change edpt stream api to take hwid from API to reduce memory footprint

src/class/cdc/cdc_host.c

@@ -341,14 +341,14 @@ uint32_t tuh_cdc_write(uint8_t idx, void const* buffer, uint32_t bufsize) {
   cdch_interface_t* p_cdc = get_itf(idx);
   TU_VERIFY(p_cdc);
 
-  return tu_edpt_stream_write(&p_cdc->stream.tx, buffer, bufsize);
+  return tu_edpt_stream_write(p_cdc->daddr, &p_cdc->stream.tx, buffer, bufsize);
 }
 
 uint32_t tuh_cdc_write_flush(uint8_t idx) {
   cdch_interface_t* p_cdc = get_itf(idx);
   TU_VERIFY(p_cdc);
 
-  return tu_edpt_stream_write_xfer(&p_cdc->stream.tx);
+  return tu_edpt_stream_write_xfer(p_cdc->daddr, &p_cdc->stream.tx);
 }
 
 bool tuh_cdc_write_clear(uint8_t idx) {
@@ -362,7 +362,7 @@ uint32_t tuh_cdc_write_available(uint8_t idx) {
   cdch_interface_t* p_cdc = get_itf(idx);
   TU_VERIFY(p_cdc);
 
-  return tu_edpt_stream_write_available(&p_cdc->stream.tx);
+  return tu_edpt_stream_write_available(p_cdc->daddr, &p_cdc->stream.tx);
 }
 
 //--------------------------------------------------------------------+
@@ -373,7 +373,7 @@ uint32_t tuh_cdc_read (uint8_t idx, void* buffer, uint32_t bufsize) {
   cdch_interface_t* p_cdc = get_itf(idx);
   TU_VERIFY(p_cdc);
 
-  return tu_edpt_stream_read(&p_cdc->stream.rx, buffer, bufsize);
+  return tu_edpt_stream_read(p_cdc->daddr, &p_cdc->stream.rx, buffer, bufsize);
 }
 
 uint32_t tuh_cdc_read_available(uint8_t idx) {
@@ -395,7 +395,7 @@ bool tuh_cdc_read_clear (uint8_t idx) {
   TU_VERIFY(p_cdc);
 
   bool ret = tu_edpt_stream_clear(&p_cdc->stream.rx);
-  tu_edpt_stream_read_xfer(&p_cdc->stream.rx);
+  tu_edpt_stream_read_xfer(p_cdc->daddr, &p_cdc->stream.rx);
   return ret;
 }
 
@@ -677,10 +677,10 @@ bool cdch_xfer_cb(uint8_t daddr, uint8_t ep_addr, xfer_result_t event, uint32_t
     // invoke tx complete callback to possibly refill tx fifo
     if (tuh_cdc_tx_complete_cb) tuh_cdc_tx_complete_cb(idx);
 
-    if ( 0 == tu_edpt_stream_write_xfer(&p_cdc->stream.tx) ) {
+    if ( 0 == tu_edpt_stream_write_xfer(daddr, &p_cdc->stream.tx) ) {
       // If there is no data left, a ZLP should be sent if:
       // - xferred_bytes is multiple of EP Packet size and not zero
-      tu_edpt_stream_write_zlp_if_needed(&p_cdc->stream.tx, xferred_bytes);
+      tu_edpt_stream_write_zlp_if_needed(daddr, &p_cdc->stream.tx, xferred_bytes);
     }
   } else if ( ep_addr == p_cdc->stream.rx.ep_addr ) {
     #if CFG_TUH_CDC_FTDI
@@ -698,7 +698,7 @@ bool cdch_xfer_cb(uint8_t daddr, uint8_t ep_addr, xfer_result_t event, uint32_t
     if (tuh_cdc_rx_cb) tuh_cdc_rx_cb(idx);
 
     // prepare for next transfer if needed
-    tu_edpt_stream_read_xfer(&p_cdc->stream.rx);
+    tu_edpt_stream_read_xfer(daddr, &p_cdc->stream.rx);
   }else if ( ep_addr == p_cdc->ep_notif ) {
     // TODO handle notification endpoint
   }else {
@@ -719,9 +719,9 @@ static bool open_ep_stream_pair(cdch_interface_t* p_cdc, tusb_desc_endpoint_t co
     TU_ASSERT(tuh_edpt_open(p_cdc->daddr, desc_ep));
 
     if (tu_edpt_dir(desc_ep->bEndpointAddress) == TUSB_DIR_IN) {
-      tu_edpt_stream_open(&p_cdc->stream.rx, p_cdc->daddr, desc_ep);
+      tu_edpt_stream_open(&p_cdc->stream.rx, desc_ep);
     } else {
-      tu_edpt_stream_open(&p_cdc->stream.tx, p_cdc->daddr, desc_ep);
+      tu_edpt_stream_open(&p_cdc->stream.tx, desc_ep);
     }
 
     desc_ep = (tusb_desc_endpoint_t const*) tu_desc_next(desc_ep);
@@ -763,7 +763,7 @@ static void set_config_complete(cdch_interface_t * p_cdc, uint8_t idx, uint8_t i
   if (tuh_cdc_mount_cb) tuh_cdc_mount_cb(idx);
 
   // Prepare for incoming data
-  tu_edpt_stream_read_xfer(&p_cdc->stream.rx);
+  tu_edpt_stream_read_xfer(p_cdc->daddr, &p_cdc->stream.rx);
 
   // notify usbh that driver enumeration is complete
   usbh_driver_set_config_complete(p_cdc->daddr, itf_num);

src/common/tusb_private.h

@@ -42,14 +42,11 @@ typedef struct TU_ATTR_PACKED
 }tu_edpt_state_t;
 
 typedef struct {
-  bool is_host;       // host or device
-  union {
-      uint8_t daddr;  // host mode
-      uint8_t rhport; // device mode
-      uint8_t hwid;
+  struct {
+      uint8_t is_host : 1;       // host or device
+      uint8_t is_highspeed: 1;       // is highspeed
   };
   uint8_t ep_addr;
-  uint8_t ep_speed;
 
   uint16_t ep_packetsize;
   uint16_t ep_bufsize;
@@ -97,16 +94,14 @@ bool tu_edpt_stream_deinit(tu_edpt_stream_t* s);
 // Open an stream for an endpoint
 // hwid is either device address (host mode) or rhport (device mode)
 TU_ATTR_ALWAYS_INLINE static inline
-void tu_edpt_stream_open(tu_edpt_stream_t* s, uint8_t hwid, tusb_desc_endpoint_t const *desc_ep) {
+void tu_edpt_stream_open(tu_edpt_stream_t* s, tusb_desc_endpoint_t const *desc_ep) {
   tu_fifo_clear(&s->ff);
-  s->hwid = hwid;
   s->ep_addr = desc_ep->bEndpointAddress;
   s->ep_packetsize = tu_edpt_packet_size(desc_ep);
 }
 
 TU_ATTR_ALWAYS_INLINE static inline
 void tu_edpt_stream_close(tu_edpt_stream_t* s) {
-  s->hwid = 0;
   s->ep_addr = 0;
 }
 
@@ -121,27 +116,27 @@ bool tu_edpt_stream_clear(tu_edpt_stream_t* s) {
 //--------------------------------------------------------------------+
 
 // Write to stream
-uint32_t tu_edpt_stream_write(tu_edpt_stream_t* s, void const *buffer, uint32_t bufsize);
+uint32_t tu_edpt_stream_write(uint8_t hwid, tu_edpt_stream_t* s, void const *buffer, uint32_t bufsize);
 
 // Start an usb transfer if endpoint is not busy
-uint32_t tu_edpt_stream_write_xfer(tu_edpt_stream_t* s);
+uint32_t tu_edpt_stream_write_xfer(uint8_t hwid, tu_edpt_stream_t* s);
 
 // Start an zero-length packet if needed
-bool tu_edpt_stream_write_zlp_if_needed(tu_edpt_stream_t* s, uint32_t last_xferred_bytes);
+bool tu_edpt_stream_write_zlp_if_needed(uint8_t hwid, tu_edpt_stream_t* s, uint32_t last_xferred_bytes);
 
 // Get the number of bytes available for writing to FIFO
 // Note: if no fifo, return endpoint size if not busy, 0 otherwise
-uint32_t tu_edpt_stream_write_available(tu_edpt_stream_t* s);
+uint32_t tu_edpt_stream_write_available(uint8_t hwid, tu_edpt_stream_t* s);
 
 //--------------------------------------------------------------------+
 // Stream Read
 //--------------------------------------------------------------------+
 
 // Read from stream
-uint32_t tu_edpt_stream_read(tu_edpt_stream_t* s, void* buffer, uint32_t bufsize);
+uint32_t tu_edpt_stream_read(uint8_t hwid, tu_edpt_stream_t* s, void* buffer, uint32_t bufsize);
 
 // Start an usb transfer if endpoint is not busy
-uint32_t tu_edpt_stream_read_xfer(tu_edpt_stream_t* s);
+uint32_t tu_edpt_stream_read_xfer(uint8_t hwid, tu_edpt_stream_t* s);
 
 // Must be called in the transfer complete callback
 TU_ATTR_ALWAYS_INLINE static inline

src/tusb.c

@@ -239,40 +239,40 @@ bool tu_edpt_stream_deinit(tu_edpt_stream_t* s) {
   return true;
 }
 
-TU_ATTR_ALWAYS_INLINE static inline bool stream_claim(tu_edpt_stream_t* s) {
+TU_ATTR_ALWAYS_INLINE static inline bool stream_claim(uint8_t hwid, tu_edpt_stream_t* s) {
   if (s->is_host) {
     #if CFG_TUH_ENABLED
-    return usbh_edpt_claim(s->daddr, s->ep_addr);
+    return usbh_edpt_claim(hwid, s->ep_addr);
     #endif
   } else {
     #if CFG_TUD_ENABLED
-    return usbd_edpt_claim(s->rhport, s->ep_addr);
+    return usbd_edpt_claim(hwid, s->ep_addr);
     #endif
   }
   return false;
 }
 
-TU_ATTR_ALWAYS_INLINE static inline bool stream_xfer(tu_edpt_stream_t* s, uint16_t count) {
+TU_ATTR_ALWAYS_INLINE static inline bool stream_xfer(uint8_t hwid, tu_edpt_stream_t* s, uint16_t count) {
   if (s->is_host) {
     #if CFG_TUH_ENABLED
-    return usbh_edpt_xfer(s->daddr, s->ep_addr, count ? s->ep_buf : NULL, count);
+    return usbh_edpt_xfer(hwid, s->ep_addr, count ? s->ep_buf : NULL, count);
     #endif
   } else {
     #if CFG_TUD_ENABLED
-    return usbd_edpt_xfer(s->rhport, s->ep_addr, count ? s->ep_buf : NULL, count);
+    return usbd_edpt_xfer(hwid, s->ep_addr, count ? s->ep_buf : NULL, count);
     #endif
   }
   return false;
 }
 
-TU_ATTR_ALWAYS_INLINE static inline bool stream_release(tu_edpt_stream_t* s) {
+TU_ATTR_ALWAYS_INLINE static inline bool stream_release(uint8_t hwid, tu_edpt_stream_t* s) {
   if (s->is_host) {
     #if CFG_TUH_ENABLED
-    return usbh_edpt_release(s->daddr, s->ep_addr);
+    return usbh_edpt_release(hwid, s->ep_addr);
     #endif
   } else {
     #if CFG_TUD_ENABLED
-    return usbd_edpt_release(s->rhport, s->ep_addr);
+    return usbd_edpt_release(hwid, s->ep_addr);
     #endif
   }
   return false;
@@ -281,43 +281,43 @@ TU_ATTR_ALWAYS_INLINE static inline bool stream_release(tu_edpt_stream_t* s) {
 //--------------------------------------------------------------------+
 // Stream Write
 //--------------------------------------------------------------------+
-bool tu_edpt_stream_write_zlp_if_needed(tu_edpt_stream_t* s, uint32_t last_xferred_bytes) {
+bool tu_edpt_stream_write_zlp_if_needed(uint8_t hwid, tu_edpt_stream_t* s, uint32_t last_xferred_bytes) {
   // ZLP condition: no pending data, last transferred bytes is multiple of packet size
   TU_VERIFY(!tu_fifo_count(&s->ff) && last_xferred_bytes && (0 == (last_xferred_bytes & (s->ep_packetsize - 1))));
-  TU_VERIFY(stream_claim(s));
-  TU_ASSERT(stream_xfer(s, 0));
+  TU_VERIFY(stream_claim(hwid, s));
+  TU_ASSERT(stream_xfer(hwid, s, 0));
   return true;
 }
 
-uint32_t tu_edpt_stream_write_xfer(tu_edpt_stream_t* s) {
+uint32_t tu_edpt_stream_write_xfer(uint8_t hwid, tu_edpt_stream_t* s) {
   // skip if no data
   TU_VERIFY(tu_fifo_count(&s->ff), 0);
 
-  TU_VERIFY(stream_claim(s), 0);
+  TU_VERIFY(stream_claim(hwid, s), 0);
 
   // Pull data from FIFO -> EP buf
   uint16_t const count = tu_fifo_read_n(&s->ff, s->ep_buf, s->ep_bufsize);
 
   if (count) {
-    TU_ASSERT(stream_xfer(s, count), 0);
+    TU_ASSERT(stream_xfer(hwid, s, count), 0);
     return count;
   } else {
     // Release endpoint since we don't make any transfer
     // Note: data is dropped if terminal is not connected
-    stream_release(s);
+    stream_release(hwid, s);
     return 0;
   }
 }
 
-uint32_t tu_edpt_stream_write(tu_edpt_stream_t* s, void const* buffer, uint32_t bufsize) {
+uint32_t tu_edpt_stream_write(uint8_t hwid, tu_edpt_stream_t* s, void const* buffer, uint32_t bufsize) {
   TU_VERIFY(bufsize); // TODO support ZLP
 
   if (0 == tu_fifo_depth(&s->ff)) {
     // no fifo for buffered
-    TU_VERIFY(stream_claim(s), 0);
+    TU_VERIFY(stream_claim(hwid, s), 0);
     const uint32_t xact_len = tu_min32(bufsize, s->ep_bufsize);
     memcpy(s->ep_buf, buffer, xact_len);
-    TU_ASSERT(stream_xfer(s, xact_len), 0);
+    TU_ASSERT(stream_xfer(hwid, s, xact_len), 0);
     return xact_len;
   } else {
     const uint16_t ret = tu_fifo_write_n(&s->ff, buffer, (uint16_t) bufsize);
@@ -325,24 +325,24 @@ uint32_t tu_edpt_stream_write(tu_edpt_stream_t* s, void const* buffer, uint32_t
     // flush if fifo has more than packet size or
     // in rare case: fifo depth is configured too small (which never reach packet size)
     if ((tu_fifo_count(&s->ff) >= s->ep_packetsize) || (tu_fifo_depth(&s->ff) < s->ep_packetsize)) {
-      tu_edpt_stream_write_xfer(s);
+      tu_edpt_stream_write_xfer(hwid, s);
     }
     return ret;
   }
 }
 
-uint32_t tu_edpt_stream_write_available(tu_edpt_stream_t* s) {
+uint32_t tu_edpt_stream_write_available(uint8_t hwid, tu_edpt_stream_t* s) {
   if (tu_fifo_depth(&s->ff)) {
     return (uint32_t) tu_fifo_remaining(&s->ff);
   } else {
     bool is_busy = true;
     if (s->is_host) {
       #if CFG_TUH_ENABLED
-      is_busy = usbh_edpt_busy(s->daddr, s->ep_addr);
+      is_busy = usbh_edpt_busy(hwid, s->ep_addr);
       #endif
     } else {
       #if CFG_TUD_ENABLED
-      is_busy = usbd_edpt_busy(s->rhport, s->ep_addr);
+      is_busy = usbd_edpt_busy(hwid, s->ep_addr);
       #endif
     }
     return is_busy ? 0 : s->ep_bufsize;
@@ -352,11 +352,11 @@ uint32_t tu_edpt_stream_write_available(tu_edpt_stream_t* s) {
 //--------------------------------------------------------------------+
 // Stream Read
 //--------------------------------------------------------------------+
-uint32_t tu_edpt_stream_read_xfer(tu_edpt_stream_t* s) {
+uint32_t tu_edpt_stream_read_xfer(uint8_t hwid, tu_edpt_stream_t* s) {
   if (0 == tu_fifo_depth(&s->ff)) {
     // no fifo for buffered
-    TU_VERIFY(stream_claim(s), 0);
-    TU_ASSERT(stream_xfer(s, s->ep_bufsize), 0);
+    TU_VERIFY(stream_claim(hwid, s), 0);
+    TU_ASSERT(stream_xfer(hwid, s, s->ep_bufsize), 0);
     return s->ep_bufsize;
   } else {
     uint16_t available = tu_fifo_remaining(&s->ff);
@@ -367,7 +367,7 @@ uint32_t tu_edpt_stream_read_xfer(tu_edpt_stream_t* s) {
     // This pre-check reduces endpoint claiming
     TU_VERIFY(available >= s->ep_packetsize);
 
-    TU_VERIFY(stream_claim(s), 0);
+    TU_VERIFY(stream_claim(hwid, s), 0);
 
     // get available again since fifo can be changed before endpoint is claimed
     available = tu_fifo_remaining(&s->ff);
@@ -376,19 +376,19 @@ uint32_t tu_edpt_stream_read_xfer(tu_edpt_stream_t* s) {
       // multiple of packet size limit by ep bufsize
       uint16_t count = (uint16_t) (available & ~(s->ep_packetsize - 1));
       count = tu_min16(count, s->ep_bufsize);
-      TU_ASSERT(stream_xfer(s, count), 0);
+      TU_ASSERT(stream_xfer(hwid, s, count), 0);
       return count;
     } else {
       // Release endpoint since we don't make any transfer
-      stream_release(s);
+      stream_release(hwid, s);
       return 0;
     }
   }
 }
 
-uint32_t tu_edpt_stream_read(tu_edpt_stream_t* s, void* buffer, uint32_t bufsize) {
+uint32_t tu_edpt_stream_read(uint8_t hwid, tu_edpt_stream_t* s, void* buffer, uint32_t bufsize) {
   uint32_t num_read = tu_fifo_read_n(&s->ff, buffer, (uint16_t) bufsize);
-  tu_edpt_stream_read_xfer(s);
+  tu_edpt_stream_read_xfer(hwid, s);
   return num_read;
 }