m4_init/3rd/libopencm3/lib/efm32/common/dma_common.c

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2023-02-02 16:50:31 +00:00
/** @addtogroup dma_file DMA peripheral API
* @ingroup peripheral_apis
*/
/*
* This file is part of the libopencm3 project.
*
* Copyright (C) 2015 Kuldeep Singh Dhaka <kuldeepdhaka9@gmail.com>
*
* This library is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This library 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
#include <libopencm3/efm32/dma.h>
/**@{*/
#define CHANNEL_SUPPORT_LOOP(ch) (((ch) == DMA_CH0) || ((ch) == DMA_CH1))
/**
* Enable DMA with privileged access
* @see dma_enable_with_unprivileged_access()
*/
void dma_enable_with_privileged_access(void)
{
DMA_CONFIG = DMA_CONFIG_EN | DMA_CONFIG_CHPROT;
}
/**
* Enable DMA with un-privileged access
* @see dma_enable_with_privileged_access()
*/
void dma_enable_with_unprivileged_access(void)
{
DMA_CONFIG = DMA_CONFIG_EN;
}
/**
* same as @a dma_enable_with_unprivileged_access()
* @see dma_enable_with_unprivileged_access()
*/
void dma_enable(void)
{
dma_enable_with_unprivileged_access();
}
/**
* Disable DMA
*/
void dma_disable(void)
{
DMA_CONFIG = 0;
}
/**
* Set channel's descriptor address
* @param[in] desc_base Address of channel's descriptor address
* @note @a desc_base 8LSB's should be 0x00
*/
void dma_set_desc_address(uint32_t desc_base)
{
if (desc_base & 0xFF) {
return;
}
DMA_CTRLBASE = desc_base;
}
/**
* Get channel wait on request status flag
* @retval true if flag is set
* @retval false if flag is not set
*/
bool dma_get_wait_on_request_flag(enum dma_ch ch)
{
uint32_t mask = DMA_CHWAITSTATUS_CHxWAITSTATUS(ch);
return (DMA_CHWAITSTATUS & mask) != 0;
}
/**
* Generate a software request on channel
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_generate_software_request(enum dma_ch ch)
{
DMA_CHSWREQ = DMA_CHSWREQ_CHxSWREQ(ch);
}
/**
* Enable channel burst only
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_burst_only(enum dma_ch ch)
{
DMA_CHUSEBURSTS = DMA_CHUSEBURSTS_CHxSUSEBURSTS(ch);
}
/**
* Enable channel single and burst
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_single_and_burst(enum dma_ch ch)
{
DMA_CHUSEBURSTC = DMA_CHUSEBURSTC_CHxSUSEBURSTC(ch);
}
/**
* Enable channel peripherial request
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_periph_request(enum dma_ch ch)
{
DMA_CHREQMASKC = DMA_CHREQMASKC_CHxSREQMASKC(ch);
}
/**
* Disable channel peripherial request
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_disable_periph_request(enum dma_ch ch)
{
DMA_CHREQMASKS = DMA_CHREQMASKS_CHxSREQMASKS(ch);
}
/**
* Enable channel
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_channel(enum dma_ch ch)
{
DMA_CHENS = DMA_CHENS_CHxSENS(ch);
}
/**
* Disable channel
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_disable_channel(enum dma_ch ch)
{
DMA_CHENC = DMA_CHENC_CHxSENC(ch);
}
/**
* Disable channel alternate structure
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_disable_alternate_structure(enum dma_ch ch)
{
DMA_CHALTC = DMA_CHALTC_CHxSALTC(ch);
}
/**
* Enable channel alternate structure
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_alternate_structure(enum dma_ch ch)
{
DMA_CHALTS = DMA_CHALTS_CHxSALTS(ch);
}
/**
* Enable channel high priority
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_priority(enum dma_ch ch)
{
DMA_CHPRIS = DMA_CHPRIS_CHxSPRIC(ch);
}
/**
* Disable channel high priority
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_disable_priority(enum dma_ch ch)
{
DMA_CHPRIC = DMA_CHPRIC_CHxSPRIC(ch);
}
/**
* Get bus error flag
* @retval true if flag is set
* @retval false if flag is not set
*/
bool dma_get_bus_error_flag(void)
{
return (DMA_ERRORC & DMA_ERRORC_ERRORC) != 0;
}
/**
* Clear bus error flag
*/
void dma_clear_bus_error_flag(void)
{
DMA_ERRORC = DMA_ERRORC_ERRORC;
}
/**
* Get channel request flag
* @param[in] ch Channel (use DMA_CHx)
* @retval true if flag is set
* @retval false if flag is not set
*/
bool dma_get_request_flag(enum dma_ch ch)
{
uint32_t mask = DMA_CHREQSTATUS_CHxSREQSTATUS(ch);
return (DMA_CHREQSTATUS & mask) != 0;
}
/**
* Get bus error interrupt flag
* @retval true if flag is set
* @retval false if flag is not set
*/
bool dma_get_bus_error_interrupt_flag(void)
{
return (DMA_IF & DMA_IF_ERR) != 0;
}
/**
* Get channel done interrupt flag
* @param[in] ch Channel (use DMA_CHx)
* @retval true if flag is set
* @retval false if flag is not set
*
*/
bool dma_get_done_interrupt_flag(enum dma_ch ch)
{
return (DMA_IF & DMA_IF_CHxDONE(ch)) != 0;
}
/**
* Set bus error interrupt flag
*/
void dma_set_bus_error_interrupt_flag(void)
{
DMA_IFS = DMA_IFS_ERR;
}
/**
* Set channel done interrupt flag
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_set_done_interrupt_flag(enum dma_ch ch)
{
DMA_IFS = DMA_IFS_CHxDONE(ch);
}
/**
* Clear bus error interrupt flag
*/
void dma_clear_bus_error_interrupt_flag(void)
{
DMA_IFC = DMA_IFC_ERR;
}
/**
* Clear channel done interrupt flag
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_clear_done_interrupt_flag(enum dma_ch ch)
{
DMA_IFC = DMA_IFC_CHxDONE(ch);
}
/**
* Enable bus error interrupt
*/
void dma_enable_bus_error_interrupt(void)
{
DMA_IEN |= DMA_IEN_ERR;
}
/**
* Disable bus error interrupt
*/
void dma_disable_bus_error_interrupt(void)
{
DMA_IEN &= ~DMA_IEN_ERR;
}
/**
* Enable channel done interrupt
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_done_interrupt(enum dma_ch ch)
{
DMA_IEN |= DMA_IEN_CHxDONE(ch);
}
/**
* Disable channel done interrupt
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_disable_done_interrupt(enum dma_ch ch)
{
DMA_IEN &= ~DMA_IEN_CHxDONE(ch);
}
/**
* Set channel source
* @param[in] ch Channel (use DMA_CHx)
* @param[in] source Source (use DMA_CH_CTRL_SOURCESEL_*)
*/
void dma_set_source(enum dma_ch ch, uint32_t source)
{
DMA_CHx_CTRL(ch) = (DMA_CHx_CTRL(ch) & ~DMA_CH_CTRL_SOURCESEL_MASK)
| source;
}
/**
* Set channel source signal
* @param[in] ch Channel (use DMA_CHx)
* @param[in] signal Signal (use DMA_CH_CTRL_SIGSEL_*)
*/
void dma_set_signal(enum dma_ch ch, uint32_t signal)
{
DMA_CHx_CTRL(ch) = (DMA_CHx_CTRL(ch) & ~DMA_CH_CTRL_SIGSEL_MASK)
| signal;
}
/**
* Reset channel
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_channel_reset(enum dma_ch ch)
{
/* Disable channel */
DMA_CHENC = DMA_CHENC_CHxSENC(ch);
/* reset channel alternate desc */
DMA_CHALTC = DMA_CHALTC_CHxSALTC(ch);
/* reset channel priority */
DMA_CHPRIC = DMA_CHPRIC_CHxSPRIC(ch);
/* clear channel interrupt */
DMA_IFC = DMA_IFC_CHxDONE(ch);
/* disable loop */
if (CHANNEL_SUPPORT_LOOP(ch)) {
DMA_LOOPx(ch) = 0;
}
/* reset signal {source, select} */
DMA_CHx_CTRL(ch) = 0;
}
/**
* Set channel loop width to ( @a count + 1)
* @param[in] ch Channel (use DMA_CHx)
* @param[in] count Count
* @note @a count is expected to be equal to (n_minus_1 + 1)
*/
void dma_set_loop_count(enum dma_ch ch, uint16_t count)
{
if (!CHANNEL_SUPPORT_LOOP(ch)) {
return;
}
DMA_LOOPx(ch) = (DMA_LOOPx(ch) & ~DMA_LOOP_WIDTH_MASK)
| DMA_LOOP_WIDTH(count - 1);
}
/**
* Enable channel loop
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_enable_loop(enum dma_ch ch)
{
if (!CHANNEL_SUPPORT_LOOP(ch)) {
return;
}
DMA_LOOPx(ch) |= DMA_LOOP_EN;
}
/**
* Disable channel loop
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_disable_loop(enum dma_ch ch)
{
if (!CHANNEL_SUPPORT_LOOP(ch)) {
return;
}
DMA_LOOPx(ch) &= ~DMA_LOOP_EN;
}
/**
* Set desination size
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] size Size (use DMA_MEM_*)
*/
void dma_desc_set_dest_size(uint32_t desc_base, enum dma_ch ch,
enum dma_mem size)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
cfg &= ~DMA_DESC_CH_CFG_DEST_SIZE_MASK;
cfg |= DMA_DESC_CH_CFG_DEST_SIZE(size);
DMA_DESC_CHx_CFG(desc_base, ch) = cfg;
}
/**
* Set destination increment
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] inc Increment (use DMA_MEM_*)
*/
void dma_desc_set_dest_inc(uint32_t desc_base, enum dma_ch ch,
enum dma_mem inc)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
cfg &= ~DMA_DESC_CH_CFG_DEST_INC_MASK;
cfg |= DMA_DESC_CH_CFG_DEST_INC(inc);
DMA_DESC_CHx_CFG(desc_base, ch) = cfg;
}
/**
* Set source size
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] size Size (use DMA_MEM_*)
*/
void dma_desc_set_src_size(uint32_t desc_base, enum dma_ch ch,
enum dma_mem size)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
cfg &= ~DMA_DESC_CH_CFG_SRC_SIZE_MASK;
cfg |= DMA_DESC_CH_CFG_SRC_SIZE(size);
DMA_DESC_CHx_CFG(desc_base, ch) = cfg;
}
/**
* Set source increment
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] inc Increment (use DMA_MEM_*)
*/
void dma_desc_set_src_inc(uint32_t desc_base, enum dma_ch ch, enum dma_mem inc)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
cfg &= ~DMA_DESC_CH_CFG_SRC_INC_MASK;
cfg |= DMA_DESC_CH_CFG_SRC_INC(inc);
DMA_DESC_CHx_CFG(desc_base, ch) = cfg;
}
/**
* Set R Power
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] r_power R Power (Use DMA_R_POWER_*)
*/
void dma_desc_set_r_power(uint32_t desc_base, enum dma_ch ch,
enum dma_r_power r_power)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
cfg &= ~DMA_DESC_CH_CFG_R_POWER_MASK;
cfg |= DMA_DESC_CH_CFG_R_POWER(r_power);
DMA_DESC_CHx_CFG(desc_base, ch) = cfg;
}
/**
* Enable next useburst
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_desc_enable_next_useburst(uint32_t desc_base, enum dma_ch ch)
{
DMA_DESC_CHx_CFG(desc_base, ch) &= ~DMA_DESC_CH_CFG_NEXT_USEBURST;
}
/**
* Disable next useburst
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
*/
void dma_desc_disable_next_useburst(uint32_t desc_base, enum dma_ch ch)
{
DMA_DESC_CHx_CFG(desc_base, ch) |= DMA_DESC_CH_CFG_NEXT_USEBURST;
}
/**
* Set number (count) of transfer to be performed
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] count Count
*/
void dma_desc_set_count(uint32_t desc_base, enum dma_ch ch, uint16_t count)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
cfg &= ~DMA_DESC_CH_CFG_N_MINUS_1_MASK;
cfg |= DMA_DESC_CH_CFG_N_MINUS_1(count - 1);
DMA_DESC_CHx_CFG(desc_base, ch) = cfg;
}
/**
* Store user data field in channel descriptor
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] user_data User data
*/
void dma_desc_set_user_data(uint32_t desc_base, enum dma_ch ch,
uint32_t user_data)
{
DMA_DESC_CHx_USER_DATA(desc_base, ch) = user_data;
}
/**
* Extract user data field from channel descriptor
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @return user data
*/
uint32_t dma_desc_get_user_data(uint32_t desc_base, enum dma_ch ch)
{
return DMA_DESC_CHx_USER_DATA(desc_base, ch);
}
/**
* Calculate end from start address.
*
* @details
* See "8.4.3.4 Address calculation" p68, EFM32LG-RM "d0183_Rev1.10"
*
* @param[in] start address to start of memory
* @param[in] inc Increment (use DMA_MEM_*)
* @param[in] n_minus_1 the number of transfers minus 1 (ie count - 1)
* @return the calculate end address
* @note can be used to calculate {source, destination} end address
*/
static inline uint32_t dma_calc_end_from_start(uint32_t start, uint8_t inc,
uint16_t n_minus_1)
{
switch (inc) {
case DMA_MEM_BYTE:
return start + n_minus_1;
case DMA_MEM_HALF_WORD:
return start + (n_minus_1 << 1);
case DMA_MEM_WORD:
return start + (n_minus_1 << 2);
case DMA_MEM_NONE:
return start;
}
return 0;
}
/**
* Assign Source address to DMA Channel
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] src_start Source data start address
* this function uses @ref dma_calc_end_from_start to calculate the
* src data end address from @a src_start
* @note dma_desc_set_count() should be called first.
* @note dma_desc_set_src_inc() should be called first.
*/
void dma_desc_set_src_address(uint32_t desc_base, enum dma_ch ch,
uint32_t src_start)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
uint8_t inc = (cfg & DMA_DESC_CH_CFG_SRC_INC_MASK)
>> DMA_DESC_CH_CFG_SRC_INC_SHIFT;
uint16_t n_minus_1 = (cfg & DMA_DESC_CH_CFG_N_MINUS_1_MASK)
>> DMA_DESC_CH_CFG_N_MINUS_1_SHIFT;
uint32_t src_end = dma_calc_end_from_start(src_start, inc, n_minus_1);
DMA_DESC_CHx_SRC_DATA_END_PTR(desc_base, ch) = src_end;
}
/**
* Assign Destination address to DMA Channel
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] dest_start Destination data start address
* this function uses @ref dma_calc_end_from_start to calculate the
* dest data end address from @a dest_start
* @note dma_desc_set_count() should be called first.
* @note dma_desc_set_dest_inc() should be called first.
*/
void dma_desc_set_dest_address(uint32_t desc_base, enum dma_ch ch,
uint32_t dest_start)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
uint8_t inc = (cfg & DMA_DESC_CH_CFG_DEST_INC_MASK)
>> DMA_DESC_CH_CFG_DEST_INC_SHIFT;
uint16_t n_minus_1 = (cfg & DMA_DESC_CH_CFG_N_MINUS_1_MASK)
>> DMA_DESC_CH_CFG_N_MINUS_1_SHIFT;
uint32_t dest_end = dma_calc_end_from_start(dest_start, inc,
n_minus_1);
DMA_DESC_CHx_DEST_DATA_END_PTR(desc_base, ch) = dest_end;
}
/**
* Set the channel mode ("Cycle control")
* @param[in] desc_base start of memory location that contain channel
* descriptor
* @param[in] ch Channel (use DMA_CHx)
* @param[in] mode Mode (use DMA_MODE_*)
*/
void dma_desc_set_mode(uint32_t desc_base, enum dma_ch ch, enum dma_mode mode)
{
uint32_t cfg = DMA_DESC_CHx_CFG(desc_base, ch);
cfg &= ~DMA_DESC_CH_CFG_CYCLE_CTRL_MASK;
cfg |= DMA_DESC_CH_CFG_CYCLE_CTRL(mode);
DMA_DESC_CHx_CFG(desc_base, ch) = cfg;
}
/**@}*/