com.google.gerrit.server.permissions.RefControl Maven / Gradle / Ivy
// Copyright (C) 2010 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package com.google.gerrit.server.permissions;
import static com.google.common.base.Preconditions.checkArgument;
import com.google.common.collect.ImmutableList;
import com.google.common.flogger.FluentLogger;
import com.google.gerrit.common.Nullable;
import com.google.gerrit.entities.Change;
import com.google.gerrit.entities.Permission;
import com.google.gerrit.entities.PermissionRange;
import com.google.gerrit.entities.PermissionRule;
import com.google.gerrit.entities.PermissionRule.Action;
import com.google.gerrit.entities.Project;
import com.google.gerrit.entities.RefNames;
import com.google.gerrit.exceptions.StorageException;
import com.google.gerrit.extensions.conditions.BooleanCondition;
import com.google.gerrit.extensions.restapi.AuthException;
import com.google.gerrit.server.CurrentUser;
import com.google.gerrit.server.git.GitRepositoryManager;
import com.google.gerrit.server.logging.CallerFinder;
import com.google.gerrit.server.logging.LoggingContext;
import com.google.gerrit.server.notedb.ChangeNotes;
import com.google.gerrit.server.permissions.PermissionBackend.ForChange;
import com.google.gerrit.server.permissions.PermissionBackend.ForRef;
import com.google.gerrit.server.query.change.ChangeData;
import com.google.gerrit.server.util.MagicBranch;
import java.io.IOException;
import java.util.Collection;
import java.util.EnumSet;
import java.util.List;
import java.util.Set;
import java.util.concurrent.TimeUnit;
import org.eclipse.jgit.lib.Constants;
import org.eclipse.jgit.lib.Ref;
import org.eclipse.jgit.lib.Repository;
/** Manages access control for Git references (aka branches, tags). */
class RefControl {
private static final FluentLogger logger = FluentLogger.forEnclosingClass();
private final ChangeData.Factory changeDataFactory;
private final RefVisibilityControl refVisibilityControl;
private final ProjectControl projectControl;
private final GitRepositoryManager repositoryManager;
private final String refName;
/** All permissions that apply to this reference. */
private final PermissionCollection relevant;
private final CallerFinder callerFinder;
// The next 4 members are cached canPerform() permissions.
private Boolean owner;
private Boolean canForgeAuthor;
private Boolean canForgeCommitter;
private Boolean hasReadPermissionOnRef;
RefControl(
ChangeData.Factory changeDataFactory,
RefVisibilityControl refVisibilityControl,
ProjectControl projectControl,
GitRepositoryManager repositoryManager,
String ref,
PermissionCollection relevant) {
this.changeDataFactory = changeDataFactory;
this.refVisibilityControl = refVisibilityControl;
this.projectControl = projectControl;
this.repositoryManager = repositoryManager;
this.refName = ref;
this.relevant = relevant;
this.callerFinder =
CallerFinder.builder()
.addTarget(PermissionBackend.class)
.matchSubClasses(true)
.matchInnerClasses(true)
.skip(1)
.build();
}
ProjectControl getProjectControl() {
return projectControl;
}
CurrentUser getUser() {
return projectControl.getUser();
}
/** Is this user a ref owner? */
boolean isOwner() {
if (owner == null) {
if (canPerform(Permission.OWNER)) {
owner = true;
} else {
owner = projectControl.isOwner();
}
}
return owner;
}
/**
* Returns {@code true} if the user has permission to read the ref. This method evaluates {@link
* RefPermission#READ} only. Hence, it is not authoritative. For example, it does not tell if the
* user can see NoteDb refs such as {@code refs/meta/external-ids} which requires {@link
* GlobalPermission#ACCESS_DATABASE} and deny access in this case.
*/
boolean hasReadPermissionOnRef(boolean allowNoteDbRefs) {
// Don't allow checking for NoteDb refs unless instructed otherwise.
if (!allowNoteDbRefs
&& (refName.startsWith(Constants.R_TAGS) || RefNames.isGerritRef(refName))) {
logger.atWarning().atMostEvery(30, TimeUnit.SECONDS).log(
"%s: Can't determine visibility of %s in RefControl. Denying access. "
+ "This case should have been handled before.",
projectControl.getProject().getName(), refName);
return false;
}
if (hasReadPermissionOnRef == null) {
hasReadPermissionOnRef = getUser().isInternalUser() || canPerform(Permission.READ);
}
return hasReadPermissionOnRef;
}
/** Returns true if this user can add a new patch set to this ref */
boolean canAddPatchSet() {
return projectControl
.controlForRef(MagicBranch.NEW_CHANGE + refName)
.canPerform(Permission.ADD_PATCH_SET);
}
/** Returns true if this user can rebase changes on this ref */
boolean canRebase() {
return canPerform(Permission.REBASE);
}
/** Returns true if this user can submit patch sets to this ref */
boolean canSubmit(boolean isChangeOwner) {
if (RefNames.REFS_CONFIG.equals(refName)) {
// Always allow project owners to submit configuration changes.
// Submitting configuration changes modifies the access control
// rules. Allowing this to be done by a non-project-owner opens
// a security hole enabling editing of access rules, and thus
// granting of powers beyond submitting to the configuration.
return projectControl.isOwner();
}
return canPerform(Permission.SUBMIT, isChangeOwner, false);
}
/** Returns true if this user can force edit topic names. */
boolean canForceEditTopicName() {
return canPerform(Permission.EDIT_TOPIC_NAME, false, true);
}
/** Returns true if this user can delete changes. */
boolean canDeleteChanges(boolean isChangeOwner) {
return canPerform(Permission.DELETE_CHANGES)
|| (isChangeOwner && canPerform(Permission.DELETE_OWN_CHANGES, isChangeOwner, false));
}
/** The range of permitted values associated with a label permission. */
PermissionRange getRange(String permission) {
return getRange(permission, false);
}
/** The range of permitted values associated with a label permission. */
@Nullable
PermissionRange getRange(String permission, boolean isChangeOwner) {
if (Permission.hasRange(permission)) {
return toRange(permission, isChangeOwner);
}
return null;
}
/** True if the user has this permission. Works only for non labels. */
boolean canPerform(String permissionName) {
return canPerform(permissionName, false, false);
}
ForRef asForRef() {
return new ForRefImpl();
}
private boolean canUpload() {
return projectControl.controlForRef("refs/for/" + refName).canPerform(Permission.PUSH);
}
boolean canRevert() {
return canPerform(Permission.REVERT);
}
/** Returns true if this user can submit merge patch sets to this ref */
private boolean canUploadMerges() {
return projectControl.controlForRef("refs/for/" + refName).canPerform(Permission.PUSH_MERGE);
}
/** Returns true if the user can update the reference as a fast-forward. */
private boolean canUpdate() {
if (RefNames.REFS_CONFIG.equals(refName) && !projectControl.isOwner()) {
// Pushing requires being at least project owner, in addition to push.
// Pushing configuration changes modifies the access control
// rules. Allowing this to be done by a non-project-owner opens
// a security hole enabling editing of access rules, and thus
// granting of powers beyond pushing to the configuration.
// On the AllProjects project the owner access right cannot be assigned,
// this why for the AllProjects project we allow administrators to push
// configuration changes if they have push without being project owner.
if (!(projectControl.getProjectState().isAllProjects() && projectControl.isAdmin())) {
return false;
}
}
return canPerform(Permission.PUSH);
}
/** Returns true if the user can rewind (force push) the reference. */
private boolean canForceUpdate() {
if (canPushWithForce()) {
return true;
}
switch (getUser().getAccessPath()) {
case GIT:
return false;
case REST_API:
case SSH_COMMAND:
case UNKNOWN:
case WEB_BROWSER:
default:
return (isOwner() && !isBlocked(Permission.PUSH, false, true)) || projectControl.isAdmin();
}
}
private boolean canPushWithForce() {
if (RefNames.REFS_CONFIG.equals(refName) && !projectControl.isOwner()) {
// Pushing requires being at least project owner, in addition to push.
// Pushing configuration changes modifies the access control
// rules. Allowing this to be done by a non-project-owner opens
// a security hole enabling editing of access rules, and thus
// granting of powers beyond pushing to the configuration.
return false;
}
return canPerform(Permission.PUSH, false, true);
}
/**
* Determines whether the user can delete the Git ref controlled by this object.
*
* @return {@code true} if the user specified can delete a Git ref.
*/
private boolean canDelete() {
switch (getUser().getAccessPath()) {
case GIT:
return canPushWithForce() || canPerform(Permission.DELETE);
case REST_API:
case SSH_COMMAND:
case UNKNOWN:
case WEB_BROWSER:
default:
return canPushWithForce() || canPerform(Permission.DELETE) || projectControl.isAdmin();
}
}
/** Returns true if this user can forge the author line in a commit. */
private boolean canForgeAuthor() {
if (canForgeAuthor == null) {
canForgeAuthor = canPerform(Permission.FORGE_AUTHOR);
}
return canForgeAuthor;
}
/** Returns true if this user can forge the committer line in a commit. */
private boolean canForgeCommitter() {
if (canForgeCommitter == null) {
canForgeCommitter = canPerform(Permission.FORGE_COMMITTER);
}
return canForgeCommitter;
}
/** Returns true if this user can forge the server on the committer line. */
private boolean canForgeGerritServerIdentity() {
return canPerform(Permission.FORGE_SERVER);
}
private static boolean isAllow(PermissionRule pr, boolean withForce) {
return pr.getAction() == Action.ALLOW && (pr.getForce() || !withForce);
}
private static boolean isBlock(PermissionRule pr, boolean withForce) {
// BLOCK with force specified is a weaker rule than without.
return pr.getAction() == Action.BLOCK && (!pr.getForce() || withForce);
}
private PermissionRange toRange(String permissionName, boolean isChangeOwner) {
int blockAllowMin = Integer.MIN_VALUE, blockAllowMax = Integer.MAX_VALUE;
projectLoop:
for (List ps : relevant.getBlockRules(permissionName)) {
boolean blockFound = false;
int projectBlockAllowMin = Integer.MIN_VALUE, projectBlockAllowMax = Integer.MAX_VALUE;
for (Permission p : ps) {
if (p.getExclusiveGroup()) {
for (PermissionRule pr : p.getRules()) {
if (pr.getAction() == Action.ALLOW && projectControl.match(pr, isChangeOwner)) {
// exclusive override, usually for a more specific ref.
continue projectLoop;
}
}
}
for (PermissionRule pr : p.getRules()) {
if (pr.getAction() == Action.BLOCK && projectControl.match(pr, isChangeOwner)) {
projectBlockAllowMin = pr.getMin() + 1;
projectBlockAllowMax = pr.getMax() - 1;
blockFound = true;
}
}
if (blockFound) {
for (PermissionRule pr : p.getRules()) {
if (pr.getAction() == Action.ALLOW && projectControl.match(pr, isChangeOwner)) {
projectBlockAllowMin = pr.getMin();
projectBlockAllowMax = pr.getMax();
break;
}
}
break;
}
}
blockAllowMin = Math.max(projectBlockAllowMin, blockAllowMin);
blockAllowMax = Math.min(projectBlockAllowMax, blockAllowMax);
}
int voteMin = 0, voteMax = 0;
for (PermissionRule pr : relevant.getAllowRules(permissionName)) {
if (pr.getAction() == PermissionRule.Action.ALLOW
&& projectControl.match(pr, isChangeOwner)) {
// For votes, contrary to normal permissions, we aggregate all applicable rules.
voteMin = Math.min(voteMin, pr.getMin());
voteMax = Math.max(voteMax, pr.getMax());
}
}
return new PermissionRange(
permissionName,
/* min= */ Math.max(voteMin, blockAllowMin),
/* max= */ Math.min(voteMax, blockAllowMax));
}
private boolean isBlocked(String permissionName, boolean isChangeOwner, boolean withForce) {
// Permissions are ordered by (more general project, more specific ref). Because Permission
// does not have back pointers, we can't tell what ref-pattern or project each permission comes
// from.
List> downwardPerProject = relevant.getBlockRules(permissionName);
projectLoop:
for (List projectRules : downwardPerProject) {
boolean overrideFound = false;
for (Permission p : projectRules) {
// If this is an exclusive ALLOW, then block rules from the same project are ignored.
if (p.getExclusiveGroup()) {
for (PermissionRule pr : p.getRules()) {
if (isAllow(pr, withForce) && projectControl.match(pr, isChangeOwner)) {
overrideFound = true;
break;
}
}
}
if (overrideFound) {
// Found an exclusive override, nothing further to do in this project.
continue projectLoop;
}
boolean blocked = false;
for (PermissionRule pr : p.getRules()) {
if (!withForce && pr.getForce()) {
// force on block rule only applies to withForce permission.
continue;
}
if (isBlock(pr, withForce) && projectControl.match(pr, isChangeOwner)) {
blocked = true;
break;
}
}
if (blocked) {
// ALLOW in the same AccessSection (ie. in the same Permission) overrides the BLOCK.
for (PermissionRule pr : p.getRules()) {
if (isAllow(pr, withForce) && projectControl.match(pr, isChangeOwner)) {
blocked = false;
break;
}
}
}
if (blocked) {
return true;
}
}
}
return false;
}
/** True if the user has this permission. */
private boolean canPerform(String permissionName, boolean isChangeOwner, boolean withForce) {
if (isBlocked(permissionName, isChangeOwner, withForce)) {
if (logger.atFine().isEnabled() || LoggingContext.getInstance().isAclLogging()) {
String logMessage =
String.format(
"'%s' cannot perform '%s' with force=%s on project '%s' for ref '%s'"
+ " because this permission is blocked",
getUser().getLoggableName(),
permissionName,
withForce,
projectControl.getProject().getName(),
refName);
LoggingContext.getInstance().addAclLogRecord(logMessage);
logger.atFine().log("%s (caller: %s)", logMessage, callerFinder.findCallerLazy());
}
return false;
}
for (PermissionRule pr : relevant.getAllowRules(permissionName)) {
if (isAllow(pr, withForce) && projectControl.match(pr, isChangeOwner)) {
if (logger.atFine().isEnabled() || LoggingContext.getInstance().isAclLogging()) {
String logMessage =
String.format(
"'%s' can perform '%s' with force=%s on project '%s' for ref '%s'",
getUser().getLoggableName(),
permissionName,
withForce,
projectControl.getProject().getName(),
refName);
LoggingContext.getInstance().addAclLogRecord(logMessage);
logger.atFine().log("%s (caller: %s)", logMessage, callerFinder.findCallerLazy());
}
return true;
}
}
if (logger.atFine().isEnabled() || LoggingContext.getInstance().isAclLogging()) {
String logMessage =
String.format(
"'%s' cannot perform '%s' with force=%s on project '%s' for ref '%s'",
getUser().getLoggableName(),
permissionName,
withForce,
projectControl.getProject().getName(),
refName);
LoggingContext.getInstance().addAclLogRecord(logMessage);
logger.atFine().log("%s (caller: %s)", logMessage, callerFinder.findCallerLazy());
}
return false;
}
private class ForRefImpl extends ForRef {
private String resourcePath;
@Override
public String resourcePath() {
if (resourcePath == null) {
resourcePath =
String.format(
"/projects/%s/+refs/%s", getProjectControl().getProjectState().getName(), refName);
}
return resourcePath;
}
@Override
public ForChange change(ChangeData cd) {
try {
return getProjectControl().controlFor(cd).asForChange();
} catch (StorageException e) {
return FailedPermissionBackend.change("unavailable", e);
}
}
@Override
public ForChange change(ChangeNotes notes) {
Project.NameKey project = getProjectControl().getProject().getNameKey();
Change change = notes.getChange();
checkArgument(
project.equals(change.getProject()),
"expected change in project %s, not %s",
project,
change.getProject());
// Having ChangeNotes means it's OK to load values from NoteDb if needed.
// ChangeData.Factory will allow lazyLoading
return getProjectControl().controlFor(changeDataFactory.create(notes)).asForChange();
}
@Override
public void check(RefPermission perm) throws AuthException, PermissionBackendException {
if (!can(perm)) {
PermissionDeniedException pde = new PermissionDeniedException(perm, refName);
switch (perm) {
case UPDATE:
if (refName.equals(RefNames.REFS_CONFIG)) {
pde.setAdvice(
"Configuration changes can only be pushed by project owners\n"
+ "who also have 'Push' rights on "
+ RefNames.REFS_CONFIG);
} else {
pde.setAdvice(
"Push to refs/for/"
+ RefNames.shortName(refName)
+ " to create a review, or get 'Push' rights to update the branch.");
}
break;
case DELETE:
pde.setAdvice(
"You need 'Delete Reference' rights or 'Push' rights with the \n"
+ "'Force Push' flag set to delete references.");
break;
case CREATE_CHANGE:
// This is misleading in the default permission backend, since "create change" on a
// branch is encoded as "push" on refs/for/DESTINATION.
pde.setAdvice(
"You need 'Create Change' rights to upload code review requests.\n"
+ "Verify that you are pushing to the right branch.");
break;
case CREATE:
pde.setAdvice("You need 'Create' rights to create new references.");
break;
case CREATE_SIGNED_TAG:
pde.setAdvice("You need 'Create Signed Tag' rights to push a signed tag.");
break;
case CREATE_TAG:
pde.setAdvice("You need 'Create Tag' rights to push a normal tag.");
break;
case FORCE_UPDATE:
pde.setAdvice(
"You need 'Push' rights with 'Force' flag set to do a non-fastforward push.");
break;
case FORGE_AUTHOR:
pde.setAdvice(
"You need 'Forge Author' rights to push commits with another user as author.");
break;
case FORGE_COMMITTER:
pde.setAdvice(
"You need 'Forge Committer' rights to push commits with another user as"
+ " committer.");
break;
case FORGE_SERVER:
pde.setAdvice(
"You need 'Forge Server' rights to push merge commits authored by the server.");
break;
case MERGE:
pde.setAdvice(
"You need 'Push Merge' in addition to 'Push' rights to push merge commits.");
break;
case READ:
pde.setAdvice("You need 'Read' rights to fetch or clone this ref.");
break;
case READ_CONFIG:
pde.setAdvice("You need 'Read' rights on refs/meta/config to see the configuration.");
break;
case READ_PRIVATE_CHANGES:
pde.setAdvice("You need 'Read Private Changes' to see private changes.");
break;
case SET_HEAD:
pde.setAdvice("You need 'Set HEAD' rights to set the default branch.");
break;
case SKIP_VALIDATION:
pde.setAdvice(
"You need 'Forge Author', 'Forge Server', 'Forge Committer'\n"
+ "and 'Push Merge' rights to skip validation.");
break;
case UPDATE_BY_SUBMIT:
pde.setAdvice(
"You need 'Submit' rights on refs/for/ to submit changes during change upload.");
break;
case WRITE_CONFIG:
pde.setAdvice("You need 'Write' rights on refs/meta/config.");
break;
}
throw pde;
}
}
@Override
public Set test(Collection permSet)
throws PermissionBackendException {
EnumSet ok = EnumSet.noneOf(RefPermission.class);
for (RefPermission perm : permSet) {
if (can(perm)) {
ok.add(perm);
}
}
return ok;
}
@Override
public BooleanCondition testCond(RefPermission perm) {
return new PermissionBackendCondition.ForRef(this, perm, getUser());
}
private boolean can(RefPermission perm) throws PermissionBackendException {
switch (perm) {
case READ:
/* Internal users such as plugin users should be able to read all refs. */
if (getUser().isInternalUser()) {
return true;
}
if (refName.startsWith(Constants.R_TAGS)) {
return isTagVisible();
}
return refVisibilityControl.isVisible(projectControl, refName);
case CREATE:
// TODO This isn't an accurate test.
return canPerform(refPermissionName(perm));
case DELETE:
return canDelete();
case UPDATE:
return canUpdate();
case FORCE_UPDATE:
return canForceUpdate();
case SET_HEAD:
return projectControl.isOwner();
case FORGE_AUTHOR:
return canForgeAuthor();
case FORGE_COMMITTER:
return canForgeCommitter();
case FORGE_SERVER:
return canForgeGerritServerIdentity();
case MERGE:
return canUploadMerges();
case CREATE_CHANGE:
return canUpload();
case CREATE_TAG:
case CREATE_SIGNED_TAG:
return canPerform(refPermissionName(perm));
case UPDATE_BY_SUBMIT:
return projectControl.controlForRef(MagicBranch.NEW_CHANGE + refName).canSubmit(true);
case READ_PRIVATE_CHANGES:
return canPerform(Permission.VIEW_PRIVATE_CHANGES);
case READ_CONFIG:
return projectControl
.controlForRef(RefNames.REFS_CONFIG)
.canPerform(RefPermission.READ.name());
case WRITE_CONFIG:
return isOwner();
case SKIP_VALIDATION:
return canForgeAuthor()
&& canForgeCommitter()
&& canForgeGerritServerIdentity()
&& canUploadMerges();
}
throw new PermissionBackendException(perm + " unsupported");
}
private boolean isTagVisible() throws PermissionBackendException {
if (projectControl.asForProject().test(ProjectPermission.READ)) {
// The user has READ on refs/* with no effective block permission. This is the broadest
// permission one can assign. There is no way to grant access to (specific) tags in Gerrit,
// so we have to assume that these users can see all tags because there could be tags that
// aren't reachable by any visible ref while the user can see all non-Gerrit refs. This
// matches Gerrit's historic behavior.
// This makes it so that these users could see commits that they can't see otherwise
// (e.g. a private change ref) if a tag was attached to it. Tags are meant to be used on
// the regular Git tree that users interact with, not on any of the Gerrit trees, so this
// is a negligible risk.
return true;
}
try (Repository repo =
repositoryManager.openRepository(projectControl.getProject().getNameKey())) {
// Tag visibility requires going through RefFilter because it entails loading all taggable
// refs and filtering them all by visibility.
Ref resolvedRef = repo.getRefDatabase().exactRef(refName);
if (resolvedRef == null) {
return false;
}
return projectControl.asForProject()
.filter(
ImmutableList.of(resolvedRef), repo, PermissionBackend.RefFilterOptions.defaults())
.stream()
.anyMatch(r -> refName.equals(r.getName()));
} catch (IOException e) {
throw new PermissionBackendException(e);
}
}
}
private static String refPermissionName(RefPermission refPermission) {
// Within this class, it's programmer error to call this method on a
// RefPermission that isn't associated with a permission name.
return DefaultPermissionMappings.refPermissionName(refPermission)
.orElseThrow(() -> new IllegalStateException("no name for " + refPermission));
}
}
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