/****************************************************************************** * The MIT License * * Copyright (c) 2011, 2012 LeafLabs, LLC. * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, * modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. *****************************************************************************/ /** * @file libmaple/include/libmaple/timer.h * @author Marti Bolivar * @brief Timer interface. */ #ifndef _LIBMAPLE_TIMER_H_ #define _LIBMAPLE_TIMER_H_ #ifdef __cplusplus extern "C"{ #endif #include #include #include #include #include /* * Register maps */ /** Advanced control timer register map type */ typedef struct timer_adv_reg_map { __io uint32 CR1; /**< Control register 1 */ __io uint32 CR2; /**< Control register 2 */ __io uint32 SMCR; /**< Slave mode control register */ __io uint32 DIER; /**< DMA/interrupt enable register */ __io uint32 SR; /**< Status register */ __io uint32 EGR; /**< Event generation register */ __io uint32 CCMR1; /**< Capture/compare mode register 1 */ __io uint32 CCMR2; /**< Capture/compare mode register 2 */ __io uint32 CCER; /**< Capture/compare enable register */ __io uint32 CNT; /**< Counter */ __io uint32 PSC; /**< Prescaler */ __io uint32 ARR; /**< Auto-reload register */ __io uint32 RCR; /**< Repetition counter register */ __io uint32 CCR1; /**< Capture/compare register 1 */ __io uint32 CCR2; /**< Capture/compare register 2 */ __io uint32 CCR3; /**< Capture/compare register 3 */ __io uint32 CCR4; /**< Capture/compare register 4 */ __io uint32 BDTR; /**< Break and dead-time register */ __io uint32 DCR; /**< DMA control register */ __io uint32 DMAR; /**< DMA address for full transfer */ } timer_adv_reg_map; /* General purpose timer register map type: intentionally omitted. * * General purpose timers differ slightly across series, so leave it * up to the series header to define struct timer_gen_reg_map. */ /** Basic timer register map type */ typedef struct timer_bas_reg_map { __io uint32 CR1; /**< Control register 1 */ __io uint32 CR2; /**< Control register 2 */ const uint32 RESERVED1; /**< Reserved */ __io uint32 DIER; /**< DMA/interrupt enable register */ __io uint32 SR; /**< Status register */ __io uint32 EGR; /**< Event generation register */ const uint32 RESERVED2; /**< Reserved */ const uint32 RESERVED3; /**< Reserved */ const uint32 RESERVED4; /**< Reserved */ __io uint32 CNT; /**< Counter */ __io uint32 PSC; /**< Prescaler */ __io uint32 ARR; /**< Auto-reload register */ } timer_bas_reg_map; /* * Timer devices */ /** * @brief Timer register map type. * * Just holds a pointer to the correct type of register map, based on * the timer's type. */ typedef union timer_reg_map { timer_adv_reg_map *adv; /**< Advanced register map */ timer_gen_reg_map *gen; /**< General purpose register map */ timer_bas_reg_map *bas; /**< Basic register map */ } timer_reg_map; /** * @brief Timer type * * Type marker for timer_dev. * * @see timer_dev */ typedef enum timer_type { TIMER_ADVANCED, /**< Advanced type */ TIMER_GENERAL, /**< General purpose type */ TIMER_BASIC, /**< Basic type */ } timer_type; /** Timer device type */ typedef struct timer_dev { timer_reg_map regs; /**< Register map */ rcc_clk_id clk_id; /**< RCC clock information */ timer_type type; /**< Timer's type */ voidFuncPtr handlers[]; /**< * Don't touch these. Use these instead: * @see timer_attach_interrupt() * @see timer_detach_interrupt() */ } timer_dev; #if STM32_HAVE_TIMER(1) extern timer_dev *TIMER1; #endif #if STM32_HAVE_TIMER(2) extern timer_dev *TIMER2; #endif #if STM32_HAVE_TIMER(3) extern timer_dev *TIMER3; #endif #if STM32_HAVE_TIMER(4) extern timer_dev *TIMER4; #endif #if STM32_HAVE_TIMER(5) extern timer_dev *TIMER5; #endif #if STM32_HAVE_TIMER(6) extern timer_dev *TIMER6; #endif #if STM32_HAVE_TIMER(7) extern timer_dev *TIMER7; #endif #if STM32_HAVE_TIMER(8) extern timer_dev *TIMER8; #endif #if STM32_HAVE_TIMER(9) extern timer_dev *TIMER9; #endif #if STM32_HAVE_TIMER(10) extern timer_dev *TIMER10; #endif #if STM32_HAVE_TIMER(11) extern timer_dev *TIMER11; #endif #if STM32_HAVE_TIMER(12) extern timer_dev *TIMER12; #endif #if STM32_HAVE_TIMER(13) extern timer_dev *TIMER13; #endif #if STM32_HAVE_TIMER(14) extern timer_dev *TIMER14; #endif /* * Register bit definitions */ /* Control register 1 (CR1) */ #define TIMER_CR1_ARPE_BIT 7 #define TIMER_CR1_DIR_BIT 4 #define TIMER_CR1_OPM_BIT 3 #define TIMER_CR1_URS_BIT 2 #define TIMER_CR1_UDIS_BIT 1 #define TIMER_CR1_CEN_BIT 0 #define TIMER_CR1_CKD (0x3 << 8) #define TIMER_CR1_CKD_1TCKINT (0x0 << 8) #define TIMER_CR1_CKD_2TCKINT (0x1 << 8) #define TIMER_CR1_CKD_4TICKINT (0x2 << 8) #define TIMER_CR1_ARPE (1U << TIMER_CR1_ARPE_BIT) #define TIMER_CR1_CKD_CMS (0x3 << 5) #define TIMER_CR1_CKD_CMS_EDGE (0x0 << 5) #define TIMER_CR1_CKD_CMS_CENTER1 (0x1 << 5) #define TIMER_CR1_CKD_CMS_CENTER2 (0x2 << 5) #define TIMER_CR1_CKD_CMS_CENTER3 (0x3 << 5) #define TIMER_CR1_DIR (1U << TIMER_CR1_DIR_BIT) #define TIMER_CR1_OPM (1U << TIMER_CR1_OPM_BIT) #define TIMER_CR1_URS (1U << TIMER_CR1_URS_BIT) #define TIMER_CR1_UDIS (1U << TIMER_CR1_UDIS_BIT) #define TIMER_CR1_CEN (1U << TIMER_CR1_CEN_BIT) /* Control register 2 (CR2) */ #define TIMER_CR2_OIS4_BIT 14 #define TIMER_CR2_OIS3N_BIT 13 #define TIMER_CR2_OIS3_BIT 12 #define TIMER_CR2_OIS2N_BIT 11 #define TIMER_CR2_OIS2_BIT 10 #define TIMER_CR2_OIS1N_BIT 9 #define TIMER_CR2_OIS1_BIT 8 #define TIMER_CR2_TI1S_BIT 7 #define TIMER_CR2_CCDS_BIT 3 #define TIMER_CR2_CCUS_BIT 2 #define TIMER_CR2_CCPC_BIT 0 #define TIMER_CR2_OIS4 (1U << TIMER_CR2_OIS4_BIT) #define TIMER_CR2_OIS3N (1U << TIMER_CR2_OIS3N_BIT) #define TIMER_CR2_OIS3 (1U << TIMER_CR2_OIS3_BIT) #define TIMER_CR2_OIS2N (1U << TIMER_CR2_OIS2N_BIT) #define TIMER_CR2_OIS2 (1U << TIMER_CR2_OIS2_BIT) #define TIMER_CR2_OIS1N (1U << TIMER_CR2_OIS1N_BIT) #define TIMER_CR2_OIS1 (1U << TIMER_CR2_OIS1_BIT) #define TIMER_CR2_TI1S (1U << TIMER_CR2_TI1S_BIT) #define TIMER_CR2_MMS (0x7 << 4) #define TIMER_CR2_MMS_RESET (0x0 << 4) #define TIMER_CR2_MMS_ENABLE (0x1 << 4) #define TIMER_CR2_MMS_UPDATE (0x2 << 4) #define TIMER_CR2_MMS_COMPARE_PULSE (0x3 << 4) #define TIMER_CR2_MMS_COMPARE_OC1REF (0x4 << 4) #define TIMER_CR2_MMS_COMPARE_OC2REF (0x5 << 4) #define TIMER_CR2_MMS_COMPARE_OC3REF (0x6 << 4) #define TIMER_CR2_MMS_COMPARE_OC4REF (0x7 << 4) #define TIMER_CR2_CCDS (1U << TIMER_CR2_CCDS_BIT) #define TIMER_CR2_CCUS (1U << TIMER_CR2_CCUS_BIT) #define TIMER_CR2_CCPC (1U << TIMER_CR2_CCPC_BIT) /* Slave mode control register (SMCR) */ #define TIMER_SMCR_ETP_BIT 15 #define TIMER_SMCR_ECE_BIT 14 #define TIMER_SMCR_MSM_BIT 7 #define TIMER_SMCR_ETP (1U << TIMER_SMCR_ETP_BIT) #define TIMER_SMCR_ECE (1U << TIMER_SMCR_ECE_BIT) #define TIMER_SMCR_ETPS (0x3 << 12) #define TIMER_SMCR_ETPS_OFF (0x0 << 12) #define TIMER_SMCR_ETPS_DIV2 (0x1 << 12) #define TIMER_SMCR_ETPS_DIV4 (0x2 << 12) #define TIMER_SMCR_ETPS_DIV8 (0x3 << 12) #define TIMER_SMCR_ETF (0xF << 12) #define TIMER_SMCR_MSM (1U << TIMER_SMCR_MSM_BIT) #define TIMER_SMCR_TS (0x3 << 4) #define TIMER_SMCR_TS_ITR0 (0x0 << 4) #define TIMER_SMCR_TS_ITR1 (0x1 << 4) #define TIMER_SMCR_TS_ITR2 (0x2 << 4) #define TIMER_SMCR_TS_ITR3 (0x3 << 4) #define TIMER_SMCR_TS_TI1F_ED (0x4 << 4) #define TIMER_SMCR_TS_TI1FP1 (0x5 << 4) #define TIMER_SMCR_TS_TI2FP2 (0x6 << 4) #define TIMER_SMCR_TS_ETRF (0x7 << 4) #define TIMER_SMCR_SMS 0x3 #define TIMER_SMCR_SMS_DISABLED 0x0 #define TIMER_SMCR_SMS_ENCODER1 0x1 #define TIMER_SMCR_SMS_ENCODER2 0x2 #define TIMER_SMCR_SMS_ENCODER3 0x3 #define TIMER_SMCR_SMS_RESET 0x4 #define TIMER_SMCR_SMS_GATED 0x5 #define TIMER_SMCR_SMS_TRIGGER 0x6 #define TIMER_SMCR_SMS_EXTERNAL 0x7 /* DMA/Interrupt enable register (DIER) */ #define TIMER_DIER_TDE_BIT 14 #define TIMER_DIER_COMDE_BIT 13 #define TIMER_DIER_CC4DE_BIT 12 #define TIMER_DIER_CC3DE_BIT 11 #define TIMER_DIER_CC2DE_BIT 10 #define TIMER_DIER_CC1DE_BIT 9 #define TIMER_DIER_UDE_BIT 8 #define TIMER_DIER_BIE_BIT 7 #define TIMER_DIER_TIE_BIT 6 #define TIMER_DIER_COMIE_BIT 5 #define TIMER_DIER_CC4IE_BIT 4 #define TIMER_DIER_CC3IE_BIT 3 #define TIMER_DIER_CC2IE_BIT 2 #define TIMER_DIER_CC1IE_BIT 1 #define TIMER_DIER_UIE_BIT 0 #define TIMER_DIER_TDE (1U << TIMER_DIER_TDE_BIT) #define TIMER_DIER_COMDE (1U << TIMER_DIER_COMDE_BIT) #define TIMER_DIER_CC4DE (1U << TIMER_DIER_CC4DE_BIT) #define TIMER_DIER_CC3DE (1U << TIMER_DIER_CC3DE_BIT) #define TIMER_DIER_CC2DE (1U << TIMER_DIER_CC2DE_BIT) #define TIMER_DIER_CC1DE (1U << TIMER_DIER_CC1DE_BIT) #define TIMER_DIER_UDE (1U << TIMER_DIER_UDE_BIT) #define TIMER_DIER_BIE (1U << TIMER_DIER_BIE_BIT) #define TIMER_DIER_TIE (1U << TIMER_DIER_TIE_BIT) #define TIMER_DIER_COMIE (1U << TIMER_DIER_COMIE_BIT) #define TIMER_DIER_CC4IE (1U << TIMER_DIER_CC4IE_BIT) #define TIMER_DIER_CC3IE (1U << TIMER_DIER_CC3IE_BIT) #define TIMER_DIER_CC2IE (1U << TIMER_DIER_CC2IE_BIT) #define TIMER_DIER_CC1IE (1U << TIMER_DIER_CC1IE_BIT) #define TIMER_DIER_UIE (1U << TIMER_DIER_UIE_BIT) /* Status register (SR) */ #define TIMER_SR_CC4OF_BIT 12 #define TIMER_SR_CC3OF_BIT 11 #define TIMER_SR_CC2OF_BIT 10 #define TIMER_SR_CC1OF_BIT 9 #define TIMER_SR_BIF_BIT 7 #define TIMER_SR_TIF_BIT 6 #define TIMER_SR_COMIF_BIT 5 #define TIMER_SR_CC4IF_BIT 4 #define TIMER_SR_CC3IF_BIT 3 #define TIMER_SR_CC2IF_BIT 2 #define TIMER_SR_CC1IF_BIT 1 #define TIMER_SR_UIF_BIT 0 #define TIMER_SR_CC4OF (1U << TIMER_SR_CC4OF_BIT) #define TIMER_SR_CC3OF (1U << TIMER_SR_CC3OF_BIT) #define TIMER_SR_CC2OF (1U << TIMER_SR_CC2OF_BIT) #define TIMER_SR_CC1OF (1U << TIMER_SR_CC1OF_BIT) #define TIMER_SR_BIF (1U << TIMER_SR_BIF_BIT) #define TIMER_SR_TIF (1U << TIMER_SR_TIF_BIT) #define TIMER_SR_COMIF (1U << TIMER_SR_COMIF_BIT) #define TIMER_SR_CC4IF (1U << TIMER_SR_CC4IF_BIT) #define TIMER_SR_CC3IF (1U << TIMER_SR_CC3IF_BIT) #define TIMER_SR_CC2IF (1U << TIMER_SR_CC2IF_BIT) #define TIMER_SR_CC1IF (1U << TIMER_SR_CC1IF_BIT) #define TIMER_SR_UIF (1U << TIMER_SR_UIF_BIT) /* Event generation register (EGR) */ #define TIMER_EGR_BG_BIT 7 #define TIMER_EGR_TG_BIT 6 #define TIMER_EGR_COMG_BIT 5 #define TIMER_EGR_CC4G_BIT 4 #define TIMER_EGR_CC3G_BIT 3 #define TIMER_EGR_CC2G_BIT 2 #define TIMER_EGR_CC1G_BIT 1 #define TIMER_EGR_UG_BIT 0 #define TIMER_EGR_BG (1U << TIMER_EGR_BG_BIT) #define TIMER_EGR_TG (1U << TIMER_EGR_TG_BIT) #define TIMER_EGR_COMG (1U << TIMER_EGR_COMG_BIT) #define TIMER_EGR_CC4G (1U << TIMER_EGR_CC4G_BIT) #define TIMER_EGR_CC3G (1U << TIMER_EGR_CC3G_BIT) #define TIMER_EGR_CC2G (1U << TIMER_EGR_CC2G_BIT) #define TIMER_EGR_CC1G (1U << TIMER_EGR_CC1G_BIT) #define TIMER_EGR_UG (1U << TIMER_EGR_UG_BIT) /* Capture/compare mode registers, common values */ #define TIMER_CCMR_CCS_OUTPUT 0x0 #define TIMER_CCMR_CCS_INPUT_TI1 0x1 #define TIMER_CCMR_CCS_INPUT_TI2 0x2 #define TIMER_CCMR_CCS_INPUT_TRC 0x3 /* Capture/compare mode register 1 (CCMR1) */ #define TIMER_CCMR1_OC2CE_BIT 15 #define TIMER_CCMR1_OC2PE_BIT 11 #define TIMER_CCMR1_OC2FE_BIT 10 #define TIMER_CCMR1_OC1CE_BIT 7 #define TIMER_CCMR1_OC1PE_BIT 3 #define TIMER_CCMR1_OC1FE_BIT 2 #define TIMER_CCMR1_OC2CE (1U << TIMER_CCMR1_OC2CE_BIT) #define TIMER_CCMR1_OC2M (0x3 << 12) #define TIMER_CCMR1_IC2F (0xF << 12) #define TIMER_CCMR1_OC2PE (1U << TIMER_CCMR1_OC2PE_BIT) #define TIMER_CCMR1_OC2FE (1U << TIMER_CCMR1_OC2FE_BIT) #define TIMER_CCMR1_IC2PSC (0x3 << 10) #define TIMER_CCMR1_CC2S (0x3 << 8) #define TIMER_CCMR1_CC2S_OUTPUT (TIMER_CCMR_CCS_OUTPUT << 8) #define TIMER_CCMR1_CC2S_INPUT_TI1 (TIMER_CCMR_CCS_INPUT_TI1 << 8) #define TIMER_CCMR1_CC2S_INPUT_TI2 (TIMER_CCMR_CCS_INPUT_TI2 << 8) #define TIMER_CCMR1_CC2S_INPUT_TRC (TIMER_CCMR_CCS_INPUT_TRC << 8) #define TIMER_CCMR1_OC1CE (1U << TIMER_CCMR1_OC1CE_BIT) #define TIMER_CCMR1_OC1M (0x3 << 4) #define TIMER_CCMR1_IC1F (0xF << 4) #define TIMER_CCMR1_OC1PE (1U << TIMER_CCMR1_OC1PE_BIT) #define TIMER_CCMR1_OC1FE (1U << TIMER_CCMR1_OC1FE_BIT) #define TIMER_CCMR1_IC1PSC (0x3 << 2) #define TIMER_CCMR1_CC1S 0x3 #define TIMER_CCMR1_CC1S_OUTPUT TIMER_CCMR_CCS_OUTPUT #define TIMER_CCMR1_CC1S_INPUT_TI1 TIMER_CCMR_CCS_INPUT_TI1 #define TIMER_CCMR1_CC1S_INPUT_TI2 TIMER_CCMR_CCS_INPUT_TI2 #define TIMER_CCMR1_CC1S_INPUT_TRC TIMER_CCMR_CCS_INPUT_TRC /* Capture/compare mode register 2 (CCMR2) */ #define TIMER_CCMR2_OC4CE_BIT 15 #define TIMER_CCMR2_OC4PE_BIT 11 #define TIMER_CCMR2_OC4FE_BIT 10 #define TIMER_CCMR2_OC3CE_BIT 7 #define TIMER_CCMR2_OC3PE_BIT 3 #define TIMER_CCMR2_OC3FE_BIT 2 #define TIMER_CCMR2_OC4CE (1U << TIMER_CCMR2_OC4CE_BIT) #define TIMER_CCMR2_OC4M (0x3 << 12) #define TIMER_CCMR2_IC4F (0xF << 12) #define TIMER_CCMR2_OC4PE (1U << TIMER_CCMR2_OC4PE_BIT) #define TIMER_CCMR2_OC4FE (1U << TIMER_CCMR2_OC4FE_BIT) #define TIMER_CCMR2_IC4PSC (0x3 << 10) #define TIMER_CCMR2_CC4S (0x3 << 8) #define TIMER_CCMR2_CC4S_OUTPUT (TIMER_CCMR_CCS_OUTPUT << 8) #define TIMER_CCMR2_CC4S_INPUT_TI1 (TIMER_CCMR_CCS_INPUT_TI1 << 8) #define TIMER_CCMR2_CC4S_INPUT_TI2 (TIMER_CCMR_CCS_INPUT_TI2 << 8) #define TIMER_CCMR2_CC4S_INPUT_TRC (TIMER_CCMR_CCS_INPUT_TRC << 8) #define TIMER_CCMR2_OC3CE (1U << TIMER_CCMR2_OC3CE_BIT) #define TIMER_CCMR2_OC3M (0x3 << 4) #define TIMER_CCMR2_IC3F (0xF << 4) #define TIMER_CCMR2_OC3PE (1U << TIMER_CCMR2_OC3PE_BIT) #define TIMER_CCMR2_OC3FE (1U << TIMER_CCMR2_OC3FE_BIT) #define TIMER_CCMR2_IC3PSC (0x3 << 2) #define TIMER_CCMR2_CC3S 0x3 #define TIMER_CCMR2_CC3S_OUTPUT TIMER_CCMR_CCS_OUTPUT #define TIMER_CCMR2_CC3S_INPUT_TI1 TIMER_CCMR_CCS_INPUT_TI1 #define TIMER_CCMR2_CC3S_INPUT_TI2 TIMER_CCMR_CCS_INPUT_TI2 #define TIMER_CCMR2_CC3S_INPUT_TRC TIMER_CCMR_CCS_INPUT_TRC /* Capture/compare enable register (CCER) */ #define TIMER_CCER_CC4P_BIT 13 #define TIMER_CCER_CC4E_BIT 12 #define TIMER_CCER_CC3NP_BIT 11 #define TIMER_CCER_CC3NE_BIT 10 #define TIMER_CCER_CC3P_BIT 9 #define TIMER_CCER_CC3E_BIT 8 #define TIMER_CCER_CC2NP_BIT 7 #define TIMER_CCER_CC2NE_BIT 6 #define TIMER_CCER_CC2P_BIT 5 #define TIMER_CCER_CC2E_BIT 4 #define TIMER_CCER_CC1NP_BIT 3 #define TIMER_CCER_CC1NE_BIT 2 #define TIMER_CCER_CC1P_BIT 1 #define TIMER_CCER_CC1E_BIT 0 #define TIMER_CCER_CC4P (1U << TIMER_CCER_CC4P_BIT) #define TIMER_CCER_CC4E (1U << TIMER_CCER_CC4E_BIT) #define TIMER_CCER_CC3NP (1U << TIMER_CCER_CC3NP_BIT) #define TIMER_CCER_CC3NE (1U << TIMER_CCER_CC3NE_BIT) #define TIMER_CCER_CC3P (1U << TIMER_CCER_CC3P_BIT) #define TIMER_CCER_CC3E (1U << TIMER_CCER_CC3E_BIT) #define TIMER_CCER_CC2NP (1U << TIMER_CCER_CC2NP_BIT) #define TIMER_CCER_CC2NE (1U << TIMER_CCER_CC2NE_BIT) #define TIMER_CCER_CC2P (1U << TIMER_CCER_CC2P_BIT) #define TIMER_CCER_CC2E (1U << TIMER_CCER_CC2E_BIT) #define TIMER_CCER_CC1NP (1U << TIMER_CCER_CC1NP_BIT) #define TIMER_CCER_CC1NE (1U << TIMER_CCER_CC1NE_BIT) #define TIMER_CCER_CC1P (1U << TIMER_CCER_CC1P_BIT) #define TIMER_CCER_CC1E (1U << TIMER_CCER_CC1E_BIT) /* Break and dead-time register (BDTR) */ #define TIMER_BDTR_MOE_BIT 15 #define TIMER_BDTR_AOE_BIT 14 #define TIMER_BDTR_BKP_BIT 13 #define TIMER_BDTR_BKE_BIT 12 #define TIMER_BDTR_OSSR_BIT 11 #define TIMER_BDTR_OSSI_BIT 10 #define TIMER_BDTR_MOE (1U << TIMER_BDTR_MOE_BIT) #define TIMER_BDTR_AOE (1U << TIMER_BDTR_AOE_BIT) #define TIMER_BDTR_BKP (1U << TIMER_BDTR_BKP_BIT) #define TIMER_BDTR_BKE (1U << TIMER_BDTR_BKE_BIT) #define TIMER_BDTR_OSSR (1U << TIMER_BDTR_OSSR_BIT) #define TIMER_BDTR_OSSI (1U << TIMER_BDTR_OSSI_BIT) #define TIMER_BDTR_LOCK (0x3 << 8) #define TIMER_BDTR_LOCK_OFF (0x0 << 8) #define TIMER_BDTR_LOCK_LEVEL1 (0x1 << 8) #define TIMER_BDTR_LOCK_LEVEL2 (0x2 << 8) #define TIMER_BDTR_LOCK_LEVEL3 (0x3 << 8) #define TIMER_BDTR_DTG 0xFF /* DMA control register (DCR) */ #define TIMER_DCR_DBL (0x1F << 8) #define TIMER_DCR_DBL_1_XFER (0x0 << 8) #define TIMER_DCR_DBL_2_XFER (0x1 << 8) #define TIMER_DCR_DBL_3_XFER (0x2 << 8) #define TIMER_DCR_DBL_4_XFER (0x3 << 8) #define TIMER_DCR_DBL_5_XFER (0x4 << 8) #define TIMER_DCR_DBL_6_XFER (0x5 << 8) #define TIMER_DCR_DBL_7_XFER (0x6 << 8) #define TIMER_DCR_DBL_8_XFER (0x7 << 8) #define TIMER_DCR_DBL_9_XFER (0x8 << 8) #define TIMER_DCR_DBL_10_XFER (0x9 << 8) #define TIMER_DCR_DBL_11_XFER (0xA << 8) #define TIMER_DCR_DBL_12_XFER (0xB << 8) #define TIMER_DCR_DBL_13_XFER (0xC << 8) #define TIMER_DCR_DBL_14_XFER (0xD << 8) #define TIMER_DCR_DBL_15_XFER (0xE << 8) #define TIMER_DCR_DBL_16_XFER (0xF << 8) #define TIMER_DCR_DBL_17_XFER (0x10 << 8) #define TIMER_DCR_DBL_18_XFER (0x11 << 8) #define TIMER_DCR_DBA 0x1F #define TIMER_DCR_DBA_CR1 0x0 #define TIMER_DCR_DBA_CR2 0x1 #define TIMER_DCR_DBA_SMCR 0x2 #define TIMER_DCR_DBA_DIER 0x3 #define TIMER_DCR_DBA_SR 0x4 #define TIMER_DCR_DBA_EGR 0x5 #define TIMER_DCR_DBA_CCMR1 0x6 #define TIMER_DCR_DBA_CCMR2 0x7 #define TIMER_DCR_DBA_CCER 0x8 #define TIMER_DCR_DBA_CNT 0x9 #define TIMER_DCR_DBA_PSC 0xA #define TIMER_DCR_DBA_ARR 0xB #define TIMER_DCR_DBA_RCR 0xC #define TIMER_DCR_DBA_CCR1 0xD #define TIMER_DCR_DBA_CCR2 0xE #define TIMER_DCR_DBA_CCR3 0xF #define TIMER_DCR_DBA_CCR4 0x10 #define TIMER_DCR_DBA_BDTR 0x11 #define TIMER_DCR_DBA_DCR 0x12 #define TIMER_DCR_DBA_DMAR 0x13 /* * Convenience routines */ /** * @brief Used to configure the behavior of a timer channel. * * Be careful: not all timers can be configured in every mode. */ typedef enum timer_mode { /** * The timer stops counting, channel interrupts are detached, and * no state changes are output. */ TIMER_DISABLED, /** PWM output. */ TIMER_PWM, /* TIMER_PWM_CENTER_ALIGNED, TODO: Center-aligned PWM output mode. */ /** * The timer counts from 0 to its reload value repeatedly; every * time the counter value reaches one of the channel compare * values, the corresponding interrupt is fired. */ TIMER_OUTPUT_COMPARE, /* TIMER_INPUT_CAPTURE, TODO: In this mode, the timer can measure the * pulse lengths of input signals */ /* TIMER_ONE_PULSE, TODO: In this mode, the timer can generate a single * pulse on a GPIO pin for a specified amount of * time. */ } timer_mode; /** Timer channel numbers */ typedef enum timer_channel { TIMER_CH1 = 1, /**< Channel 1 */ TIMER_CH2 = 2, /**< Channel 2 */ TIMER_CH3 = 3, /**< Channel 3 */ TIMER_CH4 = 4 /**< Channel 4 */ } timer_channel; /* * Note: Don't require timer_channel arguments! We want to be able to say * * for (int channel = 1; channel <= 4; channel++) { * ... * } * * without the compiler yelling at us. */ void timer_init(timer_dev *dev); void timer_disable(timer_dev *dev); void timer_set_mode(timer_dev *dev, uint8 channel, timer_mode mode); void timer_foreach(void (*fn)(timer_dev*)); int timer_has_cc_channel(timer_dev *dev, uint8 channel); /** * @brief Timer interrupt number. * * Not all timers support all of these values. All timers support * TIMER_UPDATE_INTERRUPT. "General purpose" timers can be a special * nuisance in this regard, as they individually support different * subsets of the available interupts. Consult your target's reference * manual for the details. */ typedef enum timer_interrupt_id { TIMER_UPDATE_INTERRUPT, /**< Update interrupt. */ TIMER_CC1_INTERRUPT, /**< Capture/compare 1 interrupt. */ TIMER_CC2_INTERRUPT, /**< Capture/compare 2 interrupt. */ TIMER_CC3_INTERRUPT, /**< Capture/compare 3 interrupt. */ TIMER_CC4_INTERRUPT, /**< Capture/compare 4 interrupt. */ TIMER_COM_INTERRUPT, /**< COM interrupt. */ TIMER_TRG_INTERRUPT, /**< Trigger interrupt. */ TIMER_BREAK_INTERRUPT, /**< Break interrupt. */ } timer_interrupt_id; void timer_attach_interrupt(timer_dev *dev, uint8 interrupt, voidFuncPtr handler); void timer_detach_interrupt(timer_dev *dev, uint8 interrupt); /** * Initialize all timer devices on the chip. */ static inline void timer_init_all(void) { timer_foreach(timer_init); } /** * Disables all timers on the device. */ static inline void timer_disable_all(void) { timer_foreach(timer_disable); } /** * @brief Stop a timer's counter from changing. * * Does not affect the timer's mode or other settings. * * @param dev Device whose counter to pause. */ static inline void timer_pause(timer_dev *dev) { *bb_perip(&(dev->regs).bas->CR1, TIMER_CR1_CEN_BIT) = 0; } /** * @brief Start a timer's counter. * * Does not affect the timer's mode or other settings. * * @param dev Device whose counter to resume */ static inline void timer_resume(timer_dev *dev) { *bb_perip(&(dev->regs).bas->CR1, TIMER_CR1_CEN_BIT) = 1; } /** * @brief Returns the timer's counter value. * * This value is likely to be inaccurate if the counter is running * with a low prescaler. * * @param dev Timer whose counter to return */ static inline uint16 timer_get_count(timer_dev *dev) { return (uint16)(dev->regs).bas->CNT; } /** * @brief Sets the counter value for the given timer. * @param dev Timer whose counter to set * @param value New counter value */ static inline void timer_set_count(timer_dev *dev, uint16 value) { (dev->regs).bas->CNT = value; } /** * @brief Returns the given timer's prescaler. * * Note that if the timer's prescaler is set (e.g. via * timer_set_prescaler() or accessing a TIMx_PSC register), the value * returned by this function will reflect the new setting, but the * timer's counter will only reflect the new prescaler at the next * update event. * * @param dev Timer whose prescaler to return * @see timer_generate_update() */ static inline uint16 timer_get_prescaler(timer_dev *dev) { return (uint16)(dev->regs).bas->PSC; } /** * @brief Set a timer's prescale value. * * Divides the input clock by (PSC+1). The new value will not take * effect until the next update event. * * @param dev Timer whose prescaler to set * @param psc New prescaler value * @see timer_generate_update() */ static inline void timer_set_prescaler(timer_dev *dev, uint16 psc) { (dev->regs).bas->PSC = psc; } /** * @brief Returns a timer's reload value. * @param dev Timer whose reload value to return */ static inline uint16 timer_get_reload(timer_dev *dev) { return (uint16)(dev->regs).bas->ARR; } /** * @brief Set a timer's reload value. * @param dev Timer whose reload value to set * @param arr New reload value to use. Takes effect at next update event. * @see timer_generate_update() */ static inline void timer_set_reload(timer_dev *dev, uint16 arr) { (dev->regs).bas->ARR = arr; } /** * @brief Get the compare value for the given timer channel. * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel whose compare value to get. */ static inline uint16 timer_get_compare(timer_dev *dev, uint8 channel) { __io uint32 *ccr = &(dev->regs).gen->CCR1 + (channel - 1); return *ccr; } /** * @brief Set the compare value for the given timer channel. * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel whose compare value to set. * @param value New compare value. */ static inline void timer_set_compare(timer_dev *dev, uint8 channel, uint16 value) { __io uint32 *ccr = &(dev->regs).gen->CCR1 + (channel - 1); *ccr = value; } /** * @brief Generate an update event for the given timer. * * Normally, this will cause the prescaler and auto-reload values in * the PSC and ARR registers to take immediate effect. However, this * function will do nothing if the UDIS bit is set in the timer's CR1 * register (UDIS is cleared by default). * * @param dev Timer device to generate an update for. */ static inline void timer_generate_update(timer_dev *dev) { *bb_perip(&(dev->regs).bas->EGR, TIMER_EGR_UG_BIT) = 1; } /** * @brief Enable a timer's trigger DMA request * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL */ static inline void timer_dma_enable_trg_req(timer_dev *dev) { *bb_perip(&(dev->regs).gen->DIER, TIMER_DIER_TDE_BIT) = 1; } /** * @brief Disable a timer's trigger DMA request * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL */ static inline void timer_dma_disable_trg_req(timer_dev *dev) { *bb_perip(&(dev->regs).gen->DIER, TIMER_DIER_TDE_BIT) = 0; } /** * @brief Enable a timer channel's DMA request. * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL * @param channel Channel whose DMA request to enable. */ static inline void timer_dma_enable_req(timer_dev *dev, uint8 channel) { *bb_perip(&(dev->regs).gen->DIER, channel + 8) = 1; } /** * @brief Disable a timer channel's DMA request. * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel whose DMA request to disable. */ static inline void timer_dma_disable_req(timer_dev *dev, uint8 channel) { *bb_perip(&(dev->regs).gen->DIER, channel + 8) = 0; } /** * @brief Enable a timer interrupt. * @param dev Timer device. * @param interrupt Interrupt number to enable; this may be any * timer_interrupt_id value appropriate for the timer. * @see timer_interrupt_id * @see timer_channel */ static inline void timer_enable_irq(timer_dev *dev, uint8 interrupt) { *bb_perip(&(dev->regs).adv->DIER, interrupt) = 1; } /** * @brief Disable a timer interrupt. * @param dev Timer device. * @param interrupt Interrupt number to disable; this may be any * timer_interrupt_id value appropriate for the timer. * @see timer_interrupt_id * @see timer_channel */ static inline void timer_disable_irq(timer_dev *dev, uint8 interrupt) { *bb_perip(&(dev->regs).adv->DIER, interrupt) = 0; } /** * @brief Enable a timer channel's capture/compare signal. * * If the channel is configured as output, the corresponding output * compare signal will be output on the corresponding output pin. If * the channel is configured as input, enables capture of the counter * value into the input capture/compare register. * * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel to enable, from 1 to 4. */ static inline void timer_cc_enable(timer_dev *dev, uint8 channel) { *bb_perip(&(dev->regs).gen->CCER, 4 * (channel - 1)) = 1; } /** * @brief Disable a timer channel's output compare or input capture signal. * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel to disable, from 1 to 4. * @see timer_cc_enable() */ static inline void timer_cc_disable(timer_dev *dev, uint8 channel) { *bb_perip(&(dev->regs).gen->CCER, 4 * (channel - 1)) = 0; } /** * @brief Get a channel's capture/compare output polarity * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel whose capture/compare output polarity to get. * @return Polarity, either 0 or 1. * @see timer_cc_set_polarity() */ static inline uint8 timer_cc_get_pol(timer_dev *dev, uint8 channel) { return *bb_perip(&(dev->regs).gen->CCER, 4 * (channel - 1) + 1); } /** * @brief Set a timer channel's capture/compare output polarity. * * If the timer channel is configured as output: polarity == 0 means * the output channel will be active high; polarity == 1 means active * low. * * If the timer channel is configured as input: polarity == 0 means * capture is done on the rising edge of ICn; when used as an external * trigger, ICn is non-inverted. polarity == 1 means capture is done * on the falling edge of ICn; when used as an external trigger, ICn * is inverted. * * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel whose capture/compare output polarity to set. * @param pol New polarity, 0 or 1. */ static inline void timer_cc_set_pol(timer_dev *dev, uint8 channel, uint8 pol) { *bb_perip(&(dev->regs).gen->CCER, 4 * (channel - 1) + 1) = pol; } /** * @brief Get a timer's DMA burst length. * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @return Number of transfers per read or write to timer DMA register, * from 1 to 18. */ static inline uint8 timer_dma_get_burst_len(timer_dev *dev) { uint32 dbl = ((dev->regs).gen->DCR & TIMER_DCR_DBL) >> 8; return dbl + 1; /* 0 means 1 transfer, etc. */ } /** * @brief Set a timer's DMA burst length. * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param length DMA burst length; i.e., number of DMA transfers per * read/write to timer DMA register, from 1 to 18. */ static inline void timer_dma_set_burst_len(timer_dev *dev, uint8 length) { uint32 tmp = (dev->regs).gen->DCR; tmp &= ~TIMER_DCR_DBL; tmp |= (length - 1) << 8; (dev->regs).gen->DCR = tmp; } /** * @brief Timer DMA base address. * * Defines the base address for DMA transfers. */ typedef enum timer_dma_base_addr { /** Base is control register 1 */ TIMER_DMA_BASE_CR1 = TIMER_DCR_DBA_CR1, /** Base is control register 2 */ TIMER_DMA_BASE_CR2 = TIMER_DCR_DBA_CR2, /** Base is slave mode control register */ TIMER_DMA_BASE_SMCR = TIMER_DCR_DBA_SMCR, /** Base is DMA interrupt enable register */ TIMER_DMA_BASE_DIER = TIMER_DCR_DBA_DIER, /** Base is status register */ TIMER_DMA_BASE_SR = TIMER_DCR_DBA_SR, /** Base is event generation register */ TIMER_DMA_BASE_EGR = TIMER_DCR_DBA_EGR, /** Base is capture/compare mode register 1 */ TIMER_DMA_BASE_CCMR1 = TIMER_DCR_DBA_CCMR1, /** Base is capture/compare mode register 2 */ TIMER_DMA_BASE_CCMR2 = TIMER_DCR_DBA_CCMR2, /** Base is capture/compare enable register */ TIMER_DMA_BASE_CCER = TIMER_DCR_DBA_CCER, /** Base is counter */ TIMER_DMA_BASE_CNT = TIMER_DCR_DBA_CNT, /** Base is prescaler */ TIMER_DMA_BASE_PSC = TIMER_DCR_DBA_PSC, /** Base is auto-reload register */ TIMER_DMA_BASE_ARR = TIMER_DCR_DBA_ARR, /** Base is repetition counter register */ TIMER_DMA_BASE_RCR = TIMER_DCR_DBA_RCR, /** Base is capture/compare register 1 */ TIMER_DMA_BASE_CCR1 = TIMER_DCR_DBA_CCR1, /** Base is capture/compare register 2 */ TIMER_DMA_BASE_CCR2 = TIMER_DCR_DBA_CCR2, /** Base is capture/compare register 3 */ TIMER_DMA_BASE_CCR3 = TIMER_DCR_DBA_CCR3, /** Base is capture/compare register 4 */ TIMER_DMA_BASE_CCR4 = TIMER_DCR_DBA_CCR4, /** Base is break and dead-time register */ TIMER_DMA_BASE_BDTR = TIMER_DCR_DBA_BDTR, /** Base is DMA control register */ TIMER_DMA_BASE_DCR = TIMER_DCR_DBA_DCR, /** Base is DMA address for full transfer */ TIMER_DMA_BASE_DMAR = TIMER_DCR_DBA_DMAR, } timer_dma_base_addr; /** * @brief Get the timer's DMA base address. * * Some restrictions apply; see the reference manual for your chip. * * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @return DMA base address */ static inline timer_dma_base_addr timer_dma_get_base_addr(timer_dev *dev) { uint32 dcr = (dev->regs).gen->DCR; return (timer_dma_base_addr)(dcr & TIMER_DCR_DBA); } /** * @brief Set the timer's DMA base address. * * Some restrictions apply; see the reference manual for your chip. * * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param dma_base DMA base address. */ static inline void timer_dma_set_base_addr(timer_dev *dev, timer_dma_base_addr dma_base) { uint32 tmp = (dev->regs).gen->DCR; tmp &= ~TIMER_DCR_DBA; tmp |= dma_base; (dev->regs).gen->DCR = tmp; } /** * Timer output compare modes. */ typedef enum timer_oc_mode { /** * Frozen: comparison between output compare register and counter * has no effect on the outputs. */ TIMER_OC_MODE_FROZEN = 0 << 4, /** * OCxREF signal is forced high when the count matches the channel * capture/compare register. */ TIMER_OC_MODE_ACTIVE_ON_MATCH = 1 << 4, /** * OCxREF signal is forced low when the counter matches the * channel capture/compare register. */ TIMER_OC_MODE_INACTIVE_ON_MATCH = 2 << 4, /** * OCxREF toggles when counter matches the channel capture/compare * register. */ TIMER_OC_MODE_TOGGLE = 3 << 4, /** OCxREF is forced low. */ TIMER_OC_MODE_FORCE_INACTIVE = 4 << 4, /** OCxREF is forced high. */ TIMER_OC_MODE_FORCE_ACTIVE = 5 << 4, /** * PWM mode 1. In upcounting, channel is active as long as count * is less than channel capture/compare register, else inactive. * In downcounting, channel is inactive as long as count exceeds * capture/compare register, else active. */ TIMER_OC_MODE_PWM_1 = 6 << 4, /** * PWM mode 2. In upcounting, channel is inactive as long as count * is less than capture/compare register, else active. In * downcounting, channel is active as long as count exceeds * capture/compare register, else inactive. */ TIMER_OC_MODE_PWM_2 = 7 << 4, } timer_oc_mode; /** * Timer output compare mode flags. * @see timer_oc_set_mode() */ typedef enum timer_oc_mode_flags { TIMER_OC_CE = 1U << 7, /**< Output compare clear enable. */ TIMER_OC_PE = 1U << 3, /**< Output compare preload enable. */ TIMER_OC_FE = 1U << 2, /**< Output compare fast enable. */ } timer_oc_mode_flags; /** * @brief Configure a channel's output compare mode. * * @param dev Timer device, must have type TIMER_ADVANCED or TIMER_GENERAL. * @param channel Channel to configure in output compare mode. * @param mode Timer mode to set. * @param flags OR of timer_oc_mode_flags. * @see timer_oc_mode * @see timer_oc_mode_flags */ static inline void timer_oc_set_mode(timer_dev *dev, uint8 channel, timer_oc_mode mode, uint8 flags) { /* channel == 1,2 -> CCMR1; channel == 3,4 -> CCMR2 */ __io uint32 *ccmr = &(dev->regs).gen->CCMR1 + (((channel - 1) >> 1) & 1); /* channel == 1,3 -> shift = 0, channel == 2,4 -> shift = 8 */ uint8 shift = 8 * (1 - (channel & 1)); uint32 tmp = *ccmr; tmp &= ~(0xFF << shift); tmp |= (mode | flags | TIMER_CCMR_CCS_OUTPUT) << shift; *ccmr = tmp; } /* * Old, erroneous bit definitions from previous releases, kept for * backwards compatibility: */ /** Deprecated. Use TIMER_CCMR1_CC4S_OUTPUT instead. */ #define TIMER_CCMR1_CC4S_OUTPUT TIMER_CCMR2_CC4S_OUTPUT /** Deprecated. Use TIMER_CCMR1_CC4S_INPUT_TI1 instead. */ #define TIMER_CCMR1_CC4S_INPUT_TI1 TIMER_CCMR2_CC4S_INPUT_TI1 /** Deprecated. Use TIMER_CCMR1_CC4S_INPUT_TI2 instead. */ #define TIMER_CCMR1_CC4S_INPUT_TI2 TIMER_CCMR2_CC4S_INPUT_TI2 /** Deprecated. Use TIMER_CCMR1_CC4S_INPUT_TRC instead. */ #define TIMER_CCMR1_CC4S_INPUT_TRC TIMER_CCMR2_CC4S_INPUT_TRC /** Deprecated. Use TIMER_CCMR2_IC4F instead. */ #define TIMER_CCMR2_IC2F TIMER_CCMR2_IC4F /** Deprecated. Use TIMER_CCMR2_IC4PSC instead. */ #define TIMER_CCMR2_IC2PSC TIMER_CCMR2_IC4PSC /** Deprecated. Use TIMER_CCMR2_IC3F instead. */ #define TIMER_CCMR2_IC1F TIMER_CCMR2_IC3F /** Deprecated. Use TIMER_CCMR2_IC3PSC instead. */ #define TIMER_CCMR2_IC1PSC TIMER_CCMR2_IC3PSC /** Deprecated. Use TIMER_CCMR1_CC3S_OUTPUT instead. */ #define TIMER_CCMR1_CC3S_OUTPUT TIMER_CCMR2_CC3S_OUTPUT /** Deprecated. Use TIMER_CCMR1_CC3S_INPUT_TI1 instead. */ #define TIMER_CCMR1_CC3S_INPUT_TI1 TIMER_CCMR2_CC3S_INPUT_TI1 /** Deprecated. Use TIMER_CCMR1_CC3S_INPUT_TI2 instead. */ #define TIMER_CCMR1_CC3S_INPUT_TI2 TIMER_CCMR2_CC3S_INPUT_TI2 /** Deprecated. Use TIMER_CCMR1_CC3S_INPUT_TRC instead. */ #define TIMER_CCMR1_CC3S_INPUT_TRC TIMER_CCMR2_CC3S_INPUT_TRC /** Deprecated. Use TIMER_DCR_DBL_1_XFER instead. */ #define TIMER_DCR_DBL_1BYTE TIMER_DCR_DBL_1_XFER /** Deprecated. Use TIMER_DCR_DBL_2_XFER instead. */ #define TIMER_DCR_DBL_2BYTE TIMER_DCR_DBL_2_XFER /** Deprecated. Use TIMER_DCR_DBL_3_XFER instead. */ #define TIMER_DCR_DBL_3BYTE TIMER_DCR_DBL_3_XFER /** Deprecated. Use TIMER_DCR_DBL_4_XFER instead. */ #define TIMER_DCR_DBL_4BYTE TIMER_DCR_DBL_4_XFER /** Deprecated. Use TIMER_DCR_DBL_5_XFER instead. */ #define TIMER_DCR_DBL_5BYTE TIMER_DCR_DBL_5_XFER /** Deprecated. Use TIMER_DCR_DBL_6_XFER instead. */ #define TIMER_DCR_DBL_6BYTE TIMER_DCR_DBL_6_XFER /** Deprecated. Use TIMER_DCR_DBL_7_XFER instead. */ #define TIMER_DCR_DBL_7BYTE TIMER_DCR_DBL_7_XFER /** Deprecated. Use TIMER_DCR_DBL_8_XFER instead. */ #define TIMER_DCR_DBL_8BYTE TIMER_DCR_DBL_8_XFER /** Deprecated. Use TIMER_DCR_DBL_9_XFER instead. */ #define TIMER_DCR_DBL_9BYTE TIMER_DCR_DBL_9_XFER /** Deprecated. Use TIMER_DCR_DBL_10_XFER instead. */ #define TIMER_DCR_DBL_10BYTE TIMER_DCR_DBL_10_XFER /** Deprecated. Use TIMER_DCR_DBL_11_XFER instead. */ #define TIMER_DCR_DBL_11BYTE TIMER_DCR_DBL_11_XFER /** Deprecated. Use TIMER_DCR_DBL_12_XFER instead. */ #define TIMER_DCR_DBL_12BYTE TIMER_DCR_DBL_12_XFER /** Deprecated. Use TIMER_DCR_DBL_13_XFER instead. */ #define TIMER_DCR_DBL_13BYTE TIMER_DCR_DBL_13_XFER /** Deprecated. Use TIMER_DCR_DBL_14_XFER instead. */ #define TIMER_DCR_DBL_14BYTE TIMER_DCR_DBL_14_XFER /** Deprecated. Use TIMER_DCR_DBL_15_XFER instead. */ #define TIMER_DCR_DBL_15BYTE TIMER_DCR_DBL_15_XFER /** Deprecated. Use TIMER_DCR_DBL_16_XFER instead. */ #define TIMER_DCR_DBL_16BYTE TIMER_DCR_DBL_16_XFER /** Deprecated. Use TIMER_DCR_DBL_17_XFER instead. */ #define TIMER_DCR_DBL_17BYTE TIMER_DCR_DBL_17_XFER /** Deprecated. Use TIMER_DCR_DBL_18_XFER instead. */ #define TIMER_DCR_DBL_18BYTE TIMER_DCR_DBL_18_XFER #ifdef __cplusplus } // extern "C" #endif #endif