src/rp2_common/hardware_pio/pio.c - third_party/github/raspberrypi/pico-sdk - Git at Google

 /*
  * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #include "hardware/claim.h"
 #include "hardware/pio.h"
 #include "hardware/pio_instructions.h"

 // sanity check
 check_hw_layout(pio_hw_t, sm[0].clkdiv, PIO_SM0_CLKDIV_OFFSET);
 check_hw_layout(pio_hw_t, sm[1].clkdiv, PIO_SM1_CLKDIV_OFFSET);
 check_hw_layout(pio_hw_t, instr_mem[0], PIO_INSTR_MEM0_OFFSET);
 check_hw_layout(pio_hw_t, inte0, PIO_IRQ0_INTE_OFFSET);
 check_hw_layout(pio_hw_t, txf[1], PIO_TXF1_OFFSET);
 check_hw_layout(pio_hw_t, rxf[3], PIO_RXF3_OFFSET);
 check_hw_layout(pio_hw_t, ints1, PIO_IRQ1_INTS_OFFSET);

 static_assert(NUM_PIO_STATE_MACHINES * NUM_PIOS <= 8, "");
 static uint8_t claimed;

 void pio_sm_claim(PIO pio, uint sm) {
     check_sm_param(sm);
     uint which = pio_get_index(pio);
     if (which) {
         hw_claim_or_assert(&claimed, NUM_PIO_STATE_MACHINES + sm, "PIO 1 SM (%d - 4) already claimed");
     } else {
         hw_claim_or_assert(&claimed, sm, "PIO 0 SM %d already claimed");
     }
 }

 void pio_claim_sm_mask(PIO pio, uint sm_mask) {
     for(uint i = 0; sm_mask; i++, sm_mask >>= 1u) {
         if (sm_mask & 1u) pio_sm_claim(pio, i);
     }
 }

 void pio_sm_unclaim(PIO pio, uint sm) {
     check_sm_param(sm);
     uint which = pio_get_index(pio);
     hw_claim_clear(&claimed, which * NUM_PIO_STATE_MACHINES + sm);
 }

 int pio_claim_unused_sm(PIO pio, bool required) {
     // PIO index is 0 or 1.
     uint which = pio_get_index(pio);
     uint base = which * NUM_PIO_STATE_MACHINES;
     int index = hw_claim_unused_from_range((uint8_t*)&claimed, required, base,
                                       base + NUM_PIO_STATE_MACHINES - 1, "No PIO state machines are available");
     return index >= (int)base ? index - (int)base : -1;
 }

 bool pio_sm_is_claimed(PIO pio, uint sm) {
     check_sm_param(sm);
     uint which = pio_get_index(pio);
     return hw_is_claimed(&claimed, which * NUM_PIO_STATE_MACHINES + sm);
 }

 static_assert(PIO_INSTRUCTION_COUNT <= 32, "");
 static uint32_t _used_instruction_space[2];

 static int _pio_find_offset_for_program(PIO pio, const pio_program_t *program) {
     assert(program->length <= PIO_INSTRUCTION_COUNT);
     uint32_t used_mask = _used_instruction_space[pio_get_index(pio)];
     uint32_t program_mask = (1u << program->length) - 1;
     if (program->origin >= 0) {
         if (program->origin > 32 - program->length) return -1;
         return used_mask & (program_mask << program->origin) ? -1 : program->origin;
     } else {
         // work down from the top always
         for (int i = 32 - program->length; i >= 0; i--) {
             if (!(used_mask & (program_mask << (uint) i))) {
                 return i;
             }
         }
         return -1;
     }
 }

 bool pio_can_add_program(PIO pio, const pio_program_t *program) {
     uint32_t save = hw_claim_lock();
     bool rc =  -1 != _pio_find_offset_for_program(pio, program);
     hw_claim_unlock(save);
     return rc;
 }

 static bool _pio_can_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
     valid_params_if(PIO, offset < PIO_INSTRUCTION_COUNT);
     valid_params_if(PIO, offset + program->length <= PIO_INSTRUCTION_COUNT);
     if (program->origin >= 0 && (uint)program->origin != offset) return false;
     uint32_t used_mask = _used_instruction_space[pio_get_index(pio)];
     uint32_t program_mask = (1u << program->length) - 1;
     return !(used_mask & (program_mask << offset));
 }

 bool pio_can_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
     uint32_t save = hw_claim_lock();
     bool rc = _pio_can_add_program_at_offset(pio, program, offset);
     hw_claim_unlock(save);
     return rc;
 }

 static void _pio_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
     if (!_pio_can_add_program_at_offset(pio, program, offset)) {
         panic("No program space");
     }
     for (uint i = 0; i < program->length; ++i) {
         uint16_t instr = program->instructions[i];
         pio->instr_mem[offset + i] = pio_instr_bits_jmp != _pio_major_instr_bits(instr) ? instr : instr + offset;
     }
     uint32_t program_mask = (1u << program->length) - 1;
     _used_instruction_space[pio_get_index(pio)] |= program_mask << offset;
 }

 // these assert if unable
 uint pio_add_program(PIO pio, const pio_program_t *program) {
     uint32_t save = hw_claim_lock();
     int offset = _pio_find_offset_for_program(pio, program);
     if (offset < 0) {
         panic("No program space");
     }
     _pio_add_program_at_offset(pio, program, (uint)offset);
     hw_claim_unlock(save);
     return (uint)offset;
 }

 void pio_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
     uint32_t save = hw_claim_lock();
     _pio_add_program_at_offset(pio, program, offset);
     hw_claim_unlock(save);
 }

 void pio_remove_program(PIO pio, const pio_program_t *program, uint loaded_offset) {
     uint32_t program_mask = (1u << program->length) - 1;
     program_mask <<= loaded_offset;
     uint32_t save = hw_claim_lock();
     assert(program_mask == (_used_instruction_space[pio_get_index(pio)] & program_mask));
     _used_instruction_space[pio_get_index(pio)] &= ~program_mask;
     hw_claim_unlock(save);
 }

 void pio_clear_instruction_memory(PIO pio) {
     uint32_t save = hw_claim_lock();
     _used_instruction_space[pio_get_index(pio)] = 0;
     for(uint i=0;i<PIO_INSTRUCTION_COUNT;i++) {
         pio->instr_mem[i] = pio_encode_jmp(i);
     }
     hw_claim_unlock(save);
 }

 // Set the value of all PIO pins. This is done by forcibly executing
 // instructions on a "victim" state machine, sm. Ideally you should choose one
 // which is not currently running a program. This is intended for one-time
 // setup of initial pin states.
 void pio_sm_set_pins(PIO pio, uint sm, uint32_t pins) {
     check_pio_param(pio);
     check_sm_param(sm);
     uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
     uint remaining = 32;
     uint base = 0;
     while (remaining) {
         uint decrement = remaining > 5 ? 5 : remaining;
         pio->sm[sm].pinctrl =
                 (decrement << PIO_SM0_PINCTRL_SET_COUNT_LSB) |
                 (base << PIO_SM0_PINCTRL_SET_BASE_LSB);
         pio_sm_exec(pio, sm, pio_encode_set(pio_pins, pins & 0x1fu));
         remaining -= decrement;
         base += decrement;
         pins >>= 5;
     }
     pio->sm[sm].pinctrl = pinctrl_saved;
 }

 void pio_sm_set_pins_with_mask(PIO pio, uint sm, uint32_t pinvals, uint32_t pin_mask) {
     check_pio_param(pio);
     check_sm_param(sm);
     uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
     while (pin_mask) {
         uint base = (uint)__builtin_ctz(pin_mask);
         pio->sm[sm].pinctrl =
                 (1u << PIO_SM0_PINCTRL_SET_COUNT_LSB) |
                 (base << PIO_SM0_PINCTRL_SET_BASE_LSB);
         pio_sm_exec(pio, sm, pio_encode_set(pio_pins, (pinvals >> base) & 0x1u));
         pin_mask &= pin_mask - 1;
     }
     pio->sm[sm].pinctrl = pinctrl_saved;
 }

 void pio_sm_set_pindirs_with_mask(PIO pio, uint sm, uint32_t pindirs, uint32_t pin_mask) {
     check_pio_param(pio);
     check_sm_param(sm);
     uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
     while (pin_mask) {
         uint base = (uint)__builtin_ctz(pin_mask);
         pio->sm[sm].pinctrl =
                 (1u << PIO_SM0_PINCTRL_SET_COUNT_LSB) |
                 (base << PIO_SM0_PINCTRL_SET_BASE_LSB);
         pio_sm_exec(pio, sm, pio_encode_set(pio_pindirs, (pindirs >> base) & 0x1u));
         pin_mask &= pin_mask - 1;
     }
     pio->sm[sm].pinctrl = pinctrl_saved;
 }

 void pio_sm_set_consecutive_pindirs(PIO pio, uint sm, uint pin, uint count, bool is_out) {
     check_pio_param(pio);
     check_sm_param(sm);
     valid_params_if(PIO, pin < 32u);
     uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
     uint pindir_val = is_out ? 0x1f : 0;
     while (count > 5) {
         pio->sm[sm].pinctrl = (5u << PIO_SM0_PINCTRL_SET_COUNT_LSB) | (pin << PIO_SM0_PINCTRL_SET_BASE_LSB);
         pio_sm_exec(pio, sm, pio_encode_set(pio_pindirs, pindir_val));
         count -= 5;
         pin = (pin + 5) & 0x1f;
     }
     pio->sm[sm].pinctrl = (count << PIO_SM0_PINCTRL_SET_COUNT_LSB) | (pin << PIO_SM0_PINCTRL_SET_BASE_LSB);
     pio_sm_exec(pio, sm, pio_encode_set(pio_pindirs, pindir_val));
     pio->sm[sm].pinctrl = pinctrl_saved;
 }

 void pio_sm_init(PIO pio, uint sm, uint initial_pc, const pio_sm_config *config) {
     valid_params_if(PIO, initial_pc < PIO_INSTRUCTION_COUNT);
     // Halt the machine, set some sensible defaults
     pio_sm_set_enabled(pio, sm, false);

     if (config) {
         pio_sm_set_config(pio, sm, config);
     } else {
         pio_sm_config c = pio_get_default_sm_config();
         pio_sm_set_config(pio, sm, &c);
     }

     pio_sm_clear_fifos(pio, sm);

     // Clear FIFO debug flags
     const uint32_t fdebug_sm_mask =
             (1u << PIO_FDEBUG_TXOVER_LSB) |
             (1u << PIO_FDEBUG_RXUNDER_LSB) |
             (1u << PIO_FDEBUG_TXSTALL_LSB) |
             (1u << PIO_FDEBUG_RXSTALL_LSB);
     pio->fdebug = fdebug_sm_mask << sm;

     // Finally, clear some internal SM state
     pio_sm_restart(pio, sm);
     pio_sm_clkdiv_restart(pio, sm);
     pio_sm_exec(pio, sm, pio_encode_jmp(initial_pc));
 }

 void pio_sm_drain_tx_fifo(PIO pio, uint sm) {
     uint instr = (pio->sm[sm].shiftctrl & PIO_SM0_SHIFTCTRL_AUTOPULL_BITS) ? pio_encode_out(pio_null, 32) :
                  pio_encode_pull(false, false);
     while (!pio_sm_is_tx_fifo_empty(pio, sm)) {
         pio_sm_exec(pio, sm, instr);
     }
 }
	/*
	* Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#include "hardware/claim.h"
	#include "hardware/pio.h"
	#include "hardware/pio_instructions.h"

	// sanity check
	check_hw_layout(pio_hw_t, sm[0].clkdiv, PIO_SM0_CLKDIV_OFFSET);
	check_hw_layout(pio_hw_t, sm[1].clkdiv, PIO_SM1_CLKDIV_OFFSET);
	check_hw_layout(pio_hw_t, instr_mem[0], PIO_INSTR_MEM0_OFFSET);
	check_hw_layout(pio_hw_t, inte0, PIO_IRQ0_INTE_OFFSET);
	check_hw_layout(pio_hw_t, txf[1], PIO_TXF1_OFFSET);
	check_hw_layout(pio_hw_t, rxf[3], PIO_RXF3_OFFSET);
	check_hw_layout(pio_hw_t, ints1, PIO_IRQ1_INTS_OFFSET);

	static_assert(NUM_PIO_STATE_MACHINES * NUM_PIOS <= 8, "");
	static uint8_t claimed;

	void pio_sm_claim(PIO pio, uint sm) {
	check_sm_param(sm);
	uint which = pio_get_index(pio);
	if (which) {
	hw_claim_or_assert(&claimed, NUM_PIO_STATE_MACHINES + sm, "PIO 1 SM (%d - 4) already claimed");
	} else {
	hw_claim_or_assert(&claimed, sm, "PIO 0 SM %d already claimed");
	}
	}

	void pio_claim_sm_mask(PIO pio, uint sm_mask) {
	for(uint i = 0; sm_mask; i++, sm_mask >>= 1u) {
	if (sm_mask & 1u) pio_sm_claim(pio, i);
	}
	}

	void pio_sm_unclaim(PIO pio, uint sm) {
	check_sm_param(sm);
	uint which = pio_get_index(pio);
	hw_claim_clear(&claimed, which * NUM_PIO_STATE_MACHINES + sm);
	}

	int pio_claim_unused_sm(PIO pio, bool required) {
	// PIO index is 0 or 1.
	uint which = pio_get_index(pio);
	uint base = which * NUM_PIO_STATE_MACHINES;
	int index = hw_claim_unused_from_range((uint8_t*)&claimed, required, base,
	base + NUM_PIO_STATE_MACHINES - 1, "No PIO state machines are available");
	return index >= (int)base ? index - (int)base : -1;
	}

	bool pio_sm_is_claimed(PIO pio, uint sm) {
	check_sm_param(sm);
	uint which = pio_get_index(pio);
	return hw_is_claimed(&claimed, which * NUM_PIO_STATE_MACHINES + sm);
	}

	static_assert(PIO_INSTRUCTION_COUNT <= 32, "");
	static uint32_t _used_instruction_space[2];

	static int _pio_find_offset_for_program(PIO pio, const pio_program_t *program) {
	assert(program->length <= PIO_INSTRUCTION_COUNT);
	uint32_t used_mask = _used_instruction_space[pio_get_index(pio)];
	uint32_t program_mask = (1u << program->length) - 1;
	if (program->origin >= 0) {
	if (program->origin > 32 - program->length) return -1;
	return used_mask & (program_mask << program->origin) ? -1 : program->origin;
	} else {
	// work down from the top always
	for (int i = 32 - program->length; i >= 0; i--) {
	if (!(used_mask & (program_mask << (uint) i))) {
	return i;
	}
	}
	return -1;
	}
	}

	bool pio_can_add_program(PIO pio, const pio_program_t *program) {
	uint32_t save = hw_claim_lock();
	bool rc = -1 != _pio_find_offset_for_program(pio, program);
	hw_claim_unlock(save);
	return rc;
	}

	static bool _pio_can_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
	valid_params_if(PIO, offset < PIO_INSTRUCTION_COUNT);
	valid_params_if(PIO, offset + program->length <= PIO_INSTRUCTION_COUNT);
	if (program->origin >= 0 && (uint)program->origin != offset) return false;
	uint32_t used_mask = _used_instruction_space[pio_get_index(pio)];
	uint32_t program_mask = (1u << program->length) - 1;
	return !(used_mask & (program_mask << offset));
	}

	bool pio_can_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
	uint32_t save = hw_claim_lock();
	bool rc = _pio_can_add_program_at_offset(pio, program, offset);
	hw_claim_unlock(save);
	return rc;
	}

	static void _pio_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
	if (!_pio_can_add_program_at_offset(pio, program, offset)) {
	panic("No program space");
	}
	for (uint i = 0; i < program->length; ++i) {
	uint16_t instr = program->instructions[i];
	pio->instr_mem[offset + i] = pio_instr_bits_jmp != _pio_major_instr_bits(instr) ? instr : instr + offset;
	}
	uint32_t program_mask = (1u << program->length) - 1;
	_used_instruction_space[pio_get_index(pio)] \|= program_mask << offset;
	}

	// these assert if unable
	uint pio_add_program(PIO pio, const pio_program_t *program) {
	uint32_t save = hw_claim_lock();
	int offset = _pio_find_offset_for_program(pio, program);
	if (offset < 0) {
	panic("No program space");
	}
	_pio_add_program_at_offset(pio, program, (uint)offset);
	hw_claim_unlock(save);
	return (uint)offset;
	}

	void pio_add_program_at_offset(PIO pio, const pio_program_t *program, uint offset) {
	uint32_t save = hw_claim_lock();
	_pio_add_program_at_offset(pio, program, offset);
	hw_claim_unlock(save);
	}

	void pio_remove_program(PIO pio, const pio_program_t *program, uint loaded_offset) {
	uint32_t program_mask = (1u << program->length) - 1;
	program_mask <<= loaded_offset;
	uint32_t save = hw_claim_lock();
	assert(program_mask == (_used_instruction_space[pio_get_index(pio)] & program_mask));
	_used_instruction_space[pio_get_index(pio)] &= ~program_mask;
	hw_claim_unlock(save);
	}

	void pio_clear_instruction_memory(PIO pio) {
	uint32_t save = hw_claim_lock();
	_used_instruction_space[pio_get_index(pio)] = 0;
	for(uint i=0;i<PIO_INSTRUCTION_COUNT;i++) {
	pio->instr_mem[i] = pio_encode_jmp(i);
	}
	hw_claim_unlock(save);
	}

	// Set the value of all PIO pins. This is done by forcibly executing
	// instructions on a "victim" state machine, sm. Ideally you should choose one
	// which is not currently running a program. This is intended for one-time
	// setup of initial pin states.
	void pio_sm_set_pins(PIO pio, uint sm, uint32_t pins) {
	check_pio_param(pio);
	check_sm_param(sm);
	uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
	uint remaining = 32;
	uint base = 0;
	while (remaining) {
	uint decrement = remaining > 5 ? 5 : remaining;
	pio->sm[sm].pinctrl =
	(decrement << PIO_SM0_PINCTRL_SET_COUNT_LSB) \|
	(base << PIO_SM0_PINCTRL_SET_BASE_LSB);
	pio_sm_exec(pio, sm, pio_encode_set(pio_pins, pins & 0x1fu));
	remaining -= decrement;
	base += decrement;
	pins >>= 5;
	}
	pio->sm[sm].pinctrl = pinctrl_saved;
	}

	void pio_sm_set_pins_with_mask(PIO pio, uint sm, uint32_t pinvals, uint32_t pin_mask) {
	check_pio_param(pio);
	check_sm_param(sm);
	uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
	while (pin_mask) {
	uint base = (uint)__builtin_ctz(pin_mask);
	pio->sm[sm].pinctrl =
	(1u << PIO_SM0_PINCTRL_SET_COUNT_LSB) \|
	(base << PIO_SM0_PINCTRL_SET_BASE_LSB);
	pio_sm_exec(pio, sm, pio_encode_set(pio_pins, (pinvals >> base) & 0x1u));
	pin_mask &= pin_mask - 1;
	}
	pio->sm[sm].pinctrl = pinctrl_saved;
	}

	void pio_sm_set_pindirs_with_mask(PIO pio, uint sm, uint32_t pindirs, uint32_t pin_mask) {
	check_pio_param(pio);
	check_sm_param(sm);
	uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
	while (pin_mask) {
	uint base = (uint)__builtin_ctz(pin_mask);
	pio->sm[sm].pinctrl =
	(1u << PIO_SM0_PINCTRL_SET_COUNT_LSB) \|
	(base << PIO_SM0_PINCTRL_SET_BASE_LSB);
	pio_sm_exec(pio, sm, pio_encode_set(pio_pindirs, (pindirs >> base) & 0x1u));
	pin_mask &= pin_mask - 1;
	}
	pio->sm[sm].pinctrl = pinctrl_saved;
	}

	void pio_sm_set_consecutive_pindirs(PIO pio, uint sm, uint pin, uint count, bool is_out) {
	check_pio_param(pio);
	check_sm_param(sm);
	valid_params_if(PIO, pin < 32u);
	uint32_t pinctrl_saved = pio->sm[sm].pinctrl;
	uint pindir_val = is_out ? 0x1f : 0;
	while (count > 5) {
	pio->sm[sm].pinctrl = (5u << PIO_SM0_PINCTRL_SET_COUNT_LSB) \| (pin << PIO_SM0_PINCTRL_SET_BASE_LSB);
	pio_sm_exec(pio, sm, pio_encode_set(pio_pindirs, pindir_val));
	count -= 5;
	pin = (pin + 5) & 0x1f;
	}
	pio->sm[sm].pinctrl = (count << PIO_SM0_PINCTRL_SET_COUNT_LSB) \| (pin << PIO_SM0_PINCTRL_SET_BASE_LSB);
	pio_sm_exec(pio, sm, pio_encode_set(pio_pindirs, pindir_val));
	pio->sm[sm].pinctrl = pinctrl_saved;
	}

	void pio_sm_init(PIO pio, uint sm, uint initial_pc, const pio_sm_config *config) {
	valid_params_if(PIO, initial_pc < PIO_INSTRUCTION_COUNT);
	// Halt the machine, set some sensible defaults
	pio_sm_set_enabled(pio, sm, false);

	if (config) {
	pio_sm_set_config(pio, sm, config);
	} else {
	pio_sm_config c = pio_get_default_sm_config();
	pio_sm_set_config(pio, sm, &c);
	}

	pio_sm_clear_fifos(pio, sm);

	// Clear FIFO debug flags
	const uint32_t fdebug_sm_mask =
	(1u << PIO_FDEBUG_TXOVER_LSB) \|
	(1u << PIO_FDEBUG_RXUNDER_LSB) \|
	(1u << PIO_FDEBUG_TXSTALL_LSB) \|
	(1u << PIO_FDEBUG_RXSTALL_LSB);
	pio->fdebug = fdebug_sm_mask << sm;

	// Finally, clear some internal SM state
	pio_sm_restart(pio, sm);
	pio_sm_clkdiv_restart(pio, sm);
	pio_sm_exec(pio, sm, pio_encode_jmp(initial_pc));
	}

	void pio_sm_drain_tx_fifo(PIO pio, uint sm) {
	uint instr = (pio->sm[sm].shiftctrl & PIO_SM0_SHIFTCTRL_AUTOPULL_BITS) ? pio_encode_out(pio_null, 32) :
	pio_encode_pull(false, false);
	while (!pio_sm_is_tx_fifo_empty(pio, sm)) {
	pio_sm_exec(pio, sm, instr);
	}
	}