Implement the SPI driver using DMA.

This commit is contained in:
JF 2020-01-19 19:47:49 +01:00
parent 9dc4e32e36
commit b4bd41cd56
9 changed files with 143 additions and 60 deletions

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@ -1,5 +1,5 @@
cmake_minimum_required(VERSION 3.10) cmake_minimum_required(VERSION 3.10)
project(pinetime VERSION 0.2.0 LANGUAGES C CXX ASM) project(pinetime VERSION 0.2.99 LANGUAGES C CXX ASM)
set(NRF_TARGET "nrf52") set(NRF_TARGET "nrf52")

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@ -11,11 +11,21 @@ void Gfx::Init() {
} }
void Gfx::ClearScreen() { void Gfx::ClearScreen() {
lcd.FillRectangle(0, 0, width, height, 0x0000); SetBackgroundColor(0x0000);
lcd.BeginDrawBuffer(0, 0, width, height);
for(int i = 0; i < height; i++) {
lcd.NextDrawBuffer(reinterpret_cast<const uint8_t *>(buffer), width * 2);
}
lcd.EndDrawBuffer();
} }
void Gfx::FillRectangle(uint8_t x, uint8_t y, uint8_t width, uint8_t height, uint16_t color) { void Gfx::FillRectangle(uint8_t x, uint8_t y, uint8_t width, uint8_t height, uint16_t color) {
lcd.FillRectangle(x, y, width, height, color); SetBackgroundColor(color);
lcd.BeginDrawBuffer(0, 0, width, height);
for(int i = 0; i < height; i++) {
lcd.NextDrawBuffer(reinterpret_cast<const uint8_t *>(buffer), width * 2);
}
lcd.EndDrawBuffer();
} }
void Gfx::DrawString(uint8_t x, uint8_t y, uint16_t color, const char *text, const FONT_INFO *p_font, bool wrap) { void Gfx::DrawString(uint8_t x, uint8_t y, uint16_t color, const char *text, const FONT_INFO *p_font, bool wrap) {
@ -70,15 +80,15 @@ void Gfx::DrawChar(const FONT_INFO *font, uint8_t c, uint8_t *x, uint8_t y, uint
for (uint16_t i = 0; i < font->height; i++) { for (uint16_t i = 0; i < font->height; i++) {
for (uint16_t j = 0; j < bytes_in_line; j++) { for (uint16_t j = 0; j < bytes_in_line; j++) {
for (uint8_t k = 0; k < 8; k++) { for (uint8_t k = 0; k < 8; k++) {
if ((1 << (7 - k)) & if ((1 << (7 - k)) & font->data[font->charInfo[char_idx].offset + i * bytes_in_line + j]) {
font->data[font->charInfo[char_idx].offset + i * bytes_in_line + j]) { buffer[(j*8)+k] = color;
lcd.NextDrawBuffer(reinterpret_cast<uint8_t *>(&color), 2);
} }
else { else {
lcd.NextDrawBuffer(reinterpret_cast<uint8_t *>(&bg), 2); buffer[(j*8)+k] = bg;
} }
} }
} }
lcd.NextDrawBuffer(reinterpret_cast<uint8_t *>(&buffer), bytes_in_line*8*2);
} }
lcd.EndDrawBuffer(); lcd.EndDrawBuffer();
*x += font->charInfo[char_idx].widthBits + font->spacePixels; *x += font->charInfo[char_idx].widthBits + font->spacePixels;
@ -96,4 +106,10 @@ void Gfx::Wakeup() {
lcd.Wakeup(); lcd.Wakeup();
} }
void Gfx::SetBackgroundColor(uint16_t color) {
for(int i = 0; i < width; i++) {
buffer[i] = color;
}
}

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@ -21,10 +21,14 @@ namespace Pinetime {
void Wakeup(); void Wakeup();
private: private:
static constexpr uint8_t width = 240;
static constexpr uint8_t height = 240;
uint16_t buffer[width]; // 1 line buffer
Drivers::St7789& lcd; Drivers::St7789& lcd;
const uint8_t width = 240;
const uint8_t height = 240;
void pixel_draw(uint8_t x, uint8_t y, uint16_t color); void pixel_draw(uint8_t x, uint8_t y, uint16_t color);
void SetBackgroundColor(uint16_t color);
}; };
} }
} }

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@ -31,8 +31,8 @@ DisplayApp::DisplayApp(Controllers::Battery &batteryController,
batteryController{batteryController}, batteryController{batteryController},
bleController{bleController}, bleController{bleController},
dateTimeController{dateTimeController}, dateTimeController{dateTimeController},
clockScreen{*(gfx.get())}/*, clockScreen{*(gfx.get())},
messageScreen{*(gfx.get())}*/ { messageScreen{*(gfx.get())} {
msgQueue = xQueueCreate(queueSize, itemSize); msgQueue = xQueueCreate(queueSize, itemSize);
currentScreen = &clockScreen; currentScreen = &clockScreen;
} }
@ -121,16 +121,20 @@ void DisplayApp::Refresh() {
void DisplayApp::RunningState() { void DisplayApp::RunningState() {
clockScreen.SetCurrentDateTime(dateTimeController.CurrentDateTime()); clockScreen.SetCurrentDateTime(dateTimeController.CurrentDateTime());
// if(currentScreen != nullptr) {
// currentScreen->Refresh(false);
// }
if(currentScreen != nullptr) { if(currentScreen != nullptr) {
currentScreen->Refresh(false); currentScreen->Refresh(true);
} }
// if(screenState) { if(screenState) {
// currentScreen = &clockScreen; currentScreen = &clockScreen;
// } else { } else {
// currentScreen = &messageScreen; currentScreen = &messageScreen;
// } }
// screenState = !screenState; screenState = !screenState;
} }
@ -153,7 +157,7 @@ void DisplayApp::OnTouchEvent() {
auto info = touchPanel.GetTouchInfo(); auto info = touchPanel.GetTouchInfo();
if(info.isTouch) { if(info.isTouch) {
lcd->FillRectangle(info.x-10, info.y-10, 20,20, pointColor); gfx->FillRectangle(info.x-10, info.y-10, 20,20, pointColor);
pointColor+=10; pointColor+=10;
} }
} }

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@ -57,8 +57,8 @@ namespace Pinetime {
Screens::Clock clockScreen; Screens::Clock clockScreen;
Screens::Screen* currentScreen = nullptr; Screens::Screen* currentScreen = nullptr;
// Screens::Message messageScreen; Screens::Message messageScreen;
// bool screenState = false; bool screenState = false;
static constexpr uint8_t pinSpiSck = 2; static constexpr uint8_t pinSpiSck = 2;
static constexpr uint8_t pinSpiMosi = 3; static constexpr uint8_t pinSpiMosi = 3;
static constexpr uint8_t pinSpiMiso = 4; static constexpr uint8_t pinSpiMiso = 4;

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@ -1,6 +1,7 @@
#include <hal/nrf_gpio.h> #include <hal/nrf_gpio.h>
#include <hal/nrf_spim.h>
#include "SpiMaster.h" #include "SpiMaster.h"
#include <algorithm>
using namespace Pinetime::Drivers; using namespace Pinetime::Drivers;
SpiMaster::SpiMaster(const SpiMaster::SpiModule spi, const SpiMaster::Parameters &params) : SpiMaster::SpiMaster(const SpiMaster::SpiModule spi, const SpiMaster::Parameters &params) :
@ -9,22 +10,24 @@ SpiMaster::SpiMaster(const SpiMaster::SpiModule spi, const SpiMaster::Parameters
bool SpiMaster::Init() { bool SpiMaster::Init() {
/* Configure GPIO pins used for pselsck, pselmosi, pselmiso and pselss for SPI0 */ /* Configure GPIO pins used for pselsck, pselmosi, pselmiso and pselss for SPI0 */
nrf_gpio_pin_set(params.pinSCK);
nrf_gpio_cfg_output(params.pinSCK); nrf_gpio_cfg_output(params.pinSCK);
nrf_gpio_pin_clear(params.pinMOSI);
nrf_gpio_cfg_output(params.pinMOSI); nrf_gpio_cfg_output(params.pinMOSI);
nrf_gpio_cfg_input(params.pinMISO, NRF_GPIO_PIN_NOPULL); nrf_gpio_cfg_input(params.pinMISO, NRF_GPIO_PIN_NOPULL);
nrf_gpio_cfg_output(params.pinCSN); nrf_gpio_cfg_output(params.pinCSN);
pinCsn = params.pinCSN; pinCsn = params.pinCSN;
switch(spi) { switch(spi) {
case SpiModule::SPI0: spiBaseAddress = NRF_SPI0; break; case SpiModule::SPI0: spiBaseAddress = NRF_SPIM0; break;
case SpiModule::SPI1: spiBaseAddress = NRF_SPI1; break; case SpiModule::SPI1: spiBaseAddress = NRF_SPIM1; break;
default: return false; default: return false;
} }
/* Configure pins, frequency and mode */ /* Configure pins, frequency and mode */
spiBaseAddress->PSELSCK = params.pinSCK; NRF_SPIM0->PSELSCK = params.pinSCK;
spiBaseAddress->PSELMOSI = params.pinMOSI; NRF_SPIM0->PSELMOSI = params.pinMOSI;
spiBaseAddress->PSELMISO = params.pinMISO; NRF_SPIM0->PSELMISO = params.pinMISO;
nrf_gpio_pin_set(pinCsn); /* disable Set slave select (inactive high) */ nrf_gpio_pin_set(pinCsn); /* disable Set slave select (inactive high) */
uint32_t frequency; uint32_t frequency;
@ -32,7 +35,7 @@ bool SpiMaster::Init() {
case Frequencies::Freq8Mhz: frequency = 0x80000000; break; case Frequencies::Freq8Mhz: frequency = 0x80000000; break;
default: return false; default: return false;
} }
spiBaseAddress->FREQUENCY = frequency; NRF_SPIM0->FREQUENCY = frequency;
uint32_t regConfig = 0; uint32_t regConfig = 0;
switch(params.bitOrder) { switch(params.bitOrder) {
@ -48,14 +51,21 @@ bool SpiMaster::Init() {
default: return false; default: return false;
} }
spiBaseAddress->CONFIG = regConfig; setup_workaround_for_ftpan_58(NRF_SPIM0, 0, 0);
spiBaseAddress->EVENTS_READY = 0;
spiBaseAddress->ENABLE = (SPI_ENABLE_ENABLE_Enabled << SPI_ENABLE_ENABLE_Pos); NRF_SPIM0->CONFIG = regConfig;
NRF_SPIM0->EVENTS_ENDRX = 0;
NRF_SPIM0->EVENTS_ENDTX = 0;
NRF_SPIM0->EVENTS_END = 0;
NRF_SPI0->EVENTS_READY = 0;
NRF_SPI0->ENABLE = (SPI_ENABLE_ENABLE_Enabled << SPI_ENABLE_ENABLE_Pos);
NRF_SPIM0->ENABLE = (SPIM_ENABLE_ENABLE_Enabled << SPIM_ENABLE_ENABLE_Pos);
return true; return true;
} }
bool SpiMaster::Write(const uint8_t *data, size_t size) { bool SpiMaster::WriteFast(const uint8_t *data, size_t size) {
auto spi = reinterpret_cast<NRF_SPI_Type*>(spiBaseAddress);
volatile uint32_t dummyread; volatile uint32_t dummyread;
if(data == nullptr) return false; if(data == nullptr) return false;
@ -63,27 +73,27 @@ bool SpiMaster::Write(const uint8_t *data, size_t size) {
/* enable slave (slave select active low) */ /* enable slave (slave select active low) */
nrf_gpio_pin_clear(pinCsn); nrf_gpio_pin_clear(pinCsn);
spiBaseAddress->EVENTS_READY = 0; NRF_SPI0->EVENTS_READY = 0;
spiBaseAddress->TXD = (uint32_t)*data++; NRF_SPI0->TXD = (uint32_t)*data++;
while(--size) while(--size)
{ {
spiBaseAddress->TXD = (uint32_t)*data++; NRF_SPI0->TXD = (uint32_t)*data++;
/* Wait for the transaction complete or timeout (about 10ms - 20 ms) */ /* Wait for the transaction complete or timeout (about 10ms - 20 ms) */
while (spiBaseAddress->EVENTS_READY == 0); while (NRF_SPI0->EVENTS_READY == 0);
/* clear the event to be ready to receive next messages */ /* clear the event to be ready to receive next messages */
spiBaseAddress->EVENTS_READY = 0; NRF_SPI0->EVENTS_READY = 0;
dummyread = spiBaseAddress->RXD; dummyread = NRF_SPI0->RXD;
} }
/* Wait for the transaction complete or timeout (about 10ms - 20 ms) */ /* Wait for the transaction complete or timeout (about 10ms - 20 ms) */
while (spiBaseAddress->EVENTS_READY == 0); while (NRF_SPI0->EVENTS_READY == 0);
dummyread = spiBaseAddress->RXD; dummyread = NRF_SPI0->RXD;
/* disable slave (slave select active low) */ /* disable slave (slave select active low) */
nrf_gpio_pin_set(pinCsn); nrf_gpio_pin_set(pinCsn);
@ -91,9 +101,68 @@ bool SpiMaster::Write(const uint8_t *data, size_t size) {
return true; return true;
} }
void SpiMaster::setup_workaround_for_ftpan_58(NRF_SPIM_Type *spim, uint32_t ppi_channel, uint32_t gpiote_channel) {
// Create an event when SCK toggles.
NRF_GPIOTE->CONFIG[gpiote_channel] = (GPIOTE_CONFIG_MODE_Event << GPIOTE_CONFIG_MODE_Pos) |
(spim->PSEL.SCK << GPIOTE_CONFIG_PSEL_Pos) |
(GPIOTE_CONFIG_POLARITY_Toggle << GPIOTE_CONFIG_POLARITY_Pos);
// Stop the spim instance when SCK toggles.
NRF_PPI->CH[ppi_channel].EEP = (uint32_t) &NRF_GPIOTE->EVENTS_IN[gpiote_channel];
NRF_PPI->CH[ppi_channel].TEP = (uint32_t) &spim->TASKS_STOP;
NRF_PPI->CHENSET = 1U << ppi_channel;
}
bool SpiMaster::Write(const uint8_t *data, size_t size) {
if(data == nullptr) return false;
if(size == 1) {
setup_workaround_for_ftpan_58(NRF_SPIM0, 0,0);
} else {
NRF_GPIOTE->CONFIG[0] = 0;
NRF_PPI->CH[0].EEP = 0;
NRF_PPI->CH[0].TEP = 0;
NRF_PPI->CHENSET = 0;
}
nrf_gpio_pin_clear(pinCsn);
auto spim = reinterpret_cast<NRF_SPIM_Type *>(spiBaseAddress);
while(size > 0) {
auto currentSize = std::min((size_t)255, size);
size -= currentSize;
NRF_SPIM0->TXD.PTR = (uint32_t) data;
NRF_SPIM0->TXD.MAXCNT = currentSize;
NRF_SPIM0->TXD.LIST = 0;
NRF_SPIM0->RXD.PTR = (uint32_t) 0;
NRF_SPIM0->RXD.MAXCNT = 0;
NRF_SPIM0->RXD.LIST = 0;
NRF_SPIM0->EVENTS_END = 0;
NRF_SPIM0->TASKS_START = 1;
while (NRF_SPIM0->EVENTS_END == 0);
}
nrf_gpio_pin_set(pinCsn);
return true;
}
bool SpiMaster::GetStatusEnd() {
return (bool)*(volatile uint32_t *)((uint8_t *)spiBaseAddress + (uint32_t)NRF_SPIM_EVENT_END);
}
bool SpiMaster::GetStatusStarted() {
return (bool)*(volatile uint32_t *)((uint8_t *)spiBaseAddress + (uint32_t)NRF_SPIM_EVENT_STARTED);
}
void SpiMaster::Sleep() { void SpiMaster::Sleep() {
while(NRF_SPI0->ENABLE != 0) { while(NRF_SPIM0->ENABLE != 0) {
NRF_SPI0->ENABLE = (SPIM_ENABLE_ENABLE_Disabled << SPIM_ENABLE_ENABLE_Pos); NRF_SPIM0->ENABLE = (SPIM_ENABLE_ENABLE_Disabled << SPIM_ENABLE_ENABLE_Pos);
} }
nrf_gpio_cfg_default(params.pinSCK); nrf_gpio_cfg_default(params.pinSCK);
nrf_gpio_cfg_default(params.pinMOSI); nrf_gpio_cfg_default(params.pinMOSI);

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@ -24,12 +24,17 @@ namespace Pinetime {
SpiMaster(const SpiModule spi, const Parameters& params); SpiMaster(const SpiModule spi, const Parameters& params);
bool Init(); bool Init();
bool Write(const uint8_t* data, size_t size); bool Write(const uint8_t* data, size_t size);
bool WriteFast(const uint8_t* data, size_t size);
void setup_workaround_for_ftpan_58(NRF_SPIM_Type *spim, uint32_t ppi_channel, uint32_t gpiote_channel);
void Sleep(); void Sleep();
void Wakeup(); void Wakeup();
bool GetStatusEnd();
bool GetStatusStarted();
private: private:
NRF_SPI_Type * spiBaseAddress; NRF_SPIM_Type * spiBaseAddress;
uint8_t pinCsn; uint8_t pinCsn;
SpiMaster::SpiModule spi; SpiMaster::SpiModule spi;

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@ -95,20 +95,6 @@ void St7789::DisplayOn() {
WriteCommand(static_cast<uint8_t>(Commands::DisplayOn)); WriteCommand(static_cast<uint8_t>(Commands::DisplayOn));
} }
void St7789::FillRectangle(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color) {
BeginDrawBuffer(x, y, width, height);
uint32_t c = color + (color << 16);
uint8_t w = width/2;
for(y=height+ST7789_ROW_OFFSET; y>ST7789_ROW_OFFSET; y--) {
for(x=w; x>0; x--) {
NextDrawBuffer(reinterpret_cast<const uint8_t *>(&c), 4);
}
}
EndDrawBuffer();
}
void St7789::SetAddrWindow(uint16_t x0, uint16_t y0, uint16_t x1, uint16_t y1) { void St7789::SetAddrWindow(uint16_t x0, uint16_t y0, uint16_t x1, uint16_t y1) {
WriteCommand(static_cast<uint8_t>(Commands::ColumnAddressSet)); WriteCommand(static_cast<uint8_t>(Commands::ColumnAddressSet));
WriteData(x0 >> 8); WriteData(x0 >> 8);
@ -160,7 +146,7 @@ void St7789::EndDrawBuffer() {
} }
void St7789::NextDrawBuffer(const uint8_t *data, size_t size) { void St7789::NextDrawBuffer(const uint8_t *data, size_t size) {
spi.Write(data, size); WriteSpi(data, size);
} }
void St7789::HardwareReset() { void St7789::HardwareReset() {

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@ -10,7 +10,6 @@ namespace Pinetime {
void Init(); void Init();
void Uninit(); void Uninit();
void DrawPixel(uint16_t x, uint16_t y, uint32_t color); void DrawPixel(uint16_t x, uint16_t y, uint32_t color);
void FillRectangle(uint16_t x, uint16_t y, uint16_t width, uint16_t height, uint16_t color);
void BeginDrawBuffer(uint16_t x, uint16_t y, uint16_t width, uint16_t height); void BeginDrawBuffer(uint16_t x, uint16_t y, uint16_t width, uint16_t height);
void NextDrawBuffer(const uint8_t* data, size_t size); void NextDrawBuffer(const uint8_t* data, size_t size);