Update to arm_atsam wait and timer routines
Microsecond (us) delays are now handled by a busy wait loop according to MCU frequency. This replaces the system counter method which had an overhead of around 12us. TC5 device and supporting routines removed as it was the old us delay counter. wait_ms is now properly a macro to CLK_delay_ms. wait_us is now properly a macro to CLK_delay_us. Removed CLK_get_us as it has no use. All calls to CLK_get_ms() have been replaced by timer_read64() with corrected typing. All calls to CLK_delay_ms() have been replaced by wait_ms(). All calls to CLK_delay_us() have been replaced by wait_us() and timings verified or updated as needed after review on scope. Corrected typing of variables using 64bit ms timer readings if needed.
This commit is contained in:
parent
2898699804
commit
6e984a8b5e
12 changed files with 61 additions and 133 deletions
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@ -79,8 +79,6 @@ void matrix_init(void)
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matrix_init_quantum();
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matrix_init_quantum();
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}
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}
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#define MATRIX_SCAN_DELAY 10 //Delay after setting a col to output (in us)
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uint64_t mdebouncing = 0;
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uint64_t mdebouncing = 0;
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uint8_t matrix_scan(void)
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uint8_t matrix_scan(void)
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{
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{
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@ -89,9 +87,7 @@ uint8_t matrix_scan(void)
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uint8_t col;
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uint8_t col;
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uint32_t scans[2]; //PA PB
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uint32_t scans[2]; //PA PB
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if (CLK_get_ms() < mdebouncing) return 1; //mdebouncing == 0 when no debouncing active
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if (timer_read64() < mdebouncing) return 1; //mdebouncing == 0 when no debouncing active
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//DBG_1_OFF; //Profiling scans
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memset(mlatest, 0, MATRIX_ROWS * sizeof(matrix_row_t)); //Zero the result buffer
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memset(mlatest, 0, MATRIX_ROWS * sizeof(matrix_row_t)); //Zero the result buffer
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@ -99,7 +95,7 @@ uint8_t matrix_scan(void)
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{
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{
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PORT->Group[col_ports[col]].OUTSET.reg = 1 << col_pins[col]; //Set col output
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PORT->Group[col_ports[col]].OUTSET.reg = 1 << col_pins[col]; //Set col output
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CLK_delay_us(MATRIX_SCAN_DELAY); //Delay for output
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wait_us(1); //Delay for output
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scans[PA] = PORT->Group[PA].IN.reg & row_masks[PA]; //Read PA row pins data
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scans[PA] = PORT->Group[PA].IN.reg & row_masks[PA]; //Read PA row pins data
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scans[PB] = PORT->Group[PB].IN.reg & row_masks[PB]; //Read PB row pins data
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scans[PB] = PORT->Group[PB].IN.reg & row_masks[PB]; //Read PB row pins data
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@ -132,11 +128,9 @@ uint8_t matrix_scan(void)
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else
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else
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{
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{
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//Begin or extend debounce on change
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//Begin or extend debounce on change
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mdebouncing = CLK_get_ms() + DEBOUNCING_DELAY;
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mdebouncing = timer_read64() + DEBOUNCING_DELAY;
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}
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}
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//DBG_1_ON; //Profiling scans
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matrix_scan_quantum();
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matrix_scan_quantum();
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return 1;
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return 1;
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@ -79,8 +79,6 @@ void matrix_init(void)
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matrix_init_quantum();
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matrix_init_quantum();
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}
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}
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#define MATRIX_SCAN_DELAY 10 //Delay after setting a col to output (in us)
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uint64_t mdebouncing = 0;
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uint64_t mdebouncing = 0;
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uint8_t matrix_scan(void)
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uint8_t matrix_scan(void)
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{
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{
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@ -89,9 +87,7 @@ uint8_t matrix_scan(void)
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uint8_t col;
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uint8_t col;
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uint32_t scans[2]; //PA PB
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uint32_t scans[2]; //PA PB
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if (CLK_get_ms() < mdebouncing) return 1; //mdebouncing == 0 when no debouncing active
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if (timer_read64() < mdebouncing) return 1; //mdebouncing == 0 when no debouncing active
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//DBG_1_OFF; //Profiling scans
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memset(mlatest, 0, MATRIX_ROWS * sizeof(matrix_row_t)); //Zero the result buffer
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memset(mlatest, 0, MATRIX_ROWS * sizeof(matrix_row_t)); //Zero the result buffer
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@ -99,7 +95,7 @@ uint8_t matrix_scan(void)
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{
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{
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PORT->Group[col_ports[col]].OUTSET.reg = 1 << col_pins[col]; //Set col output
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PORT->Group[col_ports[col]].OUTSET.reg = 1 << col_pins[col]; //Set col output
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CLK_delay_us(MATRIX_SCAN_DELAY); //Delay for output
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wait_us(1); //Delay for output
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scans[PA] = PORT->Group[PA].IN.reg & row_masks[PA]; //Read PA row pins data
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scans[PA] = PORT->Group[PA].IN.reg & row_masks[PA]; //Read PA row pins data
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scans[PB] = PORT->Group[PB].IN.reg & row_masks[PB]; //Read PB row pins data
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scans[PB] = PORT->Group[PB].IN.reg & row_masks[PB]; //Read PB row pins data
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@ -132,11 +128,9 @@ uint8_t matrix_scan(void)
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else
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else
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{
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{
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//Begin or extend debounce on change
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//Begin or extend debounce on change
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mdebouncing = CLK_get_ms() + DEBOUNCING_DELAY;
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mdebouncing = timer_read64() + DEBOUNCING_DELAY;
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}
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}
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//DBG_1_ON; //Profiling scans
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matrix_scan_quantum();
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matrix_scan_quantum();
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return 1;
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return 1;
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@ -9,7 +9,7 @@ void set_time(uint64_t tset)
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void timer_init(void)
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void timer_init(void)
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{
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{
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ms_clk = 0;
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timer_clear();
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}
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}
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uint16_t timer_read(void)
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uint16_t timer_read(void)
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@ -37,23 +37,7 @@ uint32_t timer_elapsed32(uint32_t tlast)
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return TIMER_DIFF_32(timer_read32(), tlast);
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return TIMER_DIFF_32(timer_read32(), tlast);
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}
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}
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uint32_t timer_elapsed64(uint32_t tlast)
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{
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uint64_t tnow = timer_read64();
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return (tnow >= tlast ? tnow - tlast : UINT64_MAX - tlast + tnow);
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}
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void timer_clear(void)
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void timer_clear(void)
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{
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{
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ms_clk = 0;
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set_time(0);
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}
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void wait_ms(uint64_t msec)
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{
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CLK_delay_ms(msec);
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}
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void wait_us(uint16_t usec)
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{
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CLK_delay_us(usec);
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}
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}
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@ -15,6 +15,10 @@ extern "C" {
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# include "ch.h"
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# include "ch.h"
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# define wait_ms(ms) chThdSleepMilliseconds(ms)
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# define wait_ms(ms) chThdSleepMilliseconds(ms)
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# define wait_us(us) chThdSleepMicroseconds(us)
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# define wait_us(us) chThdSleepMicroseconds(us)
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#elif defined PROTOCOL_ARM_ATSAM
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# include "clks.h"
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# define wait_ms(ms) CLK_delay_ms(ms)
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# define wait_us(us) CLK_delay_us(us)
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#elif defined(__arm__)
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#elif defined(__arm__)
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# include "wait_api.h"
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# include "wait_api.h"
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#else // Unit tests
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#else // Unit tests
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@ -21,8 +21,10 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
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#include "samd51j18a.h"
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#include "samd51j18a.h"
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#include "md_bootloader.h"
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#include "md_bootloader.h"
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#include "timer.h"
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#include "d51_util.h"
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#include "d51_util.h"
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#include "clks.h"
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#include "clks.h"
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#include "wait.h"
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#include "adc.h"
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#include "adc.h"
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#include "i2c_master.h"
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#include "i2c_master.h"
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#include "spi.h"
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#include "spi.h"
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@ -21,8 +21,8 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
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volatile clk_t system_clks;
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volatile clk_t system_clks;
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volatile uint64_t ms_clk;
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volatile uint64_t ms_clk;
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uint32_t usec_delay_mult;
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volatile uint8_t us_delay_done;
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#define USEC_DELAY_LOOP_CYCLES 3 //Sum of instruction cycles in us delay loop
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const uint32_t sercom_apbbase[] = {(uint32_t)SERCOM0,(uint32_t)SERCOM1,(uint32_t)SERCOM2,(uint32_t)SERCOM3,(uint32_t)SERCOM4,(uint32_t)SERCOM5};
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const uint32_t sercom_apbbase[] = {(uint32_t)SERCOM0,(uint32_t)SERCOM1,(uint32_t)SERCOM2,(uint32_t)SERCOM3,(uint32_t)SERCOM4,(uint32_t)SERCOM5};
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const uint8_t sercom_pchan[] = {7, 8, 23, 24, 34, 35};
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const uint8_t sercom_pchan[] = {7, 8, 23, 24, 34, 35};
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system_clks.freq_gclk[0] = system_clks.freq_dpll[0];
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system_clks.freq_gclk[0] = system_clks.freq_dpll[0];
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usec_delay_mult = system_clks.freq_gclk[0] / (USEC_DELAY_LOOP_CYCLES * 1000000);
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if (usec_delay_mult < 1) usec_delay_mult = 1; //Never allow a multiplier of zero
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DBGC(DC_CLK_OSC_INIT_COMPLETE);
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DBGC(DC_CLK_OSC_INIT_COMPLETE);
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}
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}
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@ -158,23 +161,11 @@ void TC4_Handler()
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}
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}
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}
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}
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void TC5_Handler()
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{
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if (TC5->COUNT16.INTFLAG.bit.MC0)
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{
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TC5->COUNT16.INTFLAG.reg = TC_INTENCLR_MC0;
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us_delay_done = 1;
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TC5->COUNT16.CTRLA.bit.ENABLE = 0;
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while (TC5->COUNT16.SYNCBUSY.bit.ENABLE) {}
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}
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}
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uint32_t CLK_enable_timebase(void)
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uint32_t CLK_enable_timebase(void)
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{
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{
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Gclk *pgclk = GCLK;
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Gclk *pgclk = GCLK;
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Mclk *pmclk = MCLK;
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Mclk *pmclk = MCLK;
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Tc *ptc4 = TC4;
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Tc *ptc4 = TC4;
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Tc *ptc5 = TC5;
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Tc *ptc0 = TC0;
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Tc *ptc0 = TC0;
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Evsys *pevsys = EVSYS;
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Evsys *pevsys = EVSYS;
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@ -189,11 +180,6 @@ uint32_t CLK_enable_timebase(void)
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pgclk->PCHCTRL[TC4_GCLK_ID].bit.GEN = GEN_TC45;
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pgclk->PCHCTRL[TC4_GCLK_ID].bit.GEN = GEN_TC45;
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pgclk->PCHCTRL[TC4_GCLK_ID].bit.CHEN = 1;
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pgclk->PCHCTRL[TC4_GCLK_ID].bit.CHEN = 1;
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//unmask TC5 sourcegclk2 to TC5
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pmclk->APBCMASK.bit.TC5_ = 1;
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pgclk->PCHCTRL[TC5_GCLK_ID].bit.GEN = GEN_TC45;
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pgclk->PCHCTRL[TC5_GCLK_ID].bit.CHEN = 1;
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//configure TC4
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//configure TC4
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DBGC(DC_CLK_ENABLE_TIMEBASE_TC4_BEGIN);
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DBGC(DC_CLK_ENABLE_TIMEBASE_TC4_BEGIN);
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ptc4->COUNT16.CTRLA.bit.ENABLE = 0;
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ptc4->COUNT16.CTRLA.bit.ENABLE = 0;
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DBGC(DC_CLK_ENABLE_TIMEBASE_TC4_COMPLETE);
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DBGC(DC_CLK_ENABLE_TIMEBASE_TC4_COMPLETE);
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//configure TC5
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DBGC(DC_CLK_ENABLE_TIMEBASE_TC5_BEGIN);
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ptc5->COUNT16.CTRLA.bit.ENABLE = 0;
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while (ptc5->COUNT16.SYNCBUSY.bit.ENABLE) { DBGC(DC_CLK_ENABLE_TIMEBASE_TC5_SYNC_DISABLE); }
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ptc5->COUNT16.CTRLA.bit.SWRST = 1;
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while (ptc5->COUNT16.SYNCBUSY.bit.SWRST) { DBGC(DC_CLK_ENABLE_TIMEBASE_TC5_SYNC_SWRST_1); }
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while (ptc5->COUNT16.CTRLA.bit.SWRST) { DBGC(DC_CLK_ENABLE_TIMEBASE_TC5_SYNC_SWRST_2); }
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//CTRLA defaults
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//CTRLB as default, counting up
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ptc5->COUNT16.CTRLBCLR.reg = 5;
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while (ptc5->COUNT16.SYNCBUSY.bit.CTRLB) { DBGC(DC_CLK_ENABLE_TIMEBASE_TC5_SYNC_CLTRB); }
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//ptc5->COUNT16.DBGCTRL.bit.DBGRUN = 1;
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//wave mode
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ptc5->COUNT16.WAVE.bit.WAVEGEN = 1; //MFRQ match frequency mode, toggle each CC match
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//generate event for next stage
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ptc5->COUNT16.EVCTRL.bit.MCEO0 = 1;
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NVIC_EnableIRQ(TC5_IRQn);
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ptc5->COUNT16.INTENSET.bit.MC0 = 1;
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DBGC(DC_CLK_ENABLE_TIMEBASE_TC5_COMPLETE);
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//unmask TC0,1, sourcegclk2 to TC0,1
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//unmask TC0,1, sourcegclk2 to TC0,1
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pmclk->APBAMASK.bit.TC0_ = 1;
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pmclk->APBAMASK.bit.TC0_ = 1;
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pgclk->PCHCTRL[TC0_GCLK_ID].bit.GEN = GEN_TC45;
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pgclk->PCHCTRL[TC0_GCLK_ID].bit.GEN = GEN_TC45;
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return 0;
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return 0;
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}
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}
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uint32_t CLK_get_ms(void)
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void CLK_delay_us(uint32_t usec)
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{
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{
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return ms_clk;
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asm (
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}
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"CBZ R0, return\n\t" //If usec == 0, branch to return label
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);
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void CLK_delay_us(uint16_t usec)
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asm (
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{
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"MULS R0, %0\n\t" //Multiply R0(usec) by usec_delay_mult and store in R0
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us_delay_done = 0;
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".balign 16\n\t" //Ensure loop is aligned for fastest performance
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"loop: SUBS R0, #1\n\t" //Subtract 1 from R0 and update flags (1 cycle)
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if (TC5->COUNT16.CTRLA.bit.ENABLE)
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"BNE loop\n\t" //Branch if non-zero to loop label (2 cycles) NOTE: USEC_DELAY_LOOP_CYCLES is the sum of loop cycles
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{
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"return:\n\t" //Return label
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TC5->COUNT16.CTRLA.bit.ENABLE = 0;
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: //No output registers
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while (TC5->COUNT16.SYNCBUSY.bit.ENABLE) {}
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: "r" (usec_delay_mult) //For %0
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}
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);
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//Note: BX LR generated
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if (usec < 10) usec = 0;
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else usec -= 10;
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TC5->COUNT16.CC[0].reg = usec;
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while (TC5->COUNT16.SYNCBUSY.bit.CC0) {}
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TC5->COUNT16.CTRLA.bit.ENABLE = 1;
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while (TC5->COUNT16.SYNCBUSY.bit.ENABLE) {}
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while (!us_delay_done) {}
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}
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}
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void CLK_delay_ms(uint64_t msec)
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void CLK_delay_ms(uint64_t msec)
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{
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{
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msec += CLK_get_ms();
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msec += timer_read64();
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while (msec > CLK_get_ms()) {}
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while (msec > timer_read64()) {}
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}
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}
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void clk_enable_sercom_apbmask(int sercomn)
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void clk_enable_sercom_apbmask(int sercomn)
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void CLK_reset_time(void);
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void CLK_reset_time(void);
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uint32_t CLK_set_gclk_freq(uint8_t gclkn, uint32_t freq);
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uint32_t CLK_set_gclk_freq(uint8_t gclkn, uint32_t freq);
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uint32_t CLK_enable_timebase(void);
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uint32_t CLK_enable_timebase(void);
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uint32_t CLK_get_ms(void);
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uint64_t timer_read64(void);
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uint64_t CLK_get_us(void);
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void CLK_delay_us(uint32_t usec);
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void CLK_delay_us(uint16_t usec);
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void CLK_delay_ms(uint64_t msec);
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void CLK_delay_ms(uint64_t msec);
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uint32_t CLK_set_spi_freq(uint8_t sercomn, uint32_t freq);
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uint32_t CLK_set_spi_freq(uint8_t sercomn, uint32_t freq);
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//USB state machine will enable driver when communication is ready
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//USB state machine will enable driver when communication is ready
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I2C3733_Control_Set(0);
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I2C3733_Control_Set(0);
|
||||||
|
|
||||||
CLK_delay_ms(1);
|
wait_ms(1);
|
||||||
|
|
||||||
sr_exp_data.bit.IRST = 0;
|
sr_exp_data.bit.IRST = 0;
|
||||||
SR_EXP_WriteData();
|
SR_EXP_WriteData();
|
||||||
|
|
||||||
CLK_delay_ms(1);
|
wait_ms(1);
|
||||||
|
|
||||||
DBGC(DC_I2C3733_INIT_CONTROL_COMPLETE);
|
DBGC(DC_I2C3733_INIT_CONTROL_COMPLETE);
|
||||||
|
|
||||||
|
|
|
@ -494,11 +494,11 @@ void led_matrix_task(void)
|
||||||
if (led_enabled)
|
if (led_enabled)
|
||||||
{
|
{
|
||||||
//If an update may run and frame processing has completed
|
//If an update may run and frame processing has completed
|
||||||
if (CLK_get_ms() >= led_next_run && led_cur == lede)
|
if (timer_read64() >= led_next_run && led_cur == lede)
|
||||||
{
|
{
|
||||||
uint8_t drvid;
|
uint8_t drvid;
|
||||||
|
|
||||||
led_next_run = CLK_get_ms() + LED_UPDATE_RATE; //Set next frame update time
|
led_next_run = timer_read64() + LED_UPDATE_RATE; //Set next frame update time
|
||||||
|
|
||||||
//NOTE: GCR does not need to be timed with LED processing, but there is really no harm
|
//NOTE: GCR does not need to be timed with LED processing, but there is really no harm
|
||||||
if (gcr_actual != gcr_actual_last)
|
if (gcr_actual != gcr_actual_last)
|
||||||
|
|
|
@ -159,7 +159,7 @@ void send_consumer(uint16_t data)
|
||||||
|
|
||||||
void main_subtask_usb_state(void)
|
void main_subtask_usb_state(void)
|
||||||
{
|
{
|
||||||
static uint32_t fsmstate_on_delay = 0; //Delay timer to be sure USB is actually operating before bringing up hardware
|
static uint64_t fsmstate_on_delay = 0; //Delay timer to be sure USB is actually operating before bringing up hardware
|
||||||
uint8_t fsmstate_now = USB->DEVICE.FSMSTATUS.reg; //Current state from hardware register
|
uint8_t fsmstate_now = USB->DEVICE.FSMSTATUS.reg; //Current state from hardware register
|
||||||
|
|
||||||
if (fsmstate_now == USB_FSMSTATUS_FSMSTATE_SUSPEND_Val) //If USB SUSPENDED
|
if (fsmstate_now == USB_FSMSTATUS_FSMSTATE_SUSPEND_Val) //If USB SUSPENDED
|
||||||
|
@ -188,9 +188,9 @@ void main_subtask_usb_state(void)
|
||||||
{
|
{
|
||||||
if (fsmstate_on_delay == 0) //If ON delay timer is cleared
|
if (fsmstate_on_delay == 0) //If ON delay timer is cleared
|
||||||
{
|
{
|
||||||
fsmstate_on_delay = CLK_get_ms() + 250; //Set ON delay timer
|
fsmstate_on_delay = timer_read64() + 250; //Set ON delay timer
|
||||||
}
|
}
|
||||||
else if (CLK_get_ms() > fsmstate_on_delay) //Else if ON delay timer is active and timed out
|
else if (timer_read64() > fsmstate_on_delay) //Else if ON delay timer is active and timed out
|
||||||
{
|
{
|
||||||
suspend_wakeup_init(); //Run wakeup routine
|
suspend_wakeup_init(); //Run wakeup routine
|
||||||
g_usb_state = fsmstate_now; //Save current USB state
|
g_usb_state = fsmstate_now; //Save current USB state
|
||||||
|
@ -214,9 +214,9 @@ void main_subtask_power_check(void)
|
||||||
{
|
{
|
||||||
static uint64_t next_5v_checkup = 0;
|
static uint64_t next_5v_checkup = 0;
|
||||||
|
|
||||||
if (CLK_get_ms() > next_5v_checkup)
|
if (timer_read64() > next_5v_checkup)
|
||||||
{
|
{
|
||||||
next_5v_checkup = CLK_get_ms() + 5;
|
next_5v_checkup = timer_read64() + 5;
|
||||||
|
|
||||||
v_5v = adc_get(ADC_5V);
|
v_5v = adc_get(ADC_5V);
|
||||||
v_5v_avg = 0.9 * v_5v_avg + 0.1 * v_5v;
|
v_5v_avg = 0.9 * v_5v_avg + 0.1 * v_5v;
|
||||||
|
@ -229,9 +229,9 @@ void main_subtask_usb_extra_device(void)
|
||||||
{
|
{
|
||||||
static uint64_t next_usb_checkup = 0;
|
static uint64_t next_usb_checkup = 0;
|
||||||
|
|
||||||
if (CLK_get_ms() > next_usb_checkup)
|
if (timer_read64() > next_usb_checkup)
|
||||||
{
|
{
|
||||||
next_usb_checkup = CLK_get_ms() + 10;
|
next_usb_checkup = timer_read64() + 10;
|
||||||
|
|
||||||
USB_HandleExtraDevice();
|
USB_HandleExtraDevice();
|
||||||
}
|
}
|
||||||
|
@ -325,9 +325,9 @@ int main(void)
|
||||||
keyboard_task();
|
keyboard_task();
|
||||||
|
|
||||||
#ifdef CONSOLE_ENABLE
|
#ifdef CONSOLE_ENABLE
|
||||||
if (CLK_get_ms() > next_print)
|
if (timer_read64() > next_print)
|
||||||
{
|
{
|
||||||
next_print = CLK_get_ms() + 250;
|
next_print = timer_read64() + 250;
|
||||||
//Add any debug information here that you want to see very often
|
//Add any debug information here that you want to see very often
|
||||||
//dprintf("5v=%u 5vu=%u dlow=%u dhi=%u gca=%u gcd=%u\r\n", v_5v, v_5v_avg, v_5v_avg - V5_LOW, v_5v_avg - V5_HIGH, gcr_actual, gcr_desired);
|
//dprintf("5v=%u 5vu=%u dlow=%u dhi=%u gca=%u gcd=%u\r\n", v_5v, v_5v_avg, v_5v_avg - V5_LOW, v_5v_avg - V5_HIGH, gcr_actual, gcr_desired);
|
||||||
}
|
}
|
||||||
|
|
|
@ -1227,9 +1227,9 @@ uint32_t cdc_tx_send_time_next;
|
||||||
|
|
||||||
void CDC_send(void)
|
void CDC_send(void)
|
||||||
{
|
{
|
||||||
while (CLK_get_ms() < cdc_tx_send_time_next);
|
while (timer_read64() < cdc_tx_send_time_next);
|
||||||
udi_cdc_tx_send(0);
|
udi_cdc_tx_send(0);
|
||||||
cdc_tx_send_time_next = CLK_get_ms() + CDC_SEND_INTERVAL;
|
cdc_tx_send_time_next = timer_read64() + CDC_SEND_INTERVAL;
|
||||||
}
|
}
|
||||||
|
|
||||||
uint32_t CDC_print(char *printbuf)
|
uint32_t CDC_print(char *printbuf)
|
||||||
|
@ -1238,7 +1238,7 @@ uint32_t CDC_print(char *printbuf)
|
||||||
char *buf = printbuf;
|
char *buf = printbuf;
|
||||||
char c;
|
char c;
|
||||||
|
|
||||||
if (CLK_get_ms() < 5000) return 0;
|
if (timer_read64() < 5000) return 0;
|
||||||
|
|
||||||
while ((c = *buf++) != 0 && !(count >= MAX_PRINT))
|
while ((c = *buf++) != 0 && !(count >= MAX_PRINT))
|
||||||
{
|
{
|
||||||
|
@ -1339,7 +1339,7 @@ void CDC_init(void)
|
||||||
inbuf.count = 0;
|
inbuf.count = 0;
|
||||||
inbuf.lastcount = 0;
|
inbuf.lastcount = 0;
|
||||||
printbuf[0] = 0;
|
printbuf[0] = 0;
|
||||||
cdc_tx_send_time_next = CLK_get_ms() + CDC_SEND_INTERVAL;
|
cdc_tx_send_time_next = timer_read64() + CDC_SEND_INTERVAL;
|
||||||
}
|
}
|
||||||
|
|
||||||
#else //CDC line 62
|
#else //CDC line 62
|
||||||
|
|
|
@ -64,7 +64,7 @@ void USB_write2422_block(void)
|
||||||
i2c0_transmit(USB2422_ADDR, dest, 34, 50000);
|
i2c0_transmit(USB2422_ADDR, dest, 34, 50000);
|
||||||
SERCOM0->I2CM.CTRLB.bit.CMD = 0x03;
|
SERCOM0->I2CM.CTRLB.bit.CMD = 0x03;
|
||||||
while (SERCOM0->I2CM.SYNCBUSY.bit.SYSOP) { DBGC(DC_USB_WRITE2422_BLOCK_SYNC_SYSOP); }
|
while (SERCOM0->I2CM.SYNCBUSY.bit.SYSOP) { DBGC(DC_USB_WRITE2422_BLOCK_SYNC_SYSOP); }
|
||||||
CLK_delay_us(100);
|
wait_us(100);
|
||||||
}
|
}
|
||||||
|
|
||||||
DBGC(DC_USB_WRITE2422_BLOCK_COMPLETE);
|
DBGC(DC_USB_WRITE2422_BLOCK_COMPLETE);
|
||||||
|
@ -135,7 +135,7 @@ void USB2422_init(void)
|
||||||
sr_exp_data.bit.HUB_RESET_N = 1; //reset high
|
sr_exp_data.bit.HUB_RESET_N = 1; //reset high
|
||||||
SR_EXP_WriteData();
|
SR_EXP_WriteData();
|
||||||
|
|
||||||
CLK_delay_us(100);
|
wait_us(100);
|
||||||
|
|
||||||
#ifndef MD_BOOTLOADER
|
#ifndef MD_BOOTLOADER
|
||||||
|
|
||||||
|
@ -154,10 +154,9 @@ void USB_reset(void)
|
||||||
//pulse reset for at least 1 usec
|
//pulse reset for at least 1 usec
|
||||||
sr_exp_data.bit.HUB_RESET_N = 0; //reset low
|
sr_exp_data.bit.HUB_RESET_N = 0; //reset low
|
||||||
SR_EXP_WriteData();
|
SR_EXP_WriteData();
|
||||||
CLK_delay_us(1);
|
wait_us(2);
|
||||||
sr_exp_data.bit.HUB_RESET_N = 1; //reset high to run
|
sr_exp_data.bit.HUB_RESET_N = 1; //reset high to run
|
||||||
SR_EXP_WriteData();
|
SR_EXP_WriteData();
|
||||||
CLK_delay_us(1);
|
|
||||||
|
|
||||||
DBGC(DC_USB_RESET_COMPLETE);
|
DBGC(DC_USB_RESET_COMPLETE);
|
||||||
}
|
}
|
||||||
|
@ -247,7 +246,7 @@ void USB_set_host_by_voltage(void)
|
||||||
|
|
||||||
SR_EXP_WriteData();
|
SR_EXP_WriteData();
|
||||||
|
|
||||||
CLK_delay_ms(250);
|
wait_ms(250);
|
||||||
|
|
||||||
while ((v_5v = adc_get(ADC_5V)) < ADC_5V_START_LEVEL) { DBGC(DC_USB_SET_HOST_5V_LOW_WAITING); }
|
while ((v_5v = adc_get(ADC_5V)) < ADC_5V_START_LEVEL) { DBGC(DC_USB_SET_HOST_5V_LOW_WAITING); }
|
||||||
|
|
||||||
|
@ -313,11 +312,11 @@ uint8_t USB2422_Port_Detect_Init(void)
|
||||||
|
|
||||||
USB_set_host_by_voltage();
|
USB_set_host_by_voltage();
|
||||||
|
|
||||||
port_detect_retry_ms = CLK_get_ms() + PORT_DETECT_RETRY_INTERVAL;
|
port_detect_retry_ms = timer_read64() + PORT_DETECT_RETRY_INTERVAL;
|
||||||
|
|
||||||
while (!USB_active())
|
while (!USB_active())
|
||||||
{
|
{
|
||||||
tmod = CLK_get_ms() % PORT_DETECT_RETRY_INTERVAL;
|
tmod = timer_read64() % PORT_DETECT_RETRY_INTERVAL;
|
||||||
|
|
||||||
if (v_con_1 > v_con_2) //Values updated from USB_set_host_by_voltage();
|
if (v_con_1 > v_con_2) //Values updated from USB_set_host_by_voltage();
|
||||||
{
|
{
|
||||||
|
@ -333,7 +332,7 @@ uint8_t USB2422_Port_Detect_Init(void)
|
||||||
else { DBG_LED_OFF; }
|
else { DBG_LED_OFF; }
|
||||||
}
|
}
|
||||||
|
|
||||||
if (CLK_get_ms() > port_detect_retry_ms)
|
if (timer_read64() > port_detect_retry_ms)
|
||||||
{
|
{
|
||||||
DBGC(DC_PORT_DETECT_INIT_FAILED);
|
DBGC(DC_PORT_DETECT_INIT_FAILED);
|
||||||
return 0;
|
return 0;
|
||||||
|
|
Loading…
Reference in a new issue