/*************************************************************************** * boards/arm/cxd56xx/drivers/audio/cxd56_audio_dma.c * * Copyright 2018 Sony Semiconductor Solutions Corporation * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name of Sony Semiconductor Solutions Corporation nor * the names of its contributors may be used to endorse or promote * products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************/ /*************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include "cxd56_audio_config.h" #include "cxd56_audio_dma.h" #include "cxd56_audio_mic.h" #include "cxd56_audio_ac_reg.h" #include "cxd56_audio_bca_reg.h" /*************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* Register type. */ enum audio_irq_reg_type_e { INT_EN1_REG = 0, INT_POL_REG, INT_IRQ1_REG }; /* INT_EN1 */ #define CXD56_INTC_BASE 0xe0045000 #define INT_EN1_REG_ADDR (CXD56_INTC_BASE + 0x10 + 3 * 4) #define INT_EN1_BIT_AU0 6 #define INT_EN1_BIT_AU1 7 #define INT_EN1_BIT_AU2 8 #define INT_EN1_BIT_AU3 9 /* INT_POL */ #define INT_POL_REG (CXD56_INTC_BASE + 0x20 + 3 * 4) #define INT_POL_BIT_AU0 6 #define INT_POL_BIT_AU1 7 #define INT_POL_BIT_AU2 8 #define INT_POL_BIT_AU3 9 /* INT_IRQ1 */ #define INT_IRQ1_REG_ADDR (CXD56_INTC_BASE + 0x30 + 3 * 4) #define INT_IRQ1_BIT_AU0 6 #define INT_IRQ1_BIT_AU1 7 #define INT_IRQ1_BIT_AU2 8 #define INT_IRQ1_BIT_AU3 9 #define DMA_HANDLE_MAX_NUM (CXD56_AUDIO_DMAC_I2S1_DOWN + 1) #define DMA_TIMEOUT_CNT 10000 #define DMA_START_RETRY_CNT 10 #define DMA_SMP_WAIT_HIRES 10 /* usec per sample. */ #define DMA_SMP_WAIT_NORMALT 40 /* usec per sample. */ /* Private Macros */ #define SET_DMA_ACT(_path_) g_dma_act_status |= (1 << _path_) #define CLR_DMA_ACT(_path_) g_dma_act_status &= ~(1 << _path_) #define IS_DMA_ACT(_path_) ((g_dma_act_status & (1 << _path_)) != 0) /*************************************************************************** * Private Data ****************************************************************************/ static uint8_t g_dma_act_status = 0; static cxd56_audio_dma_cb_t g_dma_cb[DMA_HANDLE_MAX_NUM]; static bool s_work_arroud_dmac[DMA_HANDLE_MAX_NUM] = { true, true, true }; /*************************************************************************** * Private Functions ****************************************************************************/ static uint32_t read_int_reg(uint32_t reg) { volatile uint32_t *addr; uint32_t data = 0; if (reg == INT_EN1_REG) { addr = (volatile uint32_t *)INT_EN1_REG_ADDR; } else if (reg == INT_IRQ1_REG) { addr = (volatile uint32_t *)INT_IRQ1_REG_ADDR; } else { addr = (volatile uint32_t *)INT_POL_REG; } data = *addr; return data; } static uint32_t write_int_reg(uint32_t reg, uint32_t data) { volatile uint32_t *addr; if (reg == INT_EN1_REG) { addr = (volatile uint32_t *)INT_EN1_REG_ADDR; *addr = data; } return 0; } static CXD56_AUDIO_ECODE get_dma_handle(cxd56_audio_dma_path_t path, FAR cxd56_audio_dma_t *handle) { switch (path) { case CXD56_AUDIO_DMA_PATH_MIC_TO_MEM: *handle = CXD56_AUDIO_DMAC_MIC; break; case CXD56_AUDIO_DMA_PATH_MEM_TO_BUSIF1: *handle = CXD56_AUDIO_DMAC_I2S0_DOWN; break; case CXD56_AUDIO_DMA_PATH_MEM_TO_BUSIF2: *handle = CXD56_AUDIO_DMAC_I2S1_DOWN; break; default: return CXD56_AUDIO_ECODE_DMA_PATH_INV; } return CXD56_AUDIO_ECODE_OK; } static CXD56_AUDIO_ECODE get_dma_path(cxd56_audio_dma_t handle, FAR cxd56_audio_dma_path_t *path) { switch (handle) { case CXD56_AUDIO_DMAC_MIC: *path = CXD56_AUDIO_DMA_PATH_MIC_TO_MEM; break; case CXD56_AUDIO_DMAC_I2S0_DOWN: *path = CXD56_AUDIO_DMA_PATH_MEM_TO_BUSIF1; break; case CXD56_AUDIO_DMAC_I2S1_DOWN: *path = CXD56_AUDIO_DMA_PATH_MEM_TO_BUSIF2; break; default: return CXD56_AUDIO_ECODE_DMA_HANDLE_INV; } return CXD56_AUDIO_ECODE_OK; } static CXD56_AUDIO_ECODE start_dma(cxd56_audio_dma_t handle) { cxd56_audio_bca_reg_start_dma(handle, false); return CXD56_AUDIO_ECODE_OK; } static CXD56_AUDIO_ECODE exec_dma_ch_sync_workaround( cxd56_audio_dma_t handle) { int timeout_cnt = 0; int retry_cnt; cxd56_audio_clkmode_t clk_mode = cxd56_audio_config_get_clkmode(); /* Execute out-of-sync workaround. * 1. Clear smp interrupt status * 2. Read until smp interrupt state is true * 3. Reset channel select setting * 4. Start dma transfer * It needs to be less than 9 us by the processing so far. * If it does not fit below 9 us, err_int is generated, so retry. */ /* Mask dma done interrupt. */ cxd56_audio_bca_reg_mask_done_int(handle); for (retry_cnt = 0; retry_cnt < DMA_START_RETRY_CNT; retry_cnt++) { /* Clear interrupt status */ cxd56_audio_bca_reg_clear_err_int(handle); cxd56_audio_bca_reg_clear_smp_int(handle); /* Lock interrupt */ up_irq_disable(); sched_lock(); /* Wait smp interrupt. */ for (timeout_cnt = 0; timeout_cnt < DMA_TIMEOUT_CNT; timeout_cnt++) { if (cxd56_audio_bca_reg_is_smp_int(handle)) { break; } } if (timeout_cnt == DMA_TIMEOUT_CNT) { return CXD56_AUDIO_ECODE_DMA_SMP_TIMEOUT; } /* Reset Channel select. */ cxd56_audio_bca_reg_reset_chsel(handle); /* Start dma. */ cxd56_audio_bca_reg_start_dma(handle, false); /* Unlock interrupt */ sched_unlock(); up_irq_enable(); /* Wait for 1sample tramsfer. */ if (clk_mode == CXD56_AUDIO_CLKMODE_HIRES) { up_udelay(DMA_SMP_WAIT_HIRES); } else { up_udelay(DMA_SMP_WAIT_NORMALT); } /* Check whether an error interrupt has occurred. */ if (cxd56_audio_bca_reg_is_err_int(handle)) { cxd56_audio_bca_reg_stop_dma(handle); cxd56_audio_bca_reg_clear_err_int(handle); for (timeout_cnt = 0; timeout_cnt < DMA_TIMEOUT_CNT; timeout_cnt++) { if (DMA_MSTATE_BUF_EMPTY == cxd56_audio_bca_reg_get_mon_state_buf(handle)) { if (cxd56_audio_bca_reg_is_done_int(handle)) { cxd56_audio_bca_reg_clear_done_int(handle); break; } } } } else { break; } } /* Unmask dma done interrupt. */ cxd56_audio_bca_reg_unmask_done_int(handle); return CXD56_AUDIO_ECODE_OK; } static CXD56_AUDIO_ECODE start_dma_workaround(cxd56_audio_dma_t handle) { /* There are two workarounds. * One is a workaround in which the error interrupt of * dma is incorrectly generated. * The other is a workaround for the problem that the channel * is out of sync. * Because both require processing at the beginning of dma, * call out workaround with out-of-sync from the workaround * for interrupt error. */ /* Execute error interrupt workaround. * 1. Mask dma error interrupt * 2. Wait 77 cycle after dma transfer starts * 3. Clear interrupt status * 4. Unmask dma error interrupt */ cxd56_audio_bca_reg_mask_err_int(handle); /* Transfer start and wait processing of dma is done * in out-of-sync workaround. */ CXD56_AUDIO_ECODE ret = exec_dma_ch_sync_workaround(handle); cxd56_audio_bca_reg_clear_err_int(handle); cxd56_audio_bca_reg_unmask_err_int(handle); return ret; } /*************************************************************************** * Public Functions ****************************************************************************/ CXD56_AUDIO_ECODE cxd56_audio_dma_get_handle(cxd56_audio_dma_path_t path, FAR cxd56_audio_dma_t *handle) { CXD56_AUDIO_ECODE ret = CXD56_AUDIO_ECODE_OK; /* Check error of argument */ if (handle == NULL) { return CXD56_AUDIO_ECODE_DMA_HANDLE_NULL; } /* Check duplicate order */ if (IS_DMA_ACT(path)) { return CXD56_AUDIO_ECODE_DMA_PATH_DUP; } ret = get_dma_handle(path, handle); if (CXD56_AUDIO_ECODE_OK != ret) { return ret; } SET_DMA_ACT(path); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_dma_free_handle(FAR cxd56_audio_dma_t handle) { CXD56_AUDIO_ECODE ret = CXD56_AUDIO_ECODE_OK; cxd56_audio_dma_path_t path; ret = get_dma_path(handle, &path); if (CXD56_AUDIO_ECODE_OK != ret) { return ret; } CLR_DMA_ACT(path); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_dma_init(cxd56_audio_dma_t handle, cxd56_audio_samp_fmt_t fmt, FAR uint8_t *ch_num) { CXD56_AUDIO_ECODE ret = CXD56_AUDIO_ECODE_OK; uint32_t ch_setting; cxd56_audio_ac_reg_enable_dma(); if (handle == CXD56_AUDIO_DMAC_MIC) { ret = cxd56_audio_mic_set_seloutch(*ch_num, fmt); if (CXD56_AUDIO_ECODE_OK != ret) { return ret; } } else { /* Set Stereo channel number. */ *ch_num = 2; } if (fmt == CXD56_AUDIO_SAMP_FMT_24) { cxd56_audio_bca_reg_en_fmt24(handle, *ch_num); } else { cxd56_audio_bca_reg_en_fmt16(handle, *ch_num); } /* Clear interrupt state. */ cxd56_audio_bca_reg_clear_done_int(handle); cxd56_audio_bca_reg_clear_err_int(handle); cxd56_audio_bca_reg_clear_cmb_int(handle); /* Enable interrupt. */ cxd56_audio_bca_reg_unmask_done_int(handle); /* cxd56_audio_bca_reg_mask_done_int(handle); TODO: polling */ /* Enable interrupt. */ cxd56_audio_bca_reg_unmask_err_int(handle); cxd56_audio_bca_reg_unmask_cmb_int(handle); cxd56_audio_bca_reg_unmask_bus_int(handle); /* Check channel setting. */ ch_setting = cxd56_audio_bca_reg_get_mon_state_err(handle); switch (ch_setting) { case DMA_MSTATE_ERR_NO_ENABLE_CH: return CXD56_AUDIO_ECODE_DMA_CH_NO_ENABLE; case DMA_MSTATE_ERR_CH1_4_INVALID: return CXD56_AUDIO_ECODE_DMA_CH1_4_INV; case DMA_MSTATE_ERR_CH5_8_INVALID: return CXD56_AUDIO_ECODE_DMA_CH5_8_INV; default: break; } return ret; } CXD56_AUDIO_ECODE cxd56_audio_dma_set_cb(cxd56_audio_dma_t handle, FAR cxd56_audio_dma_cb_t cb) { g_dma_cb[handle] = cb; return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_dma_get_mstate(cxd56_audio_dma_t handle, FAR cxd56_audio_dma_mstate_t *state) { cxd56_audio_bca_reg_get_dma_mstate(handle, state); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_dma_en_dmaint(void) { volatile uint32_t int_en; int_en = read_int_reg(INT_EN1_REG); int_en |= (1 << INT_EN1_BIT_AU0); int_en |= (1 << INT_EN1_BIT_AU1); int_en |= (1 << INT_EN1_BIT_AU2); int_en |= (1 << INT_EN1_BIT_AU3); write_int_reg(INT_EN1_REG, int_en); /* Enalbe bus error interrupt. */ cxd56_audio_bca_reg_en_bus_err_int(); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_dma_dis_dmaint(void) { volatile uint32_t int_en; int_en = read_int_reg(INT_EN1_REG); int_en &= ~(1 << INT_EN1_BIT_AU0); int_en &= ~(1 << INT_EN1_BIT_AU1); int_en &= ~(1 << INT_EN1_BIT_AU2); int_en &= ~(1 << INT_EN1_BIT_AU3); write_int_reg(INT_EN1_REG, int_en); /* Disalbe bus error interrupt. */ cxd56_audio_bca_reg_dis_bus_err_int(); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_dma_start(cxd56_audio_dma_t handle, uint32_t addr, uint32_t sample) { CXD56_AUDIO_ECODE ret = CXD56_AUDIO_ECODE_OK; if (DMA_CMD_FIFO_NOT_FULL != cxd56_audio_bca_reg_get_dma_state(handle)) { return CXD56_AUDIO_ECODE_DMA_BUSY; } cxd56_audio_bca_reg_set_start_addr(handle, addr); cxd56_audio_bca_reg_set_sample_no(handle, sample); if (s_work_arroud_dmac[handle]) { s_work_arroud_dmac[handle] = false; ret = start_dma_workaround(handle); } else { ret = start_dma(handle); } return ret; } CXD56_AUDIO_ECODE cxd56_audio_dma_stop(cxd56_audio_dma_t handle) { cxd56_audio_bca_reg_stop_dma(handle); s_work_arroud_dmac[handle] = true; return CXD56_AUDIO_ECODE_OK; } void cxd56_audio_dma_int_handler(void) { uint32_t int_irq = read_int_reg(INT_IRQ1_REG); uint32_t int_ac = cxd56_audio_bca_reg_get_dma_done_state_mic(); uint32_t int_i2s = cxd56_audio_bca_reg_get_dma_done_state_i2s1(); uint32_t int_i2s2 = cxd56_audio_bca_reg_get_dma_done_state_i2s2(); /* AUDIO_INT_AC : check interruption from mic */ if ((int_irq & (1 << INT_IRQ1_BIT_AU0)) && (int_ac != 0)) { /* Clear interrupt. */ cxd56_audio_bca_reg_clear_dma_done_state_mic(int_ac); /* Check done complete state. */ if (int_ac & DMA_STATE_BIT_AC_DONE) { (*g_dma_cb[CXD56_AUDIO_DMAC_MIC])(CXD56_AUDIO_DMAC_MIC, CXD56_AUDIO_ECODE_DMA_CMPLT); } /* Check transfer err state. */ if (int_ac & DMA_STATE_BIT_AC_ERR) { cxd56_audio_bca_reg_mask_err_int(CXD56_AUDIO_DMAC_MIC); cxd56_audio_bca_reg_clear_err_int(CXD56_AUDIO_DMAC_MIC); (*g_dma_cb[CXD56_AUDIO_DMAC_MIC])(CXD56_AUDIO_DMAC_MIC, CXD56_AUDIO_ECODE_DMA_TRANS); } /* Check bus err state. */ if (int_ac & DMA_STATE_BIT_AC_CMB) { cxd56_audio_bca_reg_mask_cmb_int(CXD56_AUDIO_DMAC_MIC); cxd56_audio_bca_reg_clear_cmb_int(CXD56_AUDIO_DMAC_MIC); (*g_dma_cb[CXD56_AUDIO_DMAC_MIC])(CXD56_AUDIO_DMAC_MIC, CXD56_AUDIO_ECODE_DMA_CMB); } } /* AUDIO_INT_I2S1 : check interruption from I2S-1 */ if ((int_irq & (1 << INT_IRQ1_BIT_AU1)) && (int_i2s != 0)) { /* Clear interrupt. */ cxd56_audio_bca_reg_clear_dma_done_state_i2s1(int_i2s); /* Check done complete state. */ if (int_i2s & DMA_STATE_BIT_I2S_OUT_DONE) { (*g_dma_cb[CXD56_AUDIO_DMAC_I2S0_DOWN])(CXD56_AUDIO_DMAC_I2S0_DOWN, CXD56_AUDIO_ECODE_DMA_CMPLT); } /* Check transfer err state. */ if (int_i2s & DMA_STATE_BIT_I2S_OUT_ERR) { cxd56_audio_bca_reg_mask_err_int(CXD56_AUDIO_DMAC_I2S0_DOWN); cxd56_audio_bca_reg_clear_err_int(CXD56_AUDIO_DMAC_I2S0_DOWN); (*g_dma_cb[CXD56_AUDIO_DMAC_I2S0_DOWN])(CXD56_AUDIO_DMAC_I2S0_DOWN, CXD56_AUDIO_ECODE_DMA_TRANS); } /* Check bus err state. */ if (int_i2s & DMA_STATE_BIT_I2S_CMB) { cxd56_audio_bca_reg_mask_cmb_int(CXD56_AUDIO_DMAC_I2S0_DOWN); cxd56_audio_bca_reg_clear_cmb_int(CXD56_AUDIO_DMAC_I2S0_DOWN); (*g_dma_cb[CXD56_AUDIO_DMAC_I2S0_DOWN])(CXD56_AUDIO_DMAC_I2S0_DOWN, CXD56_AUDIO_ECODE_DMA_CMB); } } /* AUDIO_INT_I2S2 : check interruption from I2S-2 */ if ((int_irq & (1 << INT_IRQ1_BIT_AU2)) && (int_i2s2 != 0)) { /* Clear interrupt. */ cxd56_audio_bca_reg_clear_dma_done_state_i2s2(int_i2s2); /* Check done complete state. */ if (int_i2s2 & DMA_STATE_BIT_I2S_OUT_DONE) { (*g_dma_cb[CXD56_AUDIO_DMAC_I2S1_DOWN])(CXD56_AUDIO_DMAC_I2S1_DOWN, CXD56_AUDIO_ECODE_DMA_CMPLT); } /* Check transfer err state. */ if (int_i2s2 & DMA_STATE_BIT_I2S_OUT_ERR) { cxd56_audio_bca_reg_mask_err_int(CXD56_AUDIO_DMAC_I2S1_DOWN); cxd56_audio_bca_reg_clear_err_int(CXD56_AUDIO_DMAC_I2S1_DOWN); (*g_dma_cb[CXD56_AUDIO_DMAC_I2S1_DOWN])(CXD56_AUDIO_DMAC_I2S1_DOWN, CXD56_AUDIO_ECODE_DMA_TRANS); } /* Check bus err state. */ if (int_i2s2 & DMA_STATE_BIT_I2S_CMB) { cxd56_audio_bca_reg_mask_cmb_int(CXD56_AUDIO_DMAC_I2S1_DOWN); cxd56_audio_bca_reg_clear_cmb_int(CXD56_AUDIO_DMAC_I2S1_DOWN); (*g_dma_cb[CXD56_AUDIO_DMAC_I2S1_DOWN])(CXD56_AUDIO_DMAC_I2S1_DOWN, CXD56_AUDIO_ECODE_DMA_CMB); } } if (int_irq & (1 << INT_IRQ1_BIT_AU3)) { uint32_t int_au = cxd56_audio_bca_reg_get_int_status(); if (int_au != 0) { cxd56_audio_bca_reg_clear_int_status(int_au); } } }