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/*
Copyright 2018 Massdrop Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "arm_atsam_protocol.h"
#ifndef MD_BOOTLOADER
#include <string.h>
//From keyboard
#include "config.h"
#include "config_led.h"
#include "matrix.h"
#define I2C_LED_USE_DMA 1 //Set 1 to use background DMA transfers for leds, Set 0 to use inline software transfers
static uint8_t i2c_led_q[I2C_Q_SIZE]; //I2C queue circular buffer
static uint8_t i2c_led_q_s; //Start of circular buffer
static uint8_t i2c_led_q_e; //End of circular buffer
static uint8_t i2c_led_q_full; //Queue full counter for reset
static uint8_t dma_sendbuf[I2C_DMA_MAX_SEND]; //Data being written to I2C
volatile uint8_t i2c_led_q_running;
#endif //MD_BOOTLOADER
void i2c0_init(void)
{
DBGC(DC_I2C0_INIT_BEGIN);
CLK_set_i2c0_freq(CHAN_SERCOM_I2C0, FREQ_I2C0_DEFAULT);
//MCU
PORT->Group[0].PMUX[4].bit.PMUXE = 2;
PORT->Group[0].PMUX[4].bit.PMUXO = 2;
PORT->Group[0].PINCFG[8].bit.PMUXEN = 1;
PORT->Group[0].PINCFG[9].bit.PMUXEN = 1;
//I2C
//Note: SW Reset handled in CLK_set_i2c0_freq clks.c
SERCOM0->I2CM.CTRLA.bit.MODE = 5; //Set master mode
SERCOM0->I2CM.CTRLA.bit.SPEED = 0; //Set to 1 for Fast-mode Plus (FM+) up to 1 MHz
SERCOM0->I2CM.CTRLA.bit.RUNSTDBY = 1; //Enabled
SERCOM0->I2CM.CTRLA.bit.ENABLE = 1; //Enable the device
while (SERCOM0->I2CM.SYNCBUSY.bit.ENABLE) { DBGC(DC_I2C0_INIT_SYNC_ENABLING); } //Wait for SYNCBUSY.ENABLE to clear
SERCOM0->I2CM.STATUS.bit.BUSSTATE = 1; //Force into IDLE state
while (SERCOM0->I2CM.SYNCBUSY.bit.SYSOP) { DBGC(DC_I2C0_INIT_SYNC_SYSOP); }
while (SERCOM0->I2CM.STATUS.bit.BUSSTATE != 1) { DBGC(DC_I2C0_INIT_WAIT_IDLE); } //Wait while not idle
DBGC(DC_I2C0_INIT_COMPLETE);
}
uint8_t i2c0_start(uint8_t address)
{
SERCOM0->I2CM.ADDR.bit.ADDR = address;
while (SERCOM0->I2CM.SYNCBUSY.bit.SYSOP) {}
while (SERCOM0->I2CM.INTFLAG.bit.MB == 0) {}
while (SERCOM0->I2CM.STATUS.bit.RXNACK) {}
return 1;
}
uint8_t i2c0_transmit(uint8_t address, uint8_t *data, uint16_t length, uint16_t timeout)
{
if (!length) return 0;
i2c0_start(address);
while (length)
{
SERCOM0->I2CM.DATA.bit.DATA = *data;
while (SERCOM0->I2CM.INTFLAG.bit.MB == 0) {}
while (SERCOM0->I2CM.STATUS.bit.RXNACK) {}
data++;
length--;
}
i2c0_stop();
return 1;
}
void i2c0_stop(void)
{
if (SERCOM0->I2CM.STATUS.bit.CLKHOLD || SERCOM0->I2CM.INTFLAG.bit.MB == 1 || SERCOM0->I2CM.STATUS.bit.BUSSTATE != 1)
{
SERCOM0->I2CM.CTRLB.bit.CMD = 3;
while (SERCOM0->I2CM.SYNCBUSY.bit.SYSOP);
while (SERCOM0->I2CM.STATUS.bit.CLKHOLD);
while (SERCOM0->I2CM.INTFLAG.bit.MB);
while (SERCOM0->I2CM.STATUS.bit.BUSSTATE != 1);
}
}
#ifndef MD_BOOTLOADER
void i2c1_init(void)
{
DBGC(DC_I2C1_INIT_BEGIN);
CLK_set_i2c1_freq(CHAN_SERCOM_I2C1, FREQ_I2C1_DEFAULT);
/* MCU */
PORT->Group[0].PMUX[8].bit.PMUXE = 2;
PORT->Group[0].PMUX[8].bit.PMUXO = 2;
PORT->Group[0].PINCFG[16].bit.PMUXEN = 1;
PORT->Group[0].PINCFG[17].bit.PMUXEN = 1;
/* I2C */
//Note: SW Reset handled in CLK_set_i2c1_freq clks.c
SERCOM1->I2CM.CTRLA.bit.MODE = 5; //MODE: Set master mode (No sync)
SERCOM1->I2CM.CTRLA.bit.SPEED = 1; //SPEED: Fm+ up to 1MHz (No sync)
SERCOM1->I2CM.CTRLA.bit.RUNSTDBY = 1; //RUNSTBY: Enabled (No sync)
SERCOM1->I2CM.CTRLB.bit.SMEN = 1; //SMEN: Smart mode enabled (For DMA)(No sync)
NVIC_EnableIRQ(SERCOM1_0_IRQn);
SERCOM1->I2CM.INTENSET.bit.ERROR = 1;
SERCOM1->I2CM.CTRLA.bit.ENABLE = 1; //ENABLE: Enable the device (sync SYNCBUSY.ENABLE)
while (SERCOM1->I2CM.SYNCBUSY.bit.ENABLE) { DBGC(DC_I2C1_INIT_SYNC_ENABLING); } //Wait for SYNCBUSY.ENABLE to clear
SERCOM1->I2CM.STATUS.bit.BUSSTATE = 1; //BUSSTATE: Force into IDLE state (sync SYNCBUSY.SYSOP)
while (SERCOM1->I2CM.SYNCBUSY.bit.SYSOP) { DBGC(DC_I2C1_INIT_SYNC_SYSOP); }
while (SERCOM1->I2CM.STATUS.bit.BUSSTATE != 1) { DBGC(DC_I2C1_INIT_WAIT_IDLE); } //Wait while not idle
DBGC(DC_I2C1_INIT_COMPLETE);
}
uint8_t i2c1_start(uint8_t address)
{
SERCOM1->I2CM.ADDR.bit.ADDR = address;
while (SERCOM1->I2CM.SYNCBUSY.bit.SYSOP) {}
while (SERCOM1->I2CM.INTFLAG.bit.MB == 0) {}
while (SERCOM1->I2CM.STATUS.bit.RXNACK) {}
return 1;
}
uint8_t i2c1_transmit(uint8_t address, uint8_t *data, uint16_t length, uint16_t timeout)
{
if (!length) return 0;
i2c1_start(address);
while (length)
{
SERCOM1->I2CM.DATA.bit.DATA = *data;
while (SERCOM1->I2CM.INTFLAG.bit.MB == 0) {}
while (SERCOM1->I2CM.STATUS.bit.RXNACK) {}
data++;
length--;
}
i2c1_stop();
return 1;
}
void i2c1_stop(void)
{
if (SERCOM1->I2CM.STATUS.bit.CLKHOLD || SERCOM1->I2CM.INTFLAG.bit.MB == 1 || SERCOM1->I2CM.STATUS.bit.BUSSTATE != 1)
{
SERCOM1->I2CM.CTRLB.bit.CMD = 3;
while (SERCOM1->I2CM.SYNCBUSY.bit.SYSOP);
while (SERCOM1->I2CM.STATUS.bit.CLKHOLD);
while (SERCOM1->I2CM.INTFLAG.bit.MB);
while (SERCOM1->I2CM.STATUS.bit.BUSSTATE != 1);
}
}
void i2c_led_send_CRWL(uint8_t drvid)
{
uint8_t i2cdata[] = { ISSI3733_CMDRWL, ISSI3733_CMDRWL_WRITE_ENABLE_ONCE };
i2c1_transmit(issidrv[drvid].addr, i2cdata, sizeof(i2cdata), 0);
}
void i2c_led_select_page(uint8_t drvid, uint8_t pageno)
{
uint8_t i2cdata[] = { ISSI3733_CMDR, pageno };
i2c1_transmit(issidrv[drvid].addr, i2cdata, sizeof(i2cdata), 0);
}
void i2c_led_send_GCR(uint8_t drvid)
{
uint8_t i2cdata[] = { ISSI3733_GCCR, 0x00 };
if (gcr_actual > LED_GCR_MAX) gcr_actual = LED_GCR_MAX;
i2cdata[1] = gcr_actual;
i2c1_transmit(issidrv[drvid].addr, i2cdata, sizeof(i2cdata), 0);
}
void i2c_led_send_onoff(uint8_t drvid)
{
#if I2C_LED_USE_DMA != 1
if (!i2c_led_q_running)
{
#endif
i2c_led_send_CRWL(drvid);
i2c_led_select_page(drvid, 0);
#if I2C_LED_USE_DMA != 1
}
#endif
*issidrv[drvid].onoff = 0; //Force start location offset to zero
i2c1_transmit(issidrv[drvid].addr, issidrv[drvid].onoff, ISSI3733_PG0_BYTES, 0);
}
void i2c_led_send_mode_op_gcr(uint8_t drvid, uint8_t mode, uint8_t operation)
{
uint8_t i2cdata[] = { ISSI3733_CR, mode | operation, gcr_actual};
i2c1_transmit(issidrv[drvid].addr, i2cdata, sizeof(i2cdata), 0);
}
void i2c_led_send_pur_pdr(uint8_t drvid, uint8_t pur, uint8_t pdr)
{
uint8_t i2cdata[] = { ISSI3733_SWYR_PUR, pur, pdr };
i2c1_transmit(issidrv[drvid].addr, i2cdata, sizeof(i2cdata), 0);
}
void i2c_led_send_pwm(uint8_t drvid)
{
#if I2C_LED_USE_DMA != 1
if (!i2c_led_q_running)
{
#endif
i2c_led_send_CRWL(drvid);
i2c_led_select_page(drvid, 0);
#if I2C_LED_USE_DMA != 1
}
#endif
*issidrv[drvid].pwm = 0; //Force start location offset to zero
i2c1_transmit(issidrv[drvid].addr, issidrv[drvid].pwm, ISSI3733_PG1_BYTES, 0);
}
uint8_t I2C3733_Init_Control(void)
{
DBGC(DC_I2C3733_INIT_CONTROL_BEGIN);
//Hardware state shutdown on boot
//USB state machine will enable driver when communication is ready
I2C3733_Control_Set(0);
wait_ms(1);
sr_exp_data.bit.IRST = 0;
SR_EXP_WriteData();
wait_ms(1);
DBGC(DC_I2C3733_INIT_CONTROL_COMPLETE);
return 1;
}
uint8_t I2C3733_Init_Drivers(void)
{
DBGC(DC_I2C3733_INIT_DRIVERS_BEGIN);
gcr_actual = ISSI3733_GCR_DEFAULT;
gcr_actual_last = gcr_actual;
if (gcr_actual > LED_GCR_MAX) gcr_actual = LED_GCR_MAX;
gcr_desired = gcr_actual;
//Set up master device
i2c_led_send_CRWL(0);
i2c_led_select_page(0, 3);
i2c_led_send_mode_op_gcr(0, 0, ISSI3733_CR_SSD_NORMAL); //No SYNC due to brightness mismatch with second driver
//Set up slave device
i2c_led_send_CRWL(1);
i2c_led_select_page(1, 3);
i2c_led_send_mode_op_gcr(1, 0, ISSI3733_CR_SSD_NORMAL); //No SYNC due to brightness mismatch with first driver and slight flicker at rgb values 1,2
i2c_led_send_CRWL(0);
i2c_led_select_page(0, 3);
i2c_led_send_pur_pdr(0, ISSI3733_SWYR_PUR_8000, ISSI3733_CSXR_PDR_8000);
i2c_led_send_CRWL(1);
i2c_led_select_page(1, 3);
i2c_led_send_pur_pdr(1, ISSI3733_SWYR_PUR_8000, ISSI3733_CSXR_PDR_8000);
DBGC(DC_I2C3733_INIT_DRIVERS_COMPLETE);
return 1;
}
void I2C_DMAC_LED_Init(void)
{
Dmac *dmac = DMAC;
DBGC(DC_I2C_DMAC_LED_INIT_BEGIN);
//Disable device
dmac->CTRL.bit.DMAENABLE = 0; //Disable DMAC
while (dmac->CTRL.bit.DMAENABLE) {} //Wait for disabled state in case of ongoing transfers
dmac->CTRL.bit.SWRST = 1; //Software Reset DMAC
while (dmac->CTRL.bit.SWRST) {} //Wait for software reset to complete
//Configure device
dmac->BASEADDR.reg = (uint32_t)&dmac_desc; //Set descriptor base address
dmac->WRBADDR.reg = (uint32_t)&dmac_desc_wb; //Set descriptor write back address
dmac->CTRL.reg |= 0x0f00; //Handle all priorities (LVL0-3)
//Disable channel
dmac->Channel[0].CHCTRLA.bit.ENABLE = 0; //Disable the channel
while (dmac->Channel[0].CHCTRLA.bit.ENABLE) {} //Wait for disabled state in case of ongoing transfers
dmac->Channel[0].CHCTRLA.bit.SWRST = 1; //Software Reset the channel
while (dmac->Channel[0].CHCTRLA.bit.SWRST) {} //Wait for software reset to complete
//Configure channel
dmac->Channel[0].CHCTRLA.bit.THRESHOLD = 0; //1BEAT
dmac->Channel[0].CHCTRLA.bit.BURSTLEN = 0; //SINGLE
dmac->Channel[0].CHCTRLA.bit.TRIGACT = 2; //BURST
dmac->Channel[0].CHCTRLA.bit.TRIGSRC = SERCOM1_DMAC_ID_TX; //Trigger source
dmac->Channel[0].CHCTRLA.bit.RUNSTDBY = 1; //Run in standby
NVIC_EnableIRQ(DMAC_0_IRQn);
dmac->Channel[0].CHINTENSET.bit.TCMPL = 1;
dmac->Channel[0].CHINTENSET.bit.TERR = 1;
//Enable device
dmac->CTRL.bit.DMAENABLE = 1; //Enable DMAC
while (dmac->CTRL.bit.DMAENABLE == 0) {} //Wait for enable state
DBGC(DC_I2C_DMAC_LED_INIT_COMPLETE);
}
//state = 1 enable
//state = 0 disable
void I2C3733_Control_Set(uint8_t state)
{
DBGC(DC_I2C3733_CONTROL_SET_BEGIN);
sr_exp_data.bit.SDB_N = (state == 1 ? 1 : 0);
SR_EXP_WriteData();
DBGC(DC_I2C3733_CONTROL_SET_COMPLETE);
}
void i2c_led_desc_defaults(void)
{
dmac_desc.BTCTRL.bit.STEPSIZE = 0; //SRCINC used in favor for auto 1 inc
dmac_desc.BTCTRL.bit.STEPSEL = 0; //SRCINC used in favor for auto 1 inc
dmac_desc.BTCTRL.bit.DSTINC = 0; //The Destination Address Increment is disabled
dmac_desc.BTCTRL.bit.SRCINC = 1; //The Source Address Increment is enabled (Inc by 1)
dmac_desc.BTCTRL.bit.BEATSIZE = 0; //8-bit bus transfer
dmac_desc.BTCTRL.bit.BLOCKACT = 0; //Channel will be disabled if it is the last block transfer in the transaction
dmac_desc.BTCTRL.bit.EVOSEL = 0; //Event generation disabled
dmac_desc.BTCTRL.bit.VALID = 1; //Set dmac valid
}
void i2c_led_prepare_send_dma(uint8_t *data, uint8_t len)
{
i2c_led_desc_defaults();
dmac_desc.BTCNT.reg = len;
dmac_desc.SRCADDR.reg = (uint32_t)data + len;
dmac_desc.DSTADDR.reg = (uint32_t)&SERCOM1->I2CM.DATA.reg;
dmac_desc.DESCADDR.reg = 0;
}
void i2c_led_begin_dma(uint8_t drvid)
{
DMAC->Channel[0].CHCTRLA.bit.ENABLE = 1; //Enable the channel
SERCOM1->I2CM.ADDR.reg = (dmac_desc.BTCNT.reg << 16) | 0x2000 | issidrv[drvid].addr; //Begin transfer
}
void i2c_led_send_CRWL_dma(uint8_t drvid)
{
*(dma_sendbuf+0) = ISSI3733_CMDRWL;
*(dma_sendbuf+1) = ISSI3733_CMDRWL_WRITE_ENABLE_ONCE;
i2c_led_prepare_send_dma(dma_sendbuf, 2);
i2c_led_begin_dma(drvid);
}
void i2c_led_select_page_dma(uint8_t drvid, uint8_t pageno)
{
*(dma_sendbuf+0) = ISSI3733_CMDR;
*(dma_sendbuf+1) = pageno;
i2c_led_prepare_send_dma(dma_sendbuf, 2);
i2c_led_begin_dma(drvid);
}
void i2c_led_send_GCR_dma(uint8_t drvid)
{
*(dma_sendbuf+0) = ISSI3733_GCCR;
*(dma_sendbuf+1) = gcr_actual;
i2c_led_prepare_send_dma(dma_sendbuf, 2);
i2c_led_begin_dma(drvid);
}
void i2c_led_send_pwm_dma(uint8_t drvid)
{
//Note: This copies the CURRENT pwm buffer, which may be getting modified
memcpy(dma_sendbuf, issidrv[drvid].pwm, ISSI3733_PG1_BYTES);
*dma_sendbuf = 0; //Force start location offset to zero
i2c_led_prepare_send_dma(dma_sendbuf, ISSI3733_PG1_BYTES);
i2c_led_begin_dma(drvid);
}
void i2c_led_send_onoff_dma(uint8_t drvid)
{
//Note: This copies the CURRENT onoff buffer, which may be getting modified
memcpy(dma_sendbuf, issidrv[drvid].onoff, ISSI3733_PG0_BYTES);
*dma_sendbuf = 0; //Force start location offset to zero
i2c_led_prepare_send_dma(dma_sendbuf, ISSI3733_PG0_BYTES);
i2c_led_begin_dma(drvid);
}
void i2c_led_q_init(void)
{
memset(i2c_led_q, 0, I2C_Q_SIZE);
i2c_led_q_s = 0;
i2c_led_q_e = 0;
i2c_led_q_running = 0;
i2c_led_q_full = 0;
}
uint8_t i2c_led_q_isempty(void)
{
return i2c_led_q_s == i2c_led_q_e;
}
uint8_t i2c_led_q_size(void)
{
return (i2c_led_q_e - i2c_led_q_s) % I2C_Q_SIZE;
}
uint8_t i2c_led_q_available(void)
{
return I2C_Q_SIZE - i2c_led_q_size() - 1; //Never allow end to meet start
}
void i2c_led_q_add(uint8_t cmd)
{
//WARNING: Always request room before adding commands!
//Assign command
i2c_led_q[i2c_led_q_e] = cmd;
i2c_led_q_e = (i2c_led_q_e + 1) % I2C_Q_SIZE; //Move end up one or wrap
}
void i2c_led_q_s_advance(void)
{
i2c_led_q_s = (i2c_led_q_s + 1) % I2C_Q_SIZE; //Move start up one or wrap
}
//Always request room before adding commands
//PS: In case the queue somehow gets filled, it will reset if it can not clear up
//PS: Could only get this to happen through unrealistic timings to overload the I2C bus
uint8_t i2c_led_q_request_room(uint8_t request_size)
{
if (request_size > i2c_led_q_available())
{
i2c_led_q_full++;
if (i2c_led_q_full >= 100) //Give the queue a chance to clear up
{
DBG_LED_ON;
I2C_DMAC_LED_Init();
i2c_led_q_init();
return 1;
}
return 0;
}
i2c_led_q_full = 0;
return 1;
}
uint8_t i2c_led_q_run(void)
{
if (i2c_led_q_isempty())
{
i2c_led_q_running = 0;
return 0;
}
if (i2c_led_q_running) return 1;
i2c_led_q_running = 1;
#if I2C_LED_USE_DMA != 1
while (!i2c_led_q_isempty())
{
#endif
//run command
if (i2c_led_q[i2c_led_q_s] == I2C_Q_CRWL)
{
i2c_led_q_s_advance();
uint8_t drvid = i2c_led_q[i2c_led_q_s];
#if I2C_LED_USE_DMA == 1
i2c_led_send_CRWL_dma(drvid);
#else
i2c_led_send_CRWL(drvid);
#endif
}
else if (i2c_led_q[i2c_led_q_s] == I2C_Q_PAGE_SELECT)
{
i2c_led_q_s_advance();
uint8_t drvid = i2c_led_q[i2c_led_q_s];
i2c_led_q_s_advance();
uint8_t page = i2c_led_q[i2c_led_q_s];
#if I2C_LED_USE_DMA == 1
i2c_led_select_page_dma(drvid, page);
#else
i2c_led_select_page(drvid, page);
#endif
}
else if (i2c_led_q[i2c_led_q_s] == I2C_Q_PWM)
{
i2c_led_q_s_advance();
uint8_t drvid = i2c_led_q[i2c_led_q_s];
#if I2C_LED_USE_DMA == 1
i2c_led_send_pwm_dma(drvid);
#else
i2c_led_send_pwm(drvid);
#endif
}
else if (i2c_led_q[i2c_led_q_s] == I2C_Q_GCR)
{
i2c_led_q_s_advance();
uint8_t drvid = i2c_led_q[i2c_led_q_s];
#if I2C_LED_USE_DMA == 1
i2c_led_send_GCR_dma(drvid);
#else
i2c_led_send_GCR(drvid);
#endif
}
else if (i2c_led_q[i2c_led_q_s] == I2C_Q_ONOFF)
{
i2c_led_q_s_advance();
uint8_t drvid = i2c_led_q[i2c_led_q_s];
#if I2C_LED_USE_DMA == 1
i2c_led_send_onoff_dma(drvid);
#else
i2c_led_send_onoff(drvid);
#endif
}
i2c_led_q_s_advance(); //Advance last run command or if the command byte was not serviced
#if I2C_LED_USE_DMA != 1
}
i2c_led_q_running = 0;
#endif
return 1;
}
#endif //MD_BOOTLOADER
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