pinebuds/platform/hal/hal_transq.c

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/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#ifdef CHIP_HAS_TRANSQ
#include "hal_transq.h"
#include "cmsis_nvic.h"
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#include "hal_cmu.h"
#include "hal_trace.h"
#include "plat_addr_map.h"
#include "reg_transq.h"
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#include "stdbool.h"
// BITMAP:
// [High Priority Slots] ...... [Normal Priority Slots]
// 31 30 29 28 27 26 25 ...... 10 9 8 7 6 5 4 3 2 1 0
static struct TRANSQ_T *const transq[HAL_TRANSQ_ID_QTY] = {
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(struct TRANSQ_T *)TRANSQ0_BASE,
#if (CHIP_HAS_TRANSQ > 1)
(struct TRANSQ_T *)TRANSQ1_BASE,
#endif
};
static struct TRANSQ_T *const peer_transq[HAL_TRANSQ_ID_QTY] = {
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(struct TRANSQ_T *)TRANSQ0_PEER_BASE,
#if (CHIP_HAS_TRANSQ > 1)
(struct TRANSQ_T *)TRANSQ1_PEER_BASE,
#endif
};
static const IRQn_Type remote_irq_num[HAL_TRANSQ_ID_QTY] = {
TRANSQ0_RMT_IRQn,
#if (CHIP_HAS_TRANSQ > 1)
TRANSQ1_RMT_IRQn,
#endif
};
static const IRQn_Type local_irq_num[HAL_TRANSQ_ID_QTY] = {
TRANSQ0_LCL_IRQn,
#if (CHIP_HAS_TRANSQ > 1)
TRANSQ1_LCL_IRQn,
#endif
};
static struct HAL_TRANSQ_CFG_T transq_cfg[HAL_TRANSQ_ID_QTY];
static uint8_t next_tx_slot[HAL_TRANSQ_ID_QTY][HAL_TRANSQ_PRI_QTY];
static uint8_t active_tx_slot[HAL_TRANSQ_ID_QTY][HAL_TRANSQ_PRI_QTY];
static bool tx_slot_full[HAL_TRANSQ_ID_QTY][HAL_TRANSQ_PRI_QTY];
static uint8_t next_rx_slot[HAL_TRANSQ_ID_QTY][HAL_TRANSQ_PRI_QTY];
static uint32_t rx_irq_mask[HAL_TRANSQ_ID_QTY][HAL_TRANSQ_PRI_QTY];
static uint32_t construct_mask(uint32_t lsb, uint32_t width) {
int i;
uint32_t result;
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if (lsb >= 32 || width == 0) {
return 0;
}
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result = 0;
for (i = lsb; i < lsb + width; i++) {
result |= (1 << i);
}
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return result;
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}
static uint32_t get_next_rx_slot(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri, uint32_t slot) {
slot++;
if (pri == HAL_TRANSQ_PRI_HIGH) {
if (slot >= TRANSQ_SLOT_NUM) {
slot = TRANSQ_SLOT_NUM - transq_cfg[id].slot.rx_num[pri];
}
} else {
if (slot >= transq_cfg[id].slot.rx_num[pri]) {
slot = 0;
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}
}
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return slot;
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}
static uint32_t get_next_tx_slot(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri, uint32_t slot) {
slot++;
if (pri == HAL_TRANSQ_PRI_HIGH) {
if (slot >= TRANSQ_SLOT_NUM) {
slot = TRANSQ_SLOT_NUM - transq_cfg[id].slot.tx_num[pri];
}
} else {
if (slot >= transq_cfg[id].slot.tx_num[pri]) {
slot = 0;
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}
}
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return slot;
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}
static void hal_transq_remote_irq_handler(void) {
enum HAL_TRANSQ_ID_T id;
enum HAL_TRANSQ_PRI_T pri;
uint32_t status;
uint32_t slot;
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#if (CHIP_HAS_TRANSQ > 1)
IRQn_Type irq = NVIC_GetCurrentActiveIRQ();
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for (id = HAL_TRANSQ_ID_0; id < HAL_TRANSQ_ID_QTY; id++) {
if (irq == remote_irq_num[id]) {
break;
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}
}
if (id >= HAL_TRANSQ_ID_QTY) {
return;
}
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#else
id = HAL_TRANSQ_ID_0;
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#endif
while ((status = peer_transq[id]->RMT_MIS) != 0) {
slot = next_rx_slot[id][HAL_TRANSQ_PRI_HIGH];
if (slot < TRANSQ_SLOT_NUM && (status & (1 << slot))) {
pri = HAL_TRANSQ_PRI_HIGH;
} else {
pri = HAL_TRANSQ_PRI_NORMAL;
slot = next_rx_slot[id][HAL_TRANSQ_PRI_NORMAL];
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ASSERT(slot < TRANSQ_SLOT_NUM && (status & (1 << slot)),
"TRANSQ-%d: Rx IRQ when no slot or out of order: status=0x%08x "
"next=%d pri_next=%d",
id, status, next_rx_slot[id][HAL_TRANSQ_PRI_NORMAL],
next_rx_slot[id][HAL_TRANSQ_PRI_HIGH]);
}
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// Mask IRQ from corresponding slots
peer_transq[id]->RMT_INTMASK &= ~rx_irq_mask[id][pri];
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if (transq_cfg[id].rx_handler) {
transq_cfg[id].rx_handler(pri);
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}
}
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}
static int hal_transq_active_tx_valid(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri) {
return (active_tx_slot[id][pri] >= TRANSQ_SLOT_NUM ||
active_tx_slot[id][pri] != next_tx_slot[id][pri] ||
tx_slot_full[id][pri]);
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}
static void hal_transq_local_irq_handler(void) {
enum HAL_TRANSQ_ID_T id;
enum HAL_TRANSQ_PRI_T pri;
uint32_t status;
uint32_t slot, next_slot;
uint32_t lock;
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#if (CHIP_HAS_TRANSQ > 1)
IRQn_Type irq = NVIC_GetCurrentActiveIRQ();
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for (id = HAL_TRANSQ_ID_0; id < HAL_TRANSQ_ID_QTY; id++) {
if (irq == local_irq_num[id]) {
break;
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}
}
if (id >= HAL_TRANSQ_ID_QTY) {
return;
}
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#else
id = HAL_TRANSQ_ID_0;
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#endif
while ((status = transq[id]->LERR_MIS) != 0) {
transq[id]->LERR_ISC.LERR_INTCLR = status;
ASSERT(false, "TRANSQ-%d: Tx on active slot: 0x%08x", id, status);
}
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while ((status = transq[id]->LDONE_MIS) != 0) {
if (transq_cfg[id].tx_handler) {
lock = int_lock();
ASSERT(hal_transq_active_tx_valid(id, HAL_TRANSQ_PRI_HIGH),
"TRANSQ-%d: Corrupted pri active tx: active=%d next=%d full=%d",
id, active_tx_slot[id][HAL_TRANSQ_PRI_HIGH],
next_tx_slot[id][HAL_TRANSQ_PRI_HIGH],
tx_slot_full[id][HAL_TRANSQ_PRI_HIGH]);
ASSERT(hal_transq_active_tx_valid(id, HAL_TRANSQ_PRI_NORMAL),
"TRANSQ-%d: Corrupted active tx: active=%d next=%d full=%d", id,
active_tx_slot[id][HAL_TRANSQ_PRI_NORMAL],
next_tx_slot[id][HAL_TRANSQ_PRI_NORMAL],
tx_slot_full[id][HAL_TRANSQ_PRI_NORMAL]);
slot = active_tx_slot[id][HAL_TRANSQ_PRI_HIGH];
if (slot < TRANSQ_SLOT_NUM && (status & (1 << slot))) {
pri = HAL_TRANSQ_PRI_HIGH;
} else {
pri = HAL_TRANSQ_PRI_NORMAL;
slot = active_tx_slot[id][HAL_TRANSQ_PRI_NORMAL];
ASSERT(slot < TRANSQ_SLOT_NUM && (status & (1 << slot)),
"TRANSQ-%d: Tx done IRQ when slot empty or out of order: "
"status=0x%08x next=%d pri_next=%d",
id, status, active_tx_slot[id][HAL_TRANSQ_PRI_NORMAL],
active_tx_slot[id][HAL_TRANSQ_PRI_HIGH]);
}
// Clear the interrupt
transq[id]->LDONE_ISC.LDONE_INTCLR = (1 << slot);
next_slot = get_next_tx_slot(id, pri, slot);
if (!tx_slot_full[id][pri] && next_slot == next_tx_slot[id][pri]) {
// No tx in progress
active_tx_slot[id][pri] = TRANSQ_SLOT_NUM;
} else {
tx_slot_full[id][pri] = false;
if (transq_cfg[id].slot.tx_num[pri] == 1) {
// No tx in progress
active_tx_slot[id][pri] = TRANSQ_SLOT_NUM;
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} else {
// Some tx in progress
active_tx_slot[id][pri] = next_slot;
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}
}
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int_unlock(lock);
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transq_cfg[id].tx_handler(pri,
(const uint8_t *)transq[id]->WSLOT[slot].ADDR,
transq[id]->WSLOT[slot].LEN);
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} else {
transq[id]->LDONE_INTMASK = 0;
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}
}
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}
enum HAL_TRANSQ_RET_T hal_transq_get_rx_status(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri,
bool *ready) {
uint32_t lock;
uint32_t slot;
if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
if (pri >= HAL_TRANSQ_PRI_QTY) {
return HAL_TRANSQ_RET_BAD_PRI;
}
if (transq_cfg[id].slot.rx_num[pri] == 0) {
return HAL_TRANSQ_RET_BAD_RX_NUM;
}
if (transq_cfg[id].rx_handler) {
// Rx will be processed by IRQ handler
return HAL_TRANSQ_RET_BAD_MODE;
}
lock = int_lock();
slot = next_rx_slot[id][pri];
if (slot < TRANSQ_SLOT_NUM &&
peer_transq[id]->RMT_ISC.RMT_RIS & (1 << slot)) {
*ready = true;
} else {
*ready = false;
}
int_unlock(lock);
return HAL_TRANSQ_RET_OK;
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}
enum HAL_TRANSQ_RET_T hal_transq_get_tx_status(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri,
bool *done) {
uint32_t lock;
uint32_t slot, next_slot;
if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
if (pri >= HAL_TRANSQ_PRI_QTY) {
return HAL_TRANSQ_RET_BAD_PRI;
}
if (transq_cfg[id].slot.tx_num[pri] == 0) {
return HAL_TRANSQ_RET_BAD_TX_NUM;
}
if (transq_cfg[id].tx_handler) {
// Tx done will be processed by IRQ handler
return HAL_TRANSQ_RET_BAD_MODE;
}
lock = int_lock();
slot = active_tx_slot[id][pri];
ASSERT(hal_transq_active_tx_valid(id, pri),
"TRANSQ-%d: Corrupted active tx: pri=%d active=%d next=%d full=%d", id,
pri, active_tx_slot[id][pri], next_tx_slot[id][pri],
tx_slot_full[id][pri]);
if (transq[id]->LDONE_ISC.LDONE_RIS & (1 << slot)) {
*done = true;
// Clear the interrupt
transq[id]->LDONE_ISC.LDONE_INTCLR = (1 << slot);
next_slot = get_next_tx_slot(id, pri, slot);
if (!tx_slot_full[id][pri] && next_slot == next_tx_slot[id][pri]) {
// No tx in progress
active_tx_slot[id][pri] = TRANSQ_SLOT_NUM;
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} else {
tx_slot_full[id][pri] = false;
if (transq_cfg[id].slot.tx_num[pri] == 1) {
// No tx in progress
active_tx_slot[id][pri] = TRANSQ_SLOT_NUM;
} else {
// Some tx in progress
active_tx_slot[id][pri] = next_slot;
}
}
} else {
*done = false;
}
int_unlock(lock);
return HAL_TRANSQ_RET_OK;
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}
enum HAL_TRANSQ_RET_T hal_transq_rx_first(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri,
const uint8_t **data, uint32_t *len) {
enum HAL_TRANSQ_RET_T ret;
uint32_t slot;
// uint32_t lock;
if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
if (pri >= HAL_TRANSQ_PRI_QTY) {
return HAL_TRANSQ_RET_BAD_PRI;
}
if (transq_cfg[id].slot.rx_num[pri] == 0) {
return HAL_TRANSQ_RET_BAD_RX_NUM;
}
// lock = int_lock();
slot = next_rx_slot[id][pri];
if (slot < TRANSQ_SLOT_NUM &&
peer_transq[id]->RMT_ISC.RMT_RIS & (1 << slot)) {
// Msg available
ret = HAL_TRANSQ_RET_OK;
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if (data) {
*data = (const uint8_t *)peer_transq[id]->RSLOT[slot].ADDR;
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}
if (len) {
*len = peer_transq[id]->RSLOT[slot].LEN;
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}
} else {
// No msg. Re-enable IRQ
ret = HAL_TRANSQ_RET_RX_EMPTY;
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if (data) {
*data = NULL;
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}
if (len) {
*len = 0;
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}
peer_transq[id]->RMT_INTMASK |= rx_irq_mask[id][pri];
}
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// int_unlock(lock);
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return ret;
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}
enum HAL_TRANSQ_RET_T hal_transq_rx_next(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri,
const uint8_t **data, uint32_t *len) {
enum HAL_TRANSQ_RET_T ret;
uint32_t slot;
// uint32_t lock;
if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
if (pri >= HAL_TRANSQ_PRI_QTY) {
return HAL_TRANSQ_RET_BAD_PRI;
}
if (transq_cfg[id].slot.rx_num[pri] == 0) {
return HAL_TRANSQ_RET_BAD_RX_NUM;
}
ret = HAL_TRANSQ_RET_OK;
// lock = int_lock();
slot = next_rx_slot[id][pri];
if (slot < TRANSQ_SLOT_NUM &&
peer_transq[id]->RMT_ISC.RMT_RIS & (1 << slot)) {
// Clear cur IRQ
peer_transq[id]->RMT_ISC.RMT_INTCLR = (1 << slot);
// Update next_rx_slot
slot = get_next_rx_slot(id, pri, slot);
next_rx_slot[id][pri] = slot;
if (slot < TRANSQ_SLOT_NUM &&
peer_transq[id]->RMT_ISC.RMT_RIS & (1 << slot)) {
// Next msg available
if (data) {
*data = (const uint8_t *)peer_transq[id]->RSLOT[slot].ADDR;
}
if (len) {
*len = peer_transq[id]->RSLOT[slot].LEN;
}
} else {
// No msg
ret = HAL_TRANSQ_RET_RX_EMPTY;
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}
} else {
// No msg
ret = HAL_TRANSQ_RET_RX_EMPTY;
}
if (ret == HAL_TRANSQ_RET_RX_EMPTY) {
if (data) {
*data = NULL;
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}
if (len) {
*len = 0;
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}
// Re-enable IRQ
peer_transq[id]->RMT_INTMASK |= rx_irq_mask[id][pri];
}
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// int_unlock(lock);
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return ret;
}
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enum HAL_TRANSQ_RET_T hal_transq_tx(enum HAL_TRANSQ_ID_T id,
enum HAL_TRANSQ_PRI_T pri,
const uint8_t *data, uint32_t len) {
enum HAL_TRANSQ_RET_T ret;
uint32_t lock;
uint32_t slot;
if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
if (pri >= HAL_TRANSQ_PRI_QTY) {
return HAL_TRANSQ_RET_BAD_PRI;
}
if (transq_cfg[id].slot.tx_num[pri] == 0) {
return HAL_TRANSQ_RET_BAD_TX_NUM;
}
lock = int_lock();
if (tx_slot_full[id][pri]) {
ret = HAL_TRANSQ_RET_TX_FULL;
} else {
ret = HAL_TRANSQ_RET_OK;
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slot = next_tx_slot[id][pri];
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transq[id]->WSLOT[slot].ADDR = (uint32_t)data;
transq[id]->WSLOT[slot].LEN = len;
transq[id]->RMT_INTSET = (1 << slot);
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// Update active_tx_slot if this is the only tx in progress
if (active_tx_slot[id][pri] >= TRANSQ_SLOT_NUM) {
active_tx_slot[id][pri] = slot;
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}
// Update next_tx_slot
next_tx_slot[id][pri] = get_next_tx_slot(id, pri, slot);
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if (next_tx_slot[id][pri] == active_tx_slot[id][pri]) {
tx_slot_full[id][pri] = true;
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}
}
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int_unlock(lock);
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return ret;
}
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enum HAL_TRANSQ_RET_T
hal_transq_update_num(enum HAL_TRANSQ_ID_T id,
const struct HAL_TRANSQ_SLOT_NUM_T *slot) {
uint32_t tx_mask;
if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
if (slot == NULL) {
return HAL_TRANSQ_RET_BAD_SLOT;
}
if (slot->tx_num[HAL_TRANSQ_PRI_NORMAL] + slot->tx_num[HAL_TRANSQ_PRI_HIGH] >
TRANSQ_SLOT_NUM) {
return HAL_TRANSQ_RET_BAD_TX_NUM;
}
if (slot->rx_num[HAL_TRANSQ_PRI_NORMAL] + slot->rx_num[HAL_TRANSQ_PRI_HIGH] >
TRANSQ_SLOT_NUM) {
return HAL_TRANSQ_RET_BAD_RX_NUM;
}
transq_cfg[id].slot = *slot;
rx_irq_mask[id][HAL_TRANSQ_PRI_NORMAL] =
construct_mask(0, slot->rx_num[HAL_TRANSQ_PRI_NORMAL]);
rx_irq_mask[id][HAL_TRANSQ_PRI_HIGH] =
construct_mask(TRANSQ_SLOT_NUM - slot->rx_num[HAL_TRANSQ_PRI_HIGH],
slot->rx_num[HAL_TRANSQ_PRI_HIGH]);
tx_mask = construct_mask(0, slot->tx_num[HAL_TRANSQ_PRI_NORMAL]) |
construct_mask(TRANSQ_SLOT_NUM - slot->tx_num[HAL_TRANSQ_PRI_HIGH],
slot->tx_num[HAL_TRANSQ_PRI_HIGH]);
transq[id]->RMT_INTMASK = tx_mask;
transq[id]->LERR_INTMASK = tx_mask;
if (transq_cfg[id].tx_handler) {
transq[id]->LDONE_INTMASK = tx_mask;
} else {
transq[id]->LDONE_INTMASK = 0;
}
return HAL_TRANSQ_RET_OK;
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}
enum HAL_TRANSQ_RET_T hal_transq_open(enum HAL_TRANSQ_ID_T id,
const struct HAL_TRANSQ_CFG_T *cfg) {
const struct HAL_TRANSQ_SLOT_NUM_T *slot;
uint32_t ctrl;
enum HAL_TRANSQ_RET_T ret;
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if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
if (cfg == NULL) {
return HAL_TRANSQ_RET_BAD_CFG;
}
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#ifdef CHIP_BEST2000
hal_cmu_clock_enable(HAL_CMU_MOD_P_TRANSQ_WF);
hal_cmu_reset_clear(HAL_CMU_MOD_P_TRANSQ_WF);
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#elif defined(CHIP_BEST2001) && !defined(CHIP_BEST2001_DSP)
// 2001 dsp has enable transq clk at hal_cmu_dsp_clock_enable()
hal_cmu_clock_enable(HAL_CMU_MOD_P_TQWF);
hal_cmu_reset_clear(HAL_CMU_MOD_P_TQWF);
hal_cmu_clock_enable(HAL_CMU_MOD_P_TQA7);
hal_cmu_reset_clear(HAL_CMU_MOD_P_TQA7);
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#endif
transq_cfg[id] = *cfg;
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slot = &cfg->slot;
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ret = hal_transq_update_num(id, slot);
if (ret) {
return ret;
}
next_tx_slot[id][HAL_TRANSQ_PRI_NORMAL] =
slot->tx_num[HAL_TRANSQ_PRI_NORMAL] ? 0 : TRANSQ_SLOT_NUM;
active_tx_slot[id][HAL_TRANSQ_PRI_NORMAL] = TRANSQ_SLOT_NUM;
tx_slot_full[id][HAL_TRANSQ_PRI_NORMAL] = false;
next_rx_slot[id][HAL_TRANSQ_PRI_NORMAL] =
slot->rx_num[HAL_TRANSQ_PRI_NORMAL] ? 0 : TRANSQ_SLOT_NUM;
next_tx_slot[id][HAL_TRANSQ_PRI_HIGH] =
slot->tx_num[HAL_TRANSQ_PRI_HIGH]
? (TRANSQ_SLOT_NUM - slot->tx_num[HAL_TRANSQ_PRI_HIGH])
: TRANSQ_SLOT_NUM;
active_tx_slot[id][HAL_TRANSQ_PRI_HIGH] = TRANSQ_SLOT_NUM;
tx_slot_full[id][HAL_TRANSQ_PRI_HIGH] = false;
next_rx_slot[id][HAL_TRANSQ_PRI_HIGH] =
slot->rx_num[HAL_TRANSQ_PRI_HIGH]
? (TRANSQ_SLOT_NUM - slot->rx_num[HAL_TRANSQ_PRI_HIGH])
: TRANSQ_SLOT_NUM;
transq[id]->LDONE_ISC.LDONE_INTCLR = ~0UL;
transq[id]->LERR_ISC.LERR_INTCLR = ~0UL;
transq[id]->RMT_ISC.RMT_INTCLR = ~0UL;
ctrl = CTRL_REMOTE_IRQ_EN | CTRL_LOCAL_ERR_IRQ_EN;
if (cfg->tx_handler) {
ctrl |= CTRL_LOCAL_DONE_IRQ_EN;
}
transq[id]->CTRL = ctrl;
if (cfg->rx_handler) {
NVIC_SetVector(remote_irq_num[id], (uint32_t)hal_transq_remote_irq_handler);
NVIC_SetPriority(remote_irq_num[id], IRQ_PRIORITY_NORMAL);
NVIC_ClearPendingIRQ(remote_irq_num[id]);
NVIC_EnableIRQ(remote_irq_num[id]);
}
NVIC_SetVector(local_irq_num[id], (uint32_t)hal_transq_local_irq_handler);
NVIC_SetPriority(local_irq_num[id], IRQ_PRIORITY_NORMAL);
NVIC_ClearPendingIRQ(local_irq_num[id]);
NVIC_EnableIRQ(local_irq_num[id]);
return HAL_TRANSQ_RET_OK;
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}
enum HAL_TRANSQ_RET_T hal_transq_close(enum HAL_TRANSQ_ID_T id) {
if (id >= HAL_TRANSQ_ID_QTY) {
return HAL_TRANSQ_RET_BAD_ID;
}
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transq[id]->CTRL = 0;
NVIC_DisableIRQ(remote_irq_num[id]);
NVIC_DisableIRQ(local_irq_num[id]);
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return HAL_TRANSQ_RET_OK;
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}
#endif // CHIP_HAS_TRANSQ