mbed-dev - mbed library sources. Supersedes mbed-src.

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mbed library sources. Supersedes mbed-src.

Dependents: Nucleo_Hello_Encoder BLE_iBeaconScan AM1805_DEMO DISCO-F429ZI_ExportTemplate1 ... more

targets/TARGET_NUVOTON/TARGET_M451/i2c_api.c@153:fa9ff456f731, 2016-12-20 (annotated)

Committer:: <>
Date:: Tue Dec 20 17:27:56 2016 +0000
Revision:: 153:fa9ff456f731
Parent:: 149:156823d33999
Child:: 160:d5399cc887bb

This updates the lib to the mbed lib v132

Who changed what in which revision?

User	Revision	Line number	New 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 "i2c_api.h"
<>	149:156823d33999	18
<>	149:156823d33999	19	#if DEVICE_I2C
<>	149:156823d33999	20
<>	149:156823d33999	21	#include "cmsis.h"
<>	149:156823d33999	22	#include "pinmap.h"
<>	149:156823d33999	23	#include "PeripheralPins.h"
<>	149:156823d33999	24	#include "nu_modutil.h"
<>	149:156823d33999	25	#include "nu_miscutil.h"
<>	149:156823d33999	26	#include "nu_bitutil.h"
<>	149:156823d33999	27	#include "critical.h"
<>	149:156823d33999	28
<>	149:156823d33999	29	#define NU_I2C_DEBUG 0
<>	149:156823d33999	30
<>	149:156823d33999	31	#if NU_I2C_DEBUG
<>	149:156823d33999	32	struct i2c_s MY_I2C;
<>	149:156823d33999	33	struct i2c_s MY_I2C_2;
<>	149:156823d33999	34	char MY_I2C_STATUS[64];
<>	149:156823d33999	35	int MY_I2C_STATUS_POS = 0;
<>	149:156823d33999	36	uint32_t MY_I2C_TIMEOUT;
<>	149:156823d33999	37	uint32_t MY_I2C_ELAPSED;
<>	149:156823d33999	38	uint32_t MY_I2C_T1;
<>	149:156823d33999	39	uint32_t MY_I2C_T2;
<>	149:156823d33999	40	#endif
<>	149:156823d33999	41
<>	149:156823d33999	42	struct nu_i2c_var {
<>	149:156823d33999	43	i2c_t * obj;
<>	149:156823d33999	44	void (*vec)(void);
<>	149:156823d33999	45	};
<>	149:156823d33999	46
<>	149:156823d33999	47	static void i2c0_vec(void);
<>	149:156823d33999	48	static void i2c1_vec(void);
<>	149:156823d33999	49	static void i2c_irq(i2c_t *obj);
<>	149:156823d33999	50	static void i2c_fsm_reset(i2c_t *obj, uint32_t i2c_ctl);
<>	153:fa9ff456f731	51	static void i2c_fsm_tranfini(i2c_t *obj, int lastdatanaked);
<>	149:156823d33999	52
<>	149:156823d33999	53	static struct nu_i2c_var i2c0_var = {
<>	149:156823d33999	54	.obj = NULL,
<>	149:156823d33999	55	.vec = i2c0_vec,
<>	149:156823d33999	56	};
<>	149:156823d33999	57	static struct nu_i2c_var i2c1_var = {
<>	149:156823d33999	58	.obj = NULL,
<>	149:156823d33999	59	.vec = i2c1_vec,
<>	149:156823d33999	60	};
<>	149:156823d33999	61
<>	149:156823d33999	62	static uint32_t i2c_modinit_mask = 0;
<>	149:156823d33999	63
<>	149:156823d33999	64	static const struct nu_modinit_s i2c_modinit_tab[] = {
<>	149:156823d33999	65	{I2C_0, I2C0_MODULE, 0, 0, I2C0_RST, I2C0_IRQn, &i2c0_var},
<>	149:156823d33999	66	{I2C_1, I2C1_MODULE, 0, 0, I2C1_RST, I2C1_IRQn, &i2c1_var},
<>	149:156823d33999	67
<>	149:156823d33999	68	{NC, 0, 0, 0, 0, (IRQn_Type) 0, NULL}
<>	149:156823d33999	69	};
<>	149:156823d33999	70
<>	149:156823d33999	71	static int i2c_do_tran(i2c_t obj, char buf, int length, int read, int naklastdata);
<>	149:156823d33999	72	static int i2c_do_trsn(i2c_t *obj, uint32_t i2c_ctl, int sync);
<>	149:156823d33999	73	#define NU_I2C_TIMEOUT_STAT_INT 500000
<>	149:156823d33999	74	#define NU_I2C_TIMEOUT_STOP 500000
<>	149:156823d33999	75	static int i2c_poll_status_timeout(i2c_t obj, int (is_status)(i2c_t *obj), uint32_t timeout);
<>	149:156823d33999	76	static int i2c_poll_tran_heatbeat_timeout(i2c_t *obj, uint32_t timeout);
<>	149:156823d33999	77	//static int i2c_is_stat_int(i2c_t *obj);
<>	149:156823d33999	78	//static int i2c_is_stop_det(i2c_t *obj);
<>	149:156823d33999	79	static int i2c_is_trsn_done(i2c_t *obj);
<>	149:156823d33999	80	static int i2c_is_tran_started(i2c_t *obj);
<>	149:156823d33999	81	static int i2c_addr2data(int address, int read);
<>	149:156823d33999	82	#if DEVICE_I2CSLAVE
<>	149:156823d33999	83	// Convert mbed address to BSP address.
<>	149:156823d33999	84	static int i2c_addr2bspaddr(int address);
<>	149:156823d33999	85	#endif // #if DEVICE_I2CSLAVE
<>	149:156823d33999	86	static void i2c_enable_int(i2c_t *obj);
<>	149:156823d33999	87	static void i2c_disable_int(i2c_t *obj);
<>	149:156823d33999	88	static int i2c_set_int(i2c_t *obj, int inten);
<>	149:156823d33999	89
<>	149:156823d33999	90
<>	149:156823d33999	91	#if DEVICE_I2C_ASYNCH
<>	149:156823d33999	92	static void i2c_buffer_set(i2c_t obj, const void tx, size_t tx_length, void *rx, size_t rx_length);
<>	149:156823d33999	93	static void i2c_enable_vector_interrupt(i2c_t *obj, uint32_t handler, int enable);
<>	149:156823d33999	94	static void i2c_rollback_vector_interrupt(i2c_t *obj);
<>	149:156823d33999	95	#endif
<>	149:156823d33999	96
<>	149:156823d33999	97	#define TRANCTRL_STARTED (1)
<>	149:156823d33999	98	#define TRANCTRL_NAKLASTDATA (1 << 1)
<>	153:fa9ff456f731	99	#define TRANCTRL_LASTDATANAKED (1 << 2)
<>	149:156823d33999	100
<>	149:156823d33999	101	uint32_t us_ticker_read(void);
<>	149:156823d33999	102
<>	149:156823d33999	103	void i2c_init(i2c_t *obj, PinName sda, PinName scl)
<>	149:156823d33999	104	{
<>	149:156823d33999	105	uint32_t i2c_sda = pinmap_peripheral(sda, PinMap_I2C_SDA);
<>	149:156823d33999	106	uint32_t i2c_scl = pinmap_peripheral(scl, PinMap_I2C_SCL);
<>	149:156823d33999	107	obj->i2c.i2c = (I2CName) pinmap_merge(i2c_sda, i2c_scl);
<>	149:156823d33999	108	MBED_ASSERT((int)obj->i2c.i2c != NC);
<>	149:156823d33999	109
<>	149:156823d33999	110	const struct nu_modinit_s *modinit = get_modinit(obj->i2c.i2c, i2c_modinit_tab);
<>	149:156823d33999	111	MBED_ASSERT(modinit != NULL);
<>	149:156823d33999	112	MBED_ASSERT(modinit->modname == obj->i2c.i2c);
<>	149:156823d33999	113
<>	149:156823d33999	114	// Reset this module
<>	149:156823d33999	115	SYS_ResetModule(modinit->rsetidx);
<>	149:156823d33999	116
<>	149:156823d33999	117	// Enable IP clock
<>	149:156823d33999	118	CLK_EnableModuleClock(modinit->clkidx);
<>	149:156823d33999	119
<>	149:156823d33999	120	pinmap_pinout(sda, PinMap_I2C_SDA);
<>	149:156823d33999	121	pinmap_pinout(scl, PinMap_I2C_SCL);
<>	149:156823d33999	122
<>	149:156823d33999	123	#if DEVICE_I2C_ASYNCH
<>	149:156823d33999	124	obj->i2c.dma_usage = DMA_USAGE_NEVER;
<>	149:156823d33999	125	obj->i2c.event = 0;
<>	149:156823d33999	126	obj->i2c.stop = 0;
<>	149:156823d33999	127	obj->i2c.address = 0;
<>	149:156823d33999	128	#endif
<>	149:156823d33999	129
<>	149:156823d33999	130	// NOTE: Setting I2C bus clock to 100 KHz is required. See I2C::I2C in common/I2C.cpp.
<>	149:156823d33999	131	I2C_Open((I2C_T *) NU_MODBASE(obj->i2c.i2c), 100000);
<>	149:156823d33999	132	// NOTE: INTEN bit and FSM control bits (STA, STO, SI, AA) are packed in one register CTL. We cannot control interrupt through
<>	149:156823d33999	133	// INTEN bit without impacting FSM control bits. Use NVIC_EnableIRQ/NVIC_DisableIRQ instead for interrupt control.
<>	149:156823d33999	134	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	135	i2c_base->CTL \|= (I2C_CTL_INTEN_Msk \| I2C_CTL_I2CEN_Msk);
<>	149:156823d33999	136
<>	149:156823d33999	137	// Enable sync-moce vector interrupt.
<>	149:156823d33999	138	struct nu_i2c_var var = (struct nu_i2c_var ) modinit->var;
<>	149:156823d33999	139	var->obj = obj;
<>	149:156823d33999	140	obj->i2c.tran_ctrl = 0;
<>	149:156823d33999	141	obj->i2c.stop = 0;
<>	149:156823d33999	142	i2c_enable_vector_interrupt(obj, (uint32_t) var->vec, 1);
<>	149:156823d33999	143
<>	149:156823d33999	144	// Mark this module to be inited.
<>	149:156823d33999	145	int i = modinit - i2c_modinit_tab;
<>	149:156823d33999	146	i2c_modinit_mask \|= 1 << i;
<>	149:156823d33999	147	}
<>	149:156823d33999	148
<>	149:156823d33999	149	int i2c_start(i2c_t *obj)
<>	149:156823d33999	150	{
<>	149:156823d33999	151	return i2c_do_trsn(obj, I2C_CTL_STA_Msk \| I2C_CTL_SI_Msk, 1);
<>	149:156823d33999	152	}
<>	149:156823d33999	153
<>	149:156823d33999	154	int i2c_stop(i2c_t *obj)
<>	149:156823d33999	155	{
<>	149:156823d33999	156	return i2c_do_trsn(obj, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk, 1);
<>	149:156823d33999	157	}
<>	149:156823d33999	158
<>	149:156823d33999	159	void i2c_frequency(i2c_t *obj, int hz)
<>	149:156823d33999	160	{
<>	149:156823d33999	161	I2C_SetBusClockFreq((I2C_T *) NU_MODBASE(obj->i2c.i2c), hz);
<>	149:156823d33999	162	}
<>	149:156823d33999	163
<>	149:156823d33999	164	int i2c_read(i2c_t obj, int address, char data, int length, int stop)
<>	149:156823d33999	165	{
<>	149:156823d33999	166	if (i2c_start(obj)) {
<>	149:156823d33999	167	i2c_stop(obj);
<>	149:156823d33999	168	return I2C_ERROR_BUS_BUSY;
<>	149:156823d33999	169	}
<>	149:156823d33999	170
<>	153:fa9ff456f731	171	if (i2c_byte_write(obj, i2c_addr2data(address, 1)) != 1) {
<>	149:156823d33999	172	i2c_stop(obj);
<>	149:156823d33999	173	return I2C_ERROR_NO_SLAVE;
<>	149:156823d33999	174	}
<>	149:156823d33999	175
<>	149:156823d33999	176	// Read in bytes
<>	149:156823d33999	177	length = i2c_do_tran(obj, data, length, 1, 1);
<>	149:156823d33999	178
<>	149:156823d33999	179	// If not repeated start, send stop.
<>	149:156823d33999	180	if (stop) {
<>	149:156823d33999	181	i2c_stop(obj);
<>	149:156823d33999	182	}
<>	149:156823d33999	183
<>	149:156823d33999	184	return length;
<>	149:156823d33999	185	}
<>	149:156823d33999	186
<>	149:156823d33999	187	int i2c_write(i2c_t obj, int address, const char data, int length, int stop)
<>	149:156823d33999	188	{
<>	149:156823d33999	189	if (i2c_start(obj)) {
<>	149:156823d33999	190	i2c_stop(obj);
<>	149:156823d33999	191	return I2C_ERROR_BUS_BUSY;
<>	149:156823d33999	192	}
<>	149:156823d33999	193
<>	153:fa9ff456f731	194	if (i2c_byte_write(obj, i2c_addr2data(address, 0)) != 1) {
<>	149:156823d33999	195	i2c_stop(obj);
<>	149:156823d33999	196	return I2C_ERROR_NO_SLAVE;
<>	149:156823d33999	197	}
<>	149:156823d33999	198
<>	149:156823d33999	199	// Write out bytes
<>	149:156823d33999	200	length = i2c_do_tran(obj, (char *) data, length, 0, 1);
<>	149:156823d33999	201
<>	149:156823d33999	202	if (stop) {
<>	149:156823d33999	203	i2c_stop(obj);
<>	149:156823d33999	204	}
<>	149:156823d33999	205
<>	149:156823d33999	206	return length;
<>	149:156823d33999	207	}
<>	149:156823d33999	208
<>	149:156823d33999	209	void i2c_reset(i2c_t *obj)
<>	149:156823d33999	210	{
<>	149:156823d33999	211	i2c_stop(obj);
<>	149:156823d33999	212	}
<>	149:156823d33999	213
<>	149:156823d33999	214	int i2c_byte_read(i2c_t *obj, int last)
<>	149:156823d33999	215	{
<>	149:156823d33999	216	char data = 0;
<>	153:fa9ff456f731	217	i2c_do_tran(obj, &data, 1, 1, last);
<>	149:156823d33999	218	return data;
<>	149:156823d33999	219	}
<>	149:156823d33999	220
<>	149:156823d33999	221	int i2c_byte_write(i2c_t *obj, int data)
<>	149:156823d33999	222	{
<>	153:fa9ff456f731	223	char data_[1];
<>	153:fa9ff456f731	224	data_[0] = data & 0xFF;
<>	153:fa9ff456f731	225
<>	153:fa9ff456f731	226	if (i2c_do_tran(obj, data_, 1, 0, 0) == 1 &&
<>	153:fa9ff456f731	227	! (obj->i2c.tran_ctrl & TRANCTRL_LASTDATANAKED)) {
<>	153:fa9ff456f731	228	return 1;
<>	153:fa9ff456f731	229	}
<>	153:fa9ff456f731	230	else {
<>	153:fa9ff456f731	231	return 0;
<>	153:fa9ff456f731	232	}
<>	149:156823d33999	233	}
<>	149:156823d33999	234
<>	149:156823d33999	235	#if DEVICE_I2CSLAVE
<>	149:156823d33999	236
<>	149:156823d33999	237	// See I2CSlave.h
<>	149:156823d33999	238	#define NoData 0 // the slave has not been addressed
<>	149:156823d33999	239	#define ReadAddressed 1 // the master has requested a read from this slave (slave = transmitter)
<>	149:156823d33999	240	#define WriteGeneral 2 // the master is writing to all slave
<>	149:156823d33999	241	#define WriteAddressed 3 // the master is writing to this slave (slave = receiver)
<>	149:156823d33999	242
<>	149:156823d33999	243	void i2c_slave_mode(i2c_t *obj, int enable_slave)
<>	149:156823d33999	244	{
<>	149:156823d33999	245	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	246
<>	149:156823d33999	247	i2c_disable_int(obj);
<>	149:156823d33999	248
<>	149:156823d33999	249	obj->i2c.slaveaddr_state = NoData;
<>	149:156823d33999	250
<>	149:156823d33999	251	// Switch to not addressed mode
<>	149:156823d33999	252	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk);
<>	149:156823d33999	253
<>	149:156823d33999	254	i2c_enable_int(obj);
<>	149:156823d33999	255	}
<>	149:156823d33999	256
<>	149:156823d33999	257	int i2c_slave_receive(i2c_t *obj)
<>	149:156823d33999	258	{
<>	149:156823d33999	259	int slaveaddr_state;
<>	149:156823d33999	260
<>	149:156823d33999	261	i2c_disable_int(obj);
<>	149:156823d33999	262	slaveaddr_state = obj->i2c.slaveaddr_state;
<>	149:156823d33999	263	i2c_enable_int(obj);
<>	149:156823d33999	264
<>	149:156823d33999	265	return slaveaddr_state;
<>	149:156823d33999	266	}
<>	149:156823d33999	267
<>	149:156823d33999	268	int i2c_slave_read(i2c_t obj, char data, int length)
<>	149:156823d33999	269	{
<>	149:156823d33999	270	return i2c_do_tran(obj, data, length, 1, 1);
<>	149:156823d33999	271	}
<>	149:156823d33999	272
<>	149:156823d33999	273	int i2c_slave_write(i2c_t obj, const char data, int length)
<>	149:156823d33999	274	{
<>	149:156823d33999	275	return i2c_do_tran(obj, (char *) data, length, 0, 1);
<>	149:156823d33999	276	}
<>	149:156823d33999	277
<>	149:156823d33999	278	void i2c_slave_address(i2c_t *obj, int idx, uint32_t address, uint32_t mask)
<>	149:156823d33999	279	{
<>	149:156823d33999	280	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	281
<>	149:156823d33999	282	i2c_disable_int(obj);
<>	149:156823d33999	283
<>	149:156823d33999	284	I2C_SetSlaveAddr(i2c_base, 0, i2c_addr2bspaddr(address), I2C_GCMODE_ENABLE);
<>	149:156823d33999	285
<>	149:156823d33999	286	i2c_enable_int(obj);
<>	149:156823d33999	287	}
<>	149:156823d33999	288
<>	149:156823d33999	289	static int i2c_addr2bspaddr(int address)
<>	149:156823d33999	290	{
<>	149:156823d33999	291	return (address >> 1);
<>	149:156823d33999	292	}
<>	149:156823d33999	293
<>	149:156823d33999	294	#endif // #if DEVICE_I2CSLAVE
<>	149:156823d33999	295
<>	149:156823d33999	296	static void i2c_enable_int(i2c_t *obj)
<>	149:156823d33999	297	{
<>	149:156823d33999	298	const struct nu_modinit_s *modinit = get_modinit(obj->i2c.i2c, i2c_modinit_tab);
<>	149:156823d33999	299
<>	149:156823d33999	300	core_util_critical_section_enter();
<>	149:156823d33999	301
<>	149:156823d33999	302	// Enable I2C interrupt
<>	149:156823d33999	303	NVIC_EnableIRQ(modinit->irq_n);
<>	149:156823d33999	304	obj->i2c.inten = 1;
<>	149:156823d33999	305
<>	149:156823d33999	306	core_util_critical_section_exit();
<>	149:156823d33999	307	}
<>	149:156823d33999	308
<>	149:156823d33999	309	static void i2c_disable_int(i2c_t *obj)
<>	149:156823d33999	310	{
<>	149:156823d33999	311	const struct nu_modinit_s *modinit = get_modinit(obj->i2c.i2c, i2c_modinit_tab);
<>	149:156823d33999	312
<>	149:156823d33999	313	core_util_critical_section_enter();
<>	149:156823d33999	314
<>	149:156823d33999	315	// Disable I2C interrupt
<>	149:156823d33999	316	NVIC_DisableIRQ(modinit->irq_n);
<>	149:156823d33999	317	obj->i2c.inten = 0;
<>	149:156823d33999	318
<>	149:156823d33999	319	core_util_critical_section_exit();
<>	149:156823d33999	320	}
<>	149:156823d33999	321
<>	149:156823d33999	322	static int i2c_set_int(i2c_t *obj, int inten)
<>	149:156823d33999	323	{
<>	149:156823d33999	324	int inten_back;
<>	149:156823d33999	325
<>	149:156823d33999	326	core_util_critical_section_enter();
<>	149:156823d33999	327
<>	149:156823d33999	328	inten_back = obj->i2c.inten;
<>	149:156823d33999	329
<>	149:156823d33999	330	core_util_critical_section_exit();
<>	149:156823d33999	331
<>	149:156823d33999	332	if (inten) {
<>	149:156823d33999	333	i2c_enable_int(obj);
<>	149:156823d33999	334	}
<>	149:156823d33999	335	else {
<>	149:156823d33999	336	i2c_disable_int(obj);
<>	149:156823d33999	337	}
<>	149:156823d33999	338
<>	149:156823d33999	339	return inten_back;
<>	149:156823d33999	340	}
<>	149:156823d33999	341
<>	149:156823d33999	342	int i2c_allow_powerdown(void)
<>	149:156823d33999	343	{
<>	149:156823d33999	344	uint32_t modinit_mask = i2c_modinit_mask;
<>	149:156823d33999	345	while (modinit_mask) {
<>	149:156823d33999	346	int i2c_idx = nu_ctz(modinit_mask);
<>	149:156823d33999	347	const struct nu_modinit_s *modinit = i2c_modinit_tab + i2c_idx;
<>	149:156823d33999	348	struct nu_i2c_var var = (struct nu_i2c_var ) modinit->var;
<>	149:156823d33999	349	if (var->obj) {
<>	149:156823d33999	350	// Disallow entering power-down mode if I2C transfer is enabled.
<>	149:156823d33999	351	if (i2c_active(var->obj)) {
<>	149:156823d33999	352	return 0;
<>	149:156823d33999	353	}
<>	149:156823d33999	354	}
<>	149:156823d33999	355	modinit_mask &= ~(1 << i2c_idx);
<>	149:156823d33999	356	}
<>	149:156823d33999	357
<>	149:156823d33999	358	return 1;
<>	149:156823d33999	359	}
<>	149:156823d33999	360
<>	149:156823d33999	361	static int i2c_do_tran(i2c_t obj, char buf, int length, int read, int naklastdata)
<>	149:156823d33999	362	{
<>	153:fa9ff456f731	363	if (! buf \|\| ! length) {
<>	153:fa9ff456f731	364	return 0;
<>	153:fa9ff456f731	365	}
<>	153:fa9ff456f731	366
<>	149:156823d33999	367	int tran_len = 0;
<>	149:156823d33999	368
<>	149:156823d33999	369	i2c_disable_int(obj);
<>	149:156823d33999	370	obj->i2c.tran_ctrl = naklastdata ? (TRANCTRL_STARTED \| TRANCTRL_NAKLASTDATA) : TRANCTRL_STARTED;
<>	149:156823d33999	371	obj->i2c.tran_beg = buf;
<>	149:156823d33999	372	obj->i2c.tran_pos = buf;
<>	149:156823d33999	373	obj->i2c.tran_end = buf + length;
<>	149:156823d33999	374	i2c_enable_int(obj);
<>	149:156823d33999	375
<>	149:156823d33999	376	if (i2c_poll_tran_heatbeat_timeout(obj, NU_I2C_TIMEOUT_STAT_INT)) {
<>	149:156823d33999	377	#if NU_I2C_DEBUG
<>	149:156823d33999	378	MY_I2C_2 = obj->i2c;
<>	149:156823d33999	379	while (1);
<>	149:156823d33999	380	#endif
<>	149:156823d33999	381	}
<>	149:156823d33999	382	else {
<>	149:156823d33999	383	i2c_disable_int(obj);
<>	149:156823d33999	384	tran_len = obj->i2c.tran_pos - obj->i2c.tran_beg;
<>	149:156823d33999	385	obj->i2c.tran_beg = NULL;
<>	149:156823d33999	386	obj->i2c.tran_pos = NULL;
<>	149:156823d33999	387	obj->i2c.tran_end = NULL;
<>	149:156823d33999	388	i2c_enable_int(obj);
<>	149:156823d33999	389	}
<>	149:156823d33999	390
<>	149:156823d33999	391	return tran_len;
<>	149:156823d33999	392	}
<>	149:156823d33999	393
<>	149:156823d33999	394	static int i2c_do_trsn(i2c_t *obj, uint32_t i2c_ctl, int sync)
<>	149:156823d33999	395	{
<>	149:156823d33999	396	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	397	int err = 0;
<>	149:156823d33999	398
<>	149:156823d33999	399	i2c_disable_int(obj);
<>	149:156823d33999	400
<>	149:156823d33999	401	if (i2c_poll_status_timeout(obj, i2c_is_trsn_done, NU_I2C_TIMEOUT_STAT_INT)) {
<>	149:156823d33999	402	err = I2C_ERROR_BUS_BUSY;
<>	149:156823d33999	403	#if NU_I2C_DEBUG
<>	149:156823d33999	404	MY_I2C_2 = obj->i2c;
<>	149:156823d33999	405	while (1);
<>	149:156823d33999	406	#endif
<>	149:156823d33999	407	}
<>	149:156823d33999	408	else {
<>	149:156823d33999	409	#if 1
<>	149:156823d33999	410	// NOTE: Avoid duplicate Start/Stop. Otherwise, we may meet strange error.
<>	149:156823d33999	411	uint32_t status = I2C_GET_STATUS(i2c_base);
<>	149:156823d33999	412
<>	149:156823d33999	413	switch (status) {
<>	149:156823d33999	414	case 0x08: // Start
<>	149:156823d33999	415	case 0x10: // Master Repeat Start
<>	149:156823d33999	416	if (i2c_ctl & I2C_CTL_STA_Msk) {
<>	149:156823d33999	417	return 0;
<>	149:156823d33999	418	}
<>	149:156823d33999	419	else {
<>	149:156823d33999	420	break;
<>	149:156823d33999	421	}
<>	149:156823d33999	422	case 0xF8: // Bus Released
<>	149:156823d33999	423	if (i2c_ctl & (I2C_CTL_STA_Msk \| I2C_CTL_STO_Msk) == I2C_CTL_STO_Msk) {
<>	149:156823d33999	424	return 0;
<>	149:156823d33999	425	}
<>	149:156823d33999	426	else {
<>	149:156823d33999	427	break;
<>	149:156823d33999	428	}
<>	149:156823d33999	429	}
<>	149:156823d33999	430	#endif
<>	149:156823d33999	431	I2C_SET_CONTROL_REG(i2c_base, i2c_ctl);
<>	149:156823d33999	432	if (sync && i2c_poll_status_timeout(obj, i2c_is_trsn_done, NU_I2C_TIMEOUT_STAT_INT)) {
<>	149:156823d33999	433	err = I2C_ERROR_BUS_BUSY;
<>	149:156823d33999	434	#if NU_I2C_DEBUG
<>	149:156823d33999	435	MY_I2C_2 = obj->i2c;
<>	149:156823d33999	436	while (1);
<>	149:156823d33999	437	#endif
<>	149:156823d33999	438	}
<>	149:156823d33999	439	}
<>	149:156823d33999	440
<>	149:156823d33999	441	i2c_enable_int(obj);
<>	149:156823d33999	442
<>	149:156823d33999	443	return err;
<>	149:156823d33999	444	}
<>	149:156823d33999	445
<>	149:156823d33999	446	static int i2c_poll_status_timeout(i2c_t obj, int (is_status)(i2c_t *obj), uint32_t timeout)
<>	149:156823d33999	447	{
<>	149:156823d33999	448	uint32_t t1, t2, elapsed = 0;
<>	149:156823d33999	449	int status_assert = 0;
<>	149:156823d33999	450
<>	149:156823d33999	451	t1 = us_ticker_read();
<>	149:156823d33999	452	while (1) {
<>	149:156823d33999	453	status_assert = is_status(obj);
<>	149:156823d33999	454	if (status_assert) {
<>	149:156823d33999	455	break;
<>	149:156823d33999	456	}
<>	149:156823d33999	457
<>	149:156823d33999	458	t2 = us_ticker_read();
<>	149:156823d33999	459	elapsed = (t2 > t1) ? (t2 - t1) : ((uint64_t) t2 + 0xFFFFFFFF - t1 + 1);
<>	149:156823d33999	460	if (elapsed >= timeout) {
<>	149:156823d33999	461	#if NU_I2C_DEBUG
<>	149:156823d33999	462	MY_I2C_T1 = t1;
<>	149:156823d33999	463	MY_I2C_T2 = t2;
<>	149:156823d33999	464	MY_I2C_ELAPSED = elapsed;
<>	149:156823d33999	465	MY_I2C_TIMEOUT = timeout;
<>	149:156823d33999	466	MY_I2C_2 = obj->i2c;
<>	149:156823d33999	467	while (1);
<>	149:156823d33999	468	#endif
<>	149:156823d33999	469	break;
<>	149:156823d33999	470	}
<>	149:156823d33999	471	}
<>	149:156823d33999	472
<>	149:156823d33999	473	return (elapsed >= timeout);
<>	149:156823d33999	474	}
<>	149:156823d33999	475
<>	149:156823d33999	476	static int i2c_poll_tran_heatbeat_timeout(i2c_t *obj, uint32_t timeout)
<>	149:156823d33999	477	{
<>	149:156823d33999	478	uint32_t t1, t2, elapsed = 0;
<>	149:156823d33999	479	int tran_started;
<>	149:156823d33999	480	char *tran_pos = NULL;
<>	149:156823d33999	481	char *tran_pos2 = NULL;
<>	149:156823d33999	482
<>	149:156823d33999	483	i2c_disable_int(obj);
<>	149:156823d33999	484	tran_pos = obj->i2c.tran_pos;
<>	149:156823d33999	485	i2c_enable_int(obj);
<>	149:156823d33999	486	t1 = us_ticker_read();
<>	149:156823d33999	487	while (1) {
<>	149:156823d33999	488	i2c_disable_int(obj);
<>	149:156823d33999	489	tran_started = i2c_is_tran_started(obj);
<>	149:156823d33999	490	i2c_enable_int(obj);
<>	149:156823d33999	491	if (! tran_started) { // Transfer completed or stopped
<>	149:156823d33999	492	break;
<>	149:156823d33999	493	}
<>	149:156823d33999	494
<>	149:156823d33999	495	i2c_disable_int(obj);
<>	149:156823d33999	496	tran_pos2 = obj->i2c.tran_pos;
<>	149:156823d33999	497	i2c_enable_int(obj);
<>	149:156823d33999	498	t2 = us_ticker_read();
<>	149:156823d33999	499	if (tran_pos2 != tran_pos) { // Transfer on-going
<>	149:156823d33999	500	t1 = t2;
<>	149:156823d33999	501	tran_pos = tran_pos2;
<>	149:156823d33999	502	continue;
<>	149:156823d33999	503	}
<>	149:156823d33999	504
<>	149:156823d33999	505	elapsed = (t2 > t1) ? (t2 - t1) : ((uint64_t) t2 + 0xFFFFFFFF - t1 + 1);
<>	149:156823d33999	506	if (elapsed >= timeout) { // Transfer idle
<>	149:156823d33999	507	#if NU_I2C_DEBUG
<>	149:156823d33999	508	MY_I2C = obj->i2c;
<>	149:156823d33999	509	MY_I2C_T1 = t1;
<>	149:156823d33999	510	MY_I2C_T2 = t2;
<>	149:156823d33999	511	MY_I2C_ELAPSED = elapsed;
<>	149:156823d33999	512	MY_I2C_TIMEOUT = timeout;
<>	149:156823d33999	513	MY_I2C_2 = obj->i2c;
<>	149:156823d33999	514	while (1);
<>	149:156823d33999	515	#endif
<>	149:156823d33999	516	break;
<>	149:156823d33999	517	}
<>	149:156823d33999	518	}
<>	149:156823d33999	519
<>	149:156823d33999	520	return (elapsed >= timeout);
<>	149:156823d33999	521	}
<>	149:156823d33999	522
<>	149:156823d33999	523	#if 0
<>	149:156823d33999	524	static int i2c_is_stat_int(i2c_t *obj)
<>	149:156823d33999	525	{
<>	149:156823d33999	526	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	527
<>	149:156823d33999	528	return !! (i2c_base->CTL & I2C_CTL_SI_Msk);
<>	149:156823d33999	529	}
<>	149:156823d33999	530
<>	149:156823d33999	531	static int i2c_is_stop_det(i2c_t *obj)
<>	149:156823d33999	532	{
<>	149:156823d33999	533	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	534
<>	149:156823d33999	535	return ! (i2c_base->CTL & I2C_CTL_STO_Msk);
<>	149:156823d33999	536	}
<>	149:156823d33999	537	#endif
<>	149:156823d33999	538
<>	149:156823d33999	539	static int i2c_is_trsn_done(i2c_t *obj)
<>	149:156823d33999	540	{
<>	149:156823d33999	541	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	542	int i2c_int;
<>	149:156823d33999	543	uint32_t status;
<>	149:156823d33999	544	int inten_back;
<>	149:156823d33999	545
<>	149:156823d33999	546	inten_back = i2c_set_int(obj, 0);
<>	149:156823d33999	547	i2c_int = !! (i2c_base->CTL & I2C_CTL_SI_Msk);
<>	149:156823d33999	548	status = I2C_GET_STATUS(i2c_base);
<>	149:156823d33999	549	i2c_set_int(obj, inten_back);
<>	149:156823d33999	550
<>	149:156823d33999	551	return (i2c_int \|\| status == 0xF8);
<>	149:156823d33999	552	}
<>	149:156823d33999	553
<>	149:156823d33999	554	static int i2c_is_tran_started(i2c_t *obj)
<>	149:156823d33999	555	{
<>	149:156823d33999	556	int started;
<>	149:156823d33999	557	int inten_back;
<>	149:156823d33999	558
<>	149:156823d33999	559	inten_back = i2c_set_int(obj, 0);
<>	149:156823d33999	560	started = !! (obj->i2c.tran_ctrl & TRANCTRL_STARTED);
<>	149:156823d33999	561	i2c_set_int(obj, inten_back);
<>	149:156823d33999	562
<>	149:156823d33999	563	return started;
<>	149:156823d33999	564	}
<>	149:156823d33999	565
<>	149:156823d33999	566	static int i2c_addr2data(int address, int read)
<>	149:156823d33999	567	{
<>	149:156823d33999	568	return read ? (address \| 1) : (address & 0xFE);
<>	149:156823d33999	569	}
<>	149:156823d33999	570
<>	149:156823d33999	571	static void i2c0_vec(void)
<>	149:156823d33999	572	{
<>	149:156823d33999	573	i2c_irq(i2c0_var.obj);
<>	149:156823d33999	574	}
<>	149:156823d33999	575	static void i2c1_vec(void)
<>	149:156823d33999	576	{
<>	149:156823d33999	577	i2c_irq(i2c1_var.obj);
<>	149:156823d33999	578	}
<>	149:156823d33999	579
<>	149:156823d33999	580	static void i2c_irq(i2c_t *obj)
<>	149:156823d33999	581	{
<>	149:156823d33999	582	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	583	uint32_t status;
<>	149:156823d33999	584
<>	149:156823d33999	585	if (I2C_GET_TIMEOUT_FLAG(i2c_base)) {
<>	149:156823d33999	586	I2C_ClearTimeoutFlag(i2c_base);
<>	149:156823d33999	587	return;
<>	149:156823d33999	588	}
<>	149:156823d33999	589
<>	149:156823d33999	590	status = I2C_GET_STATUS(i2c_base);
<>	149:156823d33999	591	#if NU_I2C_DEBUG
<>	149:156823d33999	592	if (MY_I2C_STATUS_POS < (sizeof (MY_I2C_STATUS) / sizeof (MY_I2C_STATUS[0]))) {
<>	149:156823d33999	593	MY_I2C_STATUS[MY_I2C_STATUS_POS ++] = status;
<>	149:156823d33999	594	}
<>	149:156823d33999	595	else {
<>	149:156823d33999	596	memset(MY_I2C_STATUS, 0x00, sizeof (MY_I2C_STATUS));
<>	149:156823d33999	597	MY_I2C_STATUS_POS = 0;
<>	149:156823d33999	598	}
<>	149:156823d33999	599	#endif
<>	149:156823d33999	600
<>	149:156823d33999	601	switch (status) {
<>	149:156823d33999	602	// Master Transmit
<>	149:156823d33999	603	case 0x28: // Master Transmit Data ACK
<>	149:156823d33999	604	case 0x18: // Master Transmit Address ACK
<>	149:156823d33999	605	case 0x08: // Start
<>	149:156823d33999	606	case 0x10: // Master Repeat Start
<>	149:156823d33999	607	if ((obj->i2c.tran_ctrl & TRANCTRL_STARTED) && obj->i2c.tran_pos) {
<>	149:156823d33999	608	if (obj->i2c.tran_pos < obj->i2c.tran_end) {
<>	149:156823d33999	609	I2C_SET_DATA(i2c_base, *obj->i2c.tran_pos ++);
<>	149:156823d33999	610	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk);
<>	149:156823d33999	611	}
<>	149:156823d33999	612	else {
<>	153:fa9ff456f731	613	i2c_fsm_tranfini(obj, 0);
<>	149:156823d33999	614	}
<>	149:156823d33999	615	}
<>	149:156823d33999	616	else {
<>	149:156823d33999	617	i2c_disable_int(obj);
<>	149:156823d33999	618	}
<>	149:156823d33999	619	break;
<>	153:fa9ff456f731	620
<>	149:156823d33999	621	case 0x30: // Master Transmit Data NACK
<>	153:fa9ff456f731	622	i2c_fsm_tranfini(obj, 1);
<>	153:fa9ff456f731	623	break;
<>	153:fa9ff456f731	624
<>	149:156823d33999	625	case 0x20: // Master Transmit Address NACK
<>	153:fa9ff456f731	626	i2c_fsm_tranfini(obj, 1);
<>	149:156823d33999	627	break;
<>	153:fa9ff456f731	628
<>	149:156823d33999	629	case 0x38: // Master Arbitration Lost
<>	149:156823d33999	630	i2c_fsm_reset(obj, I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk);
<>	149:156823d33999	631	break;
<>	149:156823d33999	632
<>	149:156823d33999	633	case 0x48: // Master Receive Address NACK
<>	153:fa9ff456f731	634	i2c_fsm_tranfini(obj, 1);
<>	149:156823d33999	635	break;
<>	153:fa9ff456f731	636
<>	149:156823d33999	637	case 0x40: // Master Receive Address ACK
<>	149:156823d33999	638	case 0x50: // Master Receive Data ACK
<>	149:156823d33999	639	case 0x58: // Master Receive Data NACK
<>	149:156823d33999	640	if ((obj->i2c.tran_ctrl & TRANCTRL_STARTED) && obj->i2c.tran_pos) {
<>	149:156823d33999	641	if (obj->i2c.tran_pos < obj->i2c.tran_end) {
<>	149:156823d33999	642	if (status == 0x50 \|\| status == 0x58) {
<>	149:156823d33999	643	*obj->i2c.tran_pos ++ = I2C_GET_DATA(i2c_base);
<>	149:156823d33999	644	}
<>	149:156823d33999	645
<>	149:156823d33999	646	if (status == 0x58) {
<>	149:156823d33999	647	#if NU_I2C_DEBUG
<>	149:156823d33999	648	if (obj->i2c.tran_pos != obj->i2c.tran_end) {
<>	149:156823d33999	649	MY_I2C = obj->i2c;
<>	149:156823d33999	650	while (1);
<>	149:156823d33999	651	}
<>	149:156823d33999	652	#endif
<>	153:fa9ff456f731	653	i2c_fsm_tranfini(obj, 1);
<>	149:156823d33999	654	}
<>	149:156823d33999	655	else {
<>	149:156823d33999	656	uint32_t i2c_ctl = I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk;
<>	149:156823d33999	657	if ((obj->i2c.tran_end - obj->i2c.tran_pos) == 1 &&
<>	149:156823d33999	658	obj->i2c.tran_ctrl & TRANCTRL_NAKLASTDATA) {
<>	149:156823d33999	659	// Last data
<>	149:156823d33999	660	i2c_ctl &= ~I2C_CTL_AA_Msk;
<>	149:156823d33999	661	}
<>	149:156823d33999	662	I2C_SET_CONTROL_REG(i2c_base, i2c_ctl);
<>	149:156823d33999	663	}
<>	149:156823d33999	664	}
<>	149:156823d33999	665	else {
<>	149:156823d33999	666	obj->i2c.tran_ctrl &= ~TRANCTRL_STARTED;
<>	149:156823d33999	667	i2c_disable_int(obj);
<>	149:156823d33999	668	break;
<>	149:156823d33999	669	}
<>	149:156823d33999	670	}
<>	149:156823d33999	671	else {
<>	149:156823d33999	672	i2c_disable_int(obj);
<>	149:156823d33999	673	}
<>	149:156823d33999	674	break;
<>	149:156823d33999	675
<>	149:156823d33999	676	//case 0x00: // Bus error
<>	149:156823d33999	677
<>	149:156823d33999	678	// Slave Transmit
<>	149:156823d33999	679	case 0xB8: // Slave Transmit Data ACK
<>	149:156823d33999	680	case 0xA8: // Slave Transmit Address ACK
<>	149:156823d33999	681	case 0xB0: // Slave Transmit Arbitration Lost
<>	149:156823d33999	682	if ((obj->i2c.tran_ctrl & TRANCTRL_STARTED) && obj->i2c.tran_pos) {
<>	149:156823d33999	683	if (obj->i2c.tran_pos < obj->i2c.tran_end) {
<>	149:156823d33999	684	uint32_t i2c_ctl = I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk;
<>	149:156823d33999	685
<>	149:156823d33999	686	I2C_SET_DATA(i2c_base, *obj->i2c.tran_pos ++);
<>	149:156823d33999	687	if (obj->i2c.tran_pos == obj->i2c.tran_end &&
<>	149:156823d33999	688	obj->i2c.tran_ctrl & TRANCTRL_NAKLASTDATA) {
<>	149:156823d33999	689	// Last data
<>	149:156823d33999	690	i2c_ctl &= ~I2C_CTL_AA_Msk;
<>	149:156823d33999	691	}
<>	149:156823d33999	692	I2C_SET_CONTROL_REG(i2c_base, i2c_ctl);
<>	149:156823d33999	693	}
<>	149:156823d33999	694	else {
<>	149:156823d33999	695	obj->i2c.tran_ctrl &= ~TRANCTRL_STARTED;
<>	149:156823d33999	696	i2c_disable_int(obj);
<>	149:156823d33999	697	break;
<>	149:156823d33999	698	}
<>	149:156823d33999	699	}
<>	149:156823d33999	700	else {
<>	149:156823d33999	701	i2c_disable_int(obj);
<>	149:156823d33999	702	}
<>	149:156823d33999	703	obj->i2c.slaveaddr_state = ReadAddressed;
<>	149:156823d33999	704	break;
<>	149:156823d33999	705	//case 0xA0: // Slave Transmit Repeat Start or Stop
<>	149:156823d33999	706	case 0xC0: // Slave Transmit Data NACK
<>	149:156823d33999	707	case 0xC8: // Slave Transmit Last Data ACK
<>	149:156823d33999	708	obj->i2c.slaveaddr_state = NoData;
<>	149:156823d33999	709	i2c_fsm_reset(obj, I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk);
<>	149:156823d33999	710	break;
<>	149:156823d33999	711
<>	149:156823d33999	712	// Slave Receive
<>	149:156823d33999	713	case 0x80: // Slave Receive Data ACK
<>	149:156823d33999	714	case 0x88: // Slave Receive Data NACK
<>	149:156823d33999	715	case 0x60: // Slave Receive Address ACK
<>	149:156823d33999	716	case 0x68: // Slave Receive Arbitration Lost
<>	149:156823d33999	717	obj->i2c.slaveaddr_state = WriteAddressed;
<>	149:156823d33999	718	if ((obj->i2c.tran_ctrl & TRANCTRL_STARTED) && obj->i2c.tran_pos) {
<>	149:156823d33999	719	if (obj->i2c.tran_pos < obj->i2c.tran_end) {
<>	149:156823d33999	720	if (status == 0x80 \|\| status == 0x88) {
<>	149:156823d33999	721	*obj->i2c.tran_pos ++ = I2C_GET_DATA(i2c_base);
<>	149:156823d33999	722	}
<>	149:156823d33999	723
<>	149:156823d33999	724	if (status == 0x88) {
<>	149:156823d33999	725	#if NU_I2C_DEBUG
<>	149:156823d33999	726	if (obj->i2c.tran_pos != obj->i2c.tran_end) {
<>	149:156823d33999	727	MY_I2C = obj->i2c;
<>	149:156823d33999	728	while (1);
<>	149:156823d33999	729	}
<>	149:156823d33999	730	#endif
<>	149:156823d33999	731	obj->i2c.slaveaddr_state = NoData;
<>	149:156823d33999	732	i2c_fsm_reset(obj, I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk);
<>	149:156823d33999	733	}
<>	149:156823d33999	734	else {
<>	149:156823d33999	735	uint32_t i2c_ctl = I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk;
<>	149:156823d33999	736	if ((obj->i2c.tran_end - obj->i2c.tran_pos) == 1 &&
<>	149:156823d33999	737	obj->i2c.tran_ctrl & TRANCTRL_NAKLASTDATA) {
<>	149:156823d33999	738	// Last data
<>	149:156823d33999	739	i2c_ctl &= ~I2C_CTL_AA_Msk;
<>	149:156823d33999	740	}
<>	149:156823d33999	741	I2C_SET_CONTROL_REG(i2c_base, i2c_ctl);
<>	149:156823d33999	742	}
<>	149:156823d33999	743	}
<>	149:156823d33999	744	else {
<>	149:156823d33999	745	obj->i2c.tran_ctrl &= ~TRANCTRL_STARTED;
<>	149:156823d33999	746	i2c_disable_int(obj);
<>	149:156823d33999	747	break;
<>	149:156823d33999	748	}
<>	149:156823d33999	749	}
<>	149:156823d33999	750	else {
<>	149:156823d33999	751	i2c_disable_int(obj);
<>	149:156823d33999	752	}
<>	149:156823d33999	753	break;
<>	149:156823d33999	754	//case 0xA0: // Slave Receive Repeat Start or Stop
<>	149:156823d33999	755
<>	149:156823d33999	756	// GC mode
<>	149:156823d33999	757	//case 0xA0: // GC mode Repeat Start or Stop
<>	149:156823d33999	758	case 0x90: // GC mode Data ACK
<>	149:156823d33999	759	case 0x98: // GC mode Data NACK
<>	149:156823d33999	760	case 0x70: // GC mode Address ACK
<>	149:156823d33999	761	case 0x78: // GC mode Arbitration Lost
<>	149:156823d33999	762	obj->i2c.slaveaddr_state = WriteAddressed;
<>	149:156823d33999	763	if ((obj->i2c.tran_ctrl & TRANCTRL_STARTED) && obj->i2c.tran_pos) {
<>	149:156823d33999	764	if (obj->i2c.tran_pos < obj->i2c.tran_end) {
<>	149:156823d33999	765	if (status == 0x90 \|\| status == 0x98) {
<>	149:156823d33999	766	*obj->i2c.tran_pos ++ = I2C_GET_DATA(i2c_base);
<>	149:156823d33999	767	}
<>	149:156823d33999	768
<>	149:156823d33999	769	if (status == 0x98) {
<>	149:156823d33999	770	#if NU_I2C_DEBUG
<>	149:156823d33999	771	if (obj->i2c.tran_pos != obj->i2c.tran_end) {
<>	149:156823d33999	772	MY_I2C = obj->i2c;
<>	149:156823d33999	773	while (1);
<>	149:156823d33999	774	}
<>	149:156823d33999	775	#endif
<>	149:156823d33999	776	obj->i2c.slaveaddr_state = NoData;
<>	149:156823d33999	777	i2c_fsm_reset(obj, I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk);
<>	149:156823d33999	778	}
<>	149:156823d33999	779	else {
<>	149:156823d33999	780	uint32_t i2c_ctl = I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk;
<>	149:156823d33999	781	if ((obj->i2c.tran_end - obj->i2c.tran_pos) == 1 &&
<>	149:156823d33999	782	obj->i2c.tran_ctrl & TRANCTRL_NAKLASTDATA) {
<>	149:156823d33999	783	// Last data
<>	149:156823d33999	784	i2c_ctl &= ~I2C_CTL_AA_Msk;
<>	149:156823d33999	785	}
<>	149:156823d33999	786	I2C_SET_CONTROL_REG(i2c_base, i2c_ctl);
<>	149:156823d33999	787	}
<>	149:156823d33999	788	}
<>	149:156823d33999	789	else {
<>	149:156823d33999	790	obj->i2c.tran_ctrl &= ~TRANCTRL_STARTED;
<>	149:156823d33999	791	i2c_disable_int(obj);
<>	149:156823d33999	792	break;
<>	149:156823d33999	793	}
<>	149:156823d33999	794	}
<>	149:156823d33999	795	else {
<>	149:156823d33999	796	i2c_disable_int(obj);
<>	149:156823d33999	797	}
<>	149:156823d33999	798	break;
<>	149:156823d33999	799
<>	149:156823d33999	800	case 0xF8: // Bus Released
<>	149:156823d33999	801	break;
<>	149:156823d33999	802
<>	149:156823d33999	803	default:
<>	149:156823d33999	804	i2c_fsm_reset(obj, I2C_CTL_SI_Msk \| I2C_CTL_AA_Msk);
<>	149:156823d33999	805	}
<>	149:156823d33999	806	}
<>	149:156823d33999	807
<>	149:156823d33999	808	static void i2c_fsm_reset(i2c_t *obj, uint32_t i2c_ctl)
<>	149:156823d33999	809	{
<>	149:156823d33999	810	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	811
<>	149:156823d33999	812	obj->i2c.stop = 0;
<>	149:156823d33999	813
<>	149:156823d33999	814	obj->i2c.tran_ctrl = 0;
<>	149:156823d33999	815
<>	149:156823d33999	816	I2C_SET_CONTROL_REG(i2c_base, i2c_ctl);
<>	149:156823d33999	817	obj->i2c.slaveaddr_state = NoData;
<>	149:156823d33999	818	}
<>	149:156823d33999	819
<>	153:fa9ff456f731	820	static void i2c_fsm_tranfini(i2c_t *obj, int lastdatanaked)
<>	153:fa9ff456f731	821	{
<>	153:fa9ff456f731	822	if (lastdatanaked) {
<>	153:fa9ff456f731	823	obj->i2c.tran_ctrl \|= TRANCTRL_LASTDATANAKED;
<>	153:fa9ff456f731	824	}
<>	153:fa9ff456f731	825
<>	153:fa9ff456f731	826	obj->i2c.tran_ctrl &= ~TRANCTRL_STARTED;
<>	153:fa9ff456f731	827	i2c_disable_int(obj);
<>	153:fa9ff456f731	828	}
<>	153:fa9ff456f731	829
<>	149:156823d33999	830	#if DEVICE_I2C_ASYNCH
<>	149:156823d33999	831
<>	149:156823d33999	832	void i2c_transfer_asynch(i2c_t obj, const void tx, size_t tx_length, void *rx, size_t rx_length, uint32_t address, uint32_t stop, uint32_t handler, uint32_t event, DMAUsage hint)
<>	149:156823d33999	833	{
<>	149:156823d33999	834	// NOTE: M451 I2C only supports 7-bit slave address. The mbed I2C address passed in is shifted left by 1 bit (7-bit addr << 1).
<>	149:156823d33999	835	MBED_ASSERT((address & 0xFFFFFF00) == 0);
<>	149:156823d33999	836
<>	149:156823d33999	837	// NOTE: First transmit and then receive.
<>	149:156823d33999	838
<>	149:156823d33999	839	(void) hint;
<>	149:156823d33999	840	obj->i2c.dma_usage = DMA_USAGE_NEVER;
<>	149:156823d33999	841	obj->i2c.stop = stop;
<>	149:156823d33999	842	obj->i2c.address = address;
<>	149:156823d33999	843	obj->i2c.event = event;
<>	149:156823d33999	844	i2c_buffer_set(obj, tx, tx_length, rx, rx_length);
<>	149:156823d33999	845
<>	149:156823d33999	846	//I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	847
<>	149:156823d33999	848	i2c_enable_vector_interrupt(obj, handler, 1);
<>	149:156823d33999	849	i2c_start(obj);
<>	149:156823d33999	850	}
<>	149:156823d33999	851
<>	149:156823d33999	852	uint32_t i2c_irq_handler_asynch(i2c_t *obj)
<>	149:156823d33999	853	{
<>	149:156823d33999	854	int event = 0;
<>	149:156823d33999	855
<>	149:156823d33999	856	I2C_T i2c_base = (I2C_T ) NU_MODBASE(obj->i2c.i2c);
<>	149:156823d33999	857	uint32_t status = I2C_GET_STATUS(i2c_base);
<>	149:156823d33999	858	switch (status) {
<>	149:156823d33999	859	case 0x08: // Start
<>	149:156823d33999	860	case 0x10: {// Master Repeat Start
<>	149:156823d33999	861	if (obj->tx_buff.buffer && obj->tx_buff.pos < obj->tx_buff.length) {
<>	149:156823d33999	862	I2C_SET_DATA(i2c_base, (i2c_addr2data(obj->i2c.address, 0)));
<>	149:156823d33999	863	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_SI_Msk);
<>	149:156823d33999	864	}
<>	149:156823d33999	865	else if (obj->rx_buff.buffer && obj->rx_buff.pos < obj->rx_buff.length) {
<>	149:156823d33999	866	I2C_SET_DATA(i2c_base, (i2c_addr2data(obj->i2c.address, 1)));
<>	149:156823d33999	867	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_SI_Msk);
<>	149:156823d33999	868	}
<>	149:156823d33999	869	else {
<>	149:156823d33999	870	event = I2C_EVENT_TRANSFER_COMPLETE;
<>	149:156823d33999	871	if (obj->i2c.stop) {
<>	149:156823d33999	872	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	873	}
<>	149:156823d33999	874	}
<>	149:156823d33999	875	break;
<>	149:156823d33999	876	}
<>	149:156823d33999	877
<>	149:156823d33999	878	case 0x18: // Master Transmit Address ACK
<>	149:156823d33999	879	case 0x28: // Master Transmit Data ACK
<>	149:156823d33999	880	if (obj->tx_buff.buffer && obj->tx_buff.pos < obj->tx_buff.length) {
<>	149:156823d33999	881	uint8_t tx = (uint8_t )obj->tx_buff.buffer;
<>	149:156823d33999	882	I2C_SET_DATA(i2c_base, tx[obj->tx_buff.pos ++]);
<>	149:156823d33999	883	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_SI_Msk);
<>	149:156823d33999	884	}
<>	149:156823d33999	885	else if (obj->rx_buff.buffer && obj->rx_buff.pos < obj->rx_buff.length) {
<>	149:156823d33999	886	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STA_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	887	}
<>	149:156823d33999	888	else {
<>	149:156823d33999	889	event = I2C_EVENT_TRANSFER_COMPLETE;
<>	149:156823d33999	890	if (obj->i2c.stop) {
<>	149:156823d33999	891	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	892	}
<>	149:156823d33999	893	}
<>	149:156823d33999	894	break;
<>	149:156823d33999	895
<>	149:156823d33999	896	case 0x20: // Master Transmit Address NACK
<>	149:156823d33999	897	event = I2C_EVENT_ERROR_NO_SLAVE;
<>	149:156823d33999	898	if (obj->i2c.stop) {
<>	149:156823d33999	899	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	900	}
<>	149:156823d33999	901	break;
<>	149:156823d33999	902
<>	149:156823d33999	903	case 0x30: // Master Transmit Data NACK
<>	149:156823d33999	904	if (obj->tx_buff.buffer && obj->tx_buff.pos < obj->tx_buff.length) {
<>	149:156823d33999	905	event = I2C_EVENT_TRANSFER_EARLY_NACK;
<>	149:156823d33999	906	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	907	}
<>	149:156823d33999	908	else if (obj->rx_buff.buffer && obj->rx_buff.pos < obj->rx_buff.length) {
<>	149:156823d33999	909	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STA_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	910	}
<>	149:156823d33999	911	else {
<>	149:156823d33999	912	event = I2C_EVENT_TRANSFER_COMPLETE;
<>	149:156823d33999	913	if (obj->i2c.stop) {
<>	149:156823d33999	914	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	915	}
<>	149:156823d33999	916	}
<>	149:156823d33999	917	break;
<>	149:156823d33999	918
<>	149:156823d33999	919	case 0x38: // Master Arbitration Lost
<>	149:156823d33999	920	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_SI_Msk); // Enter not addressed SLV mode
<>	149:156823d33999	921	event = I2C_EVENT_ERROR;
<>	149:156823d33999	922	break;
<>	149:156823d33999	923
<>	149:156823d33999	924	case 0x50: // Master Receive Data ACK
<>	149:156823d33999	925	if (obj->rx_buff.buffer && obj->rx_buff.pos < obj->rx_buff.length) {
<>	149:156823d33999	926	uint8_t rx = (uint8_t ) obj->rx_buff.buffer;
<>	149:156823d33999	927	rx[obj->rx_buff.pos ++] = I2C_GET_DATA(((I2C_T *) NU_MODBASE(obj->i2c.i2c)));
<>	149:156823d33999	928	}
<>	149:156823d33999	929	case 0x40: // Master Receive Address ACK
<>	149:156823d33999	930	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_SI_Msk \| ((obj->rx_buff.pos != obj->rx_buff.length - 1) ? I2C_CTL_AA_Msk : 0));
<>	149:156823d33999	931	break;
<>	149:156823d33999	932
<>	149:156823d33999	933	case 0x48: // Master Receive Address NACK
<>	149:156823d33999	934	event = I2C_EVENT_ERROR_NO_SLAVE;
<>	149:156823d33999	935	if (obj->i2c.stop) {
<>	149:156823d33999	936	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	937	}
<>	149:156823d33999	938	break;
<>	149:156823d33999	939
<>	149:156823d33999	940	case 0x58: // Master Receive Data NACK
<>	149:156823d33999	941	if (obj->rx_buff.buffer && obj->rx_buff.pos < obj->rx_buff.length) {
<>	149:156823d33999	942	uint8_t rx = (uint8_t ) obj->rx_buff.buffer;
<>	149:156823d33999	943	rx[obj->rx_buff.pos ++] = I2C_GET_DATA(((I2C_T *) NU_MODBASE(obj->i2c.i2c)));
<>	149:156823d33999	944	}
<>	149:156823d33999	945	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STA_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	946	break;
<>	149:156823d33999	947
<>	149:156823d33999	948	case 0x00: // Bus error
<>	149:156823d33999	949	event = I2C_EVENT_ERROR;
<>	149:156823d33999	950	i2c_reset(obj);
<>	149:156823d33999	951	break;
<>	149:156823d33999	952
<>	149:156823d33999	953	default:
<>	149:156823d33999	954	event = I2C_EVENT_ERROR;
<>	149:156823d33999	955	if (obj->i2c.stop) {
<>	149:156823d33999	956	I2C_SET_CONTROL_REG(i2c_base, I2C_CTL_STO_Msk \| I2C_CTL_SI_Msk);
<>	149:156823d33999	957	}
<>	149:156823d33999	958	}
<>	149:156823d33999	959
<>	149:156823d33999	960	if (event) {
<>	149:156823d33999	961	i2c_rollback_vector_interrupt(obj);
<>	149:156823d33999	962	}
<>	149:156823d33999	963
<>	149:156823d33999	964	return (event & obj->i2c.event);
<>	149:156823d33999	965	}
<>	149:156823d33999	966
<>	149:156823d33999	967	uint8_t i2c_active(i2c_t *obj)
<>	149:156823d33999	968	{
<>	149:156823d33999	969	const struct nu_modinit_s *modinit = get_modinit(obj->i2c.i2c, i2c_modinit_tab);
<>	149:156823d33999	970	MBED_ASSERT(modinit != NULL);
<>	149:156823d33999	971	MBED_ASSERT(modinit->modname == obj->i2c.i2c);
<>	149:156823d33999	972
<>	149:156823d33999	973	// Vector will be changed for async transfer. Use it to judge if async transfer is on-going.
<>	149:156823d33999	974	uint32_t vec = NVIC_GetVector(modinit->irq_n);
<>	149:156823d33999	975	struct nu_i2c_var var = (struct nu_i2c_var ) modinit->var;
<>	149:156823d33999	976	return (vec && vec != (uint32_t) var->vec);
<>	149:156823d33999	977	}
<>	149:156823d33999	978
<>	149:156823d33999	979	void i2c_abort_asynch(i2c_t *obj)
<>	149:156823d33999	980	{
<>	149:156823d33999	981	i2c_rollback_vector_interrupt(obj);
<>	149:156823d33999	982	i2c_stop(obj);
<>	149:156823d33999	983	}
<>	149:156823d33999	984
<>	149:156823d33999	985	static void i2c_buffer_set(i2c_t obj, const void tx, size_t tx_length, void *rx, size_t rx_length)
<>	149:156823d33999	986	{
<>	149:156823d33999	987	obj->tx_buff.buffer = (void *) tx;
<>	149:156823d33999	988	obj->tx_buff.length = tx_length;
<>	149:156823d33999	989	obj->tx_buff.pos = 0;
<>	149:156823d33999	990	obj->rx_buff.buffer = rx;
<>	149:156823d33999	991	obj->rx_buff.length = rx_length;
<>	149:156823d33999	992	obj->rx_buff.pos = 0;
<>	149:156823d33999	993	}
<>	149:156823d33999	994
<>	149:156823d33999	995	static void i2c_enable_vector_interrupt(i2c_t *obj, uint32_t handler, int enable)
<>	149:156823d33999	996	{
<>	149:156823d33999	997	const struct nu_modinit_s *modinit = get_modinit(obj->i2c.i2c, i2c_modinit_tab);
<>	149:156823d33999	998	MBED_ASSERT(modinit != NULL);
<>	149:156823d33999	999	MBED_ASSERT(modinit->modname == obj->i2c.i2c);
<>	149:156823d33999	1000
<>	149:156823d33999	1001	if (enable) {
<>	149:156823d33999	1002	NVIC_SetVector(modinit->irq_n, handler);
<>	149:156823d33999	1003	i2c_enable_int(obj);
<>	149:156823d33999	1004	}
<>	149:156823d33999	1005	else {
<>	149:156823d33999	1006	i2c_disable_int(obj);
<>	149:156823d33999	1007	}
<>	149:156823d33999	1008
<>	149:156823d33999	1009	}
<>	149:156823d33999	1010
<>	149:156823d33999	1011	static void i2c_rollback_vector_interrupt(i2c_t *obj)
<>	149:156823d33999	1012	{
<>	149:156823d33999	1013	const struct nu_modinit_s *modinit = get_modinit(obj->i2c.i2c, i2c_modinit_tab);
<>	149:156823d33999	1014	MBED_ASSERT(modinit != NULL);
<>	149:156823d33999	1015	MBED_ASSERT(modinit->modname == obj->i2c.i2c);
<>	149:156823d33999	1016
<>	149:156823d33999	1017	struct nu_i2c_var var = (struct nu_i2c_var ) modinit->var;
<>	149:156823d33999	1018	i2c_enable_vector_interrupt(obj, (uint32_t) var->vec, 1);
<>	149:156823d33999	1019	}
<>	149:156823d33999	1020
<>	149:156823d33999	1021	#endif
<>	149:156823d33999	1022
<>	149:156823d33999	1023	#endif