use TUD_EPBUF_DEF to declare buffer memory for midi
This commit is contained in:
hathach
@@ -35,7 +35,7 @@
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//--------------------------------------------------------------------+
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// Callback weak stubs (called if application does not provide)
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//--------------------------------------------------------------------+
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TU_ATTR_WEAK void dcd_edpt0_status_complete(uint8_t rhport, tusb_control_request_t const* request) {
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TU_ATTR_WEAK void dcd_edpt0_status_complete(uint8_t rhport, const tusb_control_request_t* request) {
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(void) rhport;
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(void) request;
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}
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@@ -54,10 +54,6 @@ enum {
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};
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typedef struct {
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union {
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CFG_TUD_MEM_ALIGN uint8_t ep_buf[CFG_TUD_ENDPOINT0_SIZE];
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TUD_DCACHE_PADDING;
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};
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tusb_control_request_t request;
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uint8_t* buffer;
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uint16_t data_len;
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@@ -65,21 +61,25 @@ typedef struct {
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usbd_control_xfer_cb_t complete_cb;
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} usbd_control_xfer_t;
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CFG_TUD_MEM_SECTION CFG_TUD_MEM_ALIGN static usbd_control_xfer_t _ctrl_xfer;
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static usbd_control_xfer_t _ctrl_xfer;
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CFG_TUD_MEM_SECTION static struct {
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TUD_EPBUF_DEF(buf, CFG_TUD_ENDPOINT0_SIZE);
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} _ctrl_epbuf;
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//--------------------------------------------------------------------+
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// Application API
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//--------------------------------------------------------------------+
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// Queue ZLP status transaction
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static inline bool status_stage_xact(uint8_t rhport, tusb_control_request_t const* request) {
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static inline bool status_stage_xact(uint8_t rhport, const tusb_control_request_t* request) {
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// Opposite to endpoint in Data Phase
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uint8_t const ep_addr = request->bmRequestType_bit.direction ? EDPT_CTRL_OUT : EDPT_CTRL_IN;
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const uint8_t ep_addr = request->bmRequestType_bit.direction ? EDPT_CTRL_OUT : EDPT_CTRL_IN;
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return usbd_edpt_xfer(rhport, ep_addr, NULL, 0);
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}
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// Status phase
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bool tud_control_status(uint8_t rhport, tusb_control_request_t const* request) {
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bool tud_control_status(uint8_t rhport, const tusb_control_request_t* request) {
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_ctrl_xfer.request = (*request);
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_ctrl_xfer.buffer = NULL;
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_ctrl_xfer.total_xferred = 0;
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@@ -92,24 +92,22 @@ bool tud_control_status(uint8_t rhport, tusb_control_request_t const* request) {
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// Each transaction has up to Endpoint0's max packet size.
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// This function can also transfer an zero-length packet
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static bool data_stage_xact(uint8_t rhport) {
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uint16_t const xact_len = tu_min16(_ctrl_xfer.data_len - _ctrl_xfer.total_xferred,
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CFG_TUD_ENDPOINT0_SIZE);
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const uint16_t xact_len = tu_min16(_ctrl_xfer.data_len - _ctrl_xfer.total_xferred, CFG_TUD_ENDPOINT0_SIZE);
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uint8_t ep_addr = EDPT_CTRL_OUT;
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if (_ctrl_xfer.request.bmRequestType_bit.direction == TUSB_DIR_IN) {
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ep_addr = EDPT_CTRL_IN;
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if (xact_len) {
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TU_VERIFY(0 == tu_memcpy_s(_ctrl_xfer.ep_buf, CFG_TUD_ENDPOINT0_SIZE, _ctrl_xfer.buffer, xact_len));
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TU_VERIFY(0 == tu_memcpy_s(_ctrl_epbuf.buf, CFG_TUD_ENDPOINT0_SIZE, _ctrl_xfer.buffer, xact_len));
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}
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}
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return usbd_edpt_xfer(rhport, ep_addr, xact_len ? _ctrl_xfer.ep_buf : NULL, xact_len);
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return usbd_edpt_xfer(rhport, ep_addr, xact_len ? _ctrl_epbuf.buf : NULL, xact_len);
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}
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// Transmit data to/from the control endpoint.
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// If the request's wLength is zero, a status packet is sent instead.
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bool tud_control_xfer(uint8_t rhport, tusb_control_request_t const* request, void* buffer, uint16_t len) {
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bool tud_control_xfer(uint8_t rhport, const tusb_control_request_t* request, void* buffer, uint16_t len) {
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_ctrl_xfer.request = (*request);
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_ctrl_xfer.buffer = (uint8_t*) buffer;
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_ctrl_xfer.total_xferred = 0U;
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@@ -119,13 +117,8 @@ bool tud_control_xfer(uint8_t rhport, tusb_control_request_t const* request, voi
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if (_ctrl_xfer.data_len > 0U) {
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TU_ASSERT(buffer);
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}
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// TU_LOG2(" Control total data length is %u bytes\r\n", _ctrl_xfer.data_len);
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// Data stage
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TU_ASSERT(data_stage_xact(rhport));
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} else {
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// Status stage
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TU_ASSERT(status_stage_xact(rhport, request));
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}
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@@ -136,7 +129,7 @@ bool tud_control_xfer(uint8_t rhport, tusb_control_request_t const* request, voi
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// USBD API
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//--------------------------------------------------------------------+
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void usbd_control_reset(void);
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void usbd_control_set_request(tusb_control_request_t const* request);
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void usbd_control_set_request(const tusb_control_request_t* request);
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void usbd_control_set_complete_callback(usbd_control_xfer_cb_t fp);
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bool usbd_control_xfer_cb(uint8_t rhport, uint8_t ep_addr, xfer_result_t result, uint32_t xferred_bytes);
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@@ -150,7 +143,7 @@ void usbd_control_set_complete_callback(usbd_control_xfer_cb_t fp) {
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}
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// for dcd_set_address where DCD is responsible for status response
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void usbd_control_set_request(tusb_control_request_t const* request) {
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void usbd_control_set_request(const tusb_control_request_t* request) {
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_ctrl_xfer.request = (*request);
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_ctrl_xfer.buffer = NULL;
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_ctrl_xfer.total_xferred = 0;
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@@ -180,7 +173,7 @@ bool usbd_control_xfer_cb(uint8_t rhport, uint8_t ep_addr, xfer_result_t result,
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if (_ctrl_xfer.request.bmRequestType_bit.direction == TUSB_DIR_OUT) {
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TU_VERIFY(_ctrl_xfer.buffer);
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memcpy(_ctrl_xfer.buffer, _ctrl_xfer.ep_buf, xferred_bytes);
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memcpy(_ctrl_xfer.buffer, _ctrl_epbuf.buf, xferred_bytes);
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TU_LOG_MEM(CFG_TUD_LOG_LEVEL, _usbd_ctrl_buf, xferred_bytes, 2);
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}
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@@ -205,7 +198,6 @@ bool usbd_control_xfer_cb(uint8_t rhport, uint8_t ep_addr, xfer_result_t result,
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}
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if (is_ok) {
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// Send status
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TU_ASSERT(status_stage_xact(rhport, &_ctrl_xfer.request));
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} else {
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// Stall both IN and OUT control endpoint
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