Consul is a distributed, highly available, and data center aware solution to connect and configure applications across dynamic, distributed infrastructure.
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[COMPLIANCE] License changes (#18443) * Adding explicit MPL license for sub-package This directory and its subdirectories (packages) contain files licensed with the MPLv2 `LICENSE` file in this directory and are intentionally licensed separately from the BSL `LICENSE` file at the root of this repository. * Adding explicit MPL license for sub-package This directory and its subdirectories (packages) contain files licensed with the MPLv2 `LICENSE` file in this directory and are intentionally licensed separately from the BSL `LICENSE` file at the root of this repository. * Updating the license from MPL to Business Source License Going forward, this project will be licensed under the Business Source License v1.1. Please see our blog post for more details at <Blog URL>, FAQ at www.hashicorp.com/licensing-faq, and details of the license at www.hashicorp.com/bsl. * add missing license headers * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 --------- Co-authored-by: hashicorp-copywrite[bot] <110428419+hashicorp-copywrite[bot]@users.noreply.github.com>
1 year ago
// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
package leafcert
import (
"bytes"
"context"
"crypto/rand"
"crypto/x509"
"encoding/pem"
"errors"
"fmt"
"math/big"
"sync"
"sync/atomic"
"testing"
"time"
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
"github.com/hashicorp/consul/agent/cacheshim"
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
"github.com/hashicorp/consul/agent/connect"
"github.com/hashicorp/consul/agent/structs"
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
"github.com/hashicorp/consul/sdk/testutil"
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
)
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
// NewTestManager returns a *Manager that is pre-configured to use a mock RPC
// implementation that can sign certs, and an in-memory CA roots reader that
// interacts well with it.
func NewTestManager(t *testing.T, mut func(*Config)) (*Manager, *TestSigner) {
signer := newTestSigner(t, nil, nil)
deps := Deps{
Logger: testutil.Logger(t),
RootsReader: signer.RootsReader,
CertSigner: signer,
Config: Config{
// Override the root-change spread so we don't have to wait up to 20 seconds
// to see root changes work. Can be changed back for specific tests that
// need to test this, Note it's not 0 since that used default but is
// effectively the same.
TestOverrideCAChangeInitialDelay: 1 * time.Microsecond,
},
}
if mut != nil {
mut(&deps.Config)
}
m := NewManager(deps)
t.Cleanup(m.Stop)
return m, signer
}
// TestSigner implements NetRPC and handles leaf signing operations
type TestSigner struct {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
caLock sync.Mutex
ca *structs.CARoot
prevRoots []*structs.CARoot // remember prior ones
IDGenerator *atomic.Uint64
RootsReader *testRootsReader
signCallLock sync.Mutex
signCallErrors []error
signCallErrorCount uint64
signCallCapture []*structs.CASignRequest
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
var _ CertSigner = (*TestSigner)(nil)
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
var ReplyWithExpiredCert = errors.New("reply with expired cert")
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func newTestSigner(t *testing.T, idGenerator *atomic.Uint64, rootsReader *testRootsReader) *TestSigner {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
if idGenerator == nil {
idGenerator = &atomic.Uint64{}
}
if rootsReader == nil {
rootsReader = newTestRootsReader(t)
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
s := &TestSigner{
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
IDGenerator: idGenerator,
RootsReader: rootsReader,
}
return s
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func (s *TestSigner) SetSignCallErrors(errs ...error) {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
s.signCallLock.Lock()
defer s.signCallLock.Unlock()
s.signCallErrors = append(s.signCallErrors, errs...)
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func (s *TestSigner) GetSignCallErrorCount() uint64 {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
s.signCallLock.Lock()
defer s.signCallLock.Unlock()
return s.signCallErrorCount
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func (s *TestSigner) UpdateCA(t *testing.T, ca *structs.CARoot) *structs.CARoot {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
if ca == nil {
ca = connect.TestCA(t, nil)
}
roots := &structs.IndexedCARoots{
ActiveRootID: ca.ID,
TrustDomain: connect.TestTrustDomain,
Roots: []*structs.CARoot{ca},
QueryMeta: structs.QueryMeta{Index: s.nextIndex()},
}
// Update the signer first.
s.caLock.Lock()
{
s.ca = ca
roots.Roots = append(roots.Roots, s.prevRoots...)
// Remember for the next rotation.
dup := ca.Clone()
dup.Active = false
s.prevRoots = append(s.prevRoots, dup)
}
s.caLock.Unlock()
// Then trigger an event when updating the roots.
s.RootsReader.Set(roots)
return ca
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func (s *TestSigner) nextIndex() uint64 {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
return s.IDGenerator.Add(1)
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func (s *TestSigner) getCA() *structs.CARoot {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
s.caLock.Lock()
defer s.caLock.Unlock()
return s.ca
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func (s *TestSigner) GetCapture(idx int) *structs.CASignRequest {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
s.signCallLock.Lock()
defer s.signCallLock.Unlock()
if len(s.signCallCapture) > idx {
return s.signCallCapture[idx]
}
return nil
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
func (s *TestSigner) SignCert(ctx context.Context, req *structs.CASignRequest) (*structs.IssuedCert, error) {
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
useExpiredCert := false
s.signCallLock.Lock()
s.signCallCapture = append(s.signCallCapture, req)
if len(s.signCallErrors) > 0 {
err := s.signCallErrors[0]
s.signCallErrors = s.signCallErrors[1:]
if err == ReplyWithExpiredCert {
useExpiredCert = true
} else if err != nil {
s.signCallErrorCount++
s.signCallLock.Unlock()
return nil, err
}
}
s.signCallLock.Unlock()
// parts of this were inlined from CAManager and the connect ca provider
ca := s.getCA()
if ca == nil {
return nil, fmt.Errorf("must call UpdateCA at least once")
}
csr, err := connect.ParseCSR(req.CSR)
if err != nil {
return nil, fmt.Errorf("error parsing CSR: %w", err)
}
connect.HackSANExtensionForCSR(csr)
spiffeID, err := connect.ParseCertURI(csr.URIs[0])
if err != nil {
return nil, fmt.Errorf("error parsing CSR URI: %w", err)
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
var isService bool
var serviceID *connect.SpiffeIDService
var workloadID *connect.SpiffeIDWorkloadIdentity
switch spiffeID.(type) {
case *connect.SpiffeIDService:
isService = true
serviceID = spiffeID.(*connect.SpiffeIDService)
case *connect.SpiffeIDWorkloadIdentity:
workloadID = spiffeID.(*connect.SpiffeIDWorkloadIdentity)
default:
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
return nil, fmt.Errorf("unexpected spiffeID type %T", spiffeID)
}
signer, err := connect.ParseSigner(ca.SigningKey)
if err != nil {
return nil, fmt.Errorf("error parsing CA signing key: %w", err)
}
keyId, err := connect.KeyId(signer.Public())
if err != nil {
return nil, fmt.Errorf("error forming CA key id from public key: %w", err)
}
subjectKeyID, err := connect.KeyId(csr.PublicKey)
if err != nil {
return nil, fmt.Errorf("error forming subject key id from public key: %w", err)
}
caCert, err := connect.ParseCert(ca.RootCert)
if err != nil {
return nil, fmt.Errorf("error parsing CA root cert pem: %w", err)
}
const expiration = 10 * time.Minute
now := time.Now()
template := x509.Certificate{
SerialNumber: big.NewInt(int64(s.nextIndex())),
URIs: csr.URIs,
Signature: csr.Signature,
// We use the correct signature algorithm for the CA key we are signing with
// regardless of the algorithm used to sign the CSR signature above since
// the leaf might use a different key type.
SignatureAlgorithm: connect.SigAlgoForKey(signer),
PublicKeyAlgorithm: csr.PublicKeyAlgorithm,
PublicKey: csr.PublicKey,
BasicConstraintsValid: true,
KeyUsage: x509.KeyUsageDataEncipherment |
x509.KeyUsageKeyAgreement |
x509.KeyUsageDigitalSignature |
x509.KeyUsageKeyEncipherment,
ExtKeyUsage: []x509.ExtKeyUsage{
x509.ExtKeyUsageClientAuth,
x509.ExtKeyUsageServerAuth,
},
NotAfter: now.Add(expiration),
NotBefore: now,
AuthorityKeyId: keyId,
SubjectKeyId: subjectKeyID,
DNSNames: csr.DNSNames,
IPAddresses: csr.IPAddresses,
}
if useExpiredCert {
template.NotBefore = time.Now().Add(-13 * time.Hour)
template.NotAfter = time.Now().Add(-1 * time.Hour)
}
// Create the certificate, PEM encode it and return that value.
var buf bytes.Buffer
bs, err := x509.CreateCertificate(
rand.Reader, &template, caCert, csr.PublicKey, signer)
if err != nil {
return nil, fmt.Errorf("error creating cert pem from CSR: %w", err)
}
err = pem.Encode(&buf, &pem.Block{Type: "CERTIFICATE", Bytes: bs})
if err != nil {
return nil, fmt.Errorf("error encoding cert pem into text: %w", err)
}
leafPEM := buf.String()
leafCert, err := connect.ParseCert(leafPEM)
if err != nil {
return nil, fmt.Errorf("error parsing cert from generated leaf pem: %w", err)
}
index := s.nextIndex()
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
1 year ago
if isService {
// Service Spiffe ID case
return &structs.IssuedCert{
SerialNumber: connect.EncodeSerialNumber(leafCert.SerialNumber),
CertPEM: leafPEM,
Service: serviceID.Service,
ServiceURI: leafCert.URIs[0].String(),
ValidAfter: leafCert.NotBefore,
ValidBefore: leafCert.NotAfter,
RaftIndex: structs.RaftIndex{
CreateIndex: index,
ModifyIndex: index,
},
}, nil
} else {
// Workload identity Spiffe ID case
return &structs.IssuedCert{
SerialNumber: connect.EncodeSerialNumber(leafCert.SerialNumber),
CertPEM: leafPEM,
WorkloadIdentity: workloadID.WorkloadIdentity,
WorkloadIdentityURI: leafCert.URIs[0].String(),
ValidAfter: leafCert.NotBefore,
ValidBefore: leafCert.NotAfter,
RaftIndex: structs.RaftIndex{
CreateIndex: index,
ModifyIndex: index,
},
}, nil
}
}
type testRootsReader struct {
mu sync.Mutex
index uint64
roots *structs.IndexedCARoots
watcher chan struct{}
}
func newTestRootsReader(t *testing.T) *testRootsReader {
r := &testRootsReader{
watcher: make(chan struct{}),
}
t.Cleanup(func() {
r.mu.Lock()
watcher := r.watcher
r.mu.Unlock()
close(watcher)
})
return r
}
var _ RootsReader = (*testRootsReader)(nil)
func (r *testRootsReader) Set(roots *structs.IndexedCARoots) {
r.mu.Lock()
oldWatcher := r.watcher
r.watcher = make(chan struct{})
r.roots = roots
if roots == nil {
r.index = 1
} else {
r.index = roots.Index
}
r.mu.Unlock()
close(oldWatcher)
}
func (r *testRootsReader) Get() (*structs.IndexedCARoots, error) {
r.mu.Lock()
defer r.mu.Unlock()
return r.roots, nil
}
func (r *testRootsReader) Notify(ctx context.Context, correlationID string, ch chan<- cacheshim.UpdateEvent) error {
r.mu.Lock()
watcher := r.watcher
r.mu.Unlock()
go func() {
<-watcher
r.mu.Lock()
defer r.mu.Unlock()
ch <- cacheshim.UpdateEvent{
CorrelationID: correlationID,
Result: r.roots,
Meta: cacheshim.ResultMeta{Index: r.index},
Err: nil,
}
}()
return nil
agent: remove agent cache dependency from service mesh leaf certificate management (#17075) * agent: remove agent cache dependency from service mesh leaf certificate management This extracts the leaf cert management from within the agent cache. This code was produced by the following process: 1. All tests in agent/cache, agent/cache-types, agent/auto-config, agent/consul/servercert were run at each stage. - The tests in agent matching .*Leaf were run at each stage. - The tests in agent/leafcert were run at each stage after they existed. 2. The former leaf cert Fetch implementation was extracted into a new package behind a "fake RPC" endpoint to make it look almost like all other cache type internals. 3. The old cache type was shimmed to use the fake RPC endpoint and generally cleaned up. 4. I selectively duplicated all of Get/Notify/NotifyCallback/Prepopulate from the agent/cache.Cache implementation over into the new package. This was renamed as leafcert.Manager. - Code that was irrelevant to the leaf cert type was deleted (inlining blocking=true, refresh=false) 5. Everything that used the leaf cert cache type (including proxycfg stuff) was shifted to use the leafcert.Manager instead. 6. agent/cache-types tests were moved and gently replumbed to execute as-is against a leafcert.Manager. 7. Inspired by some of the locking changes from derek's branch I split the fat lock into N+1 locks. 8. The waiter chan struct{} was eventually replaced with a singleflight.Group around cache updates, which was likely the biggest net structural change. 9. The awkward two layers or logic produced as a byproduct of marrying the agent cache management code with the leaf cert type code was slowly coalesced and flattened to remove confusion. 10. The .*Leaf tests from the agent package were copied and made to work directly against a leafcert.Manager to increase direct coverage. I have done a best effort attempt to port the previous leaf-cert cache type's tests over in spirit, as well as to take the e2e-ish tests in the agent package with Leaf in the test name and copy those into the agent/leafcert package to get more direct coverage, rather than coverage tangled up in the agent logic. There is no net-new test coverage, just coverage that was pushed around from elsewhere.
1 year ago
}