ardupilot/Tools/Linux_HAL_Essentials/pru/aiopru/RcAioPRU.p

386 lines
12 KiB
OpenEdge ABL

// 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 3 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/>.
// RC AllInOnePRU
//
// 1 channel RCInput with 5ns accuracy
// 12 channel RCOutput with 1us accuracy
// Timer
#define TICK_PER_US 200
#define TICK_PER_MS 200000
// PWM
// 920 us
#define PWM_PULSE_DEFAULT (920 * TICK_PER_US)
// 50 Hz
#define PWM_FREQ_DEFAULT (20 * TICK_PER_MS)
// Ringbuffer size
#define RCIN_RINGBUFFERSIZE 300
// PRU Constants Table
#define ECAP C3
#define RAM C24
#define IEP C26
// IEP
#define IEP_TMR_GLB_CFG 0x0
#define IEP_TMR_GLB_STS 0x4
#define IEP_TMR_CNT 0xc
#define IEP_CNT_ENABLE 0x0
#define IEP_DEFAULT_INC 0x4
// ECAP
#define ECAP_TSCTR 0x0
#define ECAP_CTRPHS 0x4
#define ECAP_CAP1 0x8
#define ECAP_CAP2 0xc
#define ECAP_CAP3 0x10
#define ECAP_CAP4 0x14
#define ECAP_ECCTL1 0x28
#define ECAP_ECCTL2 0x2a
#define ECAP_ECEINT 0x2c
#define ECAP_ECFLG 0x2e
#define ECAP_ECCLR 0x30
#define ECAP_ECFRC 0x32
#define ECAP_REVID 0x5c
// ECCTL1
#define ECAP_CAP1POL 0
#define ECAP_CTRRST1 1
#define ECAP_CAP2POL 2
#define ECAP_CTRRST2 3
#define ECAP_CAP3POL 4
#define ECAP_CTRRST3 5
#define ECAP_CAP4POL 6
#define ECAP_CTRRST4 7
#define ECAP_CAPLDEN 8
#define ECAP_PRESCALE 9
#define ECAP_FREE_SOFT 14
// ECCTL2
#define ECAP_CONT_ONESHT 0
#define ECAP_STOP_WRAP 1
#define ECAP_RE_ARM 3
#define ECAP_TSCTRSTOP 4
#define ECAP_SYNCI_EN 5
#define ECAP_SYNCO_SEL 6
#define ECAP_SWSYNC 8
#define ECAP_CAP_APWM 9
#define ECAP_APWMPOL 10
// ECEINT, ECFLG
#define ECAP_INT 0
#define ECAP_CEVT1 1
#define ECAP_CEVT2 2
#define ECAP_CEVT3 3
#define ECAP_CEVT4 4
#define ECAP_CNTOVF 5
#define ECAP_PRDEQ 6
#define ECAP_CMPEQ 7
// RAM
#define CH_ENABLE_RAM_OFFSET (0 * 4)
#define CH_1_PULSE_TIME_RAM_OFFSET (1 * 4)
#define CH_1_T_TIME_RAM_OFFSET (2 * 4)
#define CH_2_PULSE_TIME_RAM_OFFSET (3 * 4)
#define CH_2_T_TIME_RAM_OFFSET (4 * 4)
#define CH_3_PULSE_TIME_RAM_OFFSET (5 * 4)
#define CH_3_T_TIME_RAM_OFFSET (6 * 4)
#define CH_4_PULSE_TIME_RAM_OFFSET (7 * 4)
#define CH_4_T_TIME_RAM_OFFSET (8 * 4)
#define CH_5_PULSE_TIME_RAM_OFFSET (9 * 4)
#define CH_5_T_TIME_RAM_OFFSET (10 * 4)
#define CH_6_PULSE_TIME_RAM_OFFSET (11 * 4)
#define CH_6_T_TIME_RAM_OFFSET (12 * 4)
#define CH_7_PULSE_TIME_RAM_OFFSET (13 * 4)
#define CH_7_T_TIME_RAM_OFFSET (14 * 4)
#define CH_8_PULSE_TIME_RAM_OFFSET (15 * 4)
#define CH_8_T_TIME_RAM_OFFSET (16 * 4)
#define CH_9_PULSE_TIME_RAM_OFFSET (17 * 4)
#define CH_9_T_TIME_RAM_OFFSET (18 * 4)
#define CH_10_PULSE_TIME_RAM_OFFSET (19 * 4)
#define CH_10_T_TIME_RAM_OFFSET (20 * 4)
#define CH_11_PULSE_TIME_RAM_OFFSET (21 * 4)
#define CH_11_T_TIME_RAM_OFFSET (22 * 4)
#define CH_12_PULSE_TIME_RAM_OFFSET (23 * 4)
#define CH_12_T_TIME_RAM_OFFSET (24 * 4)
#define MAX_CYCLE_TIME_OFFSET (25 * 4)
#define RCIN_RING_HEAD_OFFSET 0x1000
#define RCIN_RING_TAIL_OFFSET 0x1002
#define RCIN_RINGBUFFER_RAM_OFFSET 0x1004
// RCOut pins
#define RC_CH_1_PIN r30.t10
#define RC_CH_2_PIN r30.t8
#define RC_CH_3_PIN r30.t11
#define RC_CH_4_PIN r30.t9
#define RC_CH_5_PIN r30.t7
#define RC_CH_6_PIN r30.t6
#define RC_CH_7_PIN r30.t5
#define RC_CH_8_PIN r30.t4
#define RC_CH_9_PIN r30.t3
#define RC_CH_10_PIN r30.t2
#define RC_CH_11_PIN r30.t1
#define RC_CH_12_PIN r30.t0
// RCOut enable bits
#define RC_CH_1_ENABLE register.ch_enable.t0
#define RC_CH_2_ENABLE register.ch_enable.t1
#define RC_CH_3_ENABLE register.ch_enable.t2
#define RC_CH_4_ENABLE register.ch_enable.t3
#define RC_CH_5_ENABLE register.ch_enable.t4
#define RC_CH_6_ENABLE register.ch_enable.t5
#define RC_CH_7_ENABLE register.ch_enable.t6
#define RC_CH_8_ENABLE register.ch_enable.t7
#define RC_CH_9_ENABLE register.ch_enable.t8
#define RC_CH_10_ENABLE register.ch_enable.t9
#define RC_CH_11_ENABLE register.ch_enable.t10
#define RC_CH_12_ENABLE register.ch_enable.t11
// Register struct
.struct RegisterStruct
.u32 ch_enable
.u32 ch_1_next_time
.u32 ch_2_next_time
.u32 ch_3_next_time
.u32 ch_4_next_time
.u32 ch_5_next_time
.u32 ch_6_next_time
.u32 ch_7_next_time
.u32 ch_8_next_time
.u32 ch_9_next_time
.u32 ch_10_next_time
.u32 ch_11_next_time
.u32 ch_12_next_time
.u32 time
.u32 time_max
.u32 time_cycle
.u32 rcin_ram_pointer
.u32 rcin_ram_pointer_index
.u32 rcin_ram_pointer_index_max
.u32 rcin_ram_pointer_head
.u32 rcin_ram_pointer_tail
.u32 temp
.u32 temp1
.u32 test
.ends
.assign RegisterStruct, R4, *, register
.macro RCOUT_PWM
.mparam RC_CH_X_PIN, CH_X_NEXT_TIME, CH_X_ENABLE, CH_X_PULSE_TIME_RAM_OFFSET, CH_X_T_TIME_RAM_OFFSET
pwm:
// Handle arithmetic and counter overflow, check if there is something to do
sub register.temp, CH_X_NEXT_TIME, register.time
mov register.temp1, 0xF0000000
qbgt pwmend, register.temp, register.temp1
mov CH_X_NEXT_TIME, register.time
// Set pin or clear pin?
qbbs pwmclear, RC_CH_X_PIN
// Load pulse duration
lbco register.temp, RAM, CH_X_PULSE_TIME_RAM_OFFSET, 4
// Calculate time to next event
add CH_X_NEXT_TIME, CH_X_NEXT_TIME, register.temp
// Check if channel is enabled
qbbc pwmend, CH_X_ENABLE
// Set pin
set RC_CH_X_PIN
jmp pwmend
pwmclear:
// Load pulse time
lbco register.temp1, RAM, CH_X_PULSE_TIME_RAM_OFFSET, 4
// Load T time
lbco register.temp, RAM, CH_X_T_TIME_RAM_OFFSET, 4
// Calculate time to next event (T - pulse duration)
sub register.temp, register.temp, register.temp1
add CH_X_NEXT_TIME, CH_X_NEXT_TIME, register.temp
// Clear pin
clr RC_CH_X_PIN
pwmend:
.endm
.macro RCIN_ECAP_INIT
// Initialize ECAP
mov register.temp, (1 << ECAP_CTRRST1) | (1 << ECAP_CAP1POL) | (1 << ECAP_CTRRST2) | (1 << ECAP_CAPLDEN)
sbco register.temp, ECAP, ECAP_ECCTL1, 4
mov register.temp, (1 << ECAP_STOP_WRAP) | (1 << ECAP_TSCTRSTOP) | (2 << ECAP_SYNCO_SEL)
sbco register.temp, ECAP, ECAP_ECCTL2, 4
.endm
.macro RCIN_ECAP
// New value?
lbco register.temp, ECAP, ECAP_ECFLG, 4
qbbc rcin_ecap_end, register.temp.t2
// Copy S0 and S1 duration to temp and temp1
lbco register.temp, ECAP, ECAP_CAP1, 8
// Copy S0 and S1 duration to RAM
sbbo register.temp, register.rcin_ram_pointer, 0, 8
// Clear event flags
mov register.temp, (1 << ECAP_CEVT1) | (1 << ECAP_CEVT2)
sbco register.temp, ECAP, ECAP_ECCLR, 4
// Set new tail value
RCIN_WRITE_TAIL register.rcin_ram_pointer_index
// Update pointer
add register.rcin_ram_pointer_index, register.rcin_ram_pointer_index, 1
add register.rcin_ram_pointer, register.rcin_ram_pointer, 8
// Check end of ringbuffer
qblt rcin_ecap_end, register.rcin_ram_pointer_index_max, register.rcin_ram_pointer_index
mov register.rcin_ram_pointer, RCIN_RINGBUFFER_RAM_OFFSET
mov register.rcin_ram_pointer_index, 0
rcin_ecap_end:
.endm
.macro RCIN_WRITE_HEAD
.mparam RCIN_HEAD
sbbo RCIN_HEAD, register.rcin_ram_pointer_head, 0, 2
.endm
.macro RCIN_WRITE_TAIL
.mparam RCIN_TAIL
sbbo RCIN_TAIL, register.rcin_ram_pointer_tail, 0, 2
.endm
.macro MAX_CYCLE_TIME
lbco register.temp1, IEP, IEP_TMR_CNT, 4
sub register.temp, register.temp1, register.time_cycle
mov register.time_cycle, register.temp1
max register.time_max, register.time_max, register.temp
sbco register.time_max, RAM, MAX_CYCLE_TIME_OFFSET, 4
.endm
.macro INIT
// Reset PWM pins
mov r30, 0x0
// Clear register
zero &register, SIZE(register)
// Initialize max cycle time
mov register.temp, 0
sbco register.temp, RAM, MAX_CYCLE_TIME_OFFSET, 4
// Initialize ringbuffer
mov register.rcin_ram_pointer, RCIN_RINGBUFFER_RAM_OFFSET
mov register.rcin_ram_pointer_index_max, RCIN_RINGBUFFERSIZE
mov register.rcin_ram_pointer_head, RCIN_RING_HEAD_OFFSET
mov register.rcin_ram_pointer_tail, RCIN_RING_TAIL_OFFSET
mov register.temp, 0
RCIN_WRITE_HEAD register.temp
RCIN_WRITE_TAIL register.temp
// Load balancing
mov register.ch_1_next_time, 1000
mov register.ch_2_next_time, 2000
mov register.ch_3_next_time, 3000
mov register.ch_4_next_time, 4000
mov register.ch_5_next_time, 5000
mov register.ch_6_next_time, 6000
mov register.ch_7_next_time, 7000
mov register.ch_8_next_time, 8000
mov register.ch_9_next_time, 9000
mov register.ch_10_next_time, 10000
mov register.ch_11_next_time, 11000
mov register.ch_12_next_time, 12000
// Disable all PWMs
mov register.ch_enable, 0x0
sbco register.ch_enable, RAM, CH_ENABLE_RAM_OFFSET, 4
// Initialize PWM pulse (920us)
mov register.temp, PWM_PULSE_DEFAULT
sbco register.temp, RAM, CH_1_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_2_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_3_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_4_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_5_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_6_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_7_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_8_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_9_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_10_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_11_PULSE_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_12_PULSE_TIME_RAM_OFFSET, 4
// Initialize PWM frequency (50Hz)
mov register.temp, PWM_FREQ_DEFAULT
sbco register.temp, RAM, CH_1_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_2_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_3_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_4_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_5_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_6_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_7_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_8_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_9_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_10_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_11_T_TIME_RAM_OFFSET, 4
sbco register.temp, RAM, CH_12_T_TIME_RAM_OFFSET, 4
// Initialize counter (1 step = 5ns)
mov register.temp, 1 << IEP_DEFAULT_INC
sbco register.temp, IEP, IEP_TMR_GLB_CFG, 4
// Reset counter
mov register.temp, 0xffffffff
sbco register.temp, IEP, IEP_TMR_CNT, 4
// Start counter
lbco register.temp, IEP, IEP_TMR_GLB_CFG, 4
or register.temp, register.temp, 1 << IEP_CNT_ENABLE
sbco register.temp, IEP, IEP_TMR_GLB_CFG, 4
.endm
.origin 0
init:
INIT
RCIN_ECAP_INIT
mainloop:
lbco register.ch_enable, RAM, CH_ENABLE_RAM_OFFSET, 4
lbco register.time, IEP, IEP_TMR_CNT, 4
RCOUT_PWM RC_CH_1_PIN, register.ch_1_next_time, RC_CH_1_ENABLE, CH_1_PULSE_TIME_RAM_OFFSET, CH_1_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_2_PIN, register.ch_2_next_time, RC_CH_2_ENABLE, CH_2_PULSE_TIME_RAM_OFFSET, CH_2_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_3_PIN, register.ch_3_next_time, RC_CH_3_ENABLE, CH_3_PULSE_TIME_RAM_OFFSET, CH_3_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_4_PIN, register.ch_4_next_time, RC_CH_4_ENABLE, CH_4_PULSE_TIME_RAM_OFFSET, CH_4_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_5_PIN, register.ch_5_next_time, RC_CH_5_ENABLE, CH_5_PULSE_TIME_RAM_OFFSET, CH_5_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_6_PIN, register.ch_6_next_time, RC_CH_6_ENABLE, CH_6_PULSE_TIME_RAM_OFFSET, CH_6_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_7_PIN, register.ch_7_next_time, RC_CH_7_ENABLE, CH_7_PULSE_TIME_RAM_OFFSET, CH_7_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_8_PIN, register.ch_8_next_time, RC_CH_8_ENABLE, CH_8_PULSE_TIME_RAM_OFFSET, CH_8_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_9_PIN, register.ch_9_next_time, RC_CH_9_ENABLE, CH_9_PULSE_TIME_RAM_OFFSET, CH_9_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_10_PIN, register.ch_10_next_time, RC_CH_10_ENABLE, CH_10_PULSE_TIME_RAM_OFFSET, CH_10_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_11_PIN, register.ch_11_next_time, RC_CH_11_ENABLE, CH_11_PULSE_TIME_RAM_OFFSET, CH_11_T_TIME_RAM_OFFSET
RCOUT_PWM RC_CH_12_PIN, register.ch_12_next_time, RC_CH_12_ENABLE, CH_12_PULSE_TIME_RAM_OFFSET, CH_12_T_TIME_RAM_OFFSET
RCIN_ECAP
// MAX_CYCLE_TIME
jmp mainloop