Merge pull request #11198 from SteveCEvans/sce_rc2
[betaflight.git] / src / main / drivers / serial.h
blob2f63e596aee4cafff516bd2d8c0e1ec43311b1a4
1 /*
2 * This file is part of Cleanflight and Betaflight.
4 * Cleanflight and Betaflight are free software. You can redistribute
5 * this software and/or modify this software under the terms of the
6 * GNU General Public License as published by the Free Software
7 * Foundation, either version 3 of the License, or (at your option)
8 * any later version.
10 * Cleanflight and Betaflight are distributed in the hope that they
11 * will be useful, but WITHOUT ANY WARRANTY; without even the implied
12 * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
13 * See the GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this software.
18 * If not, see <http://www.gnu.org/licenses/>.
21 #pragma once
23 #include "drivers/io.h"
24 #include "drivers/io_types.h"
25 #include "drivers/resource.h"
27 #include "pg/pg.h"
29 typedef enum {
30 MODE_RX = 1 << 0,
31 MODE_TX = 1 << 1,
32 MODE_RXTX = MODE_RX | MODE_TX
33 } portMode_e;
35 typedef enum {
36 SERIAL_NOT_INVERTED = 0 << 0,
37 SERIAL_INVERTED = 1 << 0,
38 SERIAL_STOPBITS_1 = 0 << 1,
39 SERIAL_STOPBITS_2 = 1 << 1,
40 SERIAL_PARITY_NO = 0 << 2,
41 SERIAL_PARITY_EVEN = 1 << 2,
42 SERIAL_UNIDIR = 0 << 3,
43 SERIAL_BIDIR = 1 << 3,
46 * Note on SERIAL_BIDIR_PP
47 * With SERIAL_BIDIR_PP, the very first start bit of back-to-back bytes
48 * is lost and the first data byte will be lost by a framing error.
49 * To ensure the first start bit to be sent, prepend a zero byte (0x00)
50 * to actual data bytes.
52 SERIAL_BIDIR_OD = 0 << 4,
53 SERIAL_BIDIR_PP = 1 << 4,
54 SERIAL_BIDIR_NOPULL = 1 << 5, // disable pulls in BIDIR RX mode
55 SERIAL_BIDIR_PP_PD = 1 << 6, // PP mode, normall inverted, but with PullDowns, to fix SA after bidir issue fixed (#10220)
56 } portOptions_e;
58 // Define known line control states which may be passed up by underlying serial driver callback
59 #define CTRL_LINE_STATE_DTR (1 << 0)
60 #define CTRL_LINE_STATE_RTS (1 << 1)
62 typedef void (*serialReceiveCallbackPtr)(uint16_t data, void *rxCallbackData); // used by serial drivers to return frames to app
63 typedef void (*serialIdleCallbackPtr)();
65 typedef struct serialPort_s {
67 const struct serialPortVTable *vTable;
69 portMode_e mode;
70 portOptions_e options;
72 uint32_t baudRate;
74 uint32_t rxBufferSize;
75 uint32_t txBufferSize;
76 volatile uint8_t *rxBuffer;
77 volatile uint8_t *txBuffer;
78 uint32_t rxBufferHead;
79 uint32_t rxBufferTail;
80 uint32_t txBufferHead;
81 uint32_t txBufferTail;
83 serialReceiveCallbackPtr rxCallback;
84 void *rxCallbackData;
86 serialIdleCallbackPtr idleCallback;
88 uint8_t identifier;
89 } serialPort_t;
91 #if defined(USE_SOFTSERIAL1) || defined(USE_SOFTSERIAL2)
92 # ifdef USE_SOFTSERIAL2
93 # define SERIAL_PORT_MAX_INDEX (RESOURCE_SOFT_OFFSET + 2)
94 # else
95 # define SERIAL_PORT_MAX_INDEX (RESOURCE_SOFT_OFFSET + 1)
96 # endif
97 #else
98 # define SERIAL_PORT_MAX_INDEX RESOURCE_SOFT_OFFSET
99 #endif
101 typedef struct serialPinConfig_s {
102 ioTag_t ioTagTx[SERIAL_PORT_MAX_INDEX];
103 ioTag_t ioTagRx[SERIAL_PORT_MAX_INDEX];
104 ioTag_t ioTagInverter[SERIAL_PORT_MAX_INDEX];
105 } serialPinConfig_t;
107 PG_DECLARE(serialPinConfig_t, serialPinConfig);
109 struct serialPortVTable {
110 void (*serialWrite)(serialPort_t *instance, uint8_t ch);
112 uint32_t (*serialTotalRxWaiting)(const serialPort_t *instance);
113 uint32_t (*serialTotalTxFree)(const serialPort_t *instance);
115 uint8_t (*serialRead)(serialPort_t *instance);
117 // Specified baud rate may not be allowed by an implementation, use serialGetBaudRate to determine actual baud rate in use.
118 void (*serialSetBaudRate)(serialPort_t *instance, uint32_t baudRate);
120 bool (*isSerialTransmitBufferEmpty)(const serialPort_t *instance);
122 void (*setMode)(serialPort_t *instance, portMode_e mode);
123 void (*setCtrlLineStateCb)(serialPort_t *instance, void (*cb)(void *instance, uint16_t ctrlLineState), void *context);
124 void (*setBaudRateCb)(serialPort_t *instance, void (*cb)(serialPort_t *context, uint32_t baud), serialPort_t *context);
126 void (*writeBuf)(serialPort_t *instance, const void *data, int count);
127 // Optional functions used to buffer large writes.
128 void (*beginWrite)(serialPort_t *instance);
129 void (*endWrite)(serialPort_t *instance);
132 void serialWrite(serialPort_t *instance, uint8_t ch);
133 uint32_t serialRxBytesWaiting(const serialPort_t *instance);
134 uint32_t serialTxBytesFree(const serialPort_t *instance);
135 void serialWriteBuf(serialPort_t *instance, const uint8_t *data, int count);
136 uint8_t serialRead(serialPort_t *instance);
137 void serialSetBaudRate(serialPort_t *instance, uint32_t baudRate);
138 void serialSetMode(serialPort_t *instance, portMode_e mode);
139 void serialSetCtrlLineStateCb(serialPort_t *instance, void (*cb)(void *context, uint16_t ctrlLineState), void *context);
140 void serialSetBaudRateCb(serialPort_t *instance, void (*cb)(serialPort_t *context, uint32_t baud), serialPort_t *context);
141 bool isSerialTransmitBufferEmpty(const serialPort_t *instance);
142 void serialPrint(serialPort_t *instance, const char *str);
143 uint32_t serialGetBaudRate(serialPort_t *instance);
145 // A shim that adapts the bufWriter API to the serialWriteBuf() API.
146 void serialWriteBufShim(void *instance, const uint8_t *data, int count);
147 void serialBeginWrite(serialPort_t *instance);
148 void serialEndWrite(serialPort_t *instance);