open-consul/agent/consul/kvs_endpoint.go

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package consul
import (
"fmt"
"strings"
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"time"
"github.com/armon/go-metrics"
"github.com/hashicorp/consul/acl"
pkg refactor command/agent/* -> agent/* command/consul/* -> agent/consul/* command/agent/command{,_test}.go -> command/agent{,_test}.go command/base/command.go -> command/base.go command/base/* -> command/* commands.go -> command/commands.go The script which did the refactor is: ( cd $GOPATH/src/github.com/hashicorp/consul git mv command/agent/command.go command/agent.go git mv command/agent/command_test.go command/agent_test.go git mv command/agent/flag_slice_value{,_test}.go command/ git mv command/agent . git mv command/base/command.go command/base.go git mv command/base/config_util{,_test}.go command/ git mv commands.go command/ git mv consul agent rmdir command/base/ gsed -i -e 's|package agent|package command|' command/agent{,_test}.go gsed -i -e 's|package agent|package command|' command/flag_slice_value{,_test}.go gsed -i -e 's|package base|package command|' command/base.go command/config_util{,_test}.go gsed -i -e 's|package main|package command|' command/commands.go gsed -i -e 's|base.Command|BaseCommand|' command/commands.go gsed -i -e 's|agent.Command|AgentCommand|' command/commands.go gsed -i -e 's|\tCommand:|\tBaseCommand:|' command/commands.go gsed -i -e 's|base\.||' command/commands.go gsed -i -e 's|command\.||' command/commands.go gsed -i -e 's|command|c|' main.go gsed -i -e 's|range Commands|range command.Commands|' main.go gsed -i -e 's|Commands: Commands|Commands: command.Commands|' main.go gsed -i -e 's|base\.BoolValue|BoolValue|' command/operator_autopilot_set.go gsed -i -e 's|base\.DurationValue|DurationValue|' command/operator_autopilot_set.go gsed -i -e 's|base\.StringValue|StringValue|' command/operator_autopilot_set.go gsed -i -e 's|base\.UintValue|UintValue|' command/operator_autopilot_set.go gsed -i -e 's|\bCommand\b|BaseCommand|' command/base.go gsed -i -e 's|BaseCommand Options|Command Options|' command/base.go gsed -i -e 's|base.Command|BaseCommand|' command/*.go gsed -i -e 's|c\.Command|c.BaseCommand|g' command/*.go gsed -i -e 's|\tCommand:|\tBaseCommand:|' command/*_test.go gsed -i -e 's|base\.||' command/*_test.go gsed -i -e 's|\bCommand\b|AgentCommand|' command/agent{,_test}.go gsed -i -e 's|cmd.AgentCommand|cmd.BaseCommand|' command/agent.go gsed -i -e 's|cli.AgentCommand = new(Command)|cli.Command = new(AgentCommand)|' command/agent_test.go gsed -i -e 's|exec.AgentCommand|exec.Command|' command/agent_test.go gsed -i -e 's|exec.BaseCommand|exec.Command|' command/agent_test.go gsed -i -e 's|NewTestAgent|agent.NewTestAgent|' command/agent_test.go gsed -i -e 's|= TestConfig|= agent.TestConfig|' command/agent_test.go gsed -i -e 's|: RetryJoin|: agent.RetryJoin|' command/agent_test.go gsed -i -e 's|\.\./\.\./|../|' command/config_util_test.go gsed -i -e 's|\bverifyUniqueListeners|VerifyUniqueListeners|' agent/config{,_test}.go command/agent.go gsed -i -e 's|\bserfLANKeyring\b|SerfLANKeyring|g' agent/{agent,keyring,testagent}.go command/agent.go gsed -i -e 's|\bserfWANKeyring\b|SerfWANKeyring|g' agent/{agent,keyring,testagent}.go command/agent.go gsed -i -e 's|\bNewAgent\b|agent.New|g' command/agent{,_test}.go gsed -i -e 's|\bNewAgent|New|' agent/{acl_test,agent,testagent}.go gsed -i -e 's|\bAgent\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bBool\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bConfig\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bDefaultConfig\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bDevConfig\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bMergeConfig\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bReadConfigPaths\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bParseMetaPair\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bSerfLANKeyring\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|\bSerfWANKeyring\b|agent.&|g' command/agent{,_test}.go gsed -i -e 's|circonus\.agent|circonus|g' command/agent{,_test}.go gsed -i -e 's|logger\.agent|logger|g' command/agent{,_test}.go gsed -i -e 's|metrics\.agent|metrics|g' command/agent{,_test}.go gsed -i -e 's|// agent.Agent|// agent|' command/agent{,_test}.go gsed -i -e 's|a\.agent\.Config|a.Config|' command/agent{,_test}.go gsed -i -e 's|agent\.AppendSliceValue|AppendSliceValue|' command/{configtest,validate}.go gsed -i -e 's|consul/consul|agent/consul|' GNUmakefile gsed -i -e 's|\.\./test|../../test|' agent/consul/server_test.go # fix imports f=$(grep -rl 'github.com/hashicorp/consul/command/agent' * | grep '\.go') gsed -i -e 's|github.com/hashicorp/consul/command/agent|github.com/hashicorp/consul/agent|' $f goimports -w $f f=$(grep -rl 'github.com/hashicorp/consul/consul' * | grep '\.go') gsed -i -e 's|github.com/hashicorp/consul/consul|github.com/hashicorp/consul/agent/consul|' $f goimports -w $f goimports -w command/*.go main.go )
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"github.com/hashicorp/consul/agent/consul/state"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/api"
"github.com/hashicorp/go-memdb"
)
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// KVS endpoint is used to manipulate the Key-Value store
type KVS struct {
srv *Server
}
// preApply does all the verification of a KVS update that is performed BEFORE
// we submit as a Raft log entry. This includes enforcing the lock delay which
// must only be done on the leader.
New ACLs (#4791) This PR is almost a complete rewrite of the ACL system within Consul. It brings the features more in line with other HashiCorp products. Obviously there is quite a bit left to do here but most of it is related docs, testing and finishing the last few commands in the CLI. I will update the PR description and check off the todos as I finish them over the next few days/week. Description At a high level this PR is mainly to split ACL tokens from Policies and to split the concepts of Authorization from Identities. A lot of this PR is mostly just to support CRUD operations on ACLTokens and ACLPolicies. These in and of themselves are not particularly interesting. The bigger conceptual changes are in how tokens get resolved, how backwards compatibility is handled and the separation of policy from identity which could lead the way to allowing for alternative identity providers. On the surface and with a new cluster the ACL system will look very similar to that of Nomads. Both have tokens and policies. Both have local tokens. The ACL management APIs for both are very similar. I even ripped off Nomad's ACL bootstrap resetting procedure. There are a few key differences though. Nomad requires token and policy replication where Consul only requires policy replication with token replication being opt-in. In Consul local tokens only work with token replication being enabled though. All policies in Nomad are globally applicable. In Consul all policies are stored and replicated globally but can be scoped to a subset of the datacenters. This allows for more granular access management. Unlike Nomad, Consul has legacy baggage in the form of the original ACL system. The ramifications of this are: A server running the new system must still support other clients using the legacy system. A client running the new system must be able to use the legacy RPCs when the servers in its datacenter are running the legacy system. The primary ACL DC's servers running in legacy mode needs to be a gate that keeps everything else in the entire multi-DC cluster running in legacy mode. So not only does this PR implement the new ACL system but has a legacy mode built in for when the cluster isn't ready for new ACLs. Also detecting that new ACLs can be used is automatic and requires no configuration on the part of administrators. This process is detailed more in the "Transitioning from Legacy to New ACL Mode" section below.
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func kvsPreApply(srv *Server, rule acl.Authorizer, op api.KVOp, dirEnt *structs.DirEntry) (bool, error) {
// Verify the entry.
if dirEnt.Key == "" && op != api.KVDeleteTree {
return false, fmt.Errorf("Must provide key")
}
// Apply the ACL policy if any.
if rule != nil {
switch op {
case api.KVDeleteTree:
var authzContext acl.EnterpriseAuthorizerContext
dirEnt.FillAuthzContext(&authzContext)
if rule.KeyWritePrefix(dirEnt.Key, &authzContext) != acl.Allow {
return false, acl.ErrPermissionDenied
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}
case api.KVGet, api.KVGetTree:
// Filtering for GETs is done on the output side.
case api.KVCheckSession, api.KVCheckIndex:
// These could reveal information based on the outcome
// of the transaction, and they operate on individual
// keys so we check them here.
var authzContext acl.EnterpriseAuthorizerContext
dirEnt.FillAuthzContext(&authzContext)
if rule.KeyRead(dirEnt.Key, &authzContext) != acl.Allow {
return false, acl.ErrPermissionDenied
}
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default:
var authzContext acl.EnterpriseAuthorizerContext
dirEnt.FillAuthzContext(&authzContext)
if rule.KeyWrite(dirEnt.Key, &authzContext) != acl.Allow {
return false, acl.ErrPermissionDenied
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}
}
}
// If this is a lock, we must check for a lock-delay. Since lock-delay
// is based on wall-time, each peer would expire the lock-delay at a slightly
// different time. This means the enforcement of lock-delay cannot be done
// after the raft log is committed as it would lead to inconsistent FSMs.
// Instead, the lock-delay must be enforced before commit. This means that
// only the wall-time of the leader node is used, preventing any inconsistencies.
if op == api.KVLock {
state := srv.fsm.State()
expires := state.KVSLockDelay(dirEnt.Key, &dirEnt.EnterpriseMeta)
if expires.After(time.Now()) {
srv.logger.Printf("[WARN] consul.kvs: Rejecting lock of %s due to lock-delay until %v",
dirEnt.Key, expires)
return false, nil
}
}
return true, nil
}
// Apply is used to apply a KVS update request to the data store.
func (k *KVS) Apply(args *structs.KVSRequest, reply *bool) error {
if done, err := k.srv.forward("KVS.Apply", args, args, reply); done {
return err
}
defer metrics.MeasureSince([]string{"kvs", "apply"}, time.Now())
if err := k.srv.validateEnterpriseRequest(&args.DirEnt.EnterpriseMeta, true); err != nil {
return err
}
// Perform the pre-apply checks.
rule, err := k.srv.ResolveToken(args.Token)
if err != nil {
return err
}
ok, err := kvsPreApply(k.srv, rule, args.Op, &args.DirEnt)
if err != nil {
return err
}
if !ok {
*reply = false
return nil
}
// Apply the update.
resp, err := k.srv.raftApply(structs.KVSRequestType, args)
if err != nil {
k.srv.logger.Printf("[ERR] consul.kvs: Apply failed: %v", err)
return err
}
if respErr, ok := resp.(error); ok {
return respErr
}
// Check if the return type is a bool.
if respBool, ok := resp.(bool); ok {
*reply = respBool
}
return nil
}
// Get is used to lookup a single key.
func (k *KVS) Get(args *structs.KeyRequest, reply *structs.IndexedDirEntries) error {
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if done, err := k.srv.forward("KVS.Get", args, args, reply); done {
return err
}
if err := k.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil {
return err
}
var entCtx acl.EnterpriseAuthorizerContext
args.FillAuthzContext(&entCtx)
rule, err := k.srv.ResolveToken(args.Token)
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if err != nil {
return err
}
return k.srv.blockingQuery(
&args.QueryOptions,
&reply.QueryMeta,
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func(ws memdb.WatchSet, state *state.Store) error {
index, ent, err := state.KVSGet(ws, args.Key, &args.EnterpriseMeta)
if err != nil {
return err
}
if rule != nil && rule.KeyRead(args.Key, &entCtx) != acl.Allow {
return acl.ErrPermissionDenied
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}
if ent == nil {
// Must provide non-zero index to prevent blocking
// Index 1 is impossible anyways (due to Raft internals)
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if index == 0 {
reply.Index = 1
} else {
reply.Index = index
}
reply.Entries = nil
} else {
reply.Index = ent.ModifyIndex
reply.Entries = structs.DirEntries{ent}
}
return nil
})
}
// List is used to list all keys with a given prefix.
func (k *KVS) List(args *structs.KeyRequest, reply *structs.IndexedDirEntries) error {
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if done, err := k.srv.forward("KVS.List", args, args, reply); done {
return err
}
if err := k.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil {
return err
}
var entCtx acl.EnterpriseAuthorizerContext
args.FillAuthzContext(&entCtx)
rule, err := k.srv.ResolveToken(args.Token)
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if err != nil {
return err
}
if rule != nil && k.srv.config.ACLEnableKeyListPolicy && rule.KeyList(args.Key, &entCtx) != acl.Allow {
return acl.ErrPermissionDenied
}
return k.srv.blockingQuery(
&args.QueryOptions,
&reply.QueryMeta,
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func(ws memdb.WatchSet, state *state.Store) error {
index, ent, err := state.KVSList(ws, args.Key, &args.EnterpriseMeta)
if err != nil {
return err
}
if rule != nil {
ent = FilterDirEnt(rule, ent)
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}
if len(ent) == 0 {
// Must provide non-zero index to prevent blocking
// Index 1 is impossible anyways (due to Raft internals)
if index == 0 {
reply.Index = 1
} else {
reply.Index = index
}
reply.Entries = nil
} else {
reply.Index = index
reply.Entries = ent
}
return nil
})
}
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// ListKeys is used to list all keys with a given prefix to a separator.
// An optional separator may be specified, which can be used to slice off a part
// of the response so that only a subset of the prefix is returned. In this
// mode, the keys which are omitted are still counted in the returned index.
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func (k *KVS) ListKeys(args *structs.KeyListRequest, reply *structs.IndexedKeyList) error {
if done, err := k.srv.forward("KVS.ListKeys", args, args, reply); done {
return err
}
if err := k.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil {
return err
}
var entCtx acl.EnterpriseAuthorizerContext
args.FillAuthzContext(&entCtx)
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rule, err := k.srv.ResolveToken(args.Token)
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if err != nil {
return err
}
if rule != nil && k.srv.config.ACLEnableKeyListPolicy && rule.KeyList(args.Prefix, &entCtx) != acl.Allow {
return acl.ErrPermissionDenied
}
return k.srv.blockingQuery(
&args.QueryOptions,
&reply.QueryMeta,
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func(ws memdb.WatchSet, state *state.Store) error {
index, entries, err := state.KVSList(ws, args.Prefix, &args.EnterpriseMeta)
if err != nil {
return err
}
// Must provide non-zero index to prevent blocking
// Index 1 is impossible anyways (due to Raft internals)
if index == 0 {
reply.Index = 1
} else {
reply.Index = index
}
if rule != nil {
entries = FilterDirEnt(rule, entries)
}
// Collect the keys from the filtered entries
prefixLen := len(args.Prefix)
sepLen := len(args.Seperator)
var keys []string
seen := make(map[string]bool)
for _, e := range entries {
// Always accumulate if no separator provided
if sepLen == 0 {
keys = append(keys, e.Key)
continue
}
// Parse and de-duplicate the returned keys based on the
// key separator, if provided.
after := e.Key[prefixLen:]
sepIdx := strings.Index(after, args.Seperator)
if sepIdx > -1 {
key := e.Key[:prefixLen+sepIdx+sepLen]
if ok := seen[key]; !ok {
keys = append(keys, key)
seen[key] = true
}
} else {
keys = append(keys, e.Key)
}
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}
reply.Keys = keys
return nil
})
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}