mbed library sources. Supersedes mbed-src. Add PORTG support for STM32L476JG (SensorTile kit)

Dependents:   SensorTileTest

Fork of mbed-dev by mbed official

Committer:
<>
Date:
Fri Oct 28 11:17:30 2016 +0100
Revision:
149:156823d33999
Child:
151:5eaa88a5bcc7
This updates the lib to the mbed lib v128

NOTE: This release includes a restructuring of the file and directory locations and thus some
include paths in your code may need updating accordingly.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
<> 149:156823d33999 1 /* mbed Microcontroller Library
<> 149:156823d33999 2 * Copyright (c) 2015-2016 Nuvoton
<> 149:156823d33999 3 *
<> 149:156823d33999 4 * Licensed under the Apache License, Version 2.0 (the "License");
<> 149:156823d33999 5 * you may not use this file except in compliance with the License.
<> 149:156823d33999 6 * You may obtain a copy of the License at
<> 149:156823d33999 7 *
<> 149:156823d33999 8 * http://www.apache.org/licenses/LICENSE-2.0
<> 149:156823d33999 9 *
<> 149:156823d33999 10 * Unless required by applicable law or agreed to in writing, software
<> 149:156823d33999 11 * distributed under the License is distributed on an "AS IS" BASIS,
<> 149:156823d33999 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
<> 149:156823d33999 13 * See the License for the specific language governing permissions and
<> 149:156823d33999 14 * limitations under the License.
<> 149:156823d33999 15 */
<> 149:156823d33999 16
<> 149:156823d33999 17 #include "serial_api.h"
<> 149:156823d33999 18
<> 149:156823d33999 19 #if DEVICE_SERIAL
<> 149:156823d33999 20
<> 149:156823d33999 21 #include "cmsis.h"
<> 149:156823d33999 22 #include "mbed_error.h"
<> 149:156823d33999 23 #include "mbed_assert.h"
<> 149:156823d33999 24 #include "PeripheralPins.h"
<> 149:156823d33999 25 #include "nu_modutil.h"
<> 149:156823d33999 26 #include "nu_bitutil.h"
<> 149:156823d33999 27
<> 149:156823d33999 28 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 29 #include "dma_api.h"
<> 149:156823d33999 30 #include "dma.h"
<> 149:156823d33999 31 #endif
<> 149:156823d33999 32
<> 149:156823d33999 33 struct nu_uart_var {
<> 149:156823d33999 34 serial_t * obj;
<> 149:156823d33999 35 uint32_t fifo_size_tx;
<> 149:156823d33999 36 uint32_t fifo_size_rx;
<> 149:156823d33999 37 void (*vec)(void);
<> 149:156823d33999 38 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 39 void (*vec_async)(void);
<> 149:156823d33999 40 uint8_t pdma_perp_tx;
<> 149:156823d33999 41 uint8_t pdma_perp_rx;
<> 149:156823d33999 42 #endif
<> 149:156823d33999 43 };
<> 149:156823d33999 44
<> 149:156823d33999 45 static void uart0_vec(void);
<> 149:156823d33999 46 static void uart1_vec(void);
<> 149:156823d33999 47 static void uart2_vec(void);
<> 149:156823d33999 48 static void uart3_vec(void);
<> 149:156823d33999 49 static void uart_irq(serial_t *obj);
<> 149:156823d33999 50
<> 149:156823d33999 51 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 52 static void uart0_vec_async(void);
<> 149:156823d33999 53 static void uart1_vec_async(void);
<> 149:156823d33999 54 static void uart2_vec_async(void);
<> 149:156823d33999 55 static void uart3_vec_async(void);
<> 149:156823d33999 56 static void uart_irq_async(serial_t *obj);
<> 149:156823d33999 57
<> 149:156823d33999 58 static void uart_dma_handler_tx(uint32_t id, uint32_t event);
<> 149:156823d33999 59 static void uart_dma_handler_rx(uint32_t id, uint32_t event);
<> 149:156823d33999 60
<> 149:156823d33999 61 static void serial_tx_enable_interrupt(serial_t *obj, uint32_t address, uint8_t enable);
<> 149:156823d33999 62 static void serial_rx_enable_interrupt(serial_t *obj, uint32_t address, uint8_t enable);
<> 149:156823d33999 63 static int serial_write_async(serial_t *obj);
<> 149:156823d33999 64 static int serial_read_async(serial_t *obj);
<> 149:156823d33999 65
<> 149:156823d33999 66 static uint32_t serial_rx_event_check(serial_t *obj);
<> 149:156823d33999 67 static uint32_t serial_tx_event_check(serial_t *obj);
<> 149:156823d33999 68
<> 149:156823d33999 69 static int serial_is_tx_complete(serial_t *obj);
<> 149:156823d33999 70 static void serial_tx_enable_event(serial_t *obj, int event, uint8_t enable);
<> 149:156823d33999 71
<> 149:156823d33999 72 static void serial_tx_buffer_set(serial_t *obj, const void *tx, size_t length, uint8_t width);
<> 149:156823d33999 73 static void serial_rx_buffer_set(serial_t *obj, void *rx, size_t length, uint8_t width);
<> 149:156823d33999 74 static void serial_rx_set_char_match(serial_t *obj, uint8_t char_match);
<> 149:156823d33999 75 static void serial_rx_enable_event(serial_t *obj, int event, uint8_t enable);
<> 149:156823d33999 76 static int serial_is_rx_complete(serial_t *obj);
<> 149:156823d33999 77
<> 149:156823d33999 78 static void serial_check_dma_usage(DMAUsage *dma_usage, int *dma_ch);
<> 149:156823d33999 79 static int serial_is_irq_en(serial_t *obj, SerialIrq irq);
<> 149:156823d33999 80 #endif
<> 149:156823d33999 81
<> 149:156823d33999 82 static struct nu_uart_var uart0_var = {
<> 149:156823d33999 83 .obj = NULL,
<> 149:156823d33999 84 .fifo_size_tx = 16,
<> 149:156823d33999 85 .fifo_size_rx = 16,
<> 149:156823d33999 86 .vec = uart0_vec,
<> 149:156823d33999 87 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 88 .vec_async = uart0_vec_async,
<> 149:156823d33999 89 .pdma_perp_tx = PDMA_UART0_TX,
<> 149:156823d33999 90 .pdma_perp_rx = PDMA_UART0_RX
<> 149:156823d33999 91 #endif
<> 149:156823d33999 92 };
<> 149:156823d33999 93 static struct nu_uart_var uart1_var = {
<> 149:156823d33999 94 .obj = NULL,
<> 149:156823d33999 95 .fifo_size_tx = 16,
<> 149:156823d33999 96 .fifo_size_rx = 16,
<> 149:156823d33999 97 .vec = uart1_vec,
<> 149:156823d33999 98 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 99 .vec_async = uart1_vec_async,
<> 149:156823d33999 100 .pdma_perp_tx = PDMA_UART1_TX,
<> 149:156823d33999 101 .pdma_perp_rx = PDMA_UART1_RX
<> 149:156823d33999 102 #endif
<> 149:156823d33999 103 };
<> 149:156823d33999 104 static struct nu_uart_var uart2_var = {
<> 149:156823d33999 105 .obj = NULL,
<> 149:156823d33999 106 .fifo_size_tx = 16,
<> 149:156823d33999 107 .fifo_size_rx = 16,
<> 149:156823d33999 108 .vec = uart2_vec,
<> 149:156823d33999 109 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 110 .vec_async = uart2_vec_async,
<> 149:156823d33999 111 .pdma_perp_tx = PDMA_UART2_TX,
<> 149:156823d33999 112 .pdma_perp_rx = PDMA_UART2_RX
<> 149:156823d33999 113 #endif
<> 149:156823d33999 114 };
<> 149:156823d33999 115 static struct nu_uart_var uart3_var = {
<> 149:156823d33999 116 .obj = NULL,
<> 149:156823d33999 117 .fifo_size_tx = 16,
<> 149:156823d33999 118 .fifo_size_rx = 16,
<> 149:156823d33999 119 .vec = uart3_vec,
<> 149:156823d33999 120 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 121 .vec_async = uart3_vec_async,
<> 149:156823d33999 122 .pdma_perp_tx = PDMA_UART3_TX,
<> 149:156823d33999 123 .pdma_perp_rx = PDMA_UART3_RX
<> 149:156823d33999 124 #endif
<> 149:156823d33999 125 };
<> 149:156823d33999 126
<> 149:156823d33999 127
<> 149:156823d33999 128 int stdio_uart_inited = 0;
<> 149:156823d33999 129 serial_t stdio_uart;
<> 149:156823d33999 130 static uint32_t uart_modinit_mask = 0;
<> 149:156823d33999 131
<> 149:156823d33999 132 static const struct nu_modinit_s uart_modinit_tab[] = {
<> 149:156823d33999 133 {UART_0, UART0_MODULE, CLK_CLKSEL1_UARTSEL_HIRC, CLK_CLKDIV0_UART(1), UART0_RST, UART0_IRQn, &uart0_var},
<> 149:156823d33999 134 {UART_1, UART1_MODULE, CLK_CLKSEL1_UARTSEL_HIRC, CLK_CLKDIV0_UART(1), UART1_RST, UART1_IRQn, &uart1_var},
<> 149:156823d33999 135 {UART_2, UART2_MODULE, CLK_CLKSEL1_UARTSEL_HIRC, CLK_CLKDIV0_UART(1), UART2_RST, UART2_IRQn, &uart2_var},
<> 149:156823d33999 136 {UART_3, UART3_MODULE, CLK_CLKSEL1_UARTSEL_HIRC, CLK_CLKDIV0_UART(1), UART3_RST, UART3_IRQn, &uart3_var},
<> 149:156823d33999 137
<> 149:156823d33999 138 {NC, 0, 0, 0, 0, (IRQn_Type) 0, NULL}
<> 149:156823d33999 139 };
<> 149:156823d33999 140
<> 149:156823d33999 141 extern void mbed_sdk_init(void);
<> 149:156823d33999 142
<> 149:156823d33999 143 void serial_init(serial_t *obj, PinName tx, PinName rx)
<> 149:156823d33999 144 {
<> 149:156823d33999 145 // NOTE: serial_init() gets called from _sys_open() timing of which is before main()/mbed_hal_init().
<> 149:156823d33999 146 mbed_sdk_init();
<> 149:156823d33999 147
<> 149:156823d33999 148 // Determine which UART_x the pins are used for
<> 149:156823d33999 149 uint32_t uart_tx = pinmap_peripheral(tx, PinMap_UART_TX);
<> 149:156823d33999 150 uint32_t uart_rx = pinmap_peripheral(rx, PinMap_UART_RX);
<> 149:156823d33999 151 // Get the peripheral name (UART_x) from the pins and assign it to the object
<> 149:156823d33999 152 obj->serial.uart = (UARTName) pinmap_merge(uart_tx, uart_rx);
<> 149:156823d33999 153 MBED_ASSERT((int)obj->serial.uart != NC);
<> 149:156823d33999 154
<> 149:156823d33999 155 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 156 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 157 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 158
<> 149:156823d33999 159 // Reset this module
<> 149:156823d33999 160 SYS_ResetModule(modinit->rsetidx);
<> 149:156823d33999 161
<> 149:156823d33999 162 // Select IP clock source
<> 149:156823d33999 163 CLK_SetModuleClock(modinit->clkidx, modinit->clksrc, modinit->clkdiv);
<> 149:156823d33999 164 // Enable IP clock
<> 149:156823d33999 165 CLK_EnableModuleClock(modinit->clkidx);
<> 149:156823d33999 166
<> 149:156823d33999 167 pinmap_pinout(tx, PinMap_UART_TX);
<> 149:156823d33999 168 pinmap_pinout(rx, PinMap_UART_RX);
<> 149:156823d33999 169 // FIXME: Why PullUp?
<> 149:156823d33999 170 //if (tx != NC) {
<> 149:156823d33999 171 // pin_mode(tx, PullUp);
<> 149:156823d33999 172 //}
<> 149:156823d33999 173 //if (rx != NC) {
<> 149:156823d33999 174 // pin_mode(rx, PullUp);
<> 149:156823d33999 175 //}
<> 149:156823d33999 176 obj->serial.pin_tx = tx;
<> 149:156823d33999 177 obj->serial.pin_rx = rx;
<> 149:156823d33999 178
<> 149:156823d33999 179 // Configure the UART module and set its baudrate
<> 149:156823d33999 180 serial_baud(obj, 9600);
<> 149:156823d33999 181 // Configure data bits, parity, and stop bits
<> 149:156823d33999 182 serial_format(obj, 8, ParityNone, 1);
<> 149:156823d33999 183
<> 149:156823d33999 184 obj->serial.vec = ((struct nu_uart_var *) modinit->var)->vec;
<> 149:156823d33999 185
<> 149:156823d33999 186 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 187 obj->serial.dma_usage_tx = DMA_USAGE_NEVER;
<> 149:156823d33999 188 obj->serial.dma_usage_rx = DMA_USAGE_NEVER;
<> 149:156823d33999 189 obj->serial.event = 0;
<> 149:156823d33999 190 obj->serial.dma_chn_id_tx = DMA_ERROR_OUT_OF_CHANNELS;
<> 149:156823d33999 191 obj->serial.dma_chn_id_rx = DMA_ERROR_OUT_OF_CHANNELS;
<> 149:156823d33999 192 #endif
<> 149:156823d33999 193
<> 149:156823d33999 194 // For stdio management
<> 149:156823d33999 195 if (obj == &stdio_uart) {
<> 149:156823d33999 196 stdio_uart_inited = 1;
<> 149:156823d33999 197 /* NOTE: Not required anymore because stdio_uart will be manually initialized in mbed-drivers/source/retarget.cpp from mbed beta */
<> 149:156823d33999 198 //memcpy(&stdio_uart, obj, sizeof(serial_t));
<> 149:156823d33999 199 }
<> 149:156823d33999 200
<> 149:156823d33999 201 // Mark this module to be inited.
<> 149:156823d33999 202 int i = modinit - uart_modinit_tab;
<> 149:156823d33999 203 uart_modinit_mask |= 1 << i;
<> 149:156823d33999 204 }
<> 149:156823d33999 205
<> 149:156823d33999 206 void serial_free(serial_t *obj)
<> 149:156823d33999 207 {
<> 149:156823d33999 208 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 209 if (obj->serial.dma_chn_id_tx != DMA_ERROR_OUT_OF_CHANNELS) {
<> 149:156823d33999 210 dma_channel_free(obj->serial.dma_chn_id_tx);
<> 149:156823d33999 211 obj->serial.dma_chn_id_tx = DMA_ERROR_OUT_OF_CHANNELS;
<> 149:156823d33999 212 }
<> 149:156823d33999 213 if (obj->serial.dma_chn_id_rx != DMA_ERROR_OUT_OF_CHANNELS) {
<> 149:156823d33999 214 dma_channel_free(obj->serial.dma_chn_id_rx);
<> 149:156823d33999 215 obj->serial.dma_chn_id_rx = DMA_ERROR_OUT_OF_CHANNELS;
<> 149:156823d33999 216 }
<> 149:156823d33999 217 #endif
<> 149:156823d33999 218
<> 149:156823d33999 219 UART_Close((UART_T *) NU_MODBASE(obj->serial.uart));
<> 149:156823d33999 220
<> 149:156823d33999 221 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 222 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 223 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 224
<> 149:156823d33999 225 UART_DISABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), (UART_INTEN_RDAIEN_Msk | UART_INTEN_THREIEN_Msk | UART_INTEN_RXTOIEN_Msk));
<> 149:156823d33999 226 NVIC_DisableIRQ(modinit->irq_n);
<> 149:156823d33999 227
<> 149:156823d33999 228 // Disable IP clock
<> 149:156823d33999 229 CLK_DisableModuleClock(modinit->clkidx);
<> 149:156823d33999 230
<> 149:156823d33999 231 ((struct nu_uart_var *) modinit->var)->obj = NULL;
<> 149:156823d33999 232
<> 149:156823d33999 233 if (obj == &stdio_uart) {
<> 149:156823d33999 234 stdio_uart_inited = 0;
<> 149:156823d33999 235 }
<> 149:156823d33999 236
<> 149:156823d33999 237 // Mark this module to be deinited.
<> 149:156823d33999 238 int i = modinit - uart_modinit_tab;
<> 149:156823d33999 239 uart_modinit_mask &= ~(1 << i);
<> 149:156823d33999 240 }
<> 149:156823d33999 241
<> 149:156823d33999 242 void serial_baud(serial_t *obj, int baudrate) {
<> 149:156823d33999 243 // Flush Tx FIFO. Otherwise, output data may get lost on this change.
<> 149:156823d33999 244 while (! UART_IS_TX_EMPTY(((UART_T *) obj->serial.uart)));
<> 149:156823d33999 245
<> 149:156823d33999 246 obj->serial.baudrate = baudrate;
<> 149:156823d33999 247 UART_Open((UART_T *) NU_MODBASE(obj->serial.uart), baudrate);
<> 149:156823d33999 248 }
<> 149:156823d33999 249
<> 149:156823d33999 250 void serial_format(serial_t *obj, int data_bits, SerialParity parity, int stop_bits) {
<> 149:156823d33999 251 // Flush Tx FIFO. Otherwise, output data may get lost on this change.
<> 149:156823d33999 252 while (! UART_IS_TX_EMPTY(((UART_T *) obj->serial.uart)));
<> 149:156823d33999 253
<> 149:156823d33999 254 // TODO: Assert for not supported parity and data bits
<> 149:156823d33999 255 obj->serial.databits = data_bits;
<> 149:156823d33999 256 obj->serial.parity = parity;
<> 149:156823d33999 257 obj->serial.stopbits = stop_bits;
<> 149:156823d33999 258
<> 149:156823d33999 259 uint32_t databits_intern = (data_bits == 5) ? UART_WORD_LEN_5 :
<> 149:156823d33999 260 (data_bits == 6) ? UART_WORD_LEN_6 :
<> 149:156823d33999 261 (data_bits == 7) ? UART_WORD_LEN_7 :
<> 149:156823d33999 262 UART_WORD_LEN_8;
<> 149:156823d33999 263 uint32_t parity_intern = (parity == ParityOdd || parity == ParityForced1) ? UART_PARITY_ODD :
<> 149:156823d33999 264 (parity == ParityEven || parity == ParityForced0) ? UART_PARITY_EVEN :
<> 149:156823d33999 265 UART_PARITY_NONE;
<> 149:156823d33999 266 uint32_t stopbits_intern = (stop_bits == 2) ? UART_STOP_BIT_2 : UART_STOP_BIT_1;
<> 149:156823d33999 267 UART_SetLine_Config((UART_T *) NU_MODBASE(obj->serial.uart),
<> 149:156823d33999 268 0, // Don't change baudrate
<> 149:156823d33999 269 databits_intern,
<> 149:156823d33999 270 parity_intern,
<> 149:156823d33999 271 stopbits_intern);
<> 149:156823d33999 272 }
<> 149:156823d33999 273
<> 149:156823d33999 274 #if DEVICE_SERIAL_FC
<> 149:156823d33999 275
<> 149:156823d33999 276 void serial_set_flow_control(serial_t *obj, FlowControl type, PinName rxflow, PinName txflow)
<> 149:156823d33999 277 {
<> 149:156823d33999 278 UART_T *uart_base = (UART_T *) NU_MODBASE(obj->serial.uart);
<> 149:156823d33999 279
<> 149:156823d33999 280 // First, disable flow control completely.
<> 149:156823d33999 281 uart_base->INTEN &= ~(UART_INTEN_ATORTSEN_Msk | UART_INTEN_ATOCTSEN_Msk);
<> 149:156823d33999 282
<> 149:156823d33999 283 if ((type == FlowControlRTS || type == FlowControlRTSCTS) && rxflow != NC) {
<> 149:156823d33999 284 // Check if RTS pin matches.
<> 149:156823d33999 285 uint32_t uart_rts = pinmap_peripheral(rxflow, PinMap_UART_RTS);
<> 149:156823d33999 286 MBED_ASSERT(uart_rts == obj->serial.uart);
<> 149:156823d33999 287 // Enable the pin for RTS function
<> 149:156823d33999 288 pinmap_pinout(rxflow, PinMap_UART_RTS);
<> 149:156823d33999 289 // nRTS pin output is high level active
<> 149:156823d33999 290 uart_base->MODEM = (uart_base->MODEM & ~UART_MODEM_RTSACTLV_Msk);
<> 149:156823d33999 291 uart_base->FIFO = (uart_base->FIFO & ~UART_FIFO_RTSTRGLV_Msk) | UART_FIFO_RTSTRGLV_8BYTES;
<> 149:156823d33999 292 // Enable RTS
<> 149:156823d33999 293 uart_base->INTEN |= UART_INTEN_ATORTSEN_Msk;
<> 149:156823d33999 294 }
<> 149:156823d33999 295
<> 149:156823d33999 296 if ((type == FlowControlCTS || type == FlowControlRTSCTS) && txflow != NC) {
<> 149:156823d33999 297 // Check if CTS pin matches.
<> 149:156823d33999 298 uint32_t uart_cts = pinmap_peripheral(txflow, PinMap_UART_CTS);
<> 149:156823d33999 299 MBED_ASSERT(uart_cts == obj->serial.uart);
<> 149:156823d33999 300 // Enable the pin for CTS function
<> 149:156823d33999 301 pinmap_pinout(txflow, PinMap_UART_CTS);
<> 149:156823d33999 302 // nCTS pin input is high level active
<> 149:156823d33999 303 uart_base->MODEMSTS = (uart_base->MODEMSTS & ~UART_MODEMSTS_CTSACTLV_Msk);
<> 149:156823d33999 304 // Enable CTS
<> 149:156823d33999 305 uart_base->INTEN |= UART_INTEN_ATOCTSEN_Msk;
<> 149:156823d33999 306 }
<> 149:156823d33999 307 }
<> 149:156823d33999 308
<> 149:156823d33999 309 #endif //DEVICE_SERIAL_FC
<> 149:156823d33999 310
<> 149:156823d33999 311 void serial_irq_handler(serial_t *obj, uart_irq_handler handler, uint32_t id)
<> 149:156823d33999 312 {
<> 149:156823d33999 313 // Flush Tx FIFO. Otherwise, output data may get lost on this change.
<> 149:156823d33999 314 while (! UART_IS_TX_EMPTY(((UART_T *) obj->serial.uart)));
<> 149:156823d33999 315
<> 149:156823d33999 316 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 317 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 318 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 319
<> 149:156823d33999 320 ((struct nu_uart_var *) modinit->var)->obj = obj;
<> 149:156823d33999 321 obj->serial.irq_handler = (uint32_t) handler;
<> 149:156823d33999 322 obj->serial.irq_id = id;
<> 149:156823d33999 323
<> 149:156823d33999 324 // Restore sync-mode vector
<> 149:156823d33999 325 obj->serial.vec = ((struct nu_uart_var *) modinit->var)->vec;
<> 149:156823d33999 326 }
<> 149:156823d33999 327
<> 149:156823d33999 328 void serial_irq_set(serial_t *obj, SerialIrq irq, uint32_t enable)
<> 149:156823d33999 329 {
<> 149:156823d33999 330 if (enable) {
<> 149:156823d33999 331 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 332 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 333 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 334
<> 149:156823d33999 335 NVIC_SetVector(modinit->irq_n, (uint32_t) obj->serial.vec);
<> 149:156823d33999 336 NVIC_EnableIRQ(modinit->irq_n);
<> 149:156823d33999 337
<> 149:156823d33999 338 switch (irq) {
<> 149:156823d33999 339 // NOTE: Setting inten_msk first to avoid race condition
<> 149:156823d33999 340 case RxIrq:
<> 149:156823d33999 341 obj->serial.inten_msk = obj->serial.inten_msk | (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk);
<> 149:156823d33999 342 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk));
<> 149:156823d33999 343 break;
<> 149:156823d33999 344 case TxIrq:
<> 149:156823d33999 345 obj->serial.inten_msk = obj->serial.inten_msk | UART_INTEN_THREIEN_Msk;
<> 149:156823d33999 346 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_THREIEN_Msk);
<> 149:156823d33999 347 break;
<> 149:156823d33999 348 }
<> 149:156823d33999 349 } else { // disable
<> 149:156823d33999 350 switch (irq) {
<> 149:156823d33999 351 case RxIrq:
<> 149:156823d33999 352 UART_DISABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk));
<> 149:156823d33999 353 obj->serial.inten_msk = obj->serial.inten_msk & ~(UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk);
<> 149:156823d33999 354 break;
<> 149:156823d33999 355 case TxIrq:
<> 149:156823d33999 356 UART_DISABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_THREIEN_Msk);
<> 149:156823d33999 357 obj->serial.inten_msk = obj->serial.inten_msk & ~UART_INTEN_THREIEN_Msk;
<> 149:156823d33999 358 break;
<> 149:156823d33999 359 }
<> 149:156823d33999 360 }
<> 149:156823d33999 361 }
<> 149:156823d33999 362
<> 149:156823d33999 363 int serial_getc(serial_t *obj)
<> 149:156823d33999 364 {
<> 149:156823d33999 365 // TODO: Fix every byte access requires accompaniness of one interrupt. This degrades performance much.
<> 149:156823d33999 366 while (! serial_readable(obj));
<> 149:156823d33999 367 int c = UART_READ(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 368
<> 149:156823d33999 369 // Simulate clear of the interrupt flag
<> 149:156823d33999 370 if (obj->serial.inten_msk & (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk)) {
<> 149:156823d33999 371 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk));
<> 149:156823d33999 372 }
<> 149:156823d33999 373
<> 149:156823d33999 374 return c;
<> 149:156823d33999 375 }
<> 149:156823d33999 376
<> 149:156823d33999 377 void serial_putc(serial_t *obj, int c)
<> 149:156823d33999 378 {
<> 149:156823d33999 379 // TODO: Fix every byte access requires accompaniness of one interrupt. This degrades performance much.
<> 149:156823d33999 380 while (! serial_writable(obj));
<> 149:156823d33999 381 UART_WRITE(((UART_T *) NU_MODBASE(obj->serial.uart)), c);
<> 149:156823d33999 382
<> 149:156823d33999 383 // Simulate clear of the interrupt flag
<> 149:156823d33999 384 if (obj->serial.inten_msk & UART_INTEN_THREIEN_Msk) {
<> 149:156823d33999 385 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_THREIEN_Msk);
<> 149:156823d33999 386 }
<> 149:156823d33999 387 }
<> 149:156823d33999 388
<> 149:156823d33999 389 int serial_readable(serial_t *obj)
<> 149:156823d33999 390 {
<> 149:156823d33999 391 //return UART_IS_RX_READY(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 392 return ! UART_GET_RX_EMPTY(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 393 }
<> 149:156823d33999 394
<> 149:156823d33999 395 int serial_writable(serial_t *obj)
<> 149:156823d33999 396 {
<> 149:156823d33999 397 return ! UART_IS_TX_FULL(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 398 }
<> 149:156823d33999 399
<> 149:156823d33999 400 void serial_pinout_tx(PinName tx)
<> 149:156823d33999 401 {
<> 149:156823d33999 402 pinmap_pinout(tx, PinMap_UART_TX);
<> 149:156823d33999 403 }
<> 149:156823d33999 404
<> 149:156823d33999 405 void serial_break_set(serial_t *obj)
<> 149:156823d33999 406 {
<> 149:156823d33999 407 ((UART_T *) NU_MODBASE(obj->serial.uart))->LINE |= UART_LINE_BCB_Msk;
<> 149:156823d33999 408 }
<> 149:156823d33999 409
<> 149:156823d33999 410 void serial_break_clear(serial_t *obj)
<> 149:156823d33999 411 {
<> 149:156823d33999 412 ((UART_T *) NU_MODBASE(obj->serial.uart))->LINE &= ~UART_LINE_BCB_Msk;
<> 149:156823d33999 413 }
<> 149:156823d33999 414
<> 149:156823d33999 415 static void uart0_vec(void)
<> 149:156823d33999 416 {
<> 149:156823d33999 417 uart_irq(uart0_var.obj);
<> 149:156823d33999 418 }
<> 149:156823d33999 419
<> 149:156823d33999 420 static void uart1_vec(void)
<> 149:156823d33999 421 {
<> 149:156823d33999 422 uart_irq(uart1_var.obj);
<> 149:156823d33999 423 }
<> 149:156823d33999 424
<> 149:156823d33999 425 static void uart2_vec(void)
<> 149:156823d33999 426 {
<> 149:156823d33999 427 uart_irq(uart2_var.obj);
<> 149:156823d33999 428 }
<> 149:156823d33999 429
<> 149:156823d33999 430 static void uart3_vec(void)
<> 149:156823d33999 431 {
<> 149:156823d33999 432 uart_irq(uart3_var.obj);
<> 149:156823d33999 433 }
<> 149:156823d33999 434
<> 149:156823d33999 435 static void uart_irq(serial_t *obj)
<> 149:156823d33999 436 {
<> 149:156823d33999 437 UART_T *uart_base = (UART_T *) NU_MODBASE(obj->serial.uart);
<> 149:156823d33999 438
<> 149:156823d33999 439 if (uart_base->INTSTS & (UART_INTSTS_RDAINT_Msk | UART_INTSTS_RXTOINT_Msk)) {
<> 149:156823d33999 440 // Simulate clear of the interrupt flag. Temporarily disable the interrupt here and to be recovered on next read.
<> 149:156823d33999 441 UART_DISABLE_INT(uart_base, (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk));
<> 149:156823d33999 442 if (obj->serial.irq_handler) {
<> 149:156823d33999 443 ((uart_irq_handler) obj->serial.irq_handler)(obj->serial.irq_id, RxIrq);
<> 149:156823d33999 444 }
<> 149:156823d33999 445 }
<> 149:156823d33999 446
<> 149:156823d33999 447 if (uart_base->INTSTS & UART_INTSTS_THREINT_Msk) {
<> 149:156823d33999 448 // Simulate clear of the interrupt flag. Temporarily disable the interrupt here and to be recovered on next write.
<> 149:156823d33999 449 UART_DISABLE_INT(uart_base, UART_INTEN_THREIEN_Msk);
<> 149:156823d33999 450 if (obj->serial.irq_handler) {
<> 149:156823d33999 451 ((uart_irq_handler) obj->serial.irq_handler)(obj->serial.irq_id, TxIrq);
<> 149:156823d33999 452 }
<> 149:156823d33999 453 }
<> 149:156823d33999 454
<> 149:156823d33999 455 // FIXME: Ignore all other interrupt flags. Clear them. Otherwise, program will get stuck in interrupt.
<> 149:156823d33999 456 uart_base->INTSTS = uart_base->INTSTS;
<> 149:156823d33999 457 uart_base->FIFOSTS = uart_base->FIFOSTS;
<> 149:156823d33999 458 }
<> 149:156823d33999 459
<> 149:156823d33999 460
<> 149:156823d33999 461 #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 462 int serial_tx_asynch(serial_t *obj, const void *tx, size_t tx_length, uint8_t tx_width, uint32_t handler, uint32_t event, DMAUsage hint)
<> 149:156823d33999 463 {
<> 149:156823d33999 464 // NOTE: tx_width is deprecated. Assume its value is databits ceiled to the nearest number among 8, 16, and 32.
<> 149:156823d33999 465 tx_width = (obj->serial.databits <= 8) ? 8 : (obj->serial.databits <= 16) ? 16 : 32;
<> 149:156823d33999 466
<> 149:156823d33999 467 MBED_ASSERT(tx_width == 8 || tx_width == 16 || tx_width == 32);
<> 149:156823d33999 468
<> 149:156823d33999 469 obj->serial.dma_usage_tx = hint;
<> 149:156823d33999 470 serial_check_dma_usage(&obj->serial.dma_usage_tx, &obj->serial.dma_chn_id_tx);
<> 149:156823d33999 471
<> 149:156823d33999 472 // UART IRQ is necessary for both interrupt way and DMA way
<> 149:156823d33999 473 serial_tx_enable_event(obj, event, 1);
<> 149:156823d33999 474 serial_tx_buffer_set(obj, tx, tx_length, tx_width);
<> 149:156823d33999 475 //UART_HAL_DisableTransmitter(obj->serial.address);
<> 149:156823d33999 476 //UART_HAL_FlushTxFifo(obj->serial.address);
<> 149:156823d33999 477 //UART_HAL_EnableTransmitter(obj->serial.address);
<> 149:156823d33999 478
<> 149:156823d33999 479 int n_word = 0;
<> 149:156823d33999 480 if (obj->serial.dma_usage_tx == DMA_USAGE_NEVER) {
<> 149:156823d33999 481 // Interrupt way
<> 149:156823d33999 482 n_word = serial_write_async(obj);
<> 149:156823d33999 483 serial_tx_enable_interrupt(obj, handler, 1);
<> 149:156823d33999 484 } else {
<> 149:156823d33999 485 // DMA way
<> 149:156823d33999 486 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 487 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 488 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 489
<> 149:156823d33999 490 PDMA->CHCTL |= 1 << obj->serial.dma_chn_id_tx; // Enable this DMA channel
<> 149:156823d33999 491 PDMA_SetTransferMode(obj->serial.dma_chn_id_tx,
<> 149:156823d33999 492 ((struct nu_uart_var *) modinit->var)->pdma_perp_tx, // Peripheral connected to this PDMA
<> 149:156823d33999 493 0, // Scatter-gather disabled
<> 149:156823d33999 494 0); // Scatter-gather descriptor address
<> 149:156823d33999 495 PDMA_SetTransferCnt(obj->serial.dma_chn_id_tx,
<> 149:156823d33999 496 (tx_width == 8) ? PDMA_WIDTH_8 : (tx_width == 16) ? PDMA_WIDTH_16 : PDMA_WIDTH_32,
<> 149:156823d33999 497 tx_length);
<> 149:156823d33999 498 PDMA_SetTransferAddr(obj->serial.dma_chn_id_tx,
<> 149:156823d33999 499 (uint32_t) tx, // NOTE:
<> 149:156823d33999 500 // NUC472: End of source address
<> 149:156823d33999 501 // M451: Start of source address
<> 149:156823d33999 502 PDMA_SAR_INC, // Source address incremental
<> 149:156823d33999 503 (uint32_t) obj->serial.uart, // Destination address
<> 149:156823d33999 504 PDMA_DAR_FIX); // Destination address fixed
<> 149:156823d33999 505 PDMA_SetBurstType(obj->serial.dma_chn_id_tx,
<> 149:156823d33999 506 PDMA_REQ_SINGLE, // Single mode
<> 149:156823d33999 507 0); // Burst size
<> 149:156823d33999 508 PDMA_EnableInt(obj->serial.dma_chn_id_tx,
<> 149:156823d33999 509 PDMA_INT_TRANS_DONE); // Interrupt type
<> 149:156823d33999 510 // Register DMA event handler
<> 149:156823d33999 511 dma_set_handler(obj->serial.dma_chn_id_tx, (uint32_t) uart_dma_handler_tx, (uint32_t) obj, DMA_EVENT_ALL);
<> 149:156823d33999 512 serial_tx_enable_interrupt(obj, handler, 1);
<> 149:156823d33999 513 ((UART_T *) NU_MODBASE(obj->serial.uart))->INTEN |= UART_INTEN_TXPDMAEN_Msk; // Start DMA transfer
<> 149:156823d33999 514 }
<> 149:156823d33999 515
<> 149:156823d33999 516 return n_word;
<> 149:156823d33999 517 }
<> 149:156823d33999 518
<> 149:156823d33999 519 void serial_rx_asynch(serial_t *obj, void *rx, size_t rx_length, uint8_t rx_width, uint32_t handler, uint32_t event, uint8_t char_match, DMAUsage hint)
<> 149:156823d33999 520 {
<> 149:156823d33999 521 // NOTE: rx_width is deprecated. Assume its value is databits ceiled to the nearest number among 8, 16, and 32.
<> 149:156823d33999 522 rx_width = (obj->serial.databits <= 8) ? 8 : (obj->serial.databits <= 16) ? 16 : 32;
<> 149:156823d33999 523
<> 149:156823d33999 524 MBED_ASSERT(rx_width == 8 || rx_width == 16 || rx_width == 32);
<> 149:156823d33999 525
<> 149:156823d33999 526 obj->serial.dma_usage_rx = hint;
<> 149:156823d33999 527 serial_check_dma_usage(&obj->serial.dma_usage_rx, &obj->serial.dma_chn_id_rx);
<> 149:156823d33999 528 // DMA doesn't support char match, so fall back to IRQ if it is requested.
<> 149:156823d33999 529 if (obj->serial.dma_usage_rx != DMA_USAGE_NEVER &&
<> 149:156823d33999 530 (event & SERIAL_EVENT_RX_CHARACTER_MATCH) &&
<> 149:156823d33999 531 char_match != SERIAL_RESERVED_CHAR_MATCH) {
<> 149:156823d33999 532 obj->serial.dma_usage_rx = DMA_USAGE_NEVER;
<> 149:156823d33999 533 dma_channel_free(obj->serial.dma_chn_id_rx);
<> 149:156823d33999 534 obj->serial.dma_chn_id_rx = DMA_ERROR_OUT_OF_CHANNELS;
<> 149:156823d33999 535 }
<> 149:156823d33999 536
<> 149:156823d33999 537 // UART IRQ is necessary for both interrupt way and DMA way
<> 149:156823d33999 538 serial_rx_enable_event(obj, event, 1);
<> 149:156823d33999 539 serial_rx_buffer_set(obj, rx, rx_length, rx_width);
<> 149:156823d33999 540 serial_rx_set_char_match(obj, char_match);
<> 149:156823d33999 541 //UART_HAL_DisableReceiver(obj->serial.address);
<> 149:156823d33999 542 //UART_HAL_FlushRxFifo(obj->serial.address);
<> 149:156823d33999 543 //UART_HAL_EnableReceiver(obj->serial.address);
<> 149:156823d33999 544
<> 149:156823d33999 545 if (obj->serial.dma_usage_rx == DMA_USAGE_NEVER) {
<> 149:156823d33999 546 // Interrupt way
<> 149:156823d33999 547 serial_rx_enable_interrupt(obj, handler, 1);
<> 149:156823d33999 548 } else {
<> 149:156823d33999 549 // DMA way
<> 149:156823d33999 550 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 551 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 552 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 553
<> 149:156823d33999 554 PDMA->CHCTL |= 1 << obj->serial.dma_chn_id_rx; // Enable this DMA channel
<> 149:156823d33999 555 PDMA_SetTransferMode(obj->serial.dma_chn_id_rx,
<> 149:156823d33999 556 ((struct nu_uart_var *) modinit->var)->pdma_perp_rx, // Peripheral connected to this PDMA
<> 149:156823d33999 557 0, // Scatter-gather disabled
<> 149:156823d33999 558 0); // Scatter-gather descriptor address
<> 149:156823d33999 559 PDMA_SetTransferCnt(obj->serial.dma_chn_id_rx,
<> 149:156823d33999 560 (rx_width == 8) ? PDMA_WIDTH_8 : (rx_width == 16) ? PDMA_WIDTH_16 : PDMA_WIDTH_32,
<> 149:156823d33999 561 rx_length);
<> 149:156823d33999 562 PDMA_SetTransferAddr(obj->serial.dma_chn_id_rx,
<> 149:156823d33999 563 (uint32_t) obj->serial.uart, // Source address
<> 149:156823d33999 564 PDMA_SAR_FIX, // Source address fixed
<> 149:156823d33999 565 (uint32_t) rx, // NOTE:
<> 149:156823d33999 566 // NUC472: End of destination address
<> 149:156823d33999 567 // M451: Start of destination address
<> 149:156823d33999 568 PDMA_DAR_INC); // Destination address incremental
<> 149:156823d33999 569 PDMA_SetBurstType(obj->serial.dma_chn_id_rx,
<> 149:156823d33999 570 PDMA_REQ_SINGLE, // Single mode
<> 149:156823d33999 571 0); // Burst size
<> 149:156823d33999 572 PDMA_EnableInt(obj->serial.dma_chn_id_rx,
<> 149:156823d33999 573 PDMA_INT_TRANS_DONE); // Interrupt type
<> 149:156823d33999 574 // Register DMA event handler
<> 149:156823d33999 575 dma_set_handler(obj->serial.dma_chn_id_rx, (uint32_t) uart_dma_handler_rx, (uint32_t) obj, DMA_EVENT_ALL);
<> 149:156823d33999 576 serial_rx_enable_interrupt(obj, handler, 1);
<> 149:156823d33999 577 ((UART_T *) NU_MODBASE(obj->serial.uart))->INTEN |= UART_INTEN_RXPDMAEN_Msk; // Start DMA transfer
<> 149:156823d33999 578 }
<> 149:156823d33999 579 }
<> 149:156823d33999 580
<> 149:156823d33999 581 void serial_tx_abort_asynch(serial_t *obj)
<> 149:156823d33999 582 {
<> 149:156823d33999 583 // Flush Tx FIFO. Otherwise, output data may get lost on this change.
<> 149:156823d33999 584 while (! UART_IS_TX_EMPTY(((UART_T *) obj->serial.uart)));
<> 149:156823d33999 585
<> 149:156823d33999 586 if (obj->serial.dma_usage_tx != DMA_USAGE_NEVER) {
<> 149:156823d33999 587 if (obj->serial.dma_chn_id_tx != DMA_ERROR_OUT_OF_CHANNELS) {
<> 149:156823d33999 588 PDMA_DisableInt(obj->serial.dma_chn_id_tx, PDMA_INT_TRANS_DONE);
<> 149:156823d33999 589 // FIXME: On NUC472, next PDMA transfer will fail with PDMA_STOP() called. Cause is unknown.
<> 149:156823d33999 590 //PDMA_STOP(obj->serial.dma_chn_id_tx);
<> 149:156823d33999 591 PDMA->CHCTL &= ~(1 << obj->serial.dma_chn_id_tx);
<> 149:156823d33999 592 }
<> 149:156823d33999 593 UART_DISABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_TXPDMAEN_Msk);
<> 149:156823d33999 594 }
<> 149:156823d33999 595
<> 149:156823d33999 596 // Necessary for both interrupt way and DMA way
<> 149:156823d33999 597 serial_irq_set(obj, TxIrq, 0);
<> 149:156823d33999 598 // FIXME: more complete abort operation
<> 149:156823d33999 599 //UART_HAL_DisableTransmitter(obj->serial.serial.address);
<> 149:156823d33999 600 //UART_HAL_FlushTxFifo(obj->serial.serial.address);
<> 149:156823d33999 601 }
<> 149:156823d33999 602
<> 149:156823d33999 603 void serial_rx_abort_asynch(serial_t *obj)
<> 149:156823d33999 604 {
<> 149:156823d33999 605 if (obj->serial.dma_usage_rx != DMA_USAGE_NEVER) {
<> 149:156823d33999 606 if (obj->serial.dma_chn_id_rx != DMA_ERROR_OUT_OF_CHANNELS) {
<> 149:156823d33999 607 PDMA_DisableInt(obj->serial.dma_chn_id_rx, PDMA_INT_TRANS_DONE);
<> 149:156823d33999 608 // FIXME: On NUC472, next PDMA transfer will fail with PDMA_STOP() called. Cause is unknown.
<> 149:156823d33999 609 //PDMA_STOP(obj->serial.dma_chn_id_rx);
<> 149:156823d33999 610 PDMA->CHCTL &= ~(1 << obj->serial.dma_chn_id_rx);
<> 149:156823d33999 611 }
<> 149:156823d33999 612 UART_DISABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_RXPDMAEN_Msk);
<> 149:156823d33999 613 }
<> 149:156823d33999 614
<> 149:156823d33999 615 // Necessary for both interrupt way and DMA way
<> 149:156823d33999 616 serial_irq_set(obj, RxIrq, 0);
<> 149:156823d33999 617 // FIXME: more complete abort operation
<> 149:156823d33999 618 //UART_HAL_DisableReceiver(obj->serial.serial.address);
<> 149:156823d33999 619 //UART_HAL_FlushRxFifo(obj->serial.serial.address);
<> 149:156823d33999 620 }
<> 149:156823d33999 621
<> 149:156823d33999 622 uint8_t serial_tx_active(serial_t *obj)
<> 149:156823d33999 623 {
<> 149:156823d33999 624 return serial_is_irq_en(obj, TxIrq);
<> 149:156823d33999 625 }
<> 149:156823d33999 626
<> 149:156823d33999 627 uint8_t serial_rx_active(serial_t *obj)
<> 149:156823d33999 628 {
<> 149:156823d33999 629 return serial_is_irq_en(obj, RxIrq);
<> 149:156823d33999 630 }
<> 149:156823d33999 631
<> 149:156823d33999 632 int serial_irq_handler_asynch(serial_t *obj)
<> 149:156823d33999 633 {
<> 149:156823d33999 634 int event_rx = 0;
<> 149:156823d33999 635 int event_tx = 0;
<> 149:156823d33999 636
<> 149:156823d33999 637 // Necessary for both interrup way and DMA way
<> 149:156823d33999 638 if (serial_is_irq_en(obj, RxIrq)) {
<> 149:156823d33999 639 event_rx = serial_rx_event_check(obj);
<> 149:156823d33999 640 if (event_rx) {
<> 149:156823d33999 641 serial_rx_abort_asynch(obj);
<> 149:156823d33999 642 }
<> 149:156823d33999 643 }
<> 149:156823d33999 644
<> 149:156823d33999 645 if (serial_is_irq_en(obj, TxIrq)) {
<> 149:156823d33999 646 event_tx = serial_tx_event_check(obj);
<> 149:156823d33999 647 if (event_tx) {
<> 149:156823d33999 648 serial_tx_abort_asynch(obj);
<> 149:156823d33999 649 }
<> 149:156823d33999 650 }
<> 149:156823d33999 651
<> 149:156823d33999 652 return (obj->serial.event & (event_rx | event_tx));
<> 149:156823d33999 653 }
<> 149:156823d33999 654
<> 149:156823d33999 655 int serial_allow_powerdown(void)
<> 149:156823d33999 656 {
<> 149:156823d33999 657 uint32_t modinit_mask = uart_modinit_mask;
<> 149:156823d33999 658 while (modinit_mask) {
<> 149:156823d33999 659 int uart_idx = nu_ctz(modinit_mask);
<> 149:156823d33999 660 const struct nu_modinit_s *modinit = uart_modinit_tab + uart_idx;
<> 149:156823d33999 661 if (modinit->modname != NC) {
<> 149:156823d33999 662 UART_T *uart_base = (UART_T *) NU_MODBASE(modinit->modname);
<> 149:156823d33999 663 // Disallow entering power-down mode if Tx FIFO has data to flush
<> 149:156823d33999 664 if (! UART_IS_TX_EMPTY((uart_base))) {
<> 149:156823d33999 665 return 0;
<> 149:156823d33999 666 }
<> 149:156823d33999 667 // Disallow entering power-down mode if async Rx transfer (not PDMA) is on-going
<> 149:156823d33999 668 if (uart_base->INTEN & (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk)) {
<> 149:156823d33999 669 return 0;
<> 149:156823d33999 670 }
<> 149:156823d33999 671 // Disallow entering power-down mode if async Rx transfer (PDMA) is on-going
<> 149:156823d33999 672 if (uart_base->INTEN & UART_INTEN_RXPDMAEN_Msk) {
<> 149:156823d33999 673 return 0;
<> 149:156823d33999 674 }
<> 149:156823d33999 675 }
<> 149:156823d33999 676 modinit_mask &= ~(1 << uart_idx);
<> 149:156823d33999 677 }
<> 149:156823d33999 678
<> 149:156823d33999 679 return 1;
<> 149:156823d33999 680 }
<> 149:156823d33999 681
<> 149:156823d33999 682 static void uart0_vec_async(void)
<> 149:156823d33999 683 {
<> 149:156823d33999 684 uart_irq_async(uart0_var.obj);
<> 149:156823d33999 685 }
<> 149:156823d33999 686
<> 149:156823d33999 687 static void uart1_vec_async(void)
<> 149:156823d33999 688 {
<> 149:156823d33999 689 uart_irq_async(uart1_var.obj);
<> 149:156823d33999 690 }
<> 149:156823d33999 691
<> 149:156823d33999 692 static void uart2_vec_async(void)
<> 149:156823d33999 693 {
<> 149:156823d33999 694 uart_irq_async(uart2_var.obj);
<> 149:156823d33999 695 }
<> 149:156823d33999 696
<> 149:156823d33999 697 static void uart3_vec_async(void)
<> 149:156823d33999 698 {
<> 149:156823d33999 699 uart_irq_async(uart3_var.obj);
<> 149:156823d33999 700 }
<> 149:156823d33999 701
<> 149:156823d33999 702 static void uart_irq_async(serial_t *obj)
<> 149:156823d33999 703 {
<> 149:156823d33999 704 if (serial_is_irq_en(obj, RxIrq)) {
<> 149:156823d33999 705 (*obj->serial.irq_handler_rx_async)();
<> 149:156823d33999 706 }
<> 149:156823d33999 707 if (serial_is_irq_en(obj, TxIrq)) {
<> 149:156823d33999 708 (*obj->serial.irq_handler_tx_async)();
<> 149:156823d33999 709 }
<> 149:156823d33999 710 }
<> 149:156823d33999 711
<> 149:156823d33999 712 static void serial_rx_set_char_match(serial_t *obj, uint8_t char_match)
<> 149:156823d33999 713 {
<> 149:156823d33999 714 obj->char_match = char_match;
<> 149:156823d33999 715 obj->char_found = 0;
<> 149:156823d33999 716 }
<> 149:156823d33999 717
<> 149:156823d33999 718 static void serial_tx_enable_event(serial_t *obj, int event, uint8_t enable)
<> 149:156823d33999 719 {
<> 149:156823d33999 720 obj->serial.event &= ~SERIAL_EVENT_TX_MASK;
<> 149:156823d33999 721 obj->serial.event |= (event & SERIAL_EVENT_TX_MASK);
<> 149:156823d33999 722
<> 149:156823d33999 723 //if (event & SERIAL_EVENT_TX_COMPLETE) {
<> 149:156823d33999 724 //}
<> 149:156823d33999 725 }
<> 149:156823d33999 726
<> 149:156823d33999 727 static void serial_rx_enable_event(serial_t *obj, int event, uint8_t enable)
<> 149:156823d33999 728 {
<> 149:156823d33999 729 obj->serial.event &= ~SERIAL_EVENT_RX_MASK;
<> 149:156823d33999 730 obj->serial.event |= (event & SERIAL_EVENT_RX_MASK);
<> 149:156823d33999 731
<> 149:156823d33999 732 //if (event & SERIAL_EVENT_RX_COMPLETE) {
<> 149:156823d33999 733 //}
<> 149:156823d33999 734 //if (event & SERIAL_EVENT_RX_OVERRUN_ERROR) {
<> 149:156823d33999 735 //}
<> 149:156823d33999 736 if (event & SERIAL_EVENT_RX_FRAMING_ERROR) {
<> 149:156823d33999 737 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_RLSIEN_Msk);
<> 149:156823d33999 738 }
<> 149:156823d33999 739 if (event & SERIAL_EVENT_RX_PARITY_ERROR) {
<> 149:156823d33999 740 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_RLSIEN_Msk);
<> 149:156823d33999 741 }
<> 149:156823d33999 742 if (event & SERIAL_EVENT_RX_OVERFLOW) {
<> 149:156823d33999 743 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_BUFERRIEN_Msk);
<> 149:156823d33999 744 }
<> 149:156823d33999 745 //if (event & SERIAL_EVENT_RX_CHARACTER_MATCH) {
<> 149:156823d33999 746 //}
<> 149:156823d33999 747 }
<> 149:156823d33999 748
<> 149:156823d33999 749 static int serial_is_tx_complete(serial_t *obj)
<> 149:156823d33999 750 {
<> 149:156823d33999 751 // NOTE: Exclude tx fifo empty check due to no such interrupt on DMA way
<> 149:156823d33999 752 //return (obj->tx_buff.pos == obj->tx_buff.length) && UART_GET_TX_EMPTY(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 753 // FIXME: Premature abort???
<> 149:156823d33999 754 return (obj->tx_buff.pos == obj->tx_buff.length);
<> 149:156823d33999 755 }
<> 149:156823d33999 756
<> 149:156823d33999 757 static int serial_is_rx_complete(serial_t *obj)
<> 149:156823d33999 758 {
<> 149:156823d33999 759 //return (obj->rx_buff.pos == obj->rx_buff.length) && UART_GET_RX_EMPTY(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 760 return (obj->rx_buff.pos == obj->rx_buff.length);
<> 149:156823d33999 761 }
<> 149:156823d33999 762
<> 149:156823d33999 763 static uint32_t serial_tx_event_check(serial_t *obj)
<> 149:156823d33999 764 {
<> 149:156823d33999 765 UART_T *uart_base = (UART_T *) NU_MODBASE(obj->serial.uart);
<> 149:156823d33999 766
<> 149:156823d33999 767 if (uart_base->INTSTS & UART_INTSTS_THREINT_Msk) {
<> 149:156823d33999 768 // Simulate clear of the interrupt flag. Temporarily disable the interrupt here and to be recovered on next write.
<> 149:156823d33999 769 UART_DISABLE_INT(uart_base, UART_INTEN_THREIEN_Msk);
<> 149:156823d33999 770 }
<> 149:156823d33999 771
<> 149:156823d33999 772 uint32_t event = 0;
<> 149:156823d33999 773
<> 149:156823d33999 774 if (obj->serial.dma_usage_tx == DMA_USAGE_NEVER) {
<> 149:156823d33999 775 serial_write_async(obj);
<> 149:156823d33999 776 }
<> 149:156823d33999 777
<> 149:156823d33999 778 if (serial_is_tx_complete(obj)) {
<> 149:156823d33999 779 event |= SERIAL_EVENT_TX_COMPLETE;
<> 149:156823d33999 780 }
<> 149:156823d33999 781
<> 149:156823d33999 782 return event;
<> 149:156823d33999 783 }
<> 149:156823d33999 784
<> 149:156823d33999 785 static uint32_t serial_rx_event_check(serial_t *obj)
<> 149:156823d33999 786 {
<> 149:156823d33999 787 UART_T *uart_base = (UART_T *) NU_MODBASE(obj->serial.uart);
<> 149:156823d33999 788
<> 149:156823d33999 789 if (uart_base->INTSTS & (UART_INTSTS_RDAINT_Msk | UART_INTSTS_RXTOINT_Msk)) {
<> 149:156823d33999 790 // Simulate clear of the interrupt flag. Temporarily disable the interrupt here and to be recovered on next read.
<> 149:156823d33999 791 UART_DISABLE_INT(uart_base, (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk));
<> 149:156823d33999 792 }
<> 149:156823d33999 793
<> 149:156823d33999 794 uint32_t event = 0;
<> 149:156823d33999 795
<> 149:156823d33999 796 if (uart_base->FIFOSTS & UART_FIFOSTS_BIF_Msk) {
<> 149:156823d33999 797 uart_base->FIFOSTS = UART_FIFOSTS_BIF_Msk;
<> 149:156823d33999 798 }
<> 149:156823d33999 799 if (uart_base->FIFOSTS & UART_FIFOSTS_FEF_Msk) {
<> 149:156823d33999 800 uart_base->FIFOSTS = UART_FIFOSTS_FEF_Msk;
<> 149:156823d33999 801 event |= SERIAL_EVENT_RX_FRAMING_ERROR;
<> 149:156823d33999 802 }
<> 149:156823d33999 803 if (uart_base->FIFOSTS & UART_FIFOSTS_PEF_Msk) {
<> 149:156823d33999 804 uart_base->FIFOSTS = UART_FIFOSTS_PEF_Msk;
<> 149:156823d33999 805 event |= SERIAL_EVENT_RX_PARITY_ERROR;
<> 149:156823d33999 806 }
<> 149:156823d33999 807
<> 149:156823d33999 808 if (uart_base->FIFOSTS & UART_FIFOSTS_RXOVIF_Msk) {
<> 149:156823d33999 809 uart_base->FIFOSTS = UART_FIFOSTS_RXOVIF_Msk;
<> 149:156823d33999 810 event |= SERIAL_EVENT_RX_OVERFLOW;
<> 149:156823d33999 811 }
<> 149:156823d33999 812
<> 149:156823d33999 813 if (obj->serial.dma_usage_rx == DMA_USAGE_NEVER) {
<> 149:156823d33999 814 serial_read_async(obj);
<> 149:156823d33999 815 }
<> 149:156823d33999 816
<> 149:156823d33999 817 if (serial_is_rx_complete(obj)) {
<> 149:156823d33999 818 event |= SERIAL_EVENT_RX_COMPLETE;
<> 149:156823d33999 819 }
<> 149:156823d33999 820 if ((obj->char_match != SERIAL_RESERVED_CHAR_MATCH) && obj->char_found) {
<> 149:156823d33999 821 event |= SERIAL_EVENT_RX_CHARACTER_MATCH;
<> 149:156823d33999 822 // FIXME: Timing to reset char_found?
<> 149:156823d33999 823 //obj->char_found = 0;
<> 149:156823d33999 824 }
<> 149:156823d33999 825
<> 149:156823d33999 826 return event;
<> 149:156823d33999 827 }
<> 149:156823d33999 828
<> 149:156823d33999 829 static void uart_dma_handler_tx(uint32_t id, uint32_t event_dma)
<> 149:156823d33999 830 {
<> 149:156823d33999 831 serial_t *obj = (serial_t *) id;
<> 149:156823d33999 832
<> 149:156823d33999 833 // FIXME: Pass this error to caller
<> 149:156823d33999 834 if (event_dma & DMA_EVENT_ABORT) {
<> 149:156823d33999 835 }
<> 149:156823d33999 836 // Expect UART IRQ will catch this transfer done event
<> 149:156823d33999 837 if (event_dma & DMA_EVENT_TRANSFER_DONE) {
<> 149:156823d33999 838 obj->tx_buff.pos = obj->tx_buff.length;
<> 149:156823d33999 839 }
<> 149:156823d33999 840 // FIXME: Pass this error to caller
<> 149:156823d33999 841 if (event_dma & DMA_EVENT_TIMEOUT) {
<> 149:156823d33999 842 }
<> 149:156823d33999 843
<> 149:156823d33999 844 uart_irq_async(obj);
<> 149:156823d33999 845 }
<> 149:156823d33999 846
<> 149:156823d33999 847 static void uart_dma_handler_rx(uint32_t id, uint32_t event_dma)
<> 149:156823d33999 848 {
<> 149:156823d33999 849 serial_t *obj = (serial_t *) id;
<> 149:156823d33999 850
<> 149:156823d33999 851 // FIXME: Pass this error to caller
<> 149:156823d33999 852 if (event_dma & DMA_EVENT_ABORT) {
<> 149:156823d33999 853 }
<> 149:156823d33999 854 // Expect UART IRQ will catch this transfer done event
<> 149:156823d33999 855 if (event_dma & DMA_EVENT_TRANSFER_DONE) {
<> 149:156823d33999 856 obj->rx_buff.pos = obj->rx_buff.length;
<> 149:156823d33999 857 }
<> 149:156823d33999 858 // FIXME: Pass this error to caller
<> 149:156823d33999 859 if (event_dma & DMA_EVENT_TIMEOUT) {
<> 149:156823d33999 860 }
<> 149:156823d33999 861
<> 149:156823d33999 862 uart_irq_async(obj);
<> 149:156823d33999 863 }
<> 149:156823d33999 864
<> 149:156823d33999 865 static int serial_write_async(serial_t *obj)
<> 149:156823d33999 866 {
<> 149:156823d33999 867 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 868 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 869 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 870
<> 149:156823d33999 871 UART_T *uart_base = (UART_T *) NU_MODBASE(obj->serial.uart);
<> 149:156823d33999 872
<> 149:156823d33999 873 uint32_t tx_fifo_max = ((struct nu_uart_var *) modinit->var)->fifo_size_tx;
<> 149:156823d33999 874 uint32_t tx_fifo_busy = (uart_base->FIFOSTS & UART_FIFOSTS_TXPTR_Msk) >> UART_FIFOSTS_TXPTR_Pos;
<> 149:156823d33999 875 if (uart_base->FIFOSTS & UART_FIFOSTS_TXFULL_Msk) {
<> 149:156823d33999 876 tx_fifo_busy = tx_fifo_max;
<> 149:156823d33999 877 }
<> 149:156823d33999 878 uint32_t tx_fifo_free = tx_fifo_max - tx_fifo_busy;
<> 149:156823d33999 879 if (tx_fifo_free == 0) {
<> 149:156823d33999 880 // Simulate clear of the interrupt flag
<> 149:156823d33999 881 if (obj->serial.inten_msk & UART_INTEN_THREIEN_Msk) {
<> 149:156823d33999 882 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_THREIEN_Msk);
<> 149:156823d33999 883 }
<> 149:156823d33999 884 return 0;
<> 149:156823d33999 885 }
<> 149:156823d33999 886
<> 149:156823d33999 887 uint32_t bytes_per_word = obj->tx_buff.width / 8;
<> 149:156823d33999 888
<> 149:156823d33999 889 uint8_t *tx = (uint8_t *)(obj->tx_buff.buffer) + bytes_per_word * obj->tx_buff.pos;
<> 149:156823d33999 890 int n_words = 0;
<> 149:156823d33999 891 while (obj->tx_buff.pos < obj->tx_buff.length && tx_fifo_free >= bytes_per_word) {
<> 149:156823d33999 892 switch (bytes_per_word) {
<> 149:156823d33999 893 case 4:
<> 149:156823d33999 894 UART_WRITE(((UART_T *) NU_MODBASE(obj->serial.uart)), *tx ++);
<> 149:156823d33999 895 UART_WRITE(((UART_T *) NU_MODBASE(obj->serial.uart)), *tx ++);
<> 149:156823d33999 896 case 2:
<> 149:156823d33999 897 UART_WRITE(((UART_T *) NU_MODBASE(obj->serial.uart)), *tx ++);
<> 149:156823d33999 898 case 1:
<> 149:156823d33999 899 UART_WRITE(((UART_T *) NU_MODBASE(obj->serial.uart)), *tx ++);
<> 149:156823d33999 900 }
<> 149:156823d33999 901
<> 149:156823d33999 902 n_words ++;
<> 149:156823d33999 903 tx_fifo_free -= bytes_per_word;
<> 149:156823d33999 904 obj->tx_buff.pos ++;
<> 149:156823d33999 905 }
<> 149:156823d33999 906
<> 149:156823d33999 907 if (n_words) {
<> 149:156823d33999 908 // Simulate clear of the interrupt flag
<> 149:156823d33999 909 if (obj->serial.inten_msk & UART_INTEN_THREIEN_Msk) {
<> 149:156823d33999 910 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), UART_INTEN_THREIEN_Msk);
<> 149:156823d33999 911 }
<> 149:156823d33999 912 }
<> 149:156823d33999 913
<> 149:156823d33999 914 return n_words;
<> 149:156823d33999 915 }
<> 149:156823d33999 916
<> 149:156823d33999 917 static int serial_read_async(serial_t *obj)
<> 149:156823d33999 918 {
<> 149:156823d33999 919 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 920 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 921 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 922
<> 149:156823d33999 923 uint32_t rx_fifo_busy = (((UART_T *) NU_MODBASE(obj->serial.uart))->FIFOSTS & UART_FIFOSTS_RXPTR_Msk) >> UART_FIFOSTS_RXPTR_Pos;
<> 149:156823d33999 924 //uint32_t rx_fifo_free = ((struct nu_uart_var *) modinit->var)->fifo_size_rx - rx_fifo_busy;
<> 149:156823d33999 925 //if (rx_fifo_free == 0) {
<> 149:156823d33999 926 // return 0;
<> 149:156823d33999 927 //}
<> 149:156823d33999 928
<> 149:156823d33999 929 uint32_t bytes_per_word = obj->rx_buff.width / 8;
<> 149:156823d33999 930
<> 149:156823d33999 931 uint8_t *rx = (uint8_t *)(obj->rx_buff.buffer) + bytes_per_word * obj->rx_buff.pos;
<> 149:156823d33999 932 int n_words = 0;
<> 149:156823d33999 933 while (obj->rx_buff.pos < obj->rx_buff.length && rx_fifo_busy >= bytes_per_word) {
<> 149:156823d33999 934 switch (bytes_per_word) {
<> 149:156823d33999 935 case 4:
<> 149:156823d33999 936 *rx ++ = UART_READ(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 937 *rx ++ = UART_READ(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 938 case 2:
<> 149:156823d33999 939 *rx ++ = UART_READ(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 940 case 1:
<> 149:156823d33999 941 *rx ++ = UART_READ(((UART_T *) NU_MODBASE(obj->serial.uart)));
<> 149:156823d33999 942 }
<> 149:156823d33999 943
<> 149:156823d33999 944 n_words ++;
<> 149:156823d33999 945 rx_fifo_busy -= bytes_per_word;
<> 149:156823d33999 946 obj->rx_buff.pos ++;
<> 149:156823d33999 947
<> 149:156823d33999 948 if ((obj->serial.event & SERIAL_EVENT_RX_CHARACTER_MATCH) &&
<> 149:156823d33999 949 obj->char_match != SERIAL_RESERVED_CHAR_MATCH) {
<> 149:156823d33999 950 uint8_t *rx_cmp = rx;
<> 149:156823d33999 951 switch (bytes_per_word) {
<> 149:156823d33999 952 case 4:
<> 149:156823d33999 953 rx_cmp -= 2;
<> 149:156823d33999 954 case 2:
<> 149:156823d33999 955 rx_cmp --;
<> 149:156823d33999 956 case 1:
<> 149:156823d33999 957 rx_cmp --;
<> 149:156823d33999 958 }
<> 149:156823d33999 959 if (*rx_cmp == obj->char_match) {
<> 149:156823d33999 960 obj->char_found = 1;
<> 149:156823d33999 961 break;
<> 149:156823d33999 962 }
<> 149:156823d33999 963 }
<> 149:156823d33999 964 }
<> 149:156823d33999 965
<> 149:156823d33999 966 if (n_words) {
<> 149:156823d33999 967 // Simulate clear of the interrupt flag
<> 149:156823d33999 968 if (obj->serial.inten_msk & (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk)) {
<> 149:156823d33999 969 UART_ENABLE_INT(((UART_T *) NU_MODBASE(obj->serial.uart)), (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk));
<> 149:156823d33999 970 }
<> 149:156823d33999 971 }
<> 149:156823d33999 972
<> 149:156823d33999 973 return n_words;
<> 149:156823d33999 974 }
<> 149:156823d33999 975
<> 149:156823d33999 976 static void serial_tx_buffer_set(serial_t *obj, const void *tx, size_t length, uint8_t width)
<> 149:156823d33999 977 {
<> 149:156823d33999 978 obj->tx_buff.buffer = (void *) tx;
<> 149:156823d33999 979 obj->tx_buff.length = length;
<> 149:156823d33999 980 obj->tx_buff.pos = 0;
<> 149:156823d33999 981 obj->tx_buff.width = width;
<> 149:156823d33999 982 }
<> 149:156823d33999 983
<> 149:156823d33999 984 static void serial_rx_buffer_set(serial_t *obj, void *rx, size_t length, uint8_t width)
<> 149:156823d33999 985 {
<> 149:156823d33999 986 obj->rx_buff.buffer = rx;
<> 149:156823d33999 987 obj->rx_buff.length = length;
<> 149:156823d33999 988 obj->rx_buff.pos = 0;
<> 149:156823d33999 989 obj->rx_buff.width = width;
<> 149:156823d33999 990 }
<> 149:156823d33999 991
<> 149:156823d33999 992 static void serial_tx_enable_interrupt(serial_t *obj, uint32_t handler, uint8_t enable)
<> 149:156823d33999 993 {
<> 149:156823d33999 994 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 995 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 996 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 997
<> 149:156823d33999 998 // Necessary for both interrupt way and DMA way
<> 149:156823d33999 999 ((struct nu_uart_var *) modinit->var)->obj = obj;
<> 149:156823d33999 1000 // With our own async vector, tx/rx handlers can be different.
<> 149:156823d33999 1001 obj->serial.vec = ((struct nu_uart_var *) modinit->var)->vec_async;
<> 149:156823d33999 1002 obj->serial.irq_handler_tx_async = (void (*)(void)) handler;
<> 149:156823d33999 1003 serial_irq_set(obj, TxIrq, enable);
<> 149:156823d33999 1004 }
<> 149:156823d33999 1005
<> 149:156823d33999 1006 static void serial_rx_enable_interrupt(serial_t *obj, uint32_t handler, uint8_t enable)
<> 149:156823d33999 1007 {
<> 149:156823d33999 1008 const struct nu_modinit_s *modinit = get_modinit(obj->serial.uart, uart_modinit_tab);
<> 149:156823d33999 1009 MBED_ASSERT(modinit != NULL);
<> 149:156823d33999 1010 MBED_ASSERT(modinit->modname == obj->serial.uart);
<> 149:156823d33999 1011
<> 149:156823d33999 1012 // Necessary for both interrupt way and DMA way
<> 149:156823d33999 1013 ((struct nu_uart_var *) modinit->var)->obj = obj;
<> 149:156823d33999 1014 // With our own async vector, tx/rx handlers can be different.
<> 149:156823d33999 1015 obj->serial.vec = ((struct nu_uart_var *) modinit->var)->vec_async;
<> 149:156823d33999 1016 obj->serial.irq_handler_rx_async = (void (*) (void)) handler;
<> 149:156823d33999 1017 serial_irq_set(obj, RxIrq, enable);
<> 149:156823d33999 1018 }
<> 149:156823d33999 1019
<> 149:156823d33999 1020 static void serial_check_dma_usage(DMAUsage *dma_usage, int *dma_ch)
<> 149:156823d33999 1021 {
<> 149:156823d33999 1022 if (*dma_usage != DMA_USAGE_NEVER) {
<> 149:156823d33999 1023 if (*dma_ch == DMA_ERROR_OUT_OF_CHANNELS) {
<> 149:156823d33999 1024 *dma_ch = dma_channel_allocate(DMA_CAP_NONE);
<> 149:156823d33999 1025 }
<> 149:156823d33999 1026 if (*dma_ch == DMA_ERROR_OUT_OF_CHANNELS) {
<> 149:156823d33999 1027 *dma_usage = DMA_USAGE_NEVER;
<> 149:156823d33999 1028 }
<> 149:156823d33999 1029 }
<> 149:156823d33999 1030 else {
<> 149:156823d33999 1031 dma_channel_free(*dma_ch);
<> 149:156823d33999 1032 *dma_ch = DMA_ERROR_OUT_OF_CHANNELS;
<> 149:156823d33999 1033 }
<> 149:156823d33999 1034 }
<> 149:156823d33999 1035
<> 149:156823d33999 1036 static int serial_is_irq_en(serial_t *obj, SerialIrq irq)
<> 149:156823d33999 1037 {
<> 149:156823d33999 1038 int inten_msk = 0;
<> 149:156823d33999 1039
<> 149:156823d33999 1040 switch (irq) {
<> 149:156823d33999 1041 case RxIrq:
<> 149:156823d33999 1042 inten_msk = obj->serial.inten_msk & (UART_INTEN_RDAIEN_Msk | UART_INTEN_RXTOIEN_Msk);
<> 149:156823d33999 1043 break;
<> 149:156823d33999 1044 case TxIrq:
<> 149:156823d33999 1045 inten_msk = obj->serial.inten_msk & UART_INTEN_THREIEN_Msk;
<> 149:156823d33999 1046 break;
<> 149:156823d33999 1047 }
<> 149:156823d33999 1048
<> 149:156823d33999 1049 return !! inten_msk;
<> 149:156823d33999 1050 }
<> 149:156823d33999 1051
<> 149:156823d33999 1052 #endif // #if DEVICE_SERIAL_ASYNCH
<> 149:156823d33999 1053 #endif // #if DEVICE_SERIAL