*
* \brief Message test.
*
- * \version $Id$
*
* \author Daniele Basile <asterix@develer.com>
+ *
+ * $test$: cp bertos/cfg/cfg_proc.h $cfgdir/
+ * $test$: echo "#undef CONFIG_KERN" >> $cfgdir/cfg_proc.h
+ * $test$: echo "#define CONFIG_KERN 1" >> $cfgdir/cfg_proc.h
+ * $test$: cp bertos/cfg/cfg_signal.h $cfgdir/
+ * $test$: echo "#undef CONFIG_KERN_SIGNALS" >> $cfgdir/cfg_signal.h
+ * $test$: echo "#define CONFIG_KERN_SIGNALS 1" >> $cfgdir/cfg_signal.h
*/
-#include <cfg/cfg_timer.h>
+#include "cfg/cfg_timer.h"
#include <cfg/debug.h>
#include <cfg/test.h>
#include <cfg/compiler.h>
#include <kern/msg.h>
#include <kern/proc.h>
-#include <kern/irq.h>
+#include <kern/signal.h>
+
+#include <mware/event.h>
#include <drv/timer.h>
+/*
+ * In the nightly build test, signals are disables, so this
+ * code won't compile.
+ * Since this code is used when we run "make check" it will be
+ * compiled and therefor tested there.
+ */
+#if CONFIG_KERN_SIGNALS
-// Our message port.
-static MsgPort test_port;
-// A test message with two parameters and a result.
+// Global settings for the test.
+#define MAX_GLOBAL_COUNT 11040
+#define TEST_TIME_OUT_MS 5000
+#define DELAY 5
+
+// Settings for the test message.
+//Process 0
+#define INC_PROC_T0 1
+#define DELAY_PROC_T0 INC_PROC_T0*DELAY
+//Process 1
+#define INC_PROC_T1 3
+#define DELAY_PROC_T1 INC_PROC_T1*DELAY
+//Process 2
+#define INC_PROC_T2 5
+#define DELAY_PROC_T2 INC_PROC_T2*DELAY
+//Process 3
+#define INC_PROC_T3 7
+#define DELAY_PROC_T3 INC_PROC_T3*DELAY
+//Process 4
+#define INC_PROC_T4 11
+#define DELAY_PROC_T4 INC_PROC_T4*DELAY
+//Process 5
+#define INC_PROC_T5 13
+#define DELAY_PROC_T5 INC_PROC_T5*DELAY
+
+/*
+ * These macros generate the code needed to create the test process functions.
+ */
+#define RECV_PROC(num, sig) \
+static NORETURN void receiver_proc##num(void) \
+{ \
+ TestMsg *rec_msg; \
+ for(;;) \
+ { \
+ sig_wait(sig); \
+ kprintf("Proc[%d]..get message\n", num); \
+ rec_msg = containerof(msg_get(&test_port##num), TestMsg, msg); \
+ timer_delay(rec_msg->delay); \
+ rec_msg->result += rec_msg->val; \
+ kprintf("Proc[%d]..process message val[%d],delay[%d],res[%d]\n", num, rec_msg->val, rec_msg->delay, rec_msg->result); \
+ msg_reply(&rec_msg->msg); \
+ process_num++; \
+ kprintf("Proc[%d] reply\n", num); \
+ } \
+}
+
+#define SEND_MSG(num) \
+ do { \
+ kprintf("Main send message to proc[%d]\n", num); \
+ msg##num.msg.replyPort = &test_portMain; \
+ msg_put(&test_port##num, &msg##num.msg); \
+ } while(0)
+
+#define RECV_STACK(num) PROC_DEFINE_STACK(receiver_stack##num, KERN_MINSTACKSIZE * 2)
+#define RECV_INIT_PROC(num) proc_new(receiver_proc##num, NULL, sizeof(receiver_stack##num), receiver_stack##num)
+#define RECV_INIT_MSG(num, proc, sig) msg_initPort(&test_port##num, event_createSignal(proc, sig))
+
+// A test message with the parameters and a result.
typedef struct
{
Msg msg;
- int x, y;
+ int val;
+ int delay;
int result;
} TestMsg;
+// Global count to check if the test is going ok.
+static int count = 0;
+static int process_num;
+
+// Our message port.
+static MsgPort test_port0;
+static MsgPort test_port1;
+static MsgPort test_port2;
+static MsgPort test_port3;
+static MsgPort test_port4;
+static MsgPort test_port5;
+
+/*
+ * Generate the process to test message.
+ */
+RECV_PROC(0, SIG_USER0)
+RECV_PROC(1, SIG_USER1)
+RECV_PROC(2, SIG_USER2)
+RECV_PROC(3, SIG_USER3)
+RECV_PROC(4, SIG_SYSTEM5)
+RECV_PROC(5, SIG_SYSTEM6)
+/*
+ * These signal are already use from
+ * main process and the sig_waitWithTimeout functions, so we don't
+ * use it.
+ *
+ * RECV_PROC(6, SIG_SINGLE)
+ * RECV_PROC(7, SIG_TIMEOUT)
+ */
+
+RECV_STACK(0);
+RECV_STACK(1);
+RECV_STACK(2);
+RECV_STACK(3);
+RECV_STACK(4);
+RECV_STACK(5);
-// Receive messages and do something boring with them.
-static void receiver_proc(void)
+/*
+ * Help function to fill the message to send
+ */
+static void fill_msg(TestMsg *msg, int val, int delay, int res)
{
- TestMsg *rec_msg;
- for (;;)
- {
- kprintf("Proc[%d]..\n", 1);
- sig_wait(SIG_SINGLE);
- kprintf("Proc[%d] get message\n", 1);
- rec_msg = containerof(msg_get(&test_port), TestMsg, msg);
- // Do something with the message
- rec_msg->result = rec_msg->x + rec_msg->y;
- kprintf("Proc[%d] process message x[%d],y[%d],res[%d]\n", 1, rec_msg->x, rec_msg->y, rec_msg->result);
- msg_reply(&rec_msg->msg);
- kprintf("Proc[%d] reply\n", 1);
- }
+ msg->val = val;
+ msg->delay = delay;
+ msg->result = res;
}
-static cpu_stack_t receiver_stack[CONFIG_KERN_MINSTACKSIZE / sizeof(cpu_stack_t)];
-
/**
* Run signal test
*/
int msg_testRun(void)
{
- kprintf("Run Message test..\n");
-
- MsgPort test_reply_port;
+ MsgPort test_portMain;
+ TestMsg msg0;
TestMsg msg1;
+ TestMsg msg2;
+ TestMsg msg3;
+ TestMsg msg4;
+ TestMsg msg5;
TestMsg *reply;
- struct Process *recv = proc_new(receiver_proc, NULL, sizeof(receiver_stack), receiver_stack);
- msg_initPort(&test_port, event_createSignal(recv, SIG_SINGLE));
- msg_initPort(&test_reply_port, event_createSignal(proc_current(), SIG_SINGLE));
+ // Allocate and start the test process
+ struct Process *recv0 = RECV_INIT_PROC(0);
+ struct Process *recv1 = RECV_INIT_PROC(1);
+ struct Process *recv2 = RECV_INIT_PROC(2);
+ struct Process *recv3 = RECV_INIT_PROC(3);
+ struct Process *recv4 = RECV_INIT_PROC(4);
+ struct Process *recv5 = RECV_INIT_PROC(5);
+
+ kprintf("Run Message test..\n");
+
+ // Init port and message
+ RECV_INIT_MSG(Main, proc_current(), SIG_SINGLE);
+ RECV_INIT_MSG(0, recv0, SIG_USER0);
+ RECV_INIT_MSG(1, recv1, SIG_USER1);
+ RECV_INIT_MSG(2, recv2, SIG_USER2);
+ RECV_INIT_MSG(3, recv3, SIG_USER3);
+ RECV_INIT_MSG(4, recv4, SIG_SYSTEM5);
+ RECV_INIT_MSG(5, recv5, SIG_SYSTEM6);
// Fill-in first message and send it out.
- msg1.x = 3;
- msg1.y = 2;
- kprintf("invio il msg..\n");
- msg1.msg.replyPort = &test_reply_port;
- msg_put(&test_port, &msg1.msg);
-
- // Wait for a reply...
- kprintf("prima sig wait..\n");
- sig_wait(SIG_SINGLE);
- kprintf("dopo sig wait..\n");
- reply = containerof(msg_get(&test_reply_port), TestMsg, msg);
- ASSERT(reply != NULL);
- ASSERT(reply->result == 5);
+ fill_msg(&msg0, INC_PROC_T0, DELAY_PROC_T0, 0);
+ fill_msg(&msg1, INC_PROC_T1, DELAY_PROC_T1, 0);
+ fill_msg(&msg2, INC_PROC_T2, DELAY_PROC_T2, 0);
+ fill_msg(&msg3, INC_PROC_T3, DELAY_PROC_T3, 0);
+ fill_msg(&msg4, INC_PROC_T4, DELAY_PROC_T4, 0);
+ fill_msg(&msg5, INC_PROC_T5, DELAY_PROC_T5, 0);
- return 0;
+
+ // Send and wait the message
+ for (int i = 0; i < 23; ++i)
+ {
+ process_num = 0;
+ SEND_MSG(0);
+ SEND_MSG(1);
+ SEND_MSG(2);
+ SEND_MSG(3);
+ SEND_MSG(4);
+ SEND_MSG(5);
+ while(1)
+ {
+ sigmask_t sigs = sig_waitTimeout(SIG_SINGLE, ms_to_ticks(TEST_TIME_OUT_MS));
+ if (sigs & SIG_SINGLE)
+ {
+ // Wait for a reply...
+ while ((reply = (TestMsg *)msg_get(&test_portMain)))
+ {
+ count += reply->result;
+ kprintf("Main recv[%d] count[%d]\n", reply->result, count);
+ }
+ }
+
+ if (process_num == 6)
+ break;
+
+ if (sigs & SIG_TIMEOUT)
+ {
+ kputs("Main: sig timeout\n");
+ goto error;
+ }
+ }
+ }
+
+ if(count == MAX_GLOBAL_COUNT)
+ {
+ kprintf("Message test finished..ok!\n");
+ return 0;
+ }
+
+error:
+ kprintf("Message test finished..fail!\n");
+ return -1;
}
int msg_testSetup(void)
{
kdbg_init();
- #if CONFIG_KERN_PREEMPT
- kprintf("Init Interrupt (preempt mode)..");
- irq_init();
- kprintf("Done.\n");
- #endif
-
kprintf("Init Timer..");
timer_init();
kprintf("Done.\n");
}
TEST_MAIN(msg);
+
+#endif /* CONFIG_KERN_SIGNALS */