APIs specific to a context
Data Structures | |
struct | CSIRX_ContextPingPongConfig |
ping-pong related configuration for each context. Note specified ping and pong addresses can be identical which will effectively disable double buffering. More... | |
struct | CSIRX_ContextCropConfig |
Cropping configuration. More... | |
struct | CSIRX_ContextTranscodeConfig |
Transcoding configuration. More... | |
struct | CSIRX_ContextIntr |
Context interrupts. More... | |
struct | CSIRX_ContextConfig |
Context configuration. More... | |
Functions | |
void | CSIRX_ContextConfig_init (CSIRX_ContextConfig *config) |
Sets default values for configuration. More... | |
int32_t | CSIRX_contextSetConfig (CSIRX_Handle handle, uint8_t contextId, CSIRX_ContextConfig *config) |
Configure context. More... | |
int32_t | CSIRX_contextSetPingPongAddress (CSIRX_Handle handle, uint8_t contextId, uint32_t pingAddress, uint32_t pongAddress) |
Set context ping and pong address. More... | |
int32_t | CSIRX_contextSetLineOffset (CSIRX_Handle handle, uint8_t contextId, int32_t lineOffset) |
Set context line offset. More... | |
int32_t | CSIRX_contextEnable (CSIRX_Handle handle, uint8_t contextId) |
Enable context. More... | |
int32_t | CSIRX_contextDisable (CSIRX_Handle handle, uint8_t contextId) |
Disable context. More... | |
int32_t | CSIRX_contextClearAllIntr (CSIRX_Handle handle, uint8_t contextId) |
Clear all pending context interrupts. More... | |
int32_t | CSIRX_contextGetPendingIntr (CSIRX_Handle handle, uint8_t contextId, CSIRX_ContextIntr *intrStatus) |
Get all pending context interrupts. More... | |
int32_t | CSIRX_contextGetFrameNumber (CSIRX_Handle handle, uint8_t contextId, uint16_t *frameNumber) |
Get current frame number as decoded from within CSIRX long packet. More... | |
int32_t | CSIRX_contextGetRecvAddress (CSIRX_Handle handle, uint8_t contextId, uint32_t *bufAddress) |
Get current completed receive address. More... | |
int32_t | CSIRX_contextGetPingPongStatus (CSIRX_Handle handle, uint8_t contextId, uint8_t *pingPongStatus) |
Get status if ping or pong buffer write is done. More... | |
Typedefs | |
typedef void(* | CSIRX_ContextCallback) (CSIRX_Handle handle, void *arg, uint8_t contextId) |
Context interrupt callback. More... | |
Macros | |
#define | CSIRX_CONTEXTS_MAX (8U) |
Max possible CSIRX contexts. More... | |
#define | CSIRX_PING_PONG_ADDRESS_LINEOFFSET_ALIGNMENT_IN_BYTES (32U) |
Ping-pong addresses and line offset alignment. Can be used for aligning ping-pong buffers and enforcing line offset alignment in bytes. More... | |
#define | CSIRX_LINEOFFSET_CONTIGUOUS_STORAGE (0U) |
Special value for contiguous storage. More... | |
#define | CSIRX_NUM_FRAMES_TO_ACQUIRE_INFINITE (0U) |
Special value of CSIRX_ContextConfig::numFramesToAcquire for setting infinite frames, this is also the CSIRX IP reset state. More... | |
Ping or Pong done status | |
#define | CSIRX_CONTEXT_PINGPONG_STATUS_PING_DONE (0U) |
Ping is done. More... | |
#define | CSIRX_CONTEXT_PINGPONG_STATUS_PONG_DONE (1U) |
Pong is done. More... | |
Ping pong switching mode | |
#define | CSIRX_PING_PONG_FRAME_SWITCHING (0U) |
Switch ping pong address on end of frame. More... | |
#define | CSIRX_PING_PONG_LINE_SWITCHING (1U) |
Switch ping pong address on end of line. More... | |
Transcode format | |
#define | CSIRX_TRANSCODE_FORMAT_NO_TRANSCODE (0U) |
Transcoding disabled. More... | |
#define | CSIRX_TRANSCODE_FORMAT_IN_RAW10_ALAW_OUT_RAW8 (3U) |
Compress input RAW10 using A-law. Output is regular RAW8. More... | |
#define | CSIRX_TRANSCODE_FORMAT_IN_RAW8_OUT_RAW8 (4U) |
Regular RAW8 input and regular RAW8 output. More... | |
#define | CSIRX_TRANSCODE_FORMAT_IN_RAW10_OUT_RAW10_EXP16 (5U) |
Input uncompressed RAW10, output RAW10 + EXP16. More... | |
#define | CSIRX_TRANSCODE_FORMAT_IN_RAW10_OUT_RAW10_PACKED (6U) |
Input uncompressed RAW10, output regular packed RAW10. More... | |
#define | CSIRX_TRANSCODE_FORMAT_IN_RAW12_OUT_RAW12_EXP16 (7U) |
Input uncompressed RAW12, output RAW12 + EXP16. More... | |
#define | CSIRX_TRANSCODE_FORMAT_IN_RAW12_OUT_RAW12_PACKED (8U) |
Input uncompressed RAW12, output regular packed RAW12. More... | |
#define | CSIRX_TRANSCODE_FORMAT_IN_RAW14_OUT_RAW14 (9U) |
Input uncompressed RAW14, output uncompressed RAW14. More... | |
Data format | |
#define | CSIRX_FORMAT_OTHERS_EXCEPT_NULL_AND_BLANKING (0x000U) |
Others except NULL and BLANKING. More... | |
#define | CSIRX_FORMAT_EMBEDDED_8_BIT_NON_IMAGE (0x012U) |
Embedded 8-bit non image (for example JPEG) as per MIPI spec. More... | |
#define | CSIRX_FORMAT_YUV420_8_BIT (0x018U) |
YUV420 8-bit as per MIPI spec. More... | |
#define | CSIRX_FORMAT_YUV420_10_BIT (0x019U) |
YUV420 10-bit as per MIPI spec. More... | |
#define | CSIRX_FORMAT_YUV420_8_BIT_LEGACY (0x01AU) |
YUV420 8-bit legacy as per MIPI spec. More... | |
#define | CSIRX_FORMAT_YUV420_8_BIT_CSPS (0x01CU) |
YUV420 8-bit CSPS (Chroma Shifted Pixel Sampling) as per MIPI spec. More... | |
#define | CSIRX_FORMAT_YUV420_10_BIT_CSPS (0x01DU) |
YUV420 10-bit CSPS (Chroma Shifted Pixel Sampling) as per MIPI spec. More... | |
#define | CSIRX_FORMAT_YUV422_8_BIT (0x01EU) |
YUV422 8-bit as per MIPI spec. More... | |
#define | CSIRX_FORMAT_YUV422_10_BIT (0x01FU) |
YUV422 10-bit as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RGB565 (0x022U) |
RGB565 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RGB888 (0x024U) |
RGB888 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RAW6 (0x028U) |
RAW6 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RAW7 (0x029U) |
RAW7 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RAW8 (0x02AU) |
RAW8 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RAW10 (0x02BU) |
RAW19 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RAW12 (0x02CU) |
RAW12 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RAW14 (0x02DU) |
RAW14 as per MIPI spec. More... | |
#define | CSIRX_FORMAT_RGB666_EXP32_24 (0x033U) |
RGB666 EXP32_24: EXP32 = Data expansion to 32 bits, padding with CSIRX_ContextConfig::alpha. Most significant 8-bits of output 32-bit will be equal to the least significant 8-bits of CSIRX_ContextConfig::alpha. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_1 (0x040U) |
User Defined 8-bit data type 1. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_2 (0x041U) |
User Defined 8-bit data type 2. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_3 (0x042U) |
User Defined 8-bit data type 3. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_4 (0x043U) |
User Defined 8-bit data type 4. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_5 (0x044U) |
User Defined 8-bit data type 5. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_6 (0x045U) |
User Defined 8-bit data type 6. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_7 (0x046U) |
User Defined 8-bit data type 7. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_8 (0x047U) |
User Defined 8-bit data type 8. More... | |
#define | CSIRX_FORMAT_RAW6_EXP8 (0x068U) |
RAW6 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_RAW7_EXP8 (0x069U) |
RAW7 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_1_EXP8 (0x080U) |
User Defined 8-bit data type 1 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_2_EXP8 (0x081U) |
User Defined 8-bit data type 2 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_3_EXP8 (0x082U) |
User Defined 8-bit data type 3 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_4_EXP8 (0x083U) |
User Defined 8-bit data type 4 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_5_EXP8 (0x084U) |
User Defined 8-bit data type 5 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_6_EXP8 (0x085U) |
User Defined 8-bit data type 6 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_7_EXP8 (0x086U) |
User Defined 8-bit data type 7 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_8_EXP8 (0x087U) |
User Defined 8-bit data type 8 with data expansion to 8-bits, padding with zeros. More... | |
#define | CSIRX_FORMAT_RGB444_EXP16 (0x0A0U) |
RGB444 with data expansion to 16-bits. Most significant 4-bits of 16-bit output will be equal to the least significant 4-bits of CSIRX_ContextConfig::alpha. More... | |
#define | CSIRX_FORMAT_RGB555_EXP16 (0x0A1U) |
RGB555 with data expansion to 16-bits. Most significant 1-bit of 16-bit output will be equal to the least significant 1-bit of CSIRX_ContextConfig::alpha. More... | |
#define | CSIRX_FORMAT_RAW10_EXP16 (0x0ABU) |
RAW10 with data expansion to 16-bits. Most significant 6-bits of 16-bit output will be equal to the least significant 6-bits of CSIRX_ContextConfig::alpha. More... | |
#define | CSIRX_FORMAT_RAW12_EXP16 (0x0ACU) |
RAW12 with data expansion to 16-bits. Most significant 4-bits of 16-bit output will be equal to the least significant 4-bits of CSIRX_ContextConfig::alpha. More... | |
#define | CSIRX_FORMAT_RAW14_EXP16 (0x0ADU) |
RAW14 with data expansion to 16-bits. Most significant 2-bits of 16-bit output will be equal to the least significant 2-bits of CSIRX_ContextConfig::alpha. More... | |
#define | CSIRX_FORMAT_RGB666_EXP32 (0x0E3U) |
RGB666 with data expansion to 32-bits. Most significant 14-bits of 32-bit output will be equal to the least significant 14-bits of CSIRX_ContextConfig::alpha. More... | |
#define | CSIRX_FORMAT_RGB888_EXP32 (0x0E4U) |
RGB888 with data expansion to 32-bits. Most significant 8-bits of 32-bit output will be equal to the least significant 8-bits of CSIRX_ContextConfig::alpha. More... | |
User defined data format | |
#define | CSIRX_USER_DEFINED_FORMAT_RAW6 (0U) |
RAW6. More... | |
#define | CSIRX_USER_DEFINED_FORMAT_RAW7 (1U) |
RAW8. More... | |
#define | CSIRX_USER_DEFINED_FORMAT_RAW8 (2U) |
RAW8, not valid if CSIRX_ContextConfig::format is any of the defines CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_x_EXP8 (x=1..8) in CSIRX_DATA_FORMAT. More... | |
#define CSIRX_CONTEXTS_MAX (8U) |
Max possible CSIRX contexts.
#define CSIRX_PING_PONG_ADDRESS_LINEOFFSET_ALIGNMENT_IN_BYTES (32U) |
Ping-pong addresses and line offset alignment. Can be used for aligning ping-pong buffers and enforcing line offset alignment in bytes.
#define CSIRX_LINEOFFSET_CONTIGUOUS_STORAGE (0U) |
Special value for contiguous storage.
#define CSIRX_NUM_FRAMES_TO_ACQUIRE_INFINITE (0U) |
Special value of CSIRX_ContextConfig::numFramesToAcquire for setting infinite frames, this is also the CSIRX IP reset state.
#define CSIRX_CONTEXT_PINGPONG_STATUS_PING_DONE (0U) |
Ping is done.
#define CSIRX_CONTEXT_PINGPONG_STATUS_PONG_DONE (1U) |
Pong is done.
#define CSIRX_PING_PONG_FRAME_SWITCHING (0U) |
Switch ping pong address on end of frame.
#define CSIRX_PING_PONG_LINE_SWITCHING (1U) |
Switch ping pong address on end of line.
#define CSIRX_TRANSCODE_FORMAT_NO_TRANSCODE (0U) |
Transcoding disabled.
#define CSIRX_TRANSCODE_FORMAT_IN_RAW10_ALAW_OUT_RAW8 (3U) |
Compress input RAW10 using A-law. Output is regular RAW8.
#define CSIRX_TRANSCODE_FORMAT_IN_RAW8_OUT_RAW8 (4U) |
Regular RAW8 input and regular RAW8 output.
#define CSIRX_TRANSCODE_FORMAT_IN_RAW10_OUT_RAW10_EXP16 (5U) |
Input uncompressed RAW10, output RAW10 + EXP16.
#define CSIRX_TRANSCODE_FORMAT_IN_RAW10_OUT_RAW10_PACKED (6U) |
Input uncompressed RAW10, output regular packed RAW10.
#define CSIRX_TRANSCODE_FORMAT_IN_RAW12_OUT_RAW12_EXP16 (7U) |
Input uncompressed RAW12, output RAW12 + EXP16.
#define CSIRX_TRANSCODE_FORMAT_IN_RAW12_OUT_RAW12_PACKED (8U) |
Input uncompressed RAW12, output regular packed RAW12.
#define CSIRX_TRANSCODE_FORMAT_IN_RAW14_OUT_RAW14 (9U) |
Input uncompressed RAW14, output uncompressed RAW14.
#define CSIRX_FORMAT_OTHERS_EXCEPT_NULL_AND_BLANKING (0x000U) |
Others except NULL and BLANKING.
#define CSIRX_FORMAT_EMBEDDED_8_BIT_NON_IMAGE (0x012U) |
Embedded 8-bit non image (for example JPEG) as per MIPI spec.
#define CSIRX_FORMAT_YUV420_8_BIT (0x018U) |
YUV420 8-bit as per MIPI spec.
#define CSIRX_FORMAT_YUV420_10_BIT (0x019U) |
YUV420 10-bit as per MIPI spec.
#define CSIRX_FORMAT_YUV420_8_BIT_LEGACY (0x01AU) |
YUV420 8-bit legacy as per MIPI spec.
#define CSIRX_FORMAT_YUV420_8_BIT_CSPS (0x01CU) |
YUV420 8-bit CSPS (Chroma Shifted Pixel Sampling) as per MIPI spec.
#define CSIRX_FORMAT_YUV420_10_BIT_CSPS (0x01DU) |
YUV420 10-bit CSPS (Chroma Shifted Pixel Sampling) as per MIPI spec.
#define CSIRX_FORMAT_YUV422_8_BIT (0x01EU) |
YUV422 8-bit as per MIPI spec.
#define CSIRX_FORMAT_YUV422_10_BIT (0x01FU) |
YUV422 10-bit as per MIPI spec.
#define CSIRX_FORMAT_RGB565 (0x022U) |
RGB565 as per MIPI spec.
#define CSIRX_FORMAT_RGB888 (0x024U) |
RGB888 as per MIPI spec.
#define CSIRX_FORMAT_RAW6 (0x028U) |
RAW6 as per MIPI spec.
#define CSIRX_FORMAT_RAW7 (0x029U) |
RAW7 as per MIPI spec.
#define CSIRX_FORMAT_RAW8 (0x02AU) |
RAW8 as per MIPI spec.
#define CSIRX_FORMAT_RAW10 (0x02BU) |
RAW19 as per MIPI spec.
#define CSIRX_FORMAT_RAW12 (0x02CU) |
RAW12 as per MIPI spec.
#define CSIRX_FORMAT_RAW14 (0x02DU) |
RAW14 as per MIPI spec.
#define CSIRX_FORMAT_RGB666_EXP32_24 (0x033U) |
RGB666 EXP32_24: EXP32 = Data expansion to 32 bits, padding with CSIRX_ContextConfig::alpha. Most significant 8-bits of output 32-bit will be equal to the least significant 8-bits of CSIRX_ContextConfig::alpha.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_1 (0x040U) |
User Defined 8-bit data type 1.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_2 (0x041U) |
User Defined 8-bit data type 2.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_3 (0x042U) |
User Defined 8-bit data type 3.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_4 (0x043U) |
User Defined 8-bit data type 4.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_5 (0x044U) |
User Defined 8-bit data type 5.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_6 (0x045U) |
User Defined 8-bit data type 6.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_7 (0x046U) |
User Defined 8-bit data type 7.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_8 (0x047U) |
User Defined 8-bit data type 8.
#define CSIRX_FORMAT_RAW6_EXP8 (0x068U) |
RAW6 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_RAW7_EXP8 (0x069U) |
RAW7 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_1_EXP8 (0x080U) |
User Defined 8-bit data type 1 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_2_EXP8 (0x081U) |
User Defined 8-bit data type 2 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_3_EXP8 (0x082U) |
User Defined 8-bit data type 3 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_4_EXP8 (0x083U) |
User Defined 8-bit data type 4 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_5_EXP8 (0x084U) |
User Defined 8-bit data type 5 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_6_EXP8 (0x085U) |
User Defined 8-bit data type 6 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_7_EXP8 (0x086U) |
User Defined 8-bit data type 7 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_8_EXP8 (0x087U) |
User Defined 8-bit data type 8 with data expansion to 8-bits, padding with zeros.
#define CSIRX_FORMAT_RGB444_EXP16 (0x0A0U) |
RGB444 with data expansion to 16-bits. Most significant 4-bits of 16-bit output will be equal to the least significant 4-bits of CSIRX_ContextConfig::alpha.
#define CSIRX_FORMAT_RGB555_EXP16 (0x0A1U) |
RGB555 with data expansion to 16-bits. Most significant 1-bit of 16-bit output will be equal to the least significant 1-bit of CSIRX_ContextConfig::alpha.
#define CSIRX_FORMAT_RAW10_EXP16 (0x0ABU) |
RAW10 with data expansion to 16-bits. Most significant 6-bits of 16-bit output will be equal to the least significant 6-bits of CSIRX_ContextConfig::alpha.
#define CSIRX_FORMAT_RAW12_EXP16 (0x0ACU) |
RAW12 with data expansion to 16-bits. Most significant 4-bits of 16-bit output will be equal to the least significant 4-bits of CSIRX_ContextConfig::alpha.
#define CSIRX_FORMAT_RAW14_EXP16 (0x0ADU) |
RAW14 with data expansion to 16-bits. Most significant 2-bits of 16-bit output will be equal to the least significant 2-bits of CSIRX_ContextConfig::alpha.
#define CSIRX_FORMAT_RGB666_EXP32 (0x0E3U) |
RGB666 with data expansion to 32-bits. Most significant 14-bits of 32-bit output will be equal to the least significant 14-bits of CSIRX_ContextConfig::alpha.
#define CSIRX_FORMAT_RGB888_EXP32 (0x0E4U) |
RGB888 with data expansion to 32-bits. Most significant 8-bits of 32-bit output will be equal to the least significant 8-bits of CSIRX_ContextConfig::alpha.
#define CSIRX_USER_DEFINED_FORMAT_RAW6 (0U) |
RAW6.
#define CSIRX_USER_DEFINED_FORMAT_RAW7 (1U) |
RAW8.
#define CSIRX_USER_DEFINED_FORMAT_RAW8 (2U) |
RAW8, not valid if CSIRX_ContextConfig::format is any of the defines CSIRX_FORMAT_USER_DEFINED_8_BIT_DATA_TYPE_x_EXP8 (x=1..8) in CSIRX_DATA_FORMAT.
typedef void(* CSIRX_ContextCallback) (CSIRX_Handle handle, void *arg, uint8_t contextId) |
Context interrupt callback.
handle | [in] CSIRX driver handle |
arg | [in] User supplied argument |
contextId | [in] Context ID which generated this interrupt |
void CSIRX_ContextConfig_init | ( | CSIRX_ContextConfig * | config | ) |
Sets default values for configuration.
config | [in] configuration |
int32_t CSIRX_contextSetConfig | ( | CSIRX_Handle | handle, |
uint8_t | contextId, | ||
CSIRX_ContextConfig * | config | ||
) |
Configure context.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
config | [in] Context configuration |
int32_t CSIRX_contextSetPingPongAddress | ( | CSIRX_Handle | handle, |
uint8_t | contextId, | ||
uint32_t | pingAddress, | ||
uint32_t | pongAddress | ||
) |
Set context ping and pong address.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
pingAddress | [in] ping address, MUST have 5 LSBs as zero |
pongAddress | [in] pong address, MUST have 5 LSBs as zero |
int32_t CSIRX_contextSetLineOffset | ( | CSIRX_Handle | handle, |
uint8_t | contextId, | ||
int32_t | lineOffset | ||
) |
Set context line offset.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
lineOffset | [in] See CSIRX_ContextPingPongConfig::lineOffset , units of bytes |
int32_t CSIRX_contextEnable | ( | CSIRX_Handle | handle, |
uint8_t | contextId | ||
) |
Enable context.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
int32_t CSIRX_contextDisable | ( | CSIRX_Handle | handle, |
uint8_t | contextId | ||
) |
Disable context.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
int32_t CSIRX_contextClearAllIntr | ( | CSIRX_Handle | handle, |
uint8_t | contextId | ||
) |
Clear all pending context interrupts.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
int32_t CSIRX_contextGetPendingIntr | ( | CSIRX_Handle | handle, |
uint8_t | contextId, | ||
CSIRX_ContextIntr * | intrStatus | ||
) |
Get all pending context interrupts.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
intrStatus | [out] Interrupt status |
int32_t CSIRX_contextGetFrameNumber | ( | CSIRX_Handle | handle, |
uint8_t | contextId, | ||
uint16_t * | frameNumber | ||
) |
Get current frame number as decoded from within CSIRX long packet.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
frameNumber | [out] Frame number |
int32_t CSIRX_contextGetRecvAddress | ( | CSIRX_Handle | handle, |
uint8_t | contextId, | ||
uint32_t * | bufAddress | ||
) |
Get current completed receive address.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
bufAddress | [out] Received frame address |
int32_t CSIRX_contextGetPingPongStatus | ( | CSIRX_Handle | handle, |
uint8_t | contextId, | ||
uint8_t * | pingPongStatus | ||
) |
Get status if ping or pong buffer write is done.
handle | [in] CSIRX driver handle |
contextId | [in] Context ID |
pingPongStatus | [out] One of CSIRX_PINGPONG_STATUS |