open-vault/builtin/credential/approle/validation.go

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package approle
import (
"crypto/hmac"
"crypto/sha256"
"encoding/hex"
"fmt"
"strings"
"sync"
"time"
"github.com/hashicorp/go-uuid"
"github.com/hashicorp/vault/helper/cidrutil"
"github.com/hashicorp/vault/helper/strutil"
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"github.com/hashicorp/vault/logical"
"github.com/hashicorp/vault/logical/framework"
)
// secretIDStorageEntry represents the information stored in storage
// when a SecretID is created. The structure of the SecretID storage
// entry is the same for all the types of SecretIDs generated.
type secretIDStorageEntry struct {
// Accessor for the SecretID. It is a random UUID serving as
// a secondary index for the SecretID. This uniquely identifies
// the SecretID it belongs to, and hence can be used for listing
// and deleting SecretIDs. Accessors cannot be used as valid
// SecretIDs during login.
SecretIDAccessor string `json:"secret_id_accessor" structs:"secret_id_accessor" mapstructure:"secret_id_accessor"`
// Number of times this SecretID can be used to perform the login
// operation
SecretIDNumUses int `json:"secret_id_num_uses"
structs:"secret_id_num_uses" mapstructure:"secret_id_num_uses"`
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// Duration after which this SecretID should expire. This is croleed by
// the backend mount's max TTL value.
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SecretIDTTL time.Duration `json:"secret_id_ttl" structs:"secret_id_ttl" mapstructure:"secret_id_ttl"`
// The time when the SecretID was created
CreationTime time.Time `json:"creation_time" structs:"creation_time" mapstructure:"creation_time"`
// The time when the SecretID becomes eligible for tidy operation.
// Tidying is performed by the PeriodicFunc of the backend which is 1
// minute apart.
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ExpirationTime time.Time `json:"expiration_time" structs:"expiration_time" mapstructure:"expiration_time"`
// The time representing the last time this storage entry was modified
LastUpdatedTime time.Time `json:"last_updated_time" structs:"last_updated_time" mapstructure:"last_updated_time"`
// Metadata that belongs to the SecretID
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Metadata map[string]string `json:"metadata" structs:"metadata" mapstructure:"metadata"`
// CIDRList is a set of CIDR blocks that impose source address
// restrictions on the usage of SecretID
CIDRList []string `json:"cidr_list" structs:"cidr_list" mapstructure:"cidr_list"`
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}
// Represents the payload of the storage entry of the accessor that maps to a
// unique SecretID. Note that SecretIDs should never be stored in plaintext
// anywhere in the backend. SecretIDHMAC will be used as an index to fetch the
// properties of the SecretID and to delete the SecretID.
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type secretIDAccessorStorageEntry struct {
// Hash of the SecretID which can be used to find the storage index at which
// properties of SecretID is stored.
SecretIDHMAC string `json:"secret_id_hmac" structs:"secret_id_hmac" mapstructure:"secret_id_hmac"`
}
// Checks if the Role represented by the RoleID still exists
func (b *backend) validateRoleID(s logical.Storage, roleID string) (*roleStorageEntry, string, error) {
// Look for the storage entry that maps the roleID to role
roleIDIndex, err := b.roleIDEntry(s, roleID)
if err != nil {
return nil, "", err
}
if roleIDIndex == nil {
return nil, "", fmt.Errorf("failed to find secondary index for role_id:%s\n", roleID)
}
role, err := b.roleEntry(s, roleIDIndex.Name)
if err != nil {
return nil, "", err
}
if role == nil {
return nil, "", fmt.Errorf("role %s referred by the SecretID does not exist", roleIDIndex.Name)
}
return role, roleIDIndex.Name, nil
}
// Validates the supplied RoleID and SecretID
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func (b *backend) validateCredentials(req *logical.Request, data *framework.FieldData) (*roleStorageEntry, string, map[string]string, error) {
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var metadata map[string]string
// RoleID must be supplied during every login
roleID := strings.TrimSpace(data.Get("role_id").(string))
if roleID == "" {
return nil, "", metadata, fmt.Errorf("missing role_id")
}
// Validate the RoleID and get the Role entry
role, roleName, err := b.validateRoleID(req.Storage, roleID)
if err != nil {
return nil, "", metadata, err
}
if role == nil || roleName == "" {
return nil, "", metadata, fmt.Errorf("failed to validate role_id")
}
// Calculate the TTL boundaries since this reflects the properties of the token issued
if role.TokenTTL, role.TokenMaxTTL, err = b.SanitizeTTL(role.TokenTTL, role.TokenMaxTTL); err != nil {
return nil, "", metadata, err
}
if role.BindSecretID {
// If 'bind_secret_id' was set on role, look for the field 'secret_id'
// to be specified and validate it.
secretID := strings.TrimSpace(data.Get("secret_id").(string))
if secretID == "" {
return nil, "", metadata, fmt.Errorf("missing secret_id")
}
// Check if the SecretID supplied is valid. If use limit was specified
// on the SecretID, it will be decremented in this call.
var valid bool
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valid, metadata, err = b.validateBindSecretID(req, roleName, secretID, role.HMACKey, role.BoundCIDRList)
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if err != nil {
return nil, "", metadata, err
}
if !valid {
return nil, "", metadata, fmt.Errorf("invalid secret_id: %s\n", secretID)
}
}
if role.BoundCIDRList != "" {
// If 'bound_cidr_list' was set, verify the CIDR restrictions
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if req.Connection == nil || req.Connection.RemoteAddr == "" {
return nil, "", metadata, fmt.Errorf("failed to get connection information")
}
belongs, err := cidrutil.IPBelongsToCIDRBlocksString(req.Connection.RemoteAddr, role.BoundCIDRList, ",")
if err != nil {
return nil, "", metadata, fmt.Errorf("failed to verify the CIDR restrictions set on the role: %v", err)
}
if !belongs {
return nil, "", metadata, fmt.Errorf("source address unauthorized through CIDR restrictions on the role")
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}
}
return role, roleName, metadata, nil
}
// validateBindSecretID is used to determine if the given SecretID is a valid one.
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func (b *backend) validateBindSecretID(req *logical.Request, roleName, secretID,
hmacKey, roleBoundCIDRList string) (bool, map[string]string, error) {
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secretIDHMAC, err := createHMAC(hmacKey, secretID)
if err != nil {
return false, nil, fmt.Errorf("failed to create HMAC of secret_id: %s", err)
}
roleNameHMAC, err := createHMAC(hmacKey, roleName)
if err != nil {
return false, nil, fmt.Errorf("failed to create HMAC of role_name: %s", err)
}
entryIndex := fmt.Sprintf("secret_id/%s/%s", roleNameHMAC, secretIDHMAC)
// SecretID locks are always index based on secretIDHMACs. This helps
// acquiring the locks when the SecretIDs are listed. This allows grabbing
// the correct locks even if the SecretIDs are not known in plaintext.
lock := b.secretIDLock(secretIDHMAC)
lock.RLock()
result := secretIDStorageEntry{}
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if entry, err := req.Storage.Get(entryIndex); err != nil {
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lock.RUnlock()
return false, nil, err
} else if entry == nil {
lock.RUnlock()
return false, nil, nil
} else if err := entry.DecodeJSON(&result); err != nil {
lock.RUnlock()
return false, nil, err
}
// SecretIDNumUses will be zero only if the usage limit was not set at all,
// in which case, the SecretID will remain to be valid as long as it is not
// expired.
if result.SecretIDNumUses == 0 {
// Ensure that the CIDRs on the secret ID are still a subset of that of
// role's
if err := verifyCIDRRoleSecretIDSubset(result.CIDRList,
roleBoundCIDRList); err != nil {
return false, nil, err
}
// If CIDR restrictions are present on the secret ID, check if the
// source IP complies to it
if len(result.CIDRList) != 0 {
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if req.Connection == nil || req.Connection.RemoteAddr == "" {
return false, nil, fmt.Errorf("failed to get connection information")
}
if belongs, err := cidrutil.IPBelongsToCIDRBlocksSlice(req.Connection.RemoteAddr, result.CIDRList); !belongs || err != nil {
return false, nil, fmt.Errorf("source address unauthorized through CIDR restrictions on the secret ID: %v", err)
}
}
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lock.RUnlock()
return true, result.Metadata, nil
}
// If the SecretIDNumUses is non-zero, it means that its use-count should be updated
// in the storage. Switch the lock from a `read` to a `write` and update
// the storage entry.
lock.RUnlock()
lock.Lock()
defer lock.Unlock()
// Lock switching may change the data. Refresh the contents.
result = secretIDStorageEntry{}
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if entry, err := req.Storage.Get(entryIndex); err != nil {
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return false, nil, err
} else if entry == nil {
return false, nil, nil
} else if err := entry.DecodeJSON(&result); err != nil {
return false, nil, err
}
// If there exists a single use left, delete the SecretID entry from
// the storage but do not fail the validation request. Subsequest
// requests to use the same SecretID will fail.
if result.SecretIDNumUses == 1 {
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// Delete the secret IDs accessor first
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if err := b.deleteSecretIDAccessorEntry(req.Storage, result.SecretIDAccessor); err != nil {
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return false, nil, err
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}
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if err := req.Storage.Delete(entryIndex); err != nil {
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return false, nil, fmt.Errorf("failed to delete SecretID: %s", err)
}
} else {
// If the use count is greater than one, decrement it and update the last updated time.
result.SecretIDNumUses -= 1
result.LastUpdatedTime = time.Now()
if entry, err := logical.StorageEntryJSON(entryIndex, &result); err != nil {
return false, nil, fmt.Errorf("failed to decrement the use count for SecretID:%s", secretID)
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} else if err = req.Storage.Put(entry); err != nil {
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return false, nil, fmt.Errorf("failed to decrement the use count for SecretID:%s", secretID)
}
}
// Ensure that the CIDRs on the secret ID are still a subset of that of
// role's
if err := verifyCIDRRoleSecretIDSubset(result.CIDRList,
roleBoundCIDRList); err != nil {
return false, nil, err
}
// If CIDR restrictions are present on the secret ID, check if the
// source IP complies to it
if len(result.CIDRList) != 0 {
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if req.Connection == nil || req.Connection.RemoteAddr == "" {
return false, nil, fmt.Errorf("failed to get connection information")
}
if belongs, err := cidrutil.IPBelongsToCIDRBlocksSlice(req.Connection.RemoteAddr, result.CIDRList); !belongs || err != nil {
return false, nil, fmt.Errorf("source address unauthorized through CIDR restrictions on the secret ID: %v", err)
}
}
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return true, result.Metadata, nil
}
// verifyCIDRRoleSecretIDSubset checks if the CIDR blocks set on the secret ID
// are a subset of CIDR blocks set on the role
func verifyCIDRRoleSecretIDSubset(secretIDCIDRs []string, roleBoundCIDRList string) error {
if len(secretIDCIDRs) != 0 {
// Parse the CIDRs on role as a slice
roleCIDRs := strutil.ParseDedupAndSortStrings(roleBoundCIDRList, ",")
// If there are no CIDR blocks on the role, then the subset
// requirement would be satisfied
if len(roleCIDRs) != 0 {
subset, err := cidrutil.SubsetBlocks(roleCIDRs, secretIDCIDRs)
if !subset || err != nil {
return fmt.Errorf("failed to verify subset relationship between CIDR blocks on the role %q and CIDR blocks on the secret ID %q: %v", roleCIDRs, secretIDCIDRs, err)
}
}
}
return nil
}
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// Creates a SHA256 HMAC of the given 'value' using the given 'key' and returns
// a hex encoded string.
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func createHMAC(key, value string) (string, error) {
if key == "" {
return "", fmt.Errorf("invalid HMAC key")
}
hm := hmac.New(sha256.New, []byte(key))
hm.Write([]byte(value))
return hex.EncodeToString(hm.Sum(nil)), nil
}
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// secretIDLock is used to get a lock from the pre-initialized map of locks.
// Map is indexed based on the first 2 characters of the secretIDHMAC. If the
// input is not hex encoded or if empty, a "custom" lock will be returned.
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func (b *backend) secretIDLock(secretIDHMAC string) *sync.RWMutex {
var lock *sync.RWMutex
var ok bool
if len(secretIDHMAC) >= 2 {
lock, ok = b.secretIDLocksMap[secretIDHMAC[0:2]]
}
if !ok || lock == nil {
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// Fall back for custom lock to make sure that this method
// never returns nil
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lock = b.secretIDLocksMap["custom"]
}
return lock
}
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// secretIDAccessorLock is used to get a lock from the pre-initialized map
// of locks. Map is indexed based on the first 2 characters of the
// secretIDAccessor. If the input is not hex encoded or if empty, a "custom"
// lock will be returned.
func (b *backend) secretIDAccessorLock(secretIDAccessor string) *sync.RWMutex {
var lock *sync.RWMutex
var ok bool
if len(secretIDAccessor) >= 2 {
lock, ok = b.secretIDAccessorLocksMap[secretIDAccessor[0:2]]
}
if !ok || lock == nil {
// Fall back for custom lock to make sure that this method
// never returns nil
lock = b.secretIDAccessorLocksMap["custom"]
}
return lock
}
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// registerSecretIDEntry creates a new storage entry for the given SecretID.
func (b *backend) registerSecretIDEntry(s logical.Storage, roleName, secretID, hmacKey string, secretEntry *secretIDStorageEntry) (*secretIDStorageEntry, error) {
secretIDHMAC, err := createHMAC(hmacKey, secretID)
if err != nil {
return nil, fmt.Errorf("failed to create HMAC of secret_id: %s", err)
}
roleNameHMAC, err := createHMAC(hmacKey, roleName)
if err != nil {
return nil, fmt.Errorf("failed to create HMAC of role_name: %s", err)
}
entryIndex := fmt.Sprintf("secret_id/%s/%s", roleNameHMAC, secretIDHMAC)
lock := b.secretIDLock(secretIDHMAC)
lock.RLock()
entry, err := s.Get(entryIndex)
if err != nil {
lock.RUnlock()
return nil, err
}
if entry != nil {
lock.RUnlock()
return nil, fmt.Errorf("SecretID is already registered")
}
// If there isn't an entry for the secretID already, switch the read lock
// with a write lock and create an entry.
lock.RUnlock()
lock.Lock()
defer lock.Unlock()
// But before saving a new entry, check if the secretID entry was created during the lock switch.
entry, err = s.Get(entryIndex)
if err != nil {
return nil, err
}
if entry != nil {
return nil, fmt.Errorf("SecretID is already registered")
}
// Create a new entry for the SecretID
// Set the creation time for the SecretID
currentTime := time.Now()
secretEntry.CreationTime = currentTime
secretEntry.LastUpdatedTime = currentTime
// If SecretIDTTL is not specified or if it crosses the backend mount's limit,
// cap the expiration to backend's max. Otherwise, use it to determine the
// expiration time.
if secretEntry.SecretIDTTL < time.Duration(0) || secretEntry.SecretIDTTL > b.System().MaxLeaseTTL() {
secretEntry.ExpirationTime = currentTime.Add(b.System().MaxLeaseTTL())
} else if secretEntry.SecretIDTTL != time.Duration(0) {
// Set the ExpirationTime only if SecretIDTTL was set. SecretIDs should not
// expire by default.
secretEntry.ExpirationTime = currentTime.Add(secretEntry.SecretIDTTL)
}
// Before storing the SecretID, store its accessor.
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if err := b.createSecretIDAccessorEntry(s, secretEntry, secretIDHMAC); err != nil {
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return nil, err
}
if entry, err := logical.StorageEntryJSON(entryIndex, secretEntry); err != nil {
return nil, err
} else if err = s.Put(entry); err != nil {
return nil, err
}
return secretEntry, nil
}
// secretIDAccessorEntry is used to read the storage entry that maps an
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// accessor to a secret_id.
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func (b *backend) secretIDAccessorEntry(s logical.Storage, secretIDAccessor string) (*secretIDAccessorStorageEntry, error) {
if secretIDAccessor == "" {
return nil, fmt.Errorf("missing secretIDAccessor")
}
var result secretIDAccessorStorageEntry
// Create index entry, mapping the accessor to the token ID
entryIndex := "accessor/" + b.salt.SaltID(secretIDAccessor)
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accessorLock := b.secretIDAccessorLock(secretIDAccessor)
accessorLock.RLock()
defer accessorLock.RUnlock()
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if entry, err := s.Get(entryIndex); err != nil {
return nil, err
} else if entry == nil {
return nil, nil
} else if err := entry.DecodeJSON(&result); err != nil {
return nil, err
}
return &result, nil
}
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// createSecretIDAccessorEntry creates an identifier for the SecretID. A storage index,
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// mapping the accessor to the SecretID is also created. This method should
// be called when the lock for the corresponding SecretID is held.
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func (b *backend) createSecretIDAccessorEntry(s logical.Storage, entry *secretIDStorageEntry, secretIDHMAC string) error {
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// Create a random accessor
accessorUUID, err := uuid.GenerateUUID()
if err != nil {
return err
}
entry.SecretIDAccessor = accessorUUID
// Create index entry, mapping the accessor to the token ID
entryIndex := "accessor/" + b.salt.SaltID(entry.SecretIDAccessor)
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accessorLock := b.secretIDAccessorLock(accessorUUID)
accessorLock.Lock()
defer accessorLock.Unlock()
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if entry, err := logical.StorageEntryJSON(entryIndex, &secretIDAccessorStorageEntry{
SecretIDHMAC: secretIDHMAC,
}); err != nil {
return err
} else if err = s.Put(entry); err != nil {
return fmt.Errorf("failed to persist accessor index entry: %s", err)
}
return nil
}
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// deleteSecretIDAccessorEntry deletes the storage index mapping the accessor to a SecretID.
func (b *backend) deleteSecretIDAccessorEntry(s logical.Storage, secretIDAccessor string) error {
accessorEntryIndex := "accessor/" + b.salt.SaltID(secretIDAccessor)
accessorLock := b.secretIDAccessorLock(secretIDAccessor)
accessorLock.Lock()
defer accessorLock.Unlock()
// Delete the accessor of the SecretID first
if err := s.Delete(accessorEntryIndex); err != nil {
return fmt.Errorf("failed to delete accessor storage entry: %s", err)
}
return nil
}
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// flushRoleSecrets deletes all the SecretIDs that belong to the given
// RoleID.
func (b *backend) flushRoleSecrets(s logical.Storage, roleName, hmacKey string) error {
roleNameHMAC, err := createHMAC(hmacKey, roleName)
if err != nil {
return fmt.Errorf("failed to create HMAC of role_name: %s", err)
}
// Acquire the custom lock to perform listing of SecretIDs
customLock := b.secretIDLock("")
customLock.RLock()
defer customLock.RUnlock()
secretIDHMACs, err := s.List(fmt.Sprintf("secret_id/%s/", roleNameHMAC))
if err != nil {
return err
}
for _, secretIDHMAC := range secretIDHMACs {
// Acquire the lock belonging to the SecretID
lock := b.secretIDLock(secretIDHMAC)
lock.Lock()
entryIndex := fmt.Sprintf("secret_id/%s/%s", roleNameHMAC, secretIDHMAC)
if err := s.Delete(entryIndex); err != nil {
lock.Unlock()
return fmt.Errorf("error deleting SecretID %s from storage: %s", secretIDHMAC, err)
}
lock.Unlock()
}
return nil
}