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Make more bulk writes asynchronous where possible, begin MSP impl.

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This commit is contained in:
Nicholas Sherlock 2015-01-30 13:45:05 +13:00
parent 3888427558
commit 3c74ac2c91
3 changed files with 185 additions and 51 deletions
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119
src/main/io/flashfs.c
View file

@ -112,33 +112,43 @@ static uint32_t flashfsTransmitBufferUsed()
return FLASHFS_WRITE_BUFFER_SIZE - bufferTail + bufferHead; return FLASHFS_WRITE_BUFFER_SIZE - bufferTail + bufferHead;
} }
static uint32_t flashfsTransmitBufferRemaining()
{
return FLASHFS_WRITE_BUFFER_USABLE - flashfsTransmitBufferUsed();
}
/** /**
* Waits for the flash device to be ready to accept writes, then write the given buffers to flash sequentially. * Write the given buffers to flash sequentially at the current tail address, advancing the tail address after
* each write.
* *
* Advances the address of the beginning of the supplied buffers and reduces the size of the buffers according to how * In synchronous mode, waits for the flash to become ready before writing so that every byte requested can be written.
* many bytes get written. *
* In asynchronous mode, if the flash is busy, then the write is aborted and the routine returns immediately.
* In this case the returned number of bytes written will be less than the total amount requested.
*
* Modifies the supplied buffer pointers and sizes to reflect how many bytes remain in each of them.
* *
* bufferCount: the number of buffers provided * bufferCount: the number of buffers provided
* buffers: an array of pointers to the beginning of buffers * buffers: an array of pointers to the beginning of buffers
* bufferSizes: an array of the sizes of those buffers * bufferSizes: an array of the sizes of those buffers
* sync: true if we should wait for the device to be idle before writes, otherwise if the device is busy the
* write will be aborted and this routine will return immediately.
*
* Returns the number of bytes written
*/ */
static void flashfsWriteBuffers(uint8_t const **buffers, uint32_t *bufferSizes, int bufferCount) static uint32_t flashfsWriteBuffers(uint8_t const **buffers, uint32_t *bufferSizes, int bufferCount, bool sync)
{ {
const flashGeometry_t *geometry = m25p16_getGeometry(); const flashGeometry_t *geometry = m25p16_getGeometry();
uint32_t bytesTotalRemaining = 0; uint32_t bytesTotal = 0;
int i; int i;
for (i = 0; i < bufferCount; i++) { for (i = 0; i < bufferCount; i++) {
bytesTotalRemaining += bufferSizes[i]; bytesTotal += bufferSizes[i];
} }
if (!sync && !m25p16_isReady()) {
return 0;
}
uint32_t bytesTotalRemaining = bytesTotal;
while (bytesTotalRemaining > 0) { while (bytesTotalRemaining > 0) {
uint32_t bytesTotalThisIteration; uint32_t bytesTotalThisIteration;
uint32_t bytesRemainThisIteration; uint32_t bytesRemainThisIteration;
@ -186,7 +196,16 @@ static void flashfsWriteBuffers(uint8_t const **buffers, uint32_t *bufferSizes,
// Advance the cursor in the file system to match the bytes we wrote // Advance the cursor in the file system to match the bytes we wrote
flashfsSetTailAddress(tailAddress + bytesTotalThisIteration); flashfsSetTailAddress(tailAddress + bytesTotalThisIteration);
/*
* We'll have to wait for that write to complete before we can issue the next one, so if
* the user requested asynchronous writes, break now.
*/
if (!sync)
break;
} }
return bytesTotal - bytesTotalRemaining;
} }
/* /*
@ -209,6 +228,22 @@ static void flashfsGetDirtyDataBuffers(uint8_t const *buffers[], uint32_t buffer
} }
} }
/**
* Called after bytes have been written from the buffer to advance the position of the tail by the given amount.
*/
static void flashfsAdvanceTailInBuffer(uint32_t delta)
{
bufferTail += delta;
if (bufferTail > FLASHFS_WRITE_BUFFER_SIZE) {
bufferTail -= FLASHFS_WRITE_BUFFER_SIZE;
}
if (bufferTail == bufferHead) {
flashfsClearBuffer();
}
}
/** /**
* If the flash is ready to accept writes, flush the buffer to it, otherwise schedule * If the flash is ready to accept writes, flush the buffer to it, otherwise schedule
* a flush for later and return immediately. * a flush for later and return immediately.
@ -220,19 +255,15 @@ void flashfsFlushAsync()
return; // Nothing to flush return; // Nothing to flush
} }
if (m25p16_isReady()) {
uint8_t const * buffers[2]; uint8_t const * buffers[2];
uint32_t bufferSizes[2]; uint32_t bufferSizes[2];
uint32_t bytesWritten;
flashfsGetDirtyDataBuffers(buffers, bufferSizes); flashfsGetDirtyDataBuffers(buffers, bufferSizes);
flashfsWriteBuffers(buffers, bufferSizes, 2); bytesWritten = flashfsWriteBuffers(buffers, bufferSizes, 2, false);
flashfsAdvanceTailInBuffer(bytesWritten);
flashfsClearBuffer(); shouldFlush = bufferTail != bufferHead;
shouldFlush = false;
} else {
shouldFlush = true;
}
} }
/** /**
@ -248,9 +279,14 @@ void flashfsFlushSync()
return; // Nothing to write return; // Nothing to write
} }
m25p16_waitForReady(10); //TODO caller should customize timeout uint8_t const * buffers[2];
uint32_t bufferSizes[2];
flashfsFlushAsync(); flashfsGetDirtyDataBuffers(buffers, bufferSizes);
flashfsWriteBuffers(buffers, bufferSizes, 2, true);
// We've written our entire buffer now:
flashfsClearBuffer();
} }
void flashfsSeekAbs(uint32_t offset) void flashfsSeekAbs(uint32_t offset)
@ -282,8 +318,6 @@ void flashfsWriteByte(uint8_t byte)
void flashfsWrite(const uint8_t *data, unsigned int len) void flashfsWrite(const uint8_t *data, unsigned int len)
{ {
// Would writing this cause our buffer to reach the flush threshold? If so just write it now
if (shouldFlush || len + flashfsTransmitBufferUsed() >= FLASHFS_WRITE_BUFFER_AUTO_FLUSH_LEN) {
uint8_t const * buffers[3]; uint8_t const * buffers[3];
uint32_t bufferSizes[3]; uint32_t bufferSizes[3];
@ -294,15 +328,48 @@ void flashfsWrite(const uint8_t *data, unsigned int len)
buffers[2] = data; buffers[2] = data;
bufferSizes[2] = len; bufferSizes[2] = len;
// Write all three buffers through to the flash /*
flashfsWriteBuffers(buffers, bufferSizes, 3); * Would writing this data to our buffer cause our buffer to reach the flush threshold? If so try to write through
* to the flash now
*/
if (shouldFlush || bufferSizes[0] + bufferSizes[1] + bufferSizes[2] >= FLASHFS_WRITE_BUFFER_AUTO_FLUSH_LEN) {
uint32_t bytesWritten;
// And now our buffer is empty // Attempt to write all three buffers through to the flash asynchronously
bytesWritten = flashfsWriteBuffers(buffers, bufferSizes, 3, false);
if (bufferSizes[0] == 0 && bufferSizes[1] == 0) {
// We wrote all the data that was previously buffered
flashfsClearBuffer();
if (bufferSizes[2] == 0) {
// And we wrote all the data the user supplied! Job done!
return;
}
} else {
// We only wrote a portion of the old data, so advance the tail to remove the bytes we did write from the buffer
flashfsAdvanceTailInBuffer(bytesWritten);
}
if (bufferSizes[0] + bufferSizes[1] + bufferSizes[2] > FLASHFS_WRITE_BUFFER_USABLE) {
/*
* We don't have enough room to store the new data in the buffer without blocking waiting for the flash to
* become ready, so we're forced to write it through synchronously.
*
* TODO we can skip this code and just drop the data for this write instead if the caller wants to
* prioritize predictable response time over reliable data delivery (i.e. sync/async)
*/
flashfsWriteBuffers(buffers, bufferSizes, 3, true);
flashfsClearBuffer(); flashfsClearBuffer();
return; return;
} }
// Fall through and add the remainder of the incoming data to our buffer
data = buffers[2];
len = bufferSizes[2];
}
// Buffer up the data the user supplied instead of writing it right away // Buffer up the data the user supplied instead of writing it right away
// First write the portion before we wrap around the end of the circular buffer // First write the portion before we wrap around the end of the circular buffer

13
src/main/io/serial_cli.c
View file

@ -114,7 +114,7 @@ static void cliMixer(char *cmdline);
#ifdef FLASHFS #ifdef FLASHFS
static void cliFlashIdent(char *cmdline); static void cliFlashIdent(char *cmdline);
static void cliFlashEraseSector(char *cmdline); static void cliFlashErase(char *cmdline);
static void cliFlashWrite(char *cmdline); static void cliFlashWrite(char *cmdline);
static void cliFlashRead(char *cmdline); static void cliFlashRead(char *cmdline);
#endif #endif
@ -175,7 +175,7 @@ const clicmd_t cmdTable[] = {
{ "exit", "", cliExit }, { "exit", "", cliExit },
{ "feature", "list or -val or val", cliFeature }, { "feature", "list or -val or val", cliFeature },
#ifdef FLASHFS #ifdef FLASHFS
{ "flash_erase_sector", "erase flash sector at the given address", cliFlashEraseSector }, { "flash_erase", "erase flash chip", cliFlashErase },
{ "flash_ident", "get flash chip details", cliFlashIdent }, { "flash_ident", "get flash chip details", cliFlashIdent },
{ "flash_read", "read text from the given address", cliFlashRead }, { "flash_read", "read text from the given address", cliFlashRead },
{ "flash_write", "write text to the given address", cliFlashWrite }, { "flash_write", "write text to the given address", cliFlashWrite },
@ -757,12 +757,13 @@ static void cliFlashIdent(char *cmdline)
layout->sectors, layout->sectorSize, layout->pagesPerSector, layout->pageSize, layout->totalSize); layout->sectors, layout->sectorSize, layout->pagesPerSector, layout->pageSize, layout->totalSize);
} }
static void cliFlashEraseSector(char *cmdline) static void cliFlashErase(char *cmdline)
{ {
uint32_t address = atoi(cmdline); UNUSED(cmdline);
flashfsEraseRange(address, address + 1); printf("Erasing, please wait...\r\n");
printf("Erased sector at %u.\r\n", address); flashfsEraseCompletely();
printf("Erased flash chip.\r\n");
} }
static void cliFlashWrite(char *cmdline) static void cliFlashWrite(char *cmdline)

80
src/main/io/serial_msp.c
View file

@ -53,6 +53,7 @@
#include "io/gimbal.h" #include "io/gimbal.h"
#include "io/serial.h" #include "io/serial.h"
#include "io/ledstrip.h" #include "io/ledstrip.h"
#include "io/flashfs.h"
#include "telemetry/telemetry.h" #include "telemetry/telemetry.h"
#include "sensors/boardalignment.h" #include "sensors/boardalignment.h"
#include "sensors/sensors.h" #include "sensors/sensors.h"
@ -121,7 +122,7 @@ void useRcControlsConfig(modeActivationCondition_t *modeActivationConditions, es
#define MSP_PROTOCOL_VERSION 0 #define MSP_PROTOCOL_VERSION 0
#define API_VERSION_MAJOR 1 // increment when major changes are made #define API_VERSION_MAJOR 1 // increment when major changes are made
#define API_VERSION_MINOR 4 // increment when any change is made, reset to zero when major changes are released after changing API_VERSION_MAJOR #define API_VERSION_MINOR 5 // increment when any change is made, reset to zero when major changes are released after changing API_VERSION_MAJOR
#define API_VERSION_LENGTH 2 #define API_VERSION_LENGTH 2
@ -219,6 +220,10 @@ const char *boardIdentifier = TARGET_BOARD_IDENTIFIER;
// DEPRECATED - Use MSP_BUILD_INFO instead // DEPRECATED - Use MSP_BUILD_INFO instead
#define MSP_BF_BUILD_INFO 69 //out message build date as well as some space for future expansion #define MSP_BF_BUILD_INFO 69 //out message build date as well as some space for future expansion
#define MSP_DATAFLASH_SUMMARY 70 //out message - get description of dataflash chip
#define MSP_DATAFLASH_READ 71 //out message - get content of dataflash chip
#define MSP_DATAFLASH_ERASE 72 //in message - erase dataflash chip
// //
// Multwii original MSP commands // Multwii original MSP commands
// //
@ -421,24 +426,24 @@ uint32_t read32(void)
return t; return t;
} }
void headSerialResponse(uint8_t err, uint8_t s) void headSerialResponse(uint8_t err, uint8_t responseBodySize)
{ {
serialize8('$'); serialize8('$');
serialize8('M'); serialize8('M');
serialize8(err ? '!' : '>'); serialize8(err ? '!' : '>');
currentPort->checksum = 0; // start calculating a new checksum currentPort->checksum = 0; // start calculating a new checksum
serialize8(s); serialize8(responseBodySize);
serialize8(currentPort->cmdMSP); serialize8(currentPort->cmdMSP);
} }
void headSerialReply(uint8_t s) void headSerialReply(uint8_t responseBodySize)
{ {
headSerialResponse(0, s); headSerialResponse(0, responseBodySize);
} }
void headSerialError(uint8_t s) void headSerialError(uint8_t responseBodySize)
{ {
headSerialResponse(1, s); headSerialResponse(1, responseBodySize);
} }
void tailSerialReply(void) void tailSerialReply(void)
@ -518,6 +523,44 @@ reset:
} }
} }
void serializeDataflashSummaryReply(void)
{
#ifdef FLASHFS
const flashGeometry_t *geometry = flashfsGetGeometry();
headSerialReply(2 * 4);
serialize32(geometry->sectors);
serialize32(geometry->totalSize);
#else
headSerialReply(2 * 4);
serialize32(0);
serialize32(0);
#endif
}
#ifdef FLASHFS
void serializeDataflashReadReply(uint32_t address, uint8_t size)
{
enum { DATAFLASH_READ_REPLY_CHUNK_SIZE = 128 };
uint8_t buffer[DATAFLASH_READ_REPLY_CHUNK_SIZE];
if (size > DATAFLASH_READ_REPLY_CHUNK_SIZE) {
size = DATAFLASH_READ_REPLY_CHUNK_SIZE;
}
headSerialReply(4 + size);
serialize32(address);
flashfsSeekAbs(address);
flashfsRead(buffer, size);
for (int i = 0; i < size; i++) {
serialize8(buffer[i]);
}
}
#endif
static void resetMspPort(mspPort_t *mspPortToReset, serialPort_t *serialPort, mspPortUsage_e usage) static void resetMspPort(mspPort_t *mspPortToReset, serialPort_t *serialPort, mspPortUsage_e usage)
{ {
memset(mspPortToReset, 0, sizeof(mspPort_t)); memset(mspPortToReset, 0, sizeof(mspPort_t));
@ -1128,6 +1171,22 @@ static bool processOutCommand(uint8_t cmdMSP)
} }
break; break;
#endif #endif
case MSP_DATAFLASH_SUMMARY:
serializeDataflashSummaryReply();
break;
#ifdef FLASHFS
case MSP_DATAFLASH_READ:
{
uint32_t readAddress = read32();
uint8_t readSize = read8();
serializeDataflashReadReply(readAddress, readSize);
}
break;
#endif
case MSP_BF_BUILD_INFO: case MSP_BF_BUILD_INFO:
headSerialReply(11 + 4 + 4); headSerialReply(11 + 4 + 4);
for (i = 0; i < 11; i++) for (i = 0; i < 11; i++)
@ -1333,6 +1392,13 @@ static bool processInCommand(void)
writeEEPROM(); writeEEPROM();
readEEPROM(); readEEPROM();
break; break;
#ifdef FLASHFS
case MSP_DATAFLASH_ERASE:
flashfsEraseCompletely();
break;
#endif
#ifdef GPS #ifdef GPS
case MSP_SET_RAW_GPS: case MSP_SET_RAW_GPS:
if (read8()) { if (read8()) {