-#include "sms_private.h"
-
-/*
- * GDB operations to send and recieve RPC requests and replies.
- */
-
-static sms_abort_send() {}
-static sms_abort_recv() {}
-
-/*
- * This doesn't get called until after the actual buffered write completes.
- * In a non-preflattening version of this, this would then queue the
- * write of the next bunch of data.
- */
-
-static sms_cont_send(op, hcon, arg)
- OPERATION op;
- HALF_CONNECTION hcon;
- struct sms_params *arg;
-{
- op->result = OP_SUCCESS;
- db_free(arg->sms_flattened, arg->sms_size);
-#ifdef notdef
- db_free(arg, sizeof(struct sms_params));
-#endif notdef
- return OP_COMPLETE;
-}
-
-sms_start_send(op, hcon, arg)
- OPERATION op;
- HALF_CONNECTION hcon;
- register struct sms_params *arg;
-{
- int sms_size, i, len;
- int *argl;
- char *buf, *bp;
-
- /*
- * This should probably be split into several routines.
- * It could also probably be made more efficient (punting most
- * of the argument marshalling stuff) by doing I/O directly
- * from the strings. Anyone for a scatter/gather sms_send_data?
- *
- * that would look a lot like the uio stuff in the kernel.. hmm.
- */
-
- /*
- * Marshall the entire data right now..
- * We are sending the version number,
- * total request size, request number,
- * argument count, and then each argument.
- * At least for now, each argument is a string, which is
- * sent as a count of bytes followed by the bytes
- * (including the trailing '\0'), padded
- * to a longword boundary.
- */
-
- sms_size = 4 * sizeof(long);
-
- argl = (int *)malloc(sizeof(int) * arg->sms_argc);
-
- /*
- * For each argument, figure out how much space is needed.
- */
-
- for (i = 0; i < arg->sms_argc; ++i) {
- if (arg->sms_argl)
- argl[i] = len = arg->sms_argl[i];
- else
- argl[i] = len = strlen(arg->sms_argv[i]) + 1;
- sms_size += sizeof(long) + len;
- sms_size += sizeof(long) * howmany(sms_size, sizeof(long));
- }
-
- arg->sms_flattened = buf = db_alloc(sms_size);
-
- bzero(arg->sms_flattened, sms_size);
-
- arg->sms_size = sms_size;
-
- /*
- * This is gross. Any better suggestions, anyone?
- * It should work on the RT's, since malloc is guaranteed to
- * return a pointer which is aligned correctly for any data.
- */
-
- ((long *)buf)[0] = htonl(sms_size);
- ((long *)buf)[1] = htonl(SMS_VERSION_1);
- ((long *)buf)[2] = htonl(arg->sms_procno);
- ((long *)buf)[3] = htonl(arg->sms_argc);
-
- /*
- * bp is a pointer into the point in the buffer to put
- * the next argument.
- */
-
- bp = (char *)(((long *)buf) + 4);
-
- for (i = 0; i<arg->sms_argc; ++i) {
- len = argl[i];
- *((long *)bp) = htonl(len);
- bp += sizeof(long);
- bcopy(arg->sms_argv[i], bp, len);
- bp += sizeof(long) * howmany(len, sizeof(long));
- }
- op->fcn.cont = sms_cont_send;
- arg->sms_size = sms_size;
-
- if (gdb_send_data(hcon, arg->sms_flattened, sms_size) == OP_COMPLETE)
- return sms_cont_send(op, hcon, arg);
- else return OP_RUNNING;
-}
-
-static sms_cont_recv(op, hcon, argp)
- OPERATION op;
- HALF_CONNECTION hcon;
- sms_params **argp;
-{
- int done = FALSE;
- char *cp;
- int *ip;
- int i;
- register sms_params *arg = *argp;
-
- while (!done) {
- switch (arg->sms_state) {
- case S_RECV_START:
- arg->sms_state = S_RECV_DATA;
- if (gdb_receive_data(hcon, (caddr_t)&arg->sms_size,
- sizeof(long)) == OP_COMPLETE)
- continue;
- done = TRUE;
- break;
- case S_RECV_DATA:
- /* Should validate that length is reasonable */
- arg->sms_size = ntohl(arg->sms_size);
- arg->sms_flattened = db_alloc(arg->sms_size);
- arg->sms_state = S_DECODE_DATA;
- bcopy((caddr_t)&arg->sms_size, arg->sms_flattened, sizeof(long));
-
- if (gdb_receive_data(hcon,
- arg->sms_flattened + sizeof(long),
- arg->sms_size - sizeof(long))
- == OP_COMPLETE)
- continue;
- done = TRUE;
- break;
- case S_DECODE_DATA:
- cp = arg->sms_flattened;
- ip = (int *) cp;
- /* we already got the overall length.. */
- for(i=1; i <4; i++) ip[i] = ntohl(ip[i]);
- if (ip[1] != SMS_VERSION_1)
- arg->sms_status = SMS_VERSION_MISMATCH;
- else arg->sms_status = ip[2];
- arg->sms_argc = ip[3];
- cp += 4 * sizeof(int);
- arg->sms_argv=(char **)db_alloc(arg->sms_argc *sizeof(char **));
- arg->sms_argl=(int *)db_alloc(arg->sms_argc *sizeof(int *));
-
- for (i = 0; i<arg->sms_argc; ++i) {
- int nlen = ntohl(* (int *) cp);
- cp += sizeof (long);
- arg->sms_argv[i] = (char *)db_alloc(nlen);
- bcopy(cp, arg->sms_argv[i], nlen);
- arg->sms_argl[i]=nlen;
- cp += sizeof(long) *
- howmany(nlen, sizeof(long));
- }
- return OP_COMPLETE;
- }
- }
- return OP_RUNNING;
-}
-
-
-sms_start_recv(op, hcon, argp)
- OPERATION op;
- HALF_CONNECTION hcon;
- struct sms_params **argp;
-{
- register sms_params *arg = *argp;
- if (!arg) {
- *argp = arg = (sms_params *)db_alloc(sizeof(sms_params));
- }
- arg->sms_state = S_RECV_START;
- op->fcn.cont = sms_cont_recv;
- return sms_cont_recv(op, hcon, argp);
-}
-
-sms_do_call(parms, reply)
- struct sms_params *parms;
- struct sms_params **reply;
-{
- if (!_sms_conn)
- return SMS_NOT_CONNECTED;
-
- if (!_sms_send_op)
- _sms_send_op = create_operation();
-
- if (!_sms_recv_op)
- _sms_recv_op = create_operation();
-
- gdb_inop(_sms_send_op, sms_start_send, parms, sms_abort_send);
- gdb_qop(_sms_conn, CON_OUTPUT, _sms_send_op);
-
- gdb_inop(_sms_recv_op, sms_start_recv, reply, sms_abort_recv);
- gdb_qop(_sms_conn, CON_INPUT, _sms_recv_op);
-
- /* Block until operation done. */
- gdb_cmpo(_sms_send_op);
- gdb_cmpo(_sms_recv_op);
- /* Look at results */
- if (OP_STATUS(_sms_recv_op) != OP_COMPLETE) {
- return SMS_ABORTED;
- }
- return 0;
-}