int BusyWithClassicConnection(EvalContext *ctx, ServerConnectionState *conn)
{
time_t tloc, trem = 0;
char recvbuffer[CF_BUFSIZE + CF_BUFEXT], check[CF_BUFSIZE];
char sendbuffer[CF_BUFSIZE] = { 0 };
char filename[CF_BUFSIZE], buffer[CF_BUFSIZE], args[CF_BUFSIZE], out[CF_BUFSIZE];
long time_no_see = 0;
unsigned int len = 0;
int drift, plainlen, received, encrypted = 0;
ServerFileGetState get_args;
Item *classes;
memset(recvbuffer, 0, CF_BUFSIZE + CF_BUFEXT);
memset(&get_args, 0, sizeof(get_args));
received = ReceiveTransaction(conn->conn_info, recvbuffer, NULL);
if (received == -1 || received == 0)
{
return false;
}
if (strlen(recvbuffer) == 0)
{
Log(LOG_LEVEL_WARNING, "Got NULL transmission, skipping!");
return true;
}
/* Don't process request if we're signalled to exit. */
if (IsPendingTermination())
{
return false;
}
ProtocolCommandClassic command = GetCommandClassic(recvbuffer);
switch (command)
{
/* Plain text authentication; this MUST be the first command client
using classic protocol is sending. */
case PROTOCOL_COMMAND_AUTH_PLAIN:
SetConnectionData(conn, (char *) (recvbuffer + strlen("CAUTH ")));
if (conn->username == NULL || IsUserNameValid(conn->username) == false)
{
Log(LOG_LEVEL_INFO, "Client is sending wrong username: '******'", conn->username);
RefuseAccess(conn, recvbuffer);
return false;
}
/* This is used only for forcing correct state of state machine while
connecting and authenticating user using classic protocol. */
conn->user_data_set = true;
return true;
/* This MUST be exactly second command client using classic protocol is sending.
This is where key agreement takes place. */
case PROTOCOL_COMMAND_AUTH_SECURE:
/* First command was ommited by client; this is protocol violation. */
if (!conn->user_data_set)
{
Log(LOG_LEVEL_INFO, "Client is not verified; rejecting connection");
RefuseAccess(conn, recvbuffer);
return false;
}
conn->rsa_auth = AuthenticationDialogue(conn, recvbuffer, received);
if (!conn->rsa_auth)
{
Log(LOG_LEVEL_INFO, "Auth dialogue error");
RefuseAccess(conn, recvbuffer);
return false;
}
return true;
default:
break;
}
/* At this point we should have both user_data_set and rsa_auth set to perform any operation.
We can check only for second one as without first it won't be set up. */
if (!conn->rsa_auth)
{
Log(LOG_LEVEL_INFO, "Server refusal due to no RSA authentication [command: %d]", command);
RefuseAccess(conn, recvbuffer);
return false;
}
/* We have to have key at this point. */
assert(conn->session_key);
/* At this point we can safely do next switch and make sure user is authenticated. */
switch (command)
{
case PROTOCOL_COMMAND_EXEC:
memset(args, 0, CF_BUFSIZE);
sscanf(recvbuffer, "EXEC %255[^\n]", args);
if (!AllowedUser(conn->username))
{
Log(LOG_LEVEL_INFO, "Server refusal due to non-allowed user");
RefuseAccess(conn, recvbuffer);
return false;
}
if (!AccessControl(ctx, CommandArg0(CFRUNCOMMAND), conn, false))
{
Log(LOG_LEVEL_INFO, "Server refusal due to denied access to requested object");
RefuseAccess(conn, recvbuffer);
return false;
}
if (!MatchClasses(ctx, conn))
{
Log(LOG_LEVEL_INFO, "Server refusal due to failed class/context match");
Terminate(conn->conn_info);
return false;
}
DoExec(ctx, conn, args);
Terminate(conn->conn_info);
return false;
case PROTOCOL_COMMAND_VERSION:
snprintf(sendbuffer, sizeof(sendbuffer), "OK: %s", Version());
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return conn->user_data_set;
case PROTOCOL_COMMAND_GET:
memset(filename, 0, CF_BUFSIZE);
sscanf(recvbuffer, "GET %d %[^\n]", &(get_args.buf_size), filename);
if ((get_args.buf_size < 0) || (get_args.buf_size > CF_BUFSIZE))
{
Log(LOG_LEVEL_INFO, "GET buffer out of bounds");
RefuseAccess(conn, recvbuffer);
return false;
}
if (!AccessControl(ctx, filename, conn, false))
{
Log(LOG_LEVEL_INFO, "Access denied to get object");
RefuseAccess(conn, recvbuffer);
return true;
}
memset(sendbuffer, 0, sizeof(sendbuffer));
if (get_args.buf_size >= CF_BUFSIZE)
{
get_args.buf_size = 2048;
}
get_args.connect = conn;
get_args.encrypt = false;
get_args.replybuff = sendbuffer;
get_args.replyfile = filename;
CfGetFile(&get_args);
return true;
case PROTOCOL_COMMAND_GET_SECURE:
memset(buffer, 0, CF_BUFSIZE);
sscanf(recvbuffer, "SGET %u %d", &len, &(get_args.buf_size));
if (received != len + CF_PROTO_OFFSET)
{
Log(LOG_LEVEL_VERBOSE, "Protocol error SGET");
RefuseAccess(conn, recvbuffer);
return false;
}
plainlen = DecryptString(conn->encryption_type, recvbuffer + CF_PROTO_OFFSET, buffer, conn->session_key, len);
cfscanf(buffer, strlen("GET"), strlen("dummykey"), check, sendbuffer, filename);
if (strcmp(check, "GET") != 0)
{
Log(LOG_LEVEL_INFO, "SGET/GET problem");
RefuseAccess(conn, recvbuffer);
return true;
}
if ((get_args.buf_size < 0) || (get_args.buf_size > 8192))
{
Log(LOG_LEVEL_INFO, "SGET bounding error");
RefuseAccess(conn, recvbuffer);
return false;
}
if (get_args.buf_size >= CF_BUFSIZE)
{
get_args.buf_size = 2048;
}
Log(LOG_LEVEL_DEBUG, "Confirm decryption, and thus validity of caller");
Log(LOG_LEVEL_DEBUG, "SGET '%s' with blocksize %d", filename, get_args.buf_size);
if (!AccessControl(ctx, filename, conn, true))
{
Log(LOG_LEVEL_INFO, "Access control error");
RefuseAccess(conn, recvbuffer);
return false;
}
memset(sendbuffer, 0, sizeof(sendbuffer));
get_args.connect = conn;
get_args.encrypt = true;
get_args.replybuff = sendbuffer;
get_args.replyfile = filename;
CfEncryptGetFile(&get_args);
return true;
case PROTOCOL_COMMAND_OPENDIR_SECURE:
memset(buffer, 0, CF_BUFSIZE);
sscanf(recvbuffer, "SOPENDIR %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_VERBOSE, "Protocol error OPENDIR: %d", len);
RefuseAccess(conn, recvbuffer);
return false;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
plainlen = DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
if (strncmp(recvbuffer, "OPENDIR", 7) != 0)
{
Log(LOG_LEVEL_INFO, "Opendir failed to decrypt");
RefuseAccess(conn, recvbuffer);
return true;
}
memset(filename, 0, CF_BUFSIZE);
sscanf(recvbuffer, "OPENDIR %[^\n]", filename);
if (!AccessControl(ctx, filename, conn, true)) /* opendir don't care about privacy */
{
Log(LOG_LEVEL_INFO, "Access error");
RefuseAccess(conn, recvbuffer);
return false;
}
CfSecOpenDirectory(conn, sendbuffer, filename);
return true;
case PROTOCOL_COMMAND_OPENDIR:
memset(filename, 0, CF_BUFSIZE);
sscanf(recvbuffer, "OPENDIR %[^\n]", filename);
if (!AccessControl(ctx, filename, conn, true)) /* opendir don't care about privacy */
{
Log(LOG_LEVEL_INFO, "DIR access error");
RefuseAccess(conn, recvbuffer);
return false;
}
CfOpenDirectory(conn, sendbuffer, filename);
return true;
case PROTOCOL_COMMAND_SYNC_SECURE:
memset(buffer, 0, CF_BUFSIZE);
sscanf(recvbuffer, "SSYNCH %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_VERBOSE, "Protocol error SSYNCH: %d", len);
RefuseAccess(conn, recvbuffer);
return false;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
plainlen = DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
if (plainlen < 0)
{
DebugBinOut((char *) conn->session_key, 32, "Session key");
Log(LOG_LEVEL_ERR, "Bad decrypt (%d)", len);
}
if (strncmp(recvbuffer, "SYNCH", 5) != 0)
{
Log(LOG_LEVEL_INFO, "No synch");
RefuseAccess(conn, recvbuffer);
return true;
}
/* roll through, no break */
case PROTOCOL_COMMAND_SYNC:
memset(filename, 0, CF_BUFSIZE);
sscanf(recvbuffer, "SYNCH %ld STAT %[^\n]", &time_no_see, filename);
trem = (time_t) time_no_see;
if ((time_no_see == 0) || (filename[0] == '\0'))
{
break;
}
if ((tloc = time((time_t *) NULL)) == -1)
{
Log(LOG_LEVEL_INFO, "Couldn't read system clock. (time: %s)", GetErrorStr());
SendTransaction(conn->conn_info, "BAD: clocks out of synch", 0, CF_DONE);
return true;
}
drift = (int) (tloc - trem);
if (!AccessControl(ctx, filename, conn, true))
{
Log(LOG_LEVEL_INFO, "Access control in sync");
RefuseAccess(conn, recvbuffer);
return true;
}
if (DENYBADCLOCKS && (drift * drift > CLOCK_DRIFT * CLOCK_DRIFT))
{
snprintf(sendbuffer, sizeof(sendbuffer),
"BAD: Clocks are too far unsynchronized %ld/%ld",
(long) tloc, (long) trem);
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return true;
}
else
{
Log(LOG_LEVEL_DEBUG, "Clocks were off by %ld", (long) tloc - (long) trem);
StatFile(conn, sendbuffer, filename);
}
return true;
case PROTOCOL_COMMAND_MD5_SECURE:
sscanf(recvbuffer, "SMD5 %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_INFO, "Decryption error");
RefuseAccess(conn, recvbuffer);
return true;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
plainlen = DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
if (strncmp(recvbuffer, "MD5", 3) != 0)
{
Log(LOG_LEVEL_INFO, "MD5 protocol error");
RefuseAccess(conn, recvbuffer);
return false;
}
/* roll through, no break */
case PROTOCOL_COMMAND_MD5:
CompareLocalHash(conn, sendbuffer, recvbuffer);
return true;
case PROTOCOL_COMMAND_VAR_SECURE:
sscanf(recvbuffer, "SVAR %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_INFO, "Decrypt error SVAR");
RefuseAccess(conn, "decrypt error SVAR");
return true;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
plainlen = DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
encrypted = true;
if (strncmp(recvbuffer, "VAR", 3) != 0)
{
Log(LOG_LEVEL_INFO, "VAR protocol defect");
RefuseAccess(conn, "decryption failure");
return false;
}
/* roll through, no break */
case PROTOCOL_COMMAND_VAR:
if (!LiteralAccessControl(ctx, recvbuffer, conn, encrypted))
{
Log(LOG_LEVEL_INFO, "Literal access failure");
RefuseAccess(conn, recvbuffer);
return false;
}
GetServerLiteral(ctx, conn, sendbuffer, recvbuffer, encrypted);
return true;
case PROTOCOL_COMMAND_CONTEXT_SECURE:
sscanf(recvbuffer, "SCONTEXT %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_INFO, "Decrypt error SCONTEXT, len,received = %d,%d", len, received);
RefuseAccess(conn, "decrypt error SCONTEXT");
return true;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
plainlen = DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
encrypted = true;
if (strncmp(recvbuffer, "CONTEXT", 7) != 0)
{
Log(LOG_LEVEL_INFO, "CONTEXT protocol defect...");
RefuseAccess(conn, "Decryption failed?");
return false;
}
/* roll through, no break */
case PROTOCOL_COMMAND_CONTEXT:
if ((classes = ContextAccessControl(ctx, recvbuffer, conn, encrypted)) == NULL)
{
Log(LOG_LEVEL_INFO, "Context access failure on %s", recvbuffer);
RefuseAccess(conn, recvbuffer);
return false;
}
ReplyServerContext(conn, encrypted, classes);
return true;
case PROTOCOL_COMMAND_QUERY_SECURE:
sscanf(recvbuffer, "SQUERY %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_INFO, "Decrypt error SQUERY");
RefuseAccess(conn, "decrypt error SQUERY");
return true;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
plainlen = DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
if (strncmp(recvbuffer, "QUERY", 5) != 0)
{
Log(LOG_LEVEL_INFO, "QUERY protocol defect");
RefuseAccess(conn, "decryption failure");
return false;
}
if (!LiteralAccessControl(ctx, recvbuffer, conn, true))
{
Log(LOG_LEVEL_INFO, "Query access failure");
RefuseAccess(conn, recvbuffer);
return false;
}
if (GetServerQuery(conn, recvbuffer, true)) /* always encrypt */
{
return true;
}
break;
case PROTOCOL_COMMAND_CALL_ME_BACK:
sscanf(recvbuffer, "SCALLBACK %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_INFO, "Decrypt error CALL_ME_BACK");
RefuseAccess(conn, "decrypt error CALL_ME_BACK");
return true;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
plainlen = DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
if (strncmp(recvbuffer, "CALL_ME_BACK collect_calls", strlen("CALL_ME_BACK collect_calls")) != 0)
{
Log(LOG_LEVEL_INFO, "CALL_ME_BACK protocol defect");
RefuseAccess(conn, "decryption failure");
return false;
}
if (!LiteralAccessControl(ctx, recvbuffer, conn, true))
{
Log(LOG_LEVEL_INFO, "Query access failure");
RefuseAccess(conn, recvbuffer);
return false;
}
if (ReceiveCollectCall(conn))
{
return true;
}
case PROTOCOL_COMMAND_AUTH_PLAIN:
case PROTOCOL_COMMAND_AUTH_SECURE:
case PROTOCOL_COMMAND_AUTH:
case PROTOCOL_COMMAND_CONTEXTS:
case PROTOCOL_COMMAND_BAD:
Log(LOG_LEVEL_WARNING, "Unexpected protocol command");
}
strcpy(sendbuffer, "BAD: Request denied");
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
Log(LOG_LEVEL_INFO, "Closing connection, due to request: '%s'", recvbuffer);
return false;
}
bool BusyWithNewProtocol(EvalContext *ctx, ServerConnectionState *conn)
{
time_t tloc, trem = 0;
char recvbuffer[CF_BUFSIZE + CF_BUFEXT], sendbuffer[CF_BUFSIZE];
char filename[CF_BUFSIZE], args[CF_BUFSIZE], out[CF_BUFSIZE];
long time_no_see = 0;
unsigned int len = 0;
int drift, received;
ServerFileGetState get_args;
Item *classes;
/* We never double encrypt within the TLS layer */
const int encrypted = 0;
memset(recvbuffer, 0, CF_BUFSIZE + CF_BUFEXT);
memset(&get_args, 0, sizeof(get_args));
received = ReceiveTransaction(&conn->conn_info, recvbuffer, NULL);
if (received == -1 || received == 0)
{
return false;
}
if (strlen(recvbuffer) == 0)
{
Log(LOG_LEVEL_WARNING, "Got NULL transmission, skipping!");
return true;
}
/* Don't process request if we're signalled to exit. */
if (IsPendingTermination())
{
return false;
}
switch (GetCommandNew(recvbuffer))
{
case PROTOCOL_COMMAND_EXEC:
memset(args, 0, CF_BUFSIZE);
sscanf(recvbuffer, "EXEC %255[^\n]", args);
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "Server refusal due to incorrect identity");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (!AllowedUser(conn->username))
{
Log(LOG_LEVEL_INFO, "Server refusal due to non-allowed user");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (!conn->rsa_auth)
{
Log(LOG_LEVEL_INFO, "Server refusal due to no RSA authentication");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (!AccessControl(ctx, CommandArg0(CFRUNCOMMAND), conn, false))
{
Log(LOG_LEVEL_INFO, "Server refusal due to denied access to requested object");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (!MatchClasses(ctx, conn))
{
Log(LOG_LEVEL_INFO, "Server refusal due to failed class/context match");
Terminate(&conn->conn_info);
return false;
}
DoExec(ctx, conn, args);
Terminate(&conn->conn_info);
return false;
case PROTOCOL_COMMAND_VERSION:
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
}
snprintf(conn->output, CF_BUFSIZE, "OK: %s", Version());
SendTransaction(&conn->conn_info, conn->output, 0, CF_DONE);
return conn->id_verified;
case PROTOCOL_COMMAND_GET:
memset(filename, 0, CF_BUFSIZE);
sscanf(recvbuffer, "GET %d %[^\n]", &(get_args.buf_size), filename);
if ((get_args.buf_size < 0) || (get_args.buf_size > CF_BUFSIZE))
{
Log(LOG_LEVEL_INFO, "GET buffer out of bounds");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (!AccessControl(ctx, filename, conn, false))
{
Log(LOG_LEVEL_INFO, "Access denied to get object");
RefuseAccess(conn, 0, recvbuffer);
return true;
}
memset(sendbuffer, 0, CF_BUFSIZE);
if (get_args.buf_size >= CF_BUFSIZE)
{
get_args.buf_size = 2048;
}
get_args.connect = conn;
get_args.encrypt = false;
get_args.replybuff = sendbuffer;
get_args.replyfile = filename;
CfGetFile(&get_args);
return true;
case PROTOCOL_COMMAND_OPENDIR:
memset(filename, 0, CF_BUFSIZE);
sscanf(recvbuffer, "OPENDIR %[^\n]", filename);
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (!AccessControl(ctx, filename, conn, true)) /* opendir don't care about privacy */
{
Log(LOG_LEVEL_INFO, "DIR access error");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
CfOpenDirectory(conn, sendbuffer, filename);
return true;
case PROTOCOL_COMMAND_SYNC:
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
memset(filename, 0, CF_BUFSIZE);
sscanf(recvbuffer, "SYNCH %ld STAT %[^\n]", &time_no_see, filename);
trem = (time_t) time_no_see;
if ((time_no_see == 0) || (filename[0] == '\0'))
{
break;
}
if ((tloc = time((time_t *) NULL)) == -1)
{
sprintf(conn->output, "Couldn't read system clock\n");
Log(LOG_LEVEL_INFO, "Couldn't read system clock. (time: %s)", GetErrorStr());
SendTransaction(&conn->conn_info, "BAD: clocks out of synch", 0, CF_DONE);
return true;
}
drift = (int) (tloc - trem);
if (!AccessControl(ctx, filename, conn, true))
{
Log(LOG_LEVEL_VERBOSE, "AccessControl: access denied");
RefuseAccess(conn, 0, recvbuffer);
return true;
}
if (DENYBADCLOCKS && (drift * drift > CLOCK_DRIFT * CLOCK_DRIFT))
{
snprintf(conn->output, CF_BUFSIZE - 1, "BAD: Clocks are too far unsynchronized %ld/%ld\n", (long) tloc,
(long) trem);
SendTransaction(&conn->conn_info, conn->output, 0, CF_DONE);
return true;
}
else
{
Log(LOG_LEVEL_DEBUG, "Clocks were off by %ld", (long) tloc - (long) trem);
StatFile(conn, sendbuffer, filename);
}
return true;
case PROTOCOL_COMMAND_MD5:
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
return true;
}
CompareLocalHash(conn, sendbuffer, recvbuffer);
return true;
case PROTOCOL_COMMAND_VAR:
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
return true;
}
if (!LiteralAccessControl(ctx, recvbuffer, conn, encrypted))
{
Log(LOG_LEVEL_INFO, "Literal access failure");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
GetServerLiteral(ctx, conn, sendbuffer, recvbuffer, encrypted);
return true;
case PROTOCOL_COMMAND_CONTEXT:
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, "Context probe");
return true;
}
if ((classes = ContextAccessControl(ctx, recvbuffer, conn, encrypted)) == NULL)
{
Log(LOG_LEVEL_INFO, "Context access failure on %s", recvbuffer);
RefuseAccess(conn, 0, recvbuffer);
return false;
}
ReplyServerContext(conn, encrypted, classes);
return true;
case PROTOCOL_COMMAND_QUERY:
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
return true;
}
if (!LiteralAccessControl(ctx, recvbuffer, conn, encrypted))
{
Log(LOG_LEVEL_INFO, "Query access failure");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
if (GetServerQuery(conn, recvbuffer, encrypted))
{
return true;
}
break;
case PROTOCOL_COMMAND_CALL_ME_BACK:
sscanf(recvbuffer, "SCALLBACK %u", &len);
if ((len >= sizeof(out)) || (received != (len + CF_PROTO_OFFSET)))
{
Log(LOG_LEVEL_INFO, "Decrypt error CALL_ME_BACK");
RefuseAccess(conn, 0, "decrypt error CALL_ME_BACK");
return true;
}
memcpy(out, recvbuffer + CF_PROTO_OFFSET, len);
DecryptString(conn->encryption_type, out, recvbuffer, conn->session_key, len);
if (strncmp(recvbuffer, "CALL_ME_BACK collect_calls", strlen("CALL_ME_BACK collect_calls")) != 0)
{
Log(LOG_LEVEL_INFO, "CALL_ME_BACK protocol defect");
RefuseAccess(conn, 0, "decryption failure");
return false;
}
if (!conn->id_verified)
{
Log(LOG_LEVEL_INFO, "ID not verified");
RefuseAccess(conn, 0, recvbuffer);
return true;
}
if (!LiteralAccessControl(ctx, recvbuffer, conn, true))
{
Log(LOG_LEVEL_INFO, "Query access failure");
RefuseAccess(conn, 0, recvbuffer);
return false;
}
return ReceiveCollectCall(conn);
case PROTOCOL_COMMAND_BAD:
Log(LOG_LEVEL_WARNING, "Unexpected protocol command: %s", recvbuffer);
}
sprintf(sendbuffer, "BAD: Request denied\n");
SendTransaction(&conn->conn_info, sendbuffer, 0, CF_DONE);
Log(LOG_LEVEL_INFO, "Closing connection, due to request: '%s'", recvbuffer);
return false;
}
bool BusyWithNewProtocol(EvalContext *ctx, ServerConnectionState *conn)
{
/* The CF_BUFEXT extra space is there to ensure we're not reading out of
* bounds in commands that carry extra binary arguments, like MD5. */
char recvbuffer[CF_BUFSIZE + CF_BUFEXT] = { 0 };
char sendbuffer[CF_BUFSIZE] = { 0 };
char filename[CF_BUFSIZE + 1]; /* +1 for appending slash sometimes */
int received;
ServerFileGetState get_args = { 0 };
/* We already encrypt because of the TLS layer, no need to encrypt more. */
const int encrypted = 0;
/* Legacy stuff only for old protocol. */
assert(conn->rsa_auth == 1);
assert(conn->user_data_set == 1);
/* Receive up to CF_BUFSIZE - 1 bytes. */
received = ReceiveTransaction(conn->conn_info, recvbuffer, NULL);
if (received == -1 || received == 0)
{
return false;
}
if (strlen(recvbuffer) == 0)
{
Log(LOG_LEVEL_WARNING, "Got NULL transmission, skipping!");
return true;
}
/* Don't process request if we're signalled to exit. */
if (IsPendingTermination())
{
Log(LOG_LEVEL_VERBOSE, "Server must exit, closing connection");
return false;
}
/* TODO break recvbuffer here: command, param1, param2 etc. */
switch (GetCommandNew(recvbuffer))
{
case PROTOCOL_COMMAND_EXEC:
{
/* TODO check it is always file, never directory, no end with '/' */
char args[256];
int ret = sscanf(recvbuffer, "EXEC %255[^\n]", args);
if (ret != 1) /* No arguments, use default args. */
{
args[0] = '\0';
}
if (!AllowedUser(conn->username))
{
Log(LOG_LEVEL_INFO, "EXEC denied due to not allowed user: %s",
conn->username);
RefuseAccess(conn, recvbuffer);
return true;
}
char arg0[PATH_MAX];
size_t zret = CommandArg0_bound(arg0, CFRUNCOMMAND, sizeof(arg0));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(arg0, sizeof(arg0));
if (zret == (size_t) -1)
{
goto protocol_error;
}
/* TODO EXEC should not just use paths_acl access control, but
* specific "path_exec" ACL. Then different command execution could be
* allowed per host, and the host could even set argv[0] in his EXEC
* request, rather than only the arguments. */
if (acl_CheckPath(paths_acl, arg0,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "EXEC denied due to ACL for file: %s", arg0);
RefuseAccess(conn, recvbuffer);
return true;
}
if (!MatchClasses(ctx, conn))
{
Log(LOG_LEVEL_INFO, "EXEC denied due to failed class match");
Terminate(conn->conn_info);
return true;
}
DoExec(ctx, conn, args);
Terminate(conn->conn_info);
return true;
}
case PROTOCOL_COMMAND_VERSION:
snprintf(sendbuffer, sizeof(sendbuffer), "OK: %s", Version());
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return true;
case PROTOCOL_COMMAND_GET:
{
int ret = sscanf(recvbuffer, "GET %d %[^\n]",
&(get_args.buf_size), filename);
if (ret != 2 ||
get_args.buf_size <= 0 || get_args.buf_size > CF_BUFSIZE)
{
goto protocol_error;
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "GET", filename);
/* TODO batch all the following in one function since it's very
* similar in all of GET, OPENDIR and STAT. */
size_t zret = ShortcutsExpand(filename, sizeof(filename),
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename));
if (zret == (size_t) -1)
{
goto protocol_error;
}
PathRemoveTrailingSlash(filename, strlen(filename));
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "GET", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to GET: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
memset(sendbuffer, 0, sizeof(sendbuffer));
if (get_args.buf_size >= CF_BUFSIZE)
{
get_args.buf_size = 2048;
}
/* TODO eliminate! */
get_args.conn = conn;
get_args.encrypt = false;
get_args.replybuff = sendbuffer;
get_args.replyfile = filename;
CfGetFile(&get_args);
return true;
}
case PROTOCOL_COMMAND_OPENDIR:
{
memset(filename, 0, sizeof(filename));
int ret = sscanf(recvbuffer, "OPENDIR %[^\n]", filename);
if (ret != 1)
{
goto protocol_error;
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "OPENDIR", filename);
/* sizeof()-1 because we need one extra byte for
appending '/' afterwards. */
size_t zret = ShortcutsExpand(filename, sizeof(filename) - 1,
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename) - 1);
if (zret == (size_t) -1)
{
goto protocol_error;
}
/* OPENDIR *must* be directory. */
PathAppendTrailingSlash(filename, strlen(filename));
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "OPENDIR", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to OPENDIR: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
CfOpenDirectory(conn, sendbuffer, filename);
return true;
}
case PROTOCOL_COMMAND_SYNCH:
{
long time_no_see = 0;
memset(filename, 0, sizeof(filename));
int ret = sscanf(recvbuffer, "SYNCH %ld STAT %[^\n]",
&time_no_see, filename);
if (ret != 2 || filename[0] == '\0')
{
goto protocol_error;
}
time_t tloc = time(NULL);
if (tloc == -1)
{
/* Should never happen. */
Log(LOG_LEVEL_ERR, "Couldn't read system clock. (time: %s)", GetErrorStr());
SendTransaction(conn->conn_info, "BAD: clocks out of synch", 0, CF_DONE);
return true;
}
time_t trem = (time_t) time_no_see;
int drift = (int) (tloc - trem);
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "STAT", filename);
/* sizeof()-1 because we need one extra byte for
appending '/' afterwards. */
size_t zret = ShortcutsExpand(filename, sizeof(filename) - 1,
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename) - 1);
if (zret == (size_t) -1)
{
RefuseAccess(conn, recvbuffer);
return true;
}
if (IsDirReal(filename) == 1)
{
PathAppendTrailingSlash(filename, strlen(filename));
}
else
{
PathRemoveTrailingSlash(filename, strlen(filename));
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "STAT", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to STAT: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
if (DENYBADCLOCKS && (drift * drift > CLOCK_DRIFT * CLOCK_DRIFT))
{
snprintf(sendbuffer, sizeof(sendbuffer),
"BAD: Clocks are too far unsynchronized %ld/%ld",
(long) tloc, (long) trem);
Log(LOG_LEVEL_INFO, "denybadclocks %s", sendbuffer);
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return true;
}
else
{
Log(LOG_LEVEL_DEBUG, "Clocks were off by %ld", (long) tloc - (long) trem);
StatFile(conn, sendbuffer, filename);
}
return true;
}
case PROTOCOL_COMMAND_MD5:
{
int ret = sscanf(recvbuffer, "MD5 %[^\n]", filename);
if (ret != 1)
{
goto protocol_error;
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "MD5", filename);
/* TODO batch all the following in one function since it's very
* similar in all of GET, OPENDIR and STAT. */
size_t zret = ShortcutsExpand(filename, sizeof(filename),
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename));
if (zret == (size_t) -1)
{
goto protocol_error;
}
PathRemoveTrailingSlash(filename, strlen(filename));
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "MD5", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to file: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
assert(CF_DEFAULT_DIGEST_LEN <= EVP_MAX_MD_SIZE);
unsigned char digest[EVP_MAX_MD_SIZE + 1];
assert(CF_BUFSIZE + CF_SMALL_OFFSET + CF_DEFAULT_DIGEST_LEN
<= sizeof(recvbuffer));
memcpy(digest, recvbuffer + strlen(recvbuffer) + CF_SMALL_OFFSET,
CF_DEFAULT_DIGEST_LEN);
CompareLocalHash(filename, digest, sendbuffer);
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return true;
}
case PROTOCOL_COMMAND_VAR:
{
char var[256];
int ret = sscanf(recvbuffer, "VAR %255[^\n]", var);
if (ret != 1)
{
goto protocol_error;
}
/* TODO if this is literals_acl, then when should I check vars_acl? */
if (acl_CheckExact(literals_acl, var,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to variable: %s", var);
RefuseAccess(conn, recvbuffer);
return true;
}
GetServerLiteral(ctx, conn, sendbuffer, recvbuffer, encrypted);
return true;
}
case PROTOCOL_COMMAND_CONTEXT:
{
char client_regex[256];
int ret = sscanf(recvbuffer, "CONTEXT %255[^\n]", client_regex);
if (ret != 1)
{
goto protocol_error;
}
/* WARNING: this comes from legacy code and must be killed if we care
* about performance. We should not accept regular expressions from
* the client, but this will break backwards compatibility.
*
* I replicated the code in raw form here to emphasize complexity,
* it's the only *slow* command currently in the protocol. */
Item *persistent_classes = ListPersistentClasses();
Item *matched_classes = NULL;
/* For all persistent classes */
for (Item *ip = persistent_classes; ip != NULL; ip = ip->next)
{
const char *class_name = ip->name;
/* Does this class match the regex the client sent? */
if (StringMatchFull(client_regex, class_name))
{
/* For all ACLs */
for (size_t i = 0; i < classes_acl->len; i++)
{
struct resource_acl *racl = &classes_acl->acls[i];
/* Does this ACL apply to this host? */
if (access_CheckResource(racl, conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== true)
{
const char *allowed_classes_regex =
classes_acl->resource_names->list[i]->str;
/* Does this ACL admits access for this class to the
* connected host? */
if (StringMatchFull(allowed_classes_regex, class_name))
{
PrependItem(&matched_classes, class_name, NULL);
}
}
}
}
}
if (matched_classes == NULL)
{
Log(LOG_LEVEL_INFO,
"No allowed classes for remoteclassesmatching: %s",
client_regex);
RefuseAccess(conn, recvbuffer);
return true;
}
ReplyServerContext(conn, encrypted, matched_classes);
return true;
}
case PROTOCOL_COMMAND_QUERY:
{
char query[256], name[128];
int ret1 = sscanf(recvbuffer, "QUERY %255[^\n]", query);
int ret2 = sscanf(recvbuffer, "QUERY %127s", name);
if (ret1 != 1 || ret2 != 1)
{
goto protocol_error;
}
if (acl_CheckExact(query_acl, name,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to query: %s", query);
RefuseAccess(conn, recvbuffer);
return true;
}
if (GetServerQuery(conn, recvbuffer, encrypted))
{
return true;
}
break;
}
case PROTOCOL_COMMAND_CALL_ME_BACK:
if (acl_CheckExact(query_acl, "collect_calls",
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO,
"access denied to Call-Collect, check the ACL for class: collect_calls");
return false;
}
ReceiveCollectCall(conn);
/* On success that returned true; otherwise, it did all
* relevant Log()ging. Either way, it closed the connection,
* so we're no longer busy with it: */
return false;
case PROTOCOL_COMMAND_BAD:
Log(LOG_LEVEL_WARNING, "Unexpected protocol command: %s", recvbuffer);
}
/* We should only reach this point if something went really bad, and
* close connection. In all other cases (like access denied) connection
* shouldn't be closed.
* TODO So we need this function to return more than true/false, because
* now we return true even when access is denied! E.g. return -1 for
* error, 0 on success, 1 on access denied. It can be an option if
* connection will close on denial. */
protocol_error:
strcpy(sendbuffer, "BAD: Request denied");
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
Log(LOG_LEVEL_INFO, "Closing connection due to request: %s", recvbuffer);
return false;
}
/**
* Currently this function returns false when we want the connection
* closed, and true, when we want to proceed further with requests.
*
* @TODO So we need this function to return more than true/false, because now
* we return true even when access is denied! E.g. return -1 for error, 0 on
* success, 1 on access denied. It can be an option if connection will close
* on denial.
*/
bool BusyWithNewProtocol(EvalContext *ctx, ServerConnectionState *conn)
{
/* The CF_BUFEXT extra space is there to ensure we're not *reading* out of
* bounds in commands that carry extra binary arguments, like MD5. */
char recvbuffer[CF_BUFSIZE + CF_BUFEXT] = { 0 };
/* This size is the max we can SendTransaction(). */
char sendbuffer[CF_BUFSIZE - CF_INBAND_OFFSET] = { 0 };
char filename[CF_BUFSIZE + 1]; /* +1 for appending slash sometimes */
ServerFileGetState get_args = { 0 };
/* We already encrypt because of the TLS layer, no need to encrypt more. */
const int encrypted = 0;
/* Legacy stuff only for old protocol. */
assert(conn->rsa_auth == 1);
assert(conn->user_data_set == 1);
/* Receive up to CF_BUFSIZE - 1 bytes. */
const int received = ReceiveTransaction(conn->conn_info,
recvbuffer, NULL);
if (received == -1)
{
/* Already Log()ged in case of error. */
return false;
}
if (received > CF_BUFSIZE - 1)
{
UnexpectedError("Received transaction of size %d", received);
return false;
}
if (strlen(recvbuffer) == 0)
{
Log(LOG_LEVEL_WARNING,
"Got NULL transmission (of size %d)", received);
return true;
}
/* Don't process request if we're signalled to exit. */
if (IsPendingTermination())
{
Log(LOG_LEVEL_VERBOSE, "Server must exit, closing connection");
return false;
}
/* TODO break recvbuffer here: command, param1, param2 etc. */
switch (GetCommandNew(recvbuffer))
{
case PROTOCOL_COMMAND_EXEC:
{
const size_t EXEC_len = strlen(PROTOCOL_NEW[PROTOCOL_COMMAND_EXEC]);
/* Assert recvbuffer starts with EXEC. */
assert(strncmp(PROTOCOL_NEW[PROTOCOL_COMMAND_EXEC],
recvbuffer, EXEC_len) == 0);
char *args = &recvbuffer[EXEC_len];
args += strspn(args, " \t"); /* bypass spaces */
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "EXEC", args);
bool b = DoExec2(ctx, conn, args,
sendbuffer, sizeof(sendbuffer));
/* In the end we might keep the connection open (return true) to be
* ready for next requests, but we must always send the TERMINATOR
* string so that the client can close the connection at will. */
Terminate(conn->conn_info);
return b;
}
case PROTOCOL_COMMAND_VERSION:
snprintf(sendbuffer, sizeof(sendbuffer), "OK: %s", Version());
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return true;
case PROTOCOL_COMMAND_GET:
{
int ret = sscanf(recvbuffer, "GET %d %[^\n]",
&(get_args.buf_size), filename);
if (ret != 2 ||
get_args.buf_size <= 0 || get_args.buf_size > CF_BUFSIZE)
{
goto protocol_error;
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "GET", filename);
/* TODO batch all the following in one function since it's very
* similar in all of GET, OPENDIR and STAT. */
size_t zret = ShortcutsExpand(filename, sizeof(filename),
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename));
if (zret == (size_t) -1)
{
RefuseAccess(conn, recvbuffer);
return true;
}
PathRemoveTrailingSlash(filename, strlen(filename));
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "GET", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to GET: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
memset(sendbuffer, 0, sizeof(sendbuffer));
if (get_args.buf_size >= CF_BUFSIZE)
{
get_args.buf_size = 2048;
}
/* TODO eliminate! */
get_args.conn = conn;
get_args.encrypt = false;
get_args.replybuff = sendbuffer;
get_args.replyfile = filename;
CfGetFile(&get_args);
return true;
}
case PROTOCOL_COMMAND_OPENDIR:
{
memset(filename, 0, sizeof(filename));
int ret = sscanf(recvbuffer, "OPENDIR %[^\n]", filename);
if (ret != 1)
{
goto protocol_error;
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "OPENDIR", filename);
/* sizeof()-1 because we need one extra byte for
appending '/' afterwards. */
size_t zret = ShortcutsExpand(filename, sizeof(filename) - 1,
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename) - 1);
if (zret == (size_t) -1)
{
RefuseAccess(conn, recvbuffer);
return true;
}
/* OPENDIR *must* be directory. */
PathAppendTrailingSlash(filename, strlen(filename));
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "OPENDIR", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to OPENDIR: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
CfOpenDirectory(conn, sendbuffer, filename);
return true;
}
case PROTOCOL_COMMAND_SYNCH:
{
long time_no_see = 0;
memset(filename, 0, sizeof(filename));
int ret = sscanf(recvbuffer, "SYNCH %ld STAT %[^\n]",
&time_no_see, filename);
if (ret != 2 || filename[0] == '\0')
{
goto protocol_error;
}
time_t tloc = time(NULL);
if (tloc == -1)
{
/* Should never happen. */
Log(LOG_LEVEL_ERR, "Couldn't read system clock. (time: %s)", GetErrorStr());
SendTransaction(conn->conn_info, "BAD: clocks out of synch", 0, CF_DONE);
return true;
}
time_t trem = (time_t) time_no_see;
int drift = (int) (tloc - trem);
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "STAT", filename);
/* sizeof()-1 because we need one extra byte for
appending '/' afterwards. */
size_t zret = ShortcutsExpand(filename, sizeof(filename) - 1,
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename) - 1);
if (zret == (size_t) -1)
{
RefuseAccess(conn, recvbuffer);
return true;
}
if (IsDirReal(filename) == 1)
{
PathAppendTrailingSlash(filename, strlen(filename));
}
else
{
PathRemoveTrailingSlash(filename, strlen(filename));
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "STAT", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to STAT: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
Log(LOG_LEVEL_DEBUG, "Clocks were off by %ld",
(long) tloc - (long) trem);
if (DENYBADCLOCKS && (drift * drift > CLOCK_DRIFT * CLOCK_DRIFT))
{
snprintf(sendbuffer, sizeof(sendbuffer),
"BAD: Clocks are too far unsynchronized %ld/%ld",
(long) tloc, (long) trem);
Log(LOG_LEVEL_INFO, "denybadclocks %s", sendbuffer);
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return true;
}
StatFile(conn, sendbuffer, filename);
return true;
}
case PROTOCOL_COMMAND_MD5:
{
int ret = sscanf(recvbuffer, "MD5 %[^\n]", filename);
if (ret != 1)
{
goto protocol_error;
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "MD5", filename);
/* TODO batch all the following in one function since it's very
* similar in all of GET, OPENDIR and STAT. */
size_t zret = ShortcutsExpand(filename, sizeof(filename),
SV.path_shortcuts,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)));
if (zret == (size_t) -1)
{
goto protocol_error;
}
zret = PreprocessRequestPath(filename, sizeof(filename));
if (zret == (size_t) -1)
{
RefuseAccess(conn, recvbuffer);
return true;
}
PathRemoveTrailingSlash(filename, strlen(filename));
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Translated to:", "MD5", filename);
if (acl_CheckPath(paths_acl, filename,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to file: %s", filename);
RefuseAccess(conn, recvbuffer);
return true;
}
assert(CF_DEFAULT_DIGEST_LEN <= EVP_MAX_MD_SIZE);
unsigned char digest[EVP_MAX_MD_SIZE + 1];
assert(CF_BUFSIZE + CF_SMALL_OFFSET + CF_DEFAULT_DIGEST_LEN
<= sizeof(recvbuffer));
memcpy(digest, recvbuffer + strlen(recvbuffer) + CF_SMALL_OFFSET,
CF_DEFAULT_DIGEST_LEN);
CompareLocalHash(filename, digest, sendbuffer);
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
return true;
}
case PROTOCOL_COMMAND_VAR:
{
char var[256];
int ret = sscanf(recvbuffer, "VAR %255[^\n]", var);
if (ret != 1)
{
goto protocol_error;
}
/* TODO if this is literals_acl, then when should I check vars_acl? */
if (acl_CheckExact(literals_acl, var,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to variable: %s", var);
RefuseAccess(conn, recvbuffer);
return true;
}
GetServerLiteral(ctx, conn, sendbuffer, recvbuffer, encrypted);
return true;
}
case PROTOCOL_COMMAND_CONTEXT:
{
char client_regex[256];
int ret = sscanf(recvbuffer, "CONTEXT %255[^\n]", client_regex);
if (ret != 1)
{
goto protocol_error;
}
Log(LOG_LEVEL_VERBOSE, "%14s %7s %s",
"Received:", "CONTEXT", client_regex);
/* WARNING: this comes from legacy code and must be killed if we care
* about performance. We should not accept regular expressions from
* the client, but this will break backwards compatibility.
*
* I replicated the code in raw form here to emphasize complexity,
* it's the only *slow* command currently in the protocol. */
Item *persistent_classes = ListPersistentClasses();
Item *matched_classes = NULL;
/* For all persistent classes */
for (Item *ip = persistent_classes; ip != NULL; ip = ip->next)
{
const char *class_name = ip->name;
/* Does this class match the regex the client sent? */
if (StringMatchFull(client_regex, class_name))
{
/* Is this class allowed to be given to the specific
* host, according to the regexes in the ACLs? */
if (acl_CheckRegex(classes_acl, class_name,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)),
NULL)
== true)
{
Log(LOG_LEVEL_DEBUG, "Access granted to class: %s",
class_name);
PrependItem(&matched_classes, class_name, NULL);
}
}
}
if (matched_classes == NULL)
{
Log(LOG_LEVEL_INFO,
"No allowed classes for remoteclassesmatching: %s",
client_regex);
RefuseAccess(conn, recvbuffer);
return true;
}
ReplyServerContext(conn, encrypted, matched_classes);
return true;
}
case PROTOCOL_COMMAND_QUERY:
{
char query[256], name[128];
int ret1 = sscanf(recvbuffer, "QUERY %255[^\n]", query);
int ret2 = sscanf(recvbuffer, "QUERY %127s", name);
if (ret1 != 1 || ret2 != 1)
{
goto protocol_error;
}
if (acl_CheckExact(query_acl, name,
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO, "access denied to query: %s", query);
RefuseAccess(conn, recvbuffer);
return true;
}
if (GetServerQuery(conn, recvbuffer, encrypted))
{
return true;
}
break;
}
case PROTOCOL_COMMAND_CALL_ME_BACK:
/* Server side, handing the collect call off to cf-hub. */
if (acl_CheckExact(query_acl, "collect_calls",
conn->ipaddr, conn->revdns,
KeyPrintableHash(ConnectionInfoKey(conn->conn_info)))
== false)
{
Log(LOG_LEVEL_INFO,
"access denied to Call-Collect, check the ACL for class: collect_calls");
return false;
}
ReceiveCollectCall(conn);
/* On success that returned true; otherwise, it did all
* relevant Log()ging. Either way, we're no longer busy with
* it and our caller can close the connection: */
return false;
case PROTOCOL_COMMAND_BAD:
Log(LOG_LEVEL_WARNING, "Unexpected protocol command: %s", recvbuffer);
}
/* We should only reach this point if something went really bad, and
* close connection. In all other cases (like access denied) connection
* shouldn't be closed.
*/
protocol_error:
strcpy(sendbuffer, "BAD: Request denied");
SendTransaction(conn->conn_info, sendbuffer, 0, CF_DONE);
Log(LOG_LEVEL_INFO,
"Closing connection due to illegal request: %s", recvbuffer);
return false;
}
