https://github.com/hickford/git-credential-oauth [6] https://datatracker.ietf.org/doc/html/rfc6749#section-5.1 [7] https://github.com/GitCredentialManager/git-credential-manager/blob/66b94e489ad8cc1982836355493e369770b30211/src/shared/GitLab/GitLabHostProvider.cs#L207 Signed-off-by: M Hickford <mirth.hickford@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2023-04-21 17:47:59 +08:00
char *oauth_refresh_token;
credential: new attribute password_expiry_utc Some passwords have an expiry date known at generation. This may be years away for a personal access token or hours for an OAuth access token. When multiple credential helpers are configured, `credential fill` tries each helper in turn until it has a username and password, returning early. If Git authentication succeeds, `credential approve` stores the successful credential in all helpers. If authentication fails, `credential reject` erases matching credentials in all helpers. Helpers implement corresponding operations: get, store, erase. The credential protocol has no expiry attribute, so helpers cannot store expiry information. Even if a helper returned an improvised expiry attribute, git credential discards unrecognised attributes between operations and between helpers. This is a particular issue when a storage helper and a credential-generating helper are configured together: [credential] helper = storage # eg. cache or osxkeychain helper = generate # eg. oauth `credential approve` stores the generated credential in both helpers without expiry information. Later `credential fill` may return an expired credential from storage. There is no workaround, no matter how clever the second helper. The user sees authentication fail (a retry will succeed). Introduce a password expiry attribute. In `credential fill`, ignore expired passwords and continue to query subsequent helpers. In the example above, `credential fill` ignores the expired password and a fresh credential is generated. If authentication succeeds, `credential approve` replaces the expired password in storage. If authentication fails, the expired credential is erased by `credential reject`. It is unnecessary but harmless for storage helpers to self prune expired credentials. Add support for the new attribute to credential-cache. Eventually, I hope to see support in other popular storage helpers. Example usage in a credential-generating helper https://github.com/hickford/git-credential-oauth/pull/16 Signed-off-by: M Hickford <mirth.hickford@gmail.com> Reviewed-by: Calvin Wan <calvinwan@google.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2023-02-18 14:32:57 +08:00
timestamp_t password_expiry_utc;
credential: add an authtype field When Git makes an HTTP request, it can negotiate the type of authentication to use with the server provided the authentication scheme is one of a few well-known types (Basic, Digest, NTLM, or Negotiate). However, some servers wish to use other types of authentication, such as the Bearer type from OAuth2. Since libcurl doesn't natively support this type, it isn't possible to use it, and the user is forced to specify the Authorization header using the http.extraheader setting. However, storing a plaintext token in the repository configuration is not very secure, especially if a repository can be shared by multiple parties. We already have support for many types of secure credential storage by using credential helpers, so let's teach credential helpers how to produce credentials for an arbitrary scheme. If the credential helper specifies an authtype field, then it specifies an authentication scheme (e.g., Bearer) and the password field specifies the raw authentication token, with any encoding already specified. We reuse the password field for this because some credential helpers store the metadata without encryption even though the password is encrypted, and we'd like to avoid insecure storage if an older version of the credential helper gets ahold of the data. The username is not used in this case, but it is still preserved for the purpose of finding the right credential if the user has multiple accounts. If the authtype field is not specified, then the password behaves as normal and it is passed along with the username to libcurl. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:25 +08:00
/**
* The authorization scheme to use. If this is NULL, libcurl is free to
* negotiate any scheme it likes.
*/
char *authtype;
};
#define CREDENTIAL_INIT { \
.helpers = STRING_LIST_INIT_DUP, \
credential: new attribute password_expiry_utc Some passwords have an expiry date known at generation. This may be years away for a personal access token or hours for an OAuth access token. When multiple credential helpers are configured, `credential fill` tries each helper in turn until it has a username and password, returning early. If Git authentication succeeds, `credential approve` stores the successful credential in all helpers. If authentication fails, `credential reject` erases matching credentials in all helpers. Helpers implement corresponding operations: get, store, erase. The credential protocol has no expiry attribute, so helpers cannot store expiry information. Even if a helper returned an improvised expiry attribute, git credential discards unrecognised attributes between operations and between helpers. This is a particular issue when a storage helper and a credential-generating helper are configured together: [credential] helper = storage # eg. cache or osxkeychain helper = generate # eg. oauth `credential approve` stores the generated credential in both helpers without expiry information. Later `credential fill` may return an expired credential from storage. There is no workaround, no matter how clever the second helper. The user sees authentication fail (a retry will succeed). Introduce a password expiry attribute. In `credential fill`, ignore expired passwords and continue to query subsequent helpers. In the example above, `credential fill` ignores the expired password and a fresh credential is generated. If authentication succeeds, `credential approve` replaces the expired password in storage. If authentication fails, the expired credential is erased by `credential reject`. It is unnecessary but harmless for storage helpers to self prune expired credentials. Add support for the new attribute to credential-cache. Eventually, I hope to see support in other popular storage helpers. Example usage in a credential-generating helper https://github.com/hickford/git-credential-oauth/pull/16 Signed-off-by: M Hickford <mirth.hickford@gmail.com> Reviewed-by: Calvin Wan <calvinwan@google.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2023-02-18 14:32:57 +08:00
.password_expiry_utc = TIME_MAX, \
.wwwauth_headers = STRVEC_INIT, \
.state_headers = STRVEC_INIT, \
credential: add support for multistage credential rounds Over HTTP, NTLM and Kerberos require two rounds of authentication on the client side. It's possible that there are custom authentication schemes that also implement this same approach. Since these are tricky schemes to implement and the HTTP library in use may not always handle them gracefully on all systems, it would be helpful to allow the credential helper to implement them instead for increased portability and robustness. To allow this to happen, add a boolean flag, continue, that indicates that instead of failing when we get a 401, we should retry another round of authentication. However, this necessitates some changes in our current credential code so that we can make this work. Keep the state[] headers between iterations, but only use them to send to the helper and only consider the new ones we read from the credential helper to be valid on subsequent iterations. That avoids us passing stale data when we finally approve or reject the credential. Similarly, clear the multistage and wwwauth[] values appropriately so that we don't pass stale data or think we're trying a multiround response when we're not. Remove the credential values so that we can actually fill a second time with new responses. Limit the number of iterations of reauthentication we do to 3. This means that if there's a problem, we'll terminate with an error message instead of retrying indefinitely and not informing the user (and possibly conducting a DoS on the server). In our tests, handle creating multiple response output files from our helper so we can verify that each of the messages sent is correct. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:37 +08:00
.state_headers_to_send = STRVEC_INIT, \
}
/* 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().
credential: gate new fields on capability We support the new credential and authtype fields, but we lack a way to indicate to a credential helper that we'd like them to be used. Without some sort of indication, the credential helper doesn't know if it should try to provide us a username and password, or a pre-encoded credential. For example, the helper might prefer a more restricted Bearer token if pre-encoded credentials are possible, but might have to fall back to more general username and password if not. Let's provide a simple way to indicate whether Git (or, for that matter, the helper) is capable of understanding the authtype and credential fields. We send this capability when we generate a request, and the other side may reply to indicate to us that it does, too. For now, don't enable sending capabilities for the HTTP code. In a future commit, we'll introduce appropriate handling for that code, which requires more in-depth work. The logic for determining whether a capability is supported may seem complex, but it is not. At each stage, we emit the capability to the following stage if all preceding stages have declared it. Thus, if the caller to git credential fill didn't declare it, then we won't send it to the helper, and if fill's caller did send but the helper doesn't understand it, then we won't send it on in the response. If we're an internal user, then we know about all capabilities and will request them. For "git credential approve" and "git credential reject", we set the helper capability before calling the helper, since we assume that the input we're getting from the external program comes from a previous call to "git credential fill", and thus we'll invoke send a capability to the helper if and only if we got one from the standard input, which is the correct behavior. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:29 +08:00
*
* If all_capabilities is set, this is an internal user that is prepared
* to deal with all known capabilities, and we should advertise that fact.
*/
credential: gate new fields on capability We support the new credential and authtype fields, but we lack a way to indicate to a credential helper that we'd like them to be used. Without some sort of indication, the credential helper doesn't know if it should try to provide us a username and password, or a pre-encoded credential. For example, the helper might prefer a more restricted Bearer token if pre-encoded credentials are possible, but might have to fall back to more general username and password if not. Let's provide a simple way to indicate whether Git (or, for that matter, the helper) is capable of understanding the authtype and credential fields. We send this capability when we generate a request, and the other side may reply to indicate to us that it does, too. For now, don't enable sending capabilities for the HTTP code. In a future commit, we'll introduce appropriate handling for that code, which requires more in-depth work. The logic for determining whether a capability is supported may seem complex, but it is not. At each stage, we emit the capability to the following stage if all preceding stages have declared it. Thus, if the caller to git credential fill didn't declare it, then we won't send it to the helper, and if fill's caller did send but the helper doesn't understand it, then we won't send it on in the response. If we're an internal user, then we know about all capabilities and will request them. For "git credential approve" and "git credential reject", we set the helper capability before calling the helper, since we assume that the input we're getting from the external program comes from a previous call to "git credential fill", and thus we'll invoke send a capability to the helper if and only if we got one from the standard input, which is the correct behavior. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:29 +08:00
void credential_fill(struct credential *, int all_capabilities);
/**
* 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 *);
credential: gate new fields on capability We support the new credential and authtype fields, but we lack a way to indicate to a credential helper that we'd like them to be used. Without some sort of indication, the credential helper doesn't know if it should try to provide us a username and password, or a pre-encoded credential. For example, the helper might prefer a more restricted Bearer token if pre-encoded credentials are possible, but might have to fall back to more general username and password if not. Let's provide a simple way to indicate whether Git (or, for that matter, the helper) is capable of understanding the authtype and credential fields. We send this capability when we generate a request, and the other side may reply to indicate to us that it does, too. For now, don't enable sending capabilities for the HTTP code. In a future commit, we'll introduce appropriate handling for that code, which requires more in-depth work. The logic for determining whether a capability is supported may seem complex, but it is not. At each stage, we emit the capability to the following stage if all preceding stages have declared it. Thus, if the caller to git credential fill didn't declare it, then we won't send it to the helper, and if fill's caller did send but the helper doesn't understand it, then we won't send it on in the response. If we're an internal user, then we know about all capabilities and will request them. For "git credential approve" and "git credential reject", we set the helper capability before calling the helper, since we assume that the input we're getting from the external program comes from a previous call to "git credential fill", and thus we'll invoke send a capability to the helper if and only if we got one from the standard input, which is the correct behavior. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:29 +08:00
/**
* Enable all of the supported credential flags in this credential.
*/
void credential_set_all_capabilities(struct credential *c,
enum credential_op_type op_type);
credential: add support for multistage credential rounds Over HTTP, NTLM and Kerberos require two rounds of authentication on the client side. It's possible that there are custom authentication schemes that also implement this same approach. Since these are tricky schemes to implement and the HTTP library in use may not always handle them gracefully on all systems, it would be helpful to allow the credential helper to implement them instead for increased portability and robustness. To allow this to happen, add a boolean flag, continue, that indicates that instead of failing when we get a 401, we should retry another round of authentication. However, this necessitates some changes in our current credential code so that we can make this work. Keep the state[] headers between iterations, but only use them to send to the helper and only consider the new ones we read from the credential helper to be valid on subsequent iterations. That avoids us passing stale data when we finally approve or reject the credential. Similarly, clear the multistage and wwwauth[] values appropriately so that we don't pass stale data or think we're trying a multiround response when we're not. Remove the credential values so that we can actually fill a second time with new responses. Limit the number of iterations of reauthentication we do to 3. This means that if there's a problem, we'll terminate with an error message instead of retrying indefinitely and not informing the user (and possibly conducting a DoS on the server). In our tests, handle creating multiple response output files from our helper so we can verify that each of the messages sent is correct. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:37 +08:00
/**
* Clear the secrets in this credential, but leave other data intact.
*
* This is useful for resetting credentials in preparation for a subsequent
* stage of filling.
*/
void credential_clear_secrets(struct credential *c);
/**
* Print a list of supported capabilities and version numbers to standard
* output.
*/
void credential_announce_capabilities(struct credential *c, FILE *fp);
credential: add support for multistage credential rounds Over HTTP, NTLM and Kerberos require two rounds of authentication on the client side. It's possible that there are custom authentication schemes that also implement this same approach. Since these are tricky schemes to implement and the HTTP library in use may not always handle them gracefully on all systems, it would be helpful to allow the credential helper to implement them instead for increased portability and robustness. To allow this to happen, add a boolean flag, continue, that indicates that instead of failing when we get a 401, we should retry another round of authentication. However, this necessitates some changes in our current credential code so that we can make this work. Keep the state[] headers between iterations, but only use them to send to the helper and only consider the new ones we read from the credential helper to be valid on subsequent iterations. That avoids us passing stale data when we finally approve or reject the credential. Similarly, clear the multistage and wwwauth[] values appropriately so that we don't pass stale data or think we're trying a multiround response when we're not. Remove the credential values so that we can actually fill a second time with new responses. Limit the number of iterations of reauthentication we do to 3. This means that if there's a problem, we'll terminate with an error message instead of retrying indefinitely and not informing the user (and possibly conducting a DoS on the server). In our tests, handle creating multiple response output files from our helper so we can verify that each of the messages sent is correct. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:37 +08:00
/**
* Prepares the credential for the next iteration of the helper protocol by
* updating the state headers to send with the ones read by the last iteration
* of the protocol.
*
* Except for internal callers, this should be called exactly once between
* reading credentials with `credential_fill` and writing them.
*/
void credential_next_state(struct credential *c);
/**
* Return true if the capability is enabled for an operation of op_type.
*/
int credential_has_capability(const struct credential_capability *capa,
enum credential_op_type op_type);
credential: gate new fields on capability We support the new credential and authtype fields, but we lack a way to indicate to a credential helper that we'd like them to be used. Without some sort of indication, the credential helper doesn't know if it should try to provide us a username and password, or a pre-encoded credential. For example, the helper might prefer a more restricted Bearer token if pre-encoded credentials are possible, but might have to fall back to more general username and password if not. Let's provide a simple way to indicate whether Git (or, for that matter, the helper) is capable of understanding the authtype and credential fields. We send this capability when we generate a request, and the other side may reply to indicate to us that it does, too. For now, don't enable sending capabilities for the HTTP code. In a future commit, we'll introduce appropriate handling for that code, which requires more in-depth work. The logic for determining whether a capability is supported may seem complex, but it is not. At each stage, we emit the capability to the following stage if all preceding stages have declared it. Thus, if the caller to git credential fill didn't declare it, then we won't send it to the helper, and if fill's caller did send but the helper doesn't understand it, then we won't send it on in the response. If we're an internal user, then we know about all capabilities and will request them. For "git credential approve" and "git credential reject", we set the helper capability before calling the helper, since we assume that the input we're getting from the external program comes from a previous call to "git credential fill", and thus we'll invoke send a capability to the helper if and only if we got one from the standard input, which is the correct behavior. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-04-17 08:02:29 +08:00
int credential_read(struct credential *, FILE *,
enum credential_op_type);
void credential_write(const struct credential *, FILE *,
enum credential_op_type);
credential: detect unrepresentable values when parsing urls The credential protocol can't represent newlines in values, but URLs can embed percent-encoded newlines in various components. A previous commit taught the low-level writing routines to die() when encountering this, but we can be a little friendlier to the user by detecting them earlier and handling them gracefully. This patch teaches credential_from_url() to notice such components, issue a warning, and blank the credential (which will generally result in prompting the user for a username and password). We blank the whole credential in this case. Another option would be to blank only the invalid component. However, we're probably better off not feeding a partially-parsed URL result to a credential helper. We don't know how a given helper would handle it, so we're better off to err on the side of matching nothing rather than something unexpected. The die() call in credential_write() is _probably_ impossible to reach after this patch. Values should end up in credential structs only by URL parsing (which is covered here), or by reading credential protocol input (which by definition cannot read a newline into a value). But we should definitely keep the low-level check, as it's our final and most accurate line of defense against protocol injection attacks. Arguably it could become a BUG(), but it probably doesn't matter much either way. Note that the public interface of credential_from_url() grows a little more than we need here. We'll use the extra flexibility in a future patch to help fsck catch these cases.
2020-03-12 13:31:11 +08:00
/*
* Parse a url into a credential struct, replacing any existing contents.
*
* If the url can't be parsed (e.g., a missing "proto://" component), the
* resulting credential will be empty and the function will return an
* error (even in the "gently" form).
credential: detect unrepresentable values when parsing urls The credential protocol can't represent newlines in values, but URLs can embed percent-encoded newlines in various components. A previous commit taught the low-level writing routines to die() when encountering this, but we can be a little friendlier to the user by detecting them earlier and handling them gracefully. This patch teaches credential_from_url() to notice such components, issue a warning, and blank the credential (which will generally result in prompting the user for a username and password). We blank the whole credential in this case. Another option would be to blank only the invalid component. However, we're probably better off not feeding a partially-parsed URL result to a credential helper. We don't know how a given helper would handle it, so we're better off to err on the side of matching nothing rather than something unexpected. The die() call in credential_write() is _probably_ impossible to reach after this patch. Values should end up in credential structs only by URL parsing (which is covered here), or by reading credential protocol input (which by definition cannot read a newline into a value). But we should definitely keep the low-level check, as it's our final and most accurate line of defense against protocol injection attacks. Arguably it could become a BUG(), but it probably doesn't matter much either way. Note that the public interface of credential_from_url() grows a little more than we need here. We'll use the extra flexibility in a future patch to help fsck catch these cases.
2020-03-12 13:31:11 +08:00
*
* If we encounter a component which cannot be represented as a credential
* value (e.g., because it contains a newline), the "gently" form will return
* an error but leave the broken state in the credential object for further
* examination. The non-gentle form will issue a warning to stderr and return
* an empty credential.
*/
void credential_from_url(struct credential *, const char *url);
credential: detect unrepresentable values when parsing urls The credential protocol can't represent newlines in values, but URLs can embed percent-encoded newlines in various components. A previous commit taught the low-level writing routines to die() when encountering this, but we can be a little friendlier to the user by detecting them earlier and handling them gracefully. This patch teaches credential_from_url() to notice such components, issue a warning, and blank the credential (which will generally result in prompting the user for a username and password). We blank the whole credential in this case. Another option would be to blank only the invalid component. However, we're probably better off not feeding a partially-parsed URL result to a credential helper. We don't know how a given helper would handle it, so we're better off to err on the side of matching nothing rather than something unexpected. The die() call in credential_write() is _probably_ impossible to reach after this patch. Values should end up in credential structs only by URL parsing (which is covered here), or by reading credential protocol input (which by definition cannot read a newline into a value). But we should definitely keep the low-level check, as it's our final and most accurate line of defense against protocol injection attacks. Arguably it could become a BUG(), but it probably doesn't matter much either way. Note that the public interface of credential_from_url() grows a little more than we need here. We'll use the extra flexibility in a future patch to help fsck catch these cases.
2020-03-12 13:31:11 +08:00
int credential_from_url_gently(struct credential *, const char *url, int quiet);
int credential_match(const struct credential *want,
const struct credential *have, int match_password);
#endif /* CREDENTIAL_H */