/** * Copyright (c) 2020 Raspberry Pi (Trading) Ltd. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include "pico/stdlib.h" #include "pico/test.h" #include "pico/time.h" #include "hardware/irq.h" #include "hardware/resets.h" #include "hardware/pwm.h" PICOTEST_MODULE_NAME("PWM", "PWM SDK Test harness"); /* In a struct for future expansion of the interrupt testv */ struct interrupt_state { int count; } interrupt_states[NUM_PWM_SLICES] = {0}; void on_pwm_wrap() { for (int pwm = 0; pwm < NUM_PWM_SLICES; pwm++) { // See if this pwm, is the one that fired. if (pwm_get_irq_status_mask() & (1 << pwm)) { // Clear the interrupt flag that brought us here pwm_clear_irq(pwm); interrupt_states[pwm].count++; } } } int main() { reset_block(RESETS_RESET_PWM_BITS); unreset_block_wait(RESETS_RESET_PWM_BITS); setup_default_uart(); PICOTEST_START(); pwm_config config = pwm_get_default_config(); // Test that config sets works on all PWMs by comparing what we pass in // via the API with what the registers contains afterwards pwm_config_set_phase_correct(&config, true); pwm_config_set_clkdiv(&config, 42.5); pwm_config_set_clkdiv_mode(&config, PWM_DIV_B_HIGH); pwm_config_set_output_polarity(&config, false, true); pwm_config_set_wrap(&config, 0x1234); PICOTEST_START_SECTION("PWM config init tests"); for (int pwm = 0; pwm < NUM_PWM_SLICES; pwm++) { pwm_slice_hw_t *slice = &pwm_hw->slice[pwm]; pwm_init(pwm, &config, false); uint div = (uint)(42.5f * (float)(1 << PWM_CH0_DIV_INT_LSB)); PICOTEST_CHECK_CHANNEL(pwm, slice->top == config.top, "HW top does not match requested config"); //PICOTEST_CHECK_CHANNEL(pwm, slice->ctr == 0x1234, "HW counter does not match config"); PICOTEST_CHECK_CHANNEL(pwm, slice->cc == PWM_CH0_CC_RESET, "HW compares does not match config"); PICOTEST_CHECK_CHANNEL(pwm, slice->div == div, "HW divider does not match config"); PICOTEST_CHECK_CHANNEL(pwm, slice->csr == (1 << PWM_CH0_CSR_PH_CORRECT_LSB | 0 << PWM_CH0_CSR_A_INV_LSB | 1 << PWM_CH0_CSR_B_INV_LSB | PWM_CH0_CSR_DIVMODE_VALUE_LEVEL << PWM_CH0_CSR_DIVMODE_LSB), "HW CSR does not match config"); } PICOTEST_END_SECTION(); // Need to test the SDK APIs do the right thing PICOTEST_START_SECTION("PWM SDK API tests"); for (int pwm = 0; pwm < NUM_PWM_SLICES; pwm++) { pwm_slice_hw_t *slice = &pwm_hw->slice[pwm]; int v = 100 + pwm * 10; pwm_set_wrap(pwm, v); PICOTEST_CHECK_CHANNEL(pwm, slice->top == v, "pwm_set_wrap() failed to set register"); pwm_set_both_levels(pwm, v + 1, v); PICOTEST_CHECK_CHANNEL(pwm, slice->cc == (((v) << PWM_CH0_CC_B_LSB) | ((v + 1) << PWM_CH0_CC_A_LSB)), "pwm_set_both_levels() failed to set register"); float divider = 100.5; int i = (int16_t) divider; int f = (int8_t) ((divider - i) * 16); pwm_set_clkdiv(pwm, divider); PICOTEST_CHECK_CHANNEL(pwm, slice->div == (i << 4 | f), "pwm_set_clkdiv() failed to set register"); i++; pwm_set_clkdiv_int_frac(pwm, i, f); PICOTEST_CHECK_CHANNEL(pwm, slice->div == (i << 4 | f), "pwm_set_clkdiv_int_frac() failed to set register"); int c = 1234; pwm_set_counter(pwm, c); PICOTEST_CHECK_CHANNEL(pwm, slice->ctr == c, "pwm_set_counter() failed to set register"); int cc = pwm_get_counter(pwm); PICOTEST_CHECK_CHANNEL(pwm, slice->ctr == cc && cc == c, "pwm_get_counter() failed to get register"); pwm_set_output_polarity(pwm, false, false); PICOTEST_CHECK_CHANNEL(pwm, !(slice->csr & PWM_CH0_CSR_A_INV_BITS) && !(slice->csr & PWM_CH0_CSR_B_INV_BITS), "pwm_set_output_polarity() (F/F)"); pwm_set_output_polarity(pwm, true, false); PICOTEST_CHECK_CHANNEL(pwm, (slice->csr & PWM_CH0_CSR_A_INV_BITS) && !(slice->csr & PWM_CH0_CSR_B_INV_BITS), "pwm_set_output_polarity() (T/F)"); pwm_set_output_polarity(pwm, false, true); PICOTEST_CHECK_CHANNEL(pwm, !(slice->csr & PWM_CH0_CSR_A_INV_BITS) && (slice->csr & PWM_CH0_CSR_B_INV_BITS), "pwm_set_output_polarity() (F/T)"); pwm_set_output_polarity(pwm, true, true); PICOTEST_CHECK_CHANNEL(pwm, (slice->csr & PWM_CH0_CSR_A_INV_BITS) && (slice->csr & PWM_CH0_CSR_B_INV_BITS), "pwm_set_output_polarity() (T/T)"); pwm_set_phase_correct(pwm, true); PICOTEST_CHECK_CHANNEL(pwm, (slice->csr & PWM_CH0_CSR_PH_CORRECT_BITS), "pwm_set_phase_correct(T)"); pwm_set_phase_correct(pwm, false); PICOTEST_CHECK_CHANNEL(pwm, !(slice->csr & PWM_CH0_CSR_PH_CORRECT_BITS), "pwm_set_phase_correct(F)"); for (int m = PWM_DIV_FREE_RUNNING; m <= PWM_DIV_B_FALLING; m++) { pwm_set_clkdiv_mode(pwm, m); PICOTEST_CHECK_CHANNEL(pwm, ((slice->csr & PWM_CH0_CSR_DIVMODE_BITS) >> PWM_CH0_CSR_DIVMODE_LSB) == m, "pwm_set_clkdiv_mode"); } } PICOTEST_END_SECTION(); PICOTEST_START_SECTION("PWM IRQ tests"); irq_set_exclusive_handler(PWM_IRQ_WRAP, on_pwm_wrap); irq_set_enabled(PWM_IRQ_WRAP, true); config = pwm_get_default_config(); // Slow down the interrupt rate a load, don't need it high. // This give about 40 per second on Picoboard pwm_config_set_clkdiv(&config, 50); for (int pwm = 0; pwm < NUM_PWM_SLICES; pwm++) { pwm_init(pwm, &config, false); pwm_clear_irq(pwm); pwm_set_irq_enabled(pwm, true); } // Now enable all the PWM at the same time. pwm_set_mask_enabled(0xff); sleep_ms(1000); int err = 0; for (int p = 0; p < NUM_PWM_SLICES; p++) { PICOTEST_CHECK_CHANNEL(p, interrupt_states[p].count != 0, "No interrupts detected from PWM %d\n"); } PICOTEST_END_SECTION(); PICOTEST_END_TEST(); }