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Code Issues Wiki Activity

Check for NULL defaults in CLI print commands

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This commit is contained in:
Martin Budden 2016-12-27 19:49:23 +00:00
parent 362f857cec
commit e4227b2ec9
1 changed files with 186 additions and 153 deletions
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131
src/main/io/serial_cli.c
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@ -1212,15 +1212,17 @@ static void cliRxFail(char *cmdline)
static void printAux(uint8_t dumpMask, const modeActivationProfile_t *modeActivationProfile, const modeActivationProfile_t *defaultModeActivationProfile)
{
const char *format = "aux %u %u %u %u %u\r\n";
// print out aux channel settings
for (uint32_t i = 0; i < MAX_MODE_ACTIVATION_CONDITION_COUNT; i++) {
const modeActivationCondition_t *mac = &modeActivationProfile->modeActivationConditions[i];
bool equalsDefault = true;
if (defaultModeActivationProfile) {
const modeActivationCondition_t *macDefault = &defaultModeActivationProfile->modeActivationConditions[i];
const bool equalsDefault = mac->modeId == macDefault->modeId
equalsDefault = mac->modeId == macDefault->modeId
&& mac->auxChannelIndex == macDefault->auxChannelIndex
&& mac->range.startStep == macDefault->range.startStep
&& mac->range.endStep == macDefault->range.endStep;
const char *format = "aux %u %u %u %u %u\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
i,
macDefault->modeId,
@ -1228,6 +1230,7 @@ static void printAux(uint8_t dumpMask, const modeActivationProfile_t *modeActiva
MODE_STEP_TO_CHANNEL_VALUE(macDefault->range.startStep),
MODE_STEP_TO_CHANNEL_VALUE(macDefault->range.endStep)
);
}
cliDumpPrintf(dumpMask, equalsDefault, format,
i,
mac->modeId,
@ -1280,17 +1283,19 @@ static void cliAux(char *cmdline)
static void printSerial(uint8_t dumpMask, const serialConfig_t *serialConfig, const serialConfig_t *serialConfigDefault)
{
const char *format = "serial %d %d %ld %ld %ld %ld\r\n";
for (uint32_t i = 0; i < SERIAL_PORT_COUNT; i++) {
if (!serialIsPortAvailable(serialConfig->portConfigs[i].identifier)) {
continue;
};
const bool equalsDefault = serialConfig->portConfigs[i].identifier == serialConfigDefault->portConfigs[i].identifier
bool equalsDefault = true;
if (serialConfigDefault) {
equalsDefault = serialConfig->portConfigs[i].identifier == serialConfigDefault->portConfigs[i].identifier
&& serialConfig->portConfigs[i].functionMask == serialConfigDefault->portConfigs[i].functionMask
&& serialConfig->portConfigs[i].msp_baudrateIndex == serialConfigDefault->portConfigs[i].msp_baudrateIndex
&& serialConfig->portConfigs[i].gps_baudrateIndex == serialConfigDefault->portConfigs[i].gps_baudrateIndex
&& serialConfig->portConfigs[i].telemetry_baudrateIndex == serialConfigDefault->portConfigs[i].telemetry_baudrateIndex
&& serialConfig->portConfigs[i].blackbox_baudrateIndex == serialConfigDefault->portConfigs[i].blackbox_baudrateIndex;
const char *format = "serial %d %d %ld %ld %ld %ld\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
serialConfigDefault->portConfigs[i].identifier,
serialConfigDefault->portConfigs[i].functionMask,
@ -1299,6 +1304,7 @@ static void printSerial(uint8_t dumpMask, const serialConfig_t *serialConfig, co
baudRates[serialConfigDefault->portConfigs[i].telemetry_baudrateIndex],
baudRates[serialConfigDefault->portConfigs[i].blackbox_baudrateIndex]
);
}
cliDumpPrintf(dumpMask, equalsDefault, format,
serialConfig->portConfigs[i].identifier,
serialConfig->portConfigs[i].functionMask,
@ -1473,17 +1479,19 @@ static void cliSerialPassthrough(char *cmdline)
static void printAdjustmentRange(uint8_t dumpMask, const adjustmentProfile_t *adjustmentProfile, const adjustmentProfile_t *defaultAdjustmentProfile)
{
const char *format = "adjrange %u %u %u %u %u %u %u\r\n";
// print out adjustment ranges channel settings
for (uint32_t i = 0; i < MAX_ADJUSTMENT_RANGE_COUNT; i++) {
const adjustmentRange_t *ar = &adjustmentProfile->adjustmentRanges[i];
bool equalsDefault = true;
if (defaultAdjustmentProfile) {
const adjustmentRange_t *arDefault = &defaultAdjustmentProfile->adjustmentRanges[i];
const bool equalsDefault = ar->auxChannelIndex == arDefault->auxChannelIndex
equalsDefault = ar->auxChannelIndex == arDefault->auxChannelIndex
&& ar->range.startStep == arDefault->range.startStep
&& ar->range.endStep == arDefault->range.endStep
&& ar->adjustmentFunction == arDefault->adjustmentFunction
&& ar->auxSwitchChannelIndex == arDefault->auxSwitchChannelIndex
&& ar->adjustmentIndex == arDefault->adjustmentIndex;
const char *format = "adjrange %u %u %u %u %u %u %u\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
i,
arDefault->adjustmentIndex,
@ -1493,6 +1501,7 @@ static void printAdjustmentRange(uint8_t dumpMask, const adjustmentProfile_t *ad
arDefault->adjustmentFunction,
arDefault->auxSwitchChannelIndex
);
}
cliDumpPrintf(dumpMask, equalsDefault, format,
i,
ar->adjustmentIndex,
@ -1568,6 +1577,7 @@ static void cliAdjustmentRange(char *cmdline)
#ifndef USE_QUAD_MIXER_ONLY
static void printMotorMix(uint8_t dumpMask, const motorMixer_t *customMotorMixer, const motorMixer_t *defaultCustomMotorMixer)
{
const char *format = "mmix %d %s %s %s %s\r\n";
char buf0[8];
char buf1[8];
char buf2[8];
@ -1579,19 +1589,21 @@ static void printMotorMix(uint8_t dumpMask, const motorMixer_t *customMotorMixer
const float roll = customMotorMixer[i].roll;
const float pitch = customMotorMixer[i].pitch;
const float yaw = customMotorMixer[i].yaw;
bool equalsDefault = true;
if (defaultCustomMotorMixer) {
const float thrDefault = defaultCustomMotorMixer[i].throttle;
const float rollDefault = defaultCustomMotorMixer[i].roll;
const float pitchDefault = defaultCustomMotorMixer[i].pitch;
const float yawDefault = defaultCustomMotorMixer[i].yaw;
const bool equalsDefault = thr == thrDefault && roll == rollDefault && pitch == pitchDefault && yaw == yawDefault;
const char *format = "mmix %d %s %s %s %s\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
i,
ftoa(thrDefault, buf0),
ftoa(rollDefault, buf1),
ftoa(pitchDefault, buf2),
ftoa(yawDefault, buf3));
}
cliDumpPrintf(dumpMask, equalsDefault, format,
i,
ftoa(thr, buf0),
@ -1672,20 +1684,20 @@ static void cliMotorMix(char *cmdline)
static void printRxRange(uint8_t dumpMask, const rxConfig_t *rxConfig, const rxConfig_t *defaultRxConfig)
{
const rxChannelRangeConfiguration_t *channelRangeConfiguration;
const rxChannelRangeConfiguration_t *channelRangeConfigurationDefault;
bool equalsDefault;
const char *format = "rxrange %u %u %u\r\n";
for (uint32_t i = 0; i < NON_AUX_CHANNEL_COUNT; i++) {
channelRangeConfiguration = &rxConfig->channelRanges[i];
channelRangeConfigurationDefault = &defaultRxConfig->channelRanges[i];
const rxChannelRangeConfiguration_t *channelRangeConfiguration = &rxConfig->channelRanges[i];
bool equalsDefault = true;
if (defaultRxConfig) {
const rxChannelRangeConfiguration_t *channelRangeConfigurationDefault = &defaultRxConfig->channelRanges[i];
equalsDefault = channelRangeConfiguration->min == channelRangeConfigurationDefault->min
&& channelRangeConfiguration->max == channelRangeConfigurationDefault->max;
const char *format = "rxrange %u %u %u\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
i,
channelRangeConfigurationDefault->min,
channelRangeConfigurationDefault->max
);
}
cliDumpPrintf(dumpMask, equalsDefault, format,
i,
channelRangeConfiguration->min,
@ -1737,18 +1749,21 @@ static void cliRxRange(char *cmdline)
}
#ifdef LED_STRIP
static void printLed(uint8_t dumpMask, const ledConfig_t *ledConfigs, , const ledConfig_t *defaultLedConfigs)
static void printLed(uint8_t dumpMask, const ledConfig_t *ledConfigs, const ledConfig_t *defaultLedConfigs)
{
const char *format = "led %u %s\r\n";
char ledConfigBuffer[20];
char ledConfigDefaultBuffer[20];
for (uint32_t i = 0; i < LED_MAX_STRIP_LENGTH; i++) {
const ledConfig_t *ledConfig = ledConfigs[i];
const ledConfig_t *ledConfigDefault = defaultLedConfigs[i];
const bool equalsDefault = *ledConfig == *ledConfigDefault;
generateLedConfig(ledConfig, ledConfigBuffer, sizeof(ledConfigBuffer));
generateLedConfig(ledConfigDefault, ledConfigDefaultBuffer, sizeof(ledConfigDefaultBuffer));
const char *format = "led %u %s\r\n";
ledConfig_t ledConfig = ledConfigs[i];
generateLedConfig(&ledConfig, ledConfigBuffer, sizeof(ledConfigBuffer));
bool equalsDefault = true;
if (defaultLedConfigs) {
ledConfig_t ledConfigDefault = defaultLedConfigs[i];
equalsDefault = ledConfig == ledConfigDefault;
generateLedConfig(&ledConfigDefault, ledConfigDefaultBuffer, sizeof(ledConfigDefaultBuffer));
cliDefaultPrintf(dumpMask, equalsDefault, format, i, ledConfigDefaultBuffer);
}
cliDumpPrintf(dumpMask, equalsDefault, format, i, ledConfigBuffer);
}
}
@ -1776,25 +1791,18 @@ static void cliLed(char *cmdline)
static void printColor(uint8_t dumpMask, const hsvColor_t *colors, const hsvColor_t *defaultColors)
{
const char *format = "color %u %d,%u,%u\r\n";
for (uint32_t i = 0; i < LED_CONFIGURABLE_COLOR_COUNT; i++) {
const hsvColor_t *color = &colors[i];
bool equalsDefault = true;
if (defaultColors) {
const hsvColor_t *colorDefault = &defaultColors[i];
const bool equalsDefault = color->h == colorDefault->h
equalsDefault = color->h == colorDefault->h
&& color->s == colorDefault->s
&& color->v == colorDefault->v;
const char *format = "color %u %d,%u,%u\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
i,
colorDefault->h,
colorDefault->s,
colorDefault->v
);
cliDumpPrintf(dumpMask, equalsDefault, format,
i,
color->h,
color->s,
color->v
);
cliDefaultPrintf(dumpMask, equalsDefault, format, i,colorDefault->h, colorDefault->s, colorDefault->v);
}
cliDumpPrintf(dumpMask, equalsDefault, format, i, color->h, color->s, color->v);
}
}
@ -1821,28 +1829,39 @@ static void cliColor(char *cmdline)
static void printModeColor(uint8_t dumpMask, const ledStripConfig_t *ledStripConfig, const ledStripConfig_t *defaultLedStripConfig)
{
const char *format = "mode_color %u %u %u\r\n";
for (uint32_t i = 0; i < LED_MODE_COUNT; i++) {
for (uint32_t j = 0; j < LED_DIRECTION_COUNT; j++) {
int colorIndex = ledStripConfig->modeColors[i].color[j];
bool equalsDefault = true;
if (defaultLedStripConfig) {
int colorIndexDefault = defaultLedStripConfig->modeColors[i].color[j];
const char *format = "mode_color %u %u %u\r\n";
cliDefaultPrintf(dumpMask, colorIndex == colorIndexDefault, format, i, j, colorIndexDefault);
cliDumpPrintf(dumpMask, colorIndex == colorIndexDefault, format, i, j, colorIndex);
equalsDefault = colorIndex == colorIndexDefault;
cliDefaultPrintf(dumpMask, equalsDefault, format, i, j, colorIndexDefault);
}
cliDumpPrintf(dumpMask, equalsDefault, format, i, j, colorIndex);
}
}
const char *format = "mode_color %u %u %u\r\n";
for (uint32_t j = 0; j < LED_SPECIAL_COLOR_COUNT; j++) {
const int colorIndex = ledStripConfig->specialColors.color[j];
bool equalsDefault = true;
if (defaultLedStripConfig) {
const int colorIndexDefault = defaultLedStripConfig->specialColors.color[j];
cliDefaultPrintf(dumpMask, colorIndex == colorIndexDefault, format, LED_SPECIAL, j, colorIndexDefault);
cliDumpPrintf(dumpMask, colorIndex == colorIndexDefault, format, LED_SPECIAL, j, colorIndex);
equalsDefault = colorIndex == colorIndexDefault;
cliDefaultPrintf(dumpMask, equalsDefault, format, LED_SPECIAL, j, colorIndexDefault);
}
cliDumpPrintf(dumpMask, equalsDefault, format, LED_SPECIAL, j, colorIndex);
}
const int ledStripAuxChannel = ledStripConfig->ledstrip_aux_channel;
bool equalsDefault = true;
if (defaultLedStripConfig) {
const int ledStripAuxChannelDefault = defaultLedStripConfig->ledstrip_aux_channel;
cliDefaultPrintf(dumpMask, ledStripAuxChannel == ledStripAuxChannelDefault, format, LED_AUX_CHANNEL, 0, ledStripAuxChannelDefault);
cliDumpPrintf(dumpMask, ledStripAuxChannel == ledStripAuxChannelDefault, format, LED_AUX_CHANNEL, 0, ledStripAuxChannel);
equalsDefault = ledStripAuxChannel == ledStripAuxChannelDefault;
cliDefaultPrintf(dumpMask, equalsDefault, format, LED_AUX_CHANNEL, 0, ledStripAuxChannelDefault);
}
cliDumpPrintf(dumpMask, equalsDefault, format, LED_AUX_CHANNEL, 0, ledStripAuxChannel);
}
static void cliModeColor(char *cmdline)
@ -1881,16 +1900,18 @@ static void cliModeColor(char *cmdline)
static void printServo(uint8_t dumpMask, servoProfile_t *defaultServoProfile)
{
// print out servo settings
const char *format = "servo %u %d %d %d %d %d %d %d\r\n";
for (uint32_t i = 0; i < MAX_SUPPORTED_SERVOS; i++) {
const servoParam_t *servoConf = &servoProfile()->servoConf[i];
bool equalsDefault = true;
if (defaultServoProfile) {
const servoParam_t *servoConfDefault = &defaultServoProfile->servoConf[i];
const bool equalsDefault = servoConf->min == servoConfDefault->min
equalsDefault = servoConf->min == servoConfDefault->min
&& servoConf->max == servoConfDefault->max
&& servoConf->middle == servoConfDefault->middle
&& servoConf->angleAtMin == servoConfDefault->angleAtMax
&& servoConf->rate == servoConfDefault->rate
&& servoConf->forwardFromChannel == servoConfDefault->forwardFromChannel;
const char *format = "servo %u %d %d %d %d %d %d %d\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
i,
servoConfDefault->min,
@ -1901,6 +1922,7 @@ static void printServo(uint8_t dumpMask, servoProfile_t *defaultServoProfile)
servoConfDefault->rate,
servoConfDefault->forwardFromChannel
);
}
cliDumpPrintf(dumpMask, equalsDefault, format,
i,
servoConf->min,
@ -1994,14 +2016,17 @@ static void cliServo(char *cmdline)
#ifdef USE_SERVOS
static void printServoMix(uint8_t dumpMask, const master_t *defaultConfig)
{
const char *format = "smix %d %d %d %d %d %d %d %d\r\n";
for (uint32_t i = 0; i < MAX_SERVO_RULES; i++) {
servoMixer_t customServoMixer = *customServoMixer(i);
servoMixer_t customServoMixerDefault = defaultConfig->customServoMixer[i];
if (customServoMixer.rate == 0) {
break;
}
const bool equalsDefault = customServoMixer.targetChannel == customServoMixerDefault.targetChannel
bool equalsDefault = true;
if (defaultConfig) {
servoMixer_t customServoMixerDefault = defaultConfig->customServoMixer[i];
equalsDefault = customServoMixer.targetChannel == customServoMixerDefault.targetChannel
&& customServoMixer.inputSource == customServoMixerDefault.inputSource
&& customServoMixer.rate == customServoMixerDefault.rate
&& customServoMixer.speed == customServoMixerDefault.speed
@ -2009,7 +2034,6 @@ static void printServoMix(uint8_t dumpMask, const master_t *defaultConfig)
&& customServoMixer.max == customServoMixerDefault.max
&& customServoMixer.box == customServoMixerDefault.box;
const char *format = "smix %d %d %d %d %d %d %d %d\r\n";
cliDefaultPrintf(dumpMask, equalsDefault, format,
i,
customServoMixerDefault.targetChannel,
@ -2020,6 +2044,7 @@ static void printServoMix(uint8_t dumpMask, const master_t *defaultConfig)
customServoMixerDefault.max,
customServoMixerDefault.box
);
}
cliDumpPrintf(dumpMask, equalsDefault, format,
i,
customServoMixer.targetChannel,
@ -2036,12 +2061,13 @@ static void printServoMix(uint8_t dumpMask, const master_t *defaultConfig)
// print servo directions
for (uint32_t i = 0; i < MAX_SUPPORTED_SERVOS; i++) {
const char *format = "smix reverse %d %d r\r\n";
const servoParam_t *servoConf = &servoProfile()->servoConf[i];
if (defaultConfig) {
const servoParam_t *servoConfDefault = &defaultConfig->servoProfile.servoConf[i];
bool equalsDefault = servoConf->reversedSources == servoConfDefault->reversedSources;
for (uint32_t channel = 0; channel < INPUT_SOURCE_COUNT; channel++) {
equalsDefault = ~(servoConf->reversedSources ^ servoConfDefault->reversedSources) & (1 << channel);
const char *format = "smix reverse %d %d r\r\n";
if (servoConfDefault->reversedSources & (1 << channel)) {
cliDefaultPrintf(dumpMask, equalsDefault, format, i , channel);
}
@ -2049,6 +2075,13 @@ static void printServoMix(uint8_t dumpMask, const master_t *defaultConfig)
cliDumpPrintf(dumpMask, equalsDefault, format, i , channel);
}
}
} else {
for (uint32_t channel = 0; channel < INPUT_SOURCE_COUNT; channel++) {
if (servoConf->reversedSources & (1 << channel)) {
cliDumpPrintf(dumpMask, true, format, i , channel);
}
}
}
}
}
@ -2833,7 +2866,7 @@ static void printConfig(char *cmdline, bool doDiff)
#ifdef LED_STRIP
cliPrintHashLine("led");
printLed(dumpMask, ledStripConfig()->ledConfigs, &defaultConfig.ledStripConfig.ledConfigs);
printLed(dumpMask, ledStripConfig()->ledConfigs, defaultConfig.ledStripConfig.ledConfigs);
cliPrintHashLine("color");
printColor(dumpMask, ledStripConfig()->colors, defaultConfig.ledStripConfig.colors);