fixed the crash and implemented trigger arming

6 years ago · 88bd46f516
parent 45b4fb45e9
commit 88bd46f516
4 changed files with 171 additions and 37 deletions
--- a/TinyFrame/TF_Integration.c
+++ b/TinyFrame/TF_Integration.c
@ -20,7 +20,12 @@ void TF_WriteImpl(TinyFrame *tf, const uint8_t *buff, uint32_t len)
 #define CHUNK 64 // same as TF_SENDBUF_LEN, so we should always have only one run of the loop
    int32_t total = (int32_t) len;
    while (total > 0) {
-        assert_param(osOK == osSemaphoreWait(semVcomTxReadyHandle, 1000));
+        int32_t mxStatus = osSemaphoreWait(semVcomTxReadyHandle, 250);
        if (mxStatus != osOK) {
            TF_Error("Tx stalled");
            return;
        }
        uint16_t chunksize = (uint16_t) MIN(total, CHUNK);
        assert_param(USBD_OK == CDC_Transmit_FS((uint8_t *) buff, chunksize));
--- a/tasks/task_msg.c
+++ b/tasks/task_msg.c
@ -2,7 +2,6 @@
 // Created by MightyPork on 2017/12/22.
 //
 #include <utils/hexdump.h>
 #include "platform.h"
 #include "comm/messages.h"
 #include "task_msg.h"
@ -16,7 +15,11 @@ static void que_safe_post(struct rx_sched_combined_que_item *slot)
    if (inIRQ()) {
        BaseType_t xHigherPriorityTaskWoken = pdFALSE;
-        assert_param(pdPASS == xQueueSendFromISR(queMsgJobHandle, slot, &xHigherPriorityTaskWoken));
+        BaseType_t status = xQueueSendFromISR(queMsgJobHandle, slot, &xHigherPriorityTaskWoken);
        if (pdPASS != status) {
            dbg("! Que post from ISR failed");
            return;
        }
        #if USE_STACK_MONITOR
            count = (uint32_t) uxQueueMessagesWaitingFromISR(queMsgJobHandle);
@ -24,7 +27,11 @@ static void que_safe_post(struct rx_sched_combined_que_item *slot)
        portYIELD_FROM_ISR(xHigherPriorityTaskWoken);
    } else {
-        assert_param(pdPASS == xQueueSend(queMsgJobHandle, slot, MSG_QUE_POST_TIMEOUT));
+        BaseType_t status = xQueueSend(queMsgJobHandle, slot, MSG_QUE_POST_TIMEOUT);
        if (pdPASS != status) {
            dbg("! Que post failed");
            return;
        }
        #if USE_STACK_MONITOR
            count = (uint32_t) uxQueueMessagesWaiting(queMsgJobHandle);
--- a/units/digital_in/unit_din.c
+++ b/units/digital_in/unit_din.c
@ -3,11 +3,11 @@
 //
 #include "unit_base.h"
 #include "utils/avrlibc.h"
 #include "platform/irq_dispatcher.h"
 #include "comm/messages.h"
 #include "unit_din.h"
 #include "tasks/task_msg.h"
 #include "utils/avrlibc.h"
 /** Private data structure */
 struct priv {
@ -15,11 +15,14 @@ struct priv {
    uint16_t pins; // pin mask
    uint16_t pulldown; // pull-downs (default is pull-up)
    uint16_t pullup; // pull-ups
-    uint16_t trig_rise;
+    uint16_t trig_rise; // pins generating events on rising edge
-    uint16_t trig_fall;
+    uint16_t trig_fall; // pins generating events on falling edge
    uint16_t trig_holdoff; // ms
    uint16_t def_auto; // initial auto triggers
-    uint16_t holdoff_countdowns[16];
+    uint16_t arm_auto;   // pins armed for auto reporting
    uint16_t arm_single; // pins armed for single event
    uint16_t holdoff_countdowns[16]; // countdowns to arm for each pin in the bit map
    GPIO_TypeDef *port;
 };
@ -43,6 +46,9 @@ static void DI_loadBinary(Unit *unit, PayloadParser *pp)
        priv->trig_fall = pp_u16(pp);
        priv->trig_holdoff = pp_u16(pp);
    }
    if (version >= 2) {
        priv->def_auto = pp_u16(pp);
    }
 }
 /** Write to a binary buffer for storing in Flash */
@ -50,7 +56,7 @@ static void DI_writeBinary(Unit *unit, PayloadBuilder *pb)
 {
    struct priv *priv = unit->data;
-    pb_u8(pb, 1); // version
+    pb_u8(pb, 2); // version
    pb_char(pb, priv->port_name);
    pb_u16(pb, priv->pins);
@ -59,6 +65,7 @@ static void DI_writeBinary(Unit *unit, PayloadBuilder *pb)
    pb_u16(pb, priv->trig_rise);
    pb_u16(pb, priv->trig_fall);
    pb_u16(pb, priv->trig_holdoff);
    pb_u16(pb, priv->def_auto);
 }
 // ------------------------------------------------------------------------
@ -87,7 +94,10 @@ static error_t DI_loadIni(Unit *unit, const char *key, const char *value)
    else if (streq(key, "trig-fall")) {
        priv->trig_fall = parse_pinmask(value, &suc);
    }
-    else if (streq(key, "trig-hold-off")) {
+    else if (streq(key, "auto-trigger")) {
        priv->def_auto = parse_pinmask(value, &suc);
    }
    else if (streq(key, "hold-off")) {
        priv->trig_holdoff = (uint16_t) avr_atoi(value);
    }
    else {
@ -115,14 +125,15 @@ static void DI_writeIni(Unit *unit, IniWriter *iw)
    iw_comment(iw, "Pins with pull-down");
    iw_entry(iw, "pull-down", "%s", pinmask2str(priv->pulldown, unit_tmp512));
-    iw_comment(iw, "Trigger pins activated by rising edge");
+    iw_comment(iw, "Trigger pins activated by rising/falling edge");
    iw_entry(iw, "trig-rise", "%s", pinmask2str(priv->trig_rise, unit_tmp512));
    iw_comment(iw, "Trigger pins activated by falling edge");
    iw_entry(iw, "trig-fall", "%s", pinmask2str(priv->trig_fall, unit_tmp512));
-    iw_comment(iw, "Trigger hold-off time (ms)");
+    iw_comment(iw, "Trigger pins auto-armed by default");
-    iw_entry(iw, "trig-hold-off", "%d", (int)priv->trig_holdoff);
+    iw_entry(iw, "auto-trigger", "%s", pinmask2str(priv->def_auto, unit_tmp512));
    iw_comment(iw, "Triggers hold-off time (ms)");
    iw_entry(iw, "hold-off", "%d", (int)priv->trig_holdoff);
 #if PLAT_NO_FLOATING_INPUTS
    iw_comment(iw, "NOTE: Pins use pull-up by default.\r\n");
@ -145,7 +156,8 @@ static error_t DI_preInit(Unit *unit)
    priv->trig_rise = 0x0000;
    priv->trig_fall = 0x0000;
-    priv->trig_holdoff = 20;
+    priv->trig_holdoff = 100;
    priv->def_auto = 0x0000;
    return E_SUCCESS;
 }
@ -157,8 +169,11 @@ static void ID_SendTriggerReportToMaster(Job *job)
    PayloadBuilder pb = pb_start(unit_tmp512, UNIT_TMP_LEN, NULL);
    pb_u8(&pb, unit->callsign);
    pb_u8(&pb, 0x00); // report type "Trigger"
-    pb_u16(&pb, (uint16_t) job->d32_2); // packed, 1 on the triggering pin
+    {
-    pb_u16(&pb, (uint16_t) job->d32_3); //
+        pb_u16(&pb, (uint16_t) job->d32_2); // packed, 1 on the triggering pin
        pb_u16(&pb, (uint16_t) job->d32_3); // packed, snapshot
        // the snapshot can be used to capture the other input pins
    }
    assert_param(pb.ok);
    com_send_pb(MSG_UNIT_REPORT, &pb);
 }
@ -167,30 +182,33 @@ static void DI_handleExti(void *arg)
 {
    Unit *unit = arg;
    struct priv *priv = unit->data;
-    uint16_t snapshot = (uint16_t) priv->port->IDR;
+    const uint16_t snapshot = (uint16_t) priv->port->IDR;
    uint16_t trigger_map = 0;
    uint16_t mask = 1;
    const uint16_t armed_pins = priv->arm_single|priv->arm_auto;
    for (int i = 0; i < 16; i++, mask <<= 1) {
-        if ((priv->trig_rise|priv->trig_fall) & mask) {
+        if (!LL_EXTI_ReadFlag_0_31(LL_EXTI_LINES[i])) continue;
-            if (LL_EXTI_ReadFlag_0_31(LL_EXTI_LINES[i])) {
+        LL_EXTI_ClearFlag_0_31(LL_EXTI_LINES[i]);
-                if (priv->holdoff_countdowns[i] == 0) {
+
-                    trigger_map |= 1<<i;
+        // Armed and ready
-                    priv->holdoff_countdowns[i] = priv->trig_holdoff;
+        if ((armed_pins & mask) && (priv->holdoff_countdowns[i] == 0)) {
-                }
+            // Mark as captured
-
+            trigger_map |= (1 << i);
-                LL_EXTI_ClearFlag_0_31(LL_EXTI_LINES[i]);
+            // Start hold-off (no-op if zero hold-off)
-            }
+            priv->holdoff_countdowns[i] = priv->trig_holdoff;
        }
    }
-    // FIXME the job is not correctly handled, somehow. queue fills but is not collected
+    // Disarm all possibly used single triggers
    priv->arm_single &= ~trigger_map;
    if (trigger_map != 0) {
        Job j = {
            .data1 = unit,
            .d32_2 = pinmask_pack(trigger_map, priv->pins),
-            .d32_3 = snapshot,
+            .d32_3 = pinmask_pack(snapshot, priv->pins),
            .cb = ID_SendTriggerReportToMaster
        };
        scheduleJob(&j);
@ -205,6 +223,16 @@ static error_t DI_init(Unit *unit)
    priv->pulldown &= priv->pins;
    priv->pullup &= priv->pins;
    priv->trig_rise &= priv->pins;
    priv->trig_fall &= priv->pins;
    priv->def_auto &= (priv->trig_rise|priv->trig_fall);
    // copy auto-arm defaults to the auto-arm register (the register may be manipulated by commands)
    priv->arm_auto = priv->def_auto;
    priv->arm_single = 0;
    // clear countdowns
    memset(priv->holdoff_countdowns, 0, sizeof(priv->holdoff_countdowns));
    // --- Parse config ---
    priv->port = hw_port2periph(priv->port_name, &suc);
@ -250,8 +278,8 @@ static error_t DI_init(Unit *unit)
        }
    }
-    // request ticks if we have triggers
+    // request ticks if we have triggers and any hold-offs configured
-    if (priv->trig_rise|priv->trig_fall) {
+    if ((priv->trig_rise|priv->trig_fall) && priv->trig_holdoff > 0) {
        unit->tick_interval = 1;
    }
@ -297,24 +325,99 @@ error_t UU_DI_Read(Unit *unit, uint16_t *packed)
    return E_SUCCESS;
 }
 /** Arm pins */
 error_t UU_DI_Arm(Unit *unit, uint16_t arm_single_packed, uint16_t arm_auto_packed)
 {
    CHECK_TYPE(unit, &UNIT_DIN);
    struct priv *priv = unit->data;
    uint16_t arm_single = pinmask_spread(arm_single_packed, priv->pins);
    uint16_t arm_auto = pinmask_spread(arm_auto_packed, priv->pins);
    // abort if user tries to arm pin that doesn't have a trigger configured
    if (0 != ((arm_single|arm_auto) & ~(priv->trig_fall|priv->trig_rise))) {
        return E_BAD_VALUE;
    }
    // arm and reset hold-offs
    // we use critical section to avoid irq between the two steps
    vPortEnterCritical();
    {
        priv->arm_auto |= arm_single;
        priv->arm_single |= arm_auto;
        const uint16_t combined = arm_single | arm_auto;
        for (int i = 0; i < 16; i++) {
            if (combined & (1 << i)) {
                priv->holdoff_countdowns[i] = 0;
            }
        }
    }
    vPortExitCritical();
    return E_SUCCESS;
 }
 /** DisArm pins */
 error_t UU_DI_DisArm(Unit *unit, uint16_t disarm_packed)
 {
    CHECK_TYPE(unit, &UNIT_DIN);
    struct priv *priv = unit->data;
    uint16_t disarm = pinmask_spread(disarm_packed, priv->pins);
    // abort if user tries to disarm pin that doesn't have a trigger configured
    if (0 != ((disarm) & ~(priv->trig_fall|priv->trig_rise))) {
        return E_BAD_VALUE;
    }
    priv->arm_auto &= ~disarm;
    priv->arm_single &= ~disarm;
    return E_SUCCESS;
 }
 enum PinCmd_ {
    CMD_READ = 0,
    CMD_ARM_SINGLE = 1,
    CMD_ARM_AUTO = 2,
    CMD_DISARM = 3,
 };
 /** Handle a request message */
 static error_t DI_handleRequest(Unit *unit, TF_ID frame_id, uint8_t command, PayloadParser *pp)
 {
-    uint16_t packed = 0;
+    uint16_t pins = 0;
    switch (command) {
        case CMD_READ:;
-            TRY(UU_DI_Read(unit, &packed));
+            TRY(UU_DI_Read(unit, &pins));
            PayloadBuilder pb = pb_start((uint8_t*)unit_tmp512, UNIT_TMP_LEN, NULL);
-            pb_u16(&pb, packed);
+            pb_u16(&pb, pins); // packed input pins
            com_respond_buf(frame_id, MSG_SUCCESS, (uint8_t *) unit_tmp512, pb_length(&pb));
            return E_SUCCESS;
        case CMD_ARM_SINGLE:;
            pins = pp_u16(pp);
            if (!pp->ok) return E_MALFORMED_COMMAND;
            TRY(UU_DI_Arm(unit, pins, 0));
            return E_SUCCESS;
        case CMD_ARM_AUTO:;
            pins = pp_u16(pp);
            if (!pp->ok) return E_MALFORMED_COMMAND;
            TRY(UU_DI_Arm(unit, 0, pins));
            return E_SUCCESS;
        case CMD_DISARM:;
            pins = pp_u16(pp);
            if (!pp->ok) return E_MALFORMED_COMMAND;
            TRY(UU_DI_DisArm(unit, pins));
            return E_SUCCESS;
        default:
            return E_UNKNOWN_COMMAND;
    }
@ -341,7 +444,7 @@ static void DI_updateTick(Unit *unit)
 /** Unit template */
 const UnitDriver UNIT_DIN = {
    .name = "DI",
-    .description = "Digital input",
+    .description = "Digital input with triggers",
    // Settings
    .preInit = DI_preInit,
    .cfgLoadBinary = DI_loadBinary,
--- a/units/digital_in/unit_din.h
+++ b/units/digital_in/unit_din.h
@ -14,10 +14,29 @@ extern const UnitDriver UNIT_DIN;
 /**
 * Read pins
 *
- * @param unit
+ * @param unit - unit instance
 * @param packed - output; the packed (right aligned) bits representing the pins, highest to lowest, are written here.
 * @return success
 */
 error_t UU_DI_Read(Unit *unit, uint16_t *packed);
 /**
 * Arm pins for trigger generation
 *
 * @param unit - unit instance
 * @param arm_single_packed - packed bit map of pins to arm for single trigger
 * @param arm_auto_packed - packed bit map of pins to arm for auto trigger (repeated)
 * @return success
 */
 error_t UU_DI_Arm(Unit *unit, uint16_t arm_single_packed, uint16_t arm_auto_packed);
 /**
 * Dis-arm pins to not generate events
 *
 * @param unit - unit instance
 * @param disarm_packed - packed bit map of pins to dis-arm
 * @return success
 */
 error_t UU_DI_DisArm(Unit *unit, uint16_t disarm_packed);
 #endif //U_DIN_H