/**************************************************************************//** * * @copyright (C) 2020 Nuvoton Technology Corp. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2020-6-31 Hphuang First version * ******************************************************************************/ #include #if defined(BSP_USING_UI2C) && defined(RT_USING_I2C) #include #include "NuMicro.h" /* Private define ---------------------------------------------------------------*/ #define LOG_TAG "drv.ui2c" #define DBG_ENABLE #define DBG_SECTION_NAME LOG_TAG #define DBG_LEVEL DBG_INFO #define DBG_COLOR #include #define SLV_10BIT_ADDR (0x1E<<2) //1111+0xx+r/w enum { UI2C_START = -1, #if defined(BSP_USING_UI2C0) UI2C0_IDX, #endif UI2C_CNT }; /* Private typedef --------------------------------------------------------------*/ struct nu_ui2c_bus { struct rt_i2c_bus_device parent; UI2C_T *UI2C; struct rt_i2c_msg *msg; char *device_name; }; typedef struct nu_ui2c_bus *nu_ui2c_bus_t; /* Private variables ------------------------------------------------------------*/ static struct nu_ui2c_bus nu_ui2c_arr [ ] = { #if defined(BSP_USING_UI2C0) { .UI2C = UI2C0, .device_name = "ui2c0", }, #endif }; /* Private functions ------------------------------------------------------------*/ static rt_ssize_t nu_ui2c_mst_xfer(struct rt_i2c_bus_device *bus, struct rt_i2c_msg msgs[], rt_uint32_t num); static rt_err_t nu_ui2c_bus_control(struct rt_i2c_bus_device *bus, rt_uint32_t u32Cmd, rt_uint32_t u32Value); static const struct rt_i2c_bus_device_ops nu_ui2c_ops = { .master_xfer = nu_ui2c_mst_xfer, .slave_xfer = NULL, .i2c_bus_control = nu_ui2c_bus_control, }; static rt_err_t nu_ui2c_bus_control(struct rt_i2c_bus_device *bus, rt_uint32_t u32Cmd, rt_uint32_t u32Value) { nu_ui2c_bus_t nu_ui2c; RT_ASSERT(bus); nu_ui2c = (nu_ui2c_bus_t) bus; switch (u32Cmd) { case RT_I2C_DEV_CTRL_CLK: UI2C_SetBusClockFreq(nu_ui2c->UI2C, u32Value); break; default: return -RT_EIO; } return RT_EOK; } static inline rt_err_t nu_ui2c_wait_ready_with_timeout(nu_ui2c_bus_t nu_ui2c) { rt_tick_t start = rt_tick_get(); while (!(UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & (UI2C_PROTSTS_STARIF_Msk | UI2C_PROTSTS_ACKIF_Msk | UI2C_PROTSTS_NACKIF_Msk | UI2C_PROTSTS_STORIF_Msk))) { if ((rt_tick_get() - start) > nu_ui2c->parent.timeout) { LOG_E("\nui2c: timeout!\n"); return -RT_ETIMEOUT; } } return RT_EOK; } static inline rt_err_t nu_ui2c_send_data(nu_ui2c_bus_t nu_ui2c, rt_uint8_t data) { UI2C_SET_DATA(nu_ui2c->UI2C, data); UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, UI2C_CTL_PTRG); return nu_ui2c_wait_ready_with_timeout(nu_ui2c); } static rt_err_t nu_ui2c_send_address(nu_ui2c_bus_t nu_ui2c, struct rt_i2c_msg *msg) { rt_uint16_t flags = msg->flags; rt_uint16_t ignore_nack = msg->flags & RT_I2C_IGNORE_NACK; rt_uint8_t addr1, addr2; rt_err_t ret; if (flags & RT_I2C_ADDR_10BIT) { UI2C_ENABLE_10BIT_ADDR_MODE(nu_ui2c->UI2C); /* Init Send 10-bit Addr */ addr1 = ((msg->addr >> 8) | SLV_10BIT_ADDR) << 1; addr2 = msg->addr & 0xff; LOG_D("addr1: %d, addr2: %d\n", addr1, addr2); ret = nu_ui2c_send_data(nu_ui2c, addr1); if (ret != RT_EOK) //for timeout condition return -RT_EIO; if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_ACKIF_Msk) != UI2C_PROTSTS_ACKIF_Msk) && !ignore_nack) { LOG_E("NACK: sending first addr\n"); return -RT_EIO; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_ACKIF_Msk); ret = nu_ui2c_send_data(nu_ui2c, addr2); if (ret != RT_EOK) //for timeout condition return -RT_EIO; if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_ACKIF_Msk) != UI2C_PROTSTS_ACKIF_Msk) && !ignore_nack) { LOG_E("NACK: sending second addr\n"); return -RT_EIO; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_ACKIF_Msk); if (flags & RT_I2C_RD) { LOG_D("send repeated start condition\n"); UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, (UI2C_CTL_PTRG | UI2C_CTL_STA)); ret = nu_ui2c_wait_ready_with_timeout(nu_ui2c); if (ret != RT_EOK) //for timeout condition return -RT_EIO; if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_STARIF_Msk) != UI2C_PROTSTS_STARIF_Msk) && !ignore_nack) { LOG_E("sending repeated START fail\n"); return -RT_EIO; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_STARIF_Msk); addr1 |= RT_I2C_RD; ret = nu_ui2c_send_data(nu_ui2c, addr1); if (ret != RT_EOK) //for timeout condition return -RT_EIO; if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_ACKIF_Msk) != UI2C_PROTSTS_ACKIF_Msk) && !ignore_nack) { LOG_E("NACK: sending repeated addr\n"); return -RT_EIO; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_ACKIF_Msk); } } else { /* 7-bit addr */ addr1 = msg->addr << 1; if (flags & RT_I2C_RD) addr1 |= RT_I2C_RD; /* Send device address */ ret = nu_ui2c_send_data(nu_ui2c, addr1); /* Send Address */ if (ret != RT_EOK) //for timeout condition return -RT_EIO; if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_ACKIF_Msk) != UI2C_PROTSTS_ACKIF_Msk) && !ignore_nack) { LOG_E("sending addr fail\n"); return -RT_EIO; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_ACKIF_Msk); } return RT_EOK; } static rt_ssize_t nu_ui2c_mst_xfer(struct rt_i2c_bus_device *bus, struct rt_i2c_msg msgs[], rt_uint32_t num) { struct rt_i2c_msg *msg; nu_ui2c_bus_t nu_ui2c; rt_size_t i; rt_uint32_t cnt_data; rt_uint16_t ignore_nack; rt_err_t ret; RT_ASSERT(bus != RT_NULL); nu_ui2c = (nu_ui2c_bus_t) bus; nu_ui2c->msg = msgs; (nu_ui2c->UI2C)->PROTSTS = (nu_ui2c->UI2C)->PROTSTS;//Clear status UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, UI2C_CTL_STA); ret = nu_ui2c_wait_ready_with_timeout(nu_ui2c); if (ret != RT_EOK) //for timeout condition { rt_set_errno(-RT_ETIMEOUT); return 0; } if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_STARIF_Msk) != UI2C_PROTSTS_STARIF_Msk)) /* Check Send START */ { i = 0; LOG_E("Send START Fail"); return i; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_STARIF_Msk); for (i = 0; i < num; i++) { msg = &msgs[i]; ignore_nack = msg->flags & RT_I2C_IGNORE_NACK; if (!(msg->flags & RT_I2C_NO_START)) { if (i) { UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, (UI2C_CTL_PTRG | UI2C_CTL_STA));/* Send repeat START */ ret = nu_ui2c_wait_ready_with_timeout(nu_ui2c); if (ret != RT_EOK) //for timeout condition break; if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_STARIF_Msk) != UI2C_PROTSTS_STARIF_Msk)) /* Check Send repeat START */ { i = 0; LOG_E("Send repeat START Fail"); break; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_STARIF_Msk); } if ((RT_EOK != nu_ui2c_send_address(nu_ui2c, msg)) && !ignore_nack) { i = 0; LOG_E("Send Address Fail"); break; } } if (nu_ui2c->msg[i].flags & RT_I2C_RD) /* Receive Bytes */ { rt_uint32_t do_rd_nack = (i == (num - 1)); for (cnt_data = 0 ; cnt_data < (nu_ui2c->msg[i].len) ; cnt_data++) { do_rd_nack += (cnt_data == (nu_ui2c->msg[i].len - 1)); /* NACK after last byte for hardware setting */ if (do_rd_nack == 2) { UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, UI2C_CTL_PTRG); } else { UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, (UI2C_CTL_PTRG | UI2C_CTL_AA)); } ret = nu_ui2c_wait_ready_with_timeout(nu_ui2c); if (ret != RT_EOK) //for timeout condition break; if (nu_ui2c->UI2C->PROTCTL & UI2C_CTL_AA) { if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_ACKIF_Msk) != UI2C_PROTSTS_ACKIF_Msk)) /*Master Receive Data ACK*/ { i = 0; break; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_ACKIF_Msk); } else { if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_NACKIF_Msk) != UI2C_PROTSTS_NACKIF_Msk)) /*Master Receive Data NACK*/ { i = 0; break; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_NACKIF_Msk); } nu_ui2c->msg[i].buf[cnt_data] = nu_ui2c->UI2C->RXDAT; } } else /* Send Bytes */ { for (cnt_data = 0 ; cnt_data < (nu_ui2c->msg[i].len) ; cnt_data++) { /* Send register number and MSB of data */ ret = nu_ui2c_send_data(nu_ui2c, (uint8_t)(nu_ui2c->msg[i].buf[cnt_data])); if (ret != RT_EOK) //for timeout condition break; if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_ACKIF_Msk) != UI2C_PROTSTS_ACKIF_Msk) && !ignore_nack ) /* Send data and get Ack */ { i = 0; break; } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_ACKIF_Msk); } } } UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, (UI2C_CTL_PTRG | UI2C_CTL_STO)); /* Send STOP signal */ ret = nu_ui2c_wait_ready_with_timeout(nu_ui2c); if (ret != RT_EOK) //for timeout condition { rt_set_errno(-RT_ETIMEOUT); return 0; } RT_ASSERT(((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_STORIF_Msk) == UI2C_PROTSTS_STORIF_Msk)); if (((UI2C_GET_PROT_STATUS(nu_ui2c->UI2C) & UI2C_PROTSTS_STORIF_Msk) != UI2C_PROTSTS_STORIF_Msk)) /* Bus Free*/ { i = 0; LOG_E("Send STOP Fail"); } UI2C_CLR_PROT_INT_FLAG(nu_ui2c->UI2C, UI2C_PROTSTS_STORIF_Msk); UI2C_SET_CONTROL_REG(nu_ui2c->UI2C, UI2C_CTL_PTRG); UI2C_DISABLE_10BIT_ADDR_MODE(nu_ui2c->UI2C); /*clear all sub modes like 10 bit mode*/ nu_ui2c->msg = RT_NULL; return i; } /* Public functions -------------------------------------------------------------*/ int rt_hw_ui2c_init(void) { int i; rt_err_t ret = RT_EOK; for (i = (UI2C_START + 1); i < UI2C_CNT; i++) { /* Reset and initial IP engine. */ UI2C_Close(nu_ui2c_arr[i].UI2C); UI2C_Open(nu_ui2c_arr[i].UI2C, 100000); nu_ui2c_arr[i].parent.ops = &nu_ui2c_ops; ret = rt_i2c_bus_device_register(&nu_ui2c_arr[i].parent, nu_ui2c_arr[i].device_name); RT_ASSERT(RT_EOK == ret); } return 0; } INIT_DEVICE_EXPORT(rt_hw_ui2c_init); #endif //#if defined(BSP_USING_UI2C)