/*
* SPDX-FileCopyrightText: 2015-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stdio.h>
#include <string.h>
#include "soc/usb_dwc_cfg.h"
#include "freertos/FreeRTOS.h"
#include "freertos/semphr.h"
#include "unity.h"
#include "test_usb_mock_msc.h"
#include "test_usb_common.h"
#include "test_hcd_common.h"
#define NUM_URBS 3
#define NUM_PACKETS_PER_URB 3
#define ISOC_PACKET_SIZE MOCK_ISOC_EP_MPS
#define URB_DATA_BUFF_SIZE (NUM_PACKETS_PER_URB * ISOC_PACKET_SIZE)
#define POST_ENQUEUE_DELAY_US 20
#define ENQUEUE_DELAY (OTG_HSPHY_INTERFACE ? 100 : 500) // With this delay we want to enqueue the URBs at different times
/*
Test HCD ISOC pipe URBs
Purpose:
- Test that an isochronous pipe can be created
- URBs can be created and enqueued to the isoc pipe pipe
- isoc pipe returns HCD_PIPE_EVENT_URB_DONE for completed URBs
- Test utilizes ISOC OUT transfers and do not require ACKs. So the isoc pipe will target a non existing endpoint
Procedure:
- Setup HCD and wait for connection
- Allocate default pipe and enumerate the device
- Allocate an isochronous pipe and multiple URBs. Each URB should contain multiple packets to test HCD's ability to
schedule an URB across multiple intervals.
- Enqueue those URBs
- Expect HCD_PIPE_EVENT_URB_DONE for each URB. Verify that data is correct using logic analyzer
- Deallocate URBs
- Teardown
*/
TEST_CASE("Test HCD isochronous pipe URBs", "[isoc][full_speed]")
{
usb_speed_t port_speed = test_hcd_wait_for_conn(port_hdl); //Trigger a connection
//The MPS of the ISOC OUT pipe is quite large, so we need to bias the FIFO sizing
TEST_ASSERT_EQUAL(ESP_OK, hcd_port_set_fifo_bias(port_hdl, HCD_PORT_FIFO_BIAS_PTX));
vTaskDelay(pdMS_TO_TICKS(100)); //Short delay send of SOF (for FS) or EOPs (for LS)
//Enumerate and reset device
hcd_pipe_handle_t default_pipe = test_hcd_pipe_alloc(port_hdl, NULL, 0, port_speed); //Create a default pipe (using a NULL EP descriptor)
uint8_t dev_addr = test_hcd_enum_device(default_pipe);
//Create ISOC OUT pipe to non-existent device
hcd_pipe_handle_t isoc_out_pipe = test_hcd_pipe_alloc(port_hdl, &mock_isoc_out_ep_desc, dev_addr + 1, port_speed);
//Create URBs
urb_t *urb_list[NUM_URBS];
//Initialize URBs
for (int urb_idx = 0; urb_idx < NUM_URBS; urb_idx++) {
urb_list[urb_idx] = test_hcd_alloc_urb(NUM_PACKETS_PER_URB, URB_DATA_BUFF_SIZE);
urb_list[urb_idx]->transfer.num_bytes = URB_DATA_BUFF_SIZE;
urb_list[urb_idx]->transfer.context = URB_CONTEXT_VAL;
for (int pkt_idx = 0; pkt_idx < NUM_PACKETS_PER_URB; pkt_idx++) {
urb_list[urb_idx]->transfer.isoc_packet_desc[pkt_idx].num_bytes = ISOC_PACKET_SIZE;
//Each packet will consist of the same byte, but each subsequent packet's byte will increment (i.e., packet 0 transmits all 0x0, packet 1 transmits all 0x1)
memset(&urb_list[urb_idx]->transfer.data_buffer[pkt_idx * ISOC_PACKET_SIZE], (urb_idx * NUM_URBS) + pkt_idx, ISOC_PACKET_SIZE);
}
}
//Enqueue URBs
for (int i = 0; i < NUM_URBS; i++) {
TEST_ASSERT_EQUAL(ESP_OK, hcd_urb_enqueue(isoc_out_pipe, urb_list[i]));
}
//Wait for each done event from each URB
for (int i = 0; i < NUM_URBS; i++) {
test_hcd_expect_pipe_event(isoc_out_pipe, HCD_PIPE_EVENT_URB_DONE);
}
//Dequeue URBs
for (int urb_idx = 0; urb_idx < NUM_URBS; urb_idx++) {
urb_t *urb = hcd_urb_dequeue(isoc_out_pipe);
TEST_ASSERT_EQUAL(urb_list[urb_idx], urb);
TEST_ASSERT_EQUAL(URB_CONTEXT_VAL, urb->transfer.context);
//Overall URB status and overall number of bytes
TEST_ASSERT_EQUAL(URB_DATA_BUFF_SIZE, urb->transfer.actual_num_bytes);
TEST_ASSERT_EQUAL_MESSAGE(USB_TRANSFER_STATUS_COMPLETED, urb->transfer.status, "Transfer NOT completed");
for (int pkt_idx = 0; pkt_idx < NUM_PACKETS_PER_URB; pkt_idx++) {
TEST_ASSERT_EQUAL_MESSAGE(USB_TRANSFER_STATUS_COMPLETED, urb->transfer.isoc_packet_desc[pkt_idx].status, "Transfer NOT completed");
}
}
//Free URB list and pipe
for (int i = 0; i < NUM_URBS; i++) {
test_hcd_free_urb(urb_list[i]);
}
test_hcd_pipe_free(isoc_out_pipe);
test_hcd_pipe_free(default_pipe);
//Cleanup
test_hcd_wait_for_disconn(port_hdl, false);
}
/*
Test HCD ISOC pipe URBs with all channels and intervals combinations
Purpose:
- Test that the ISOC scheduler correctly schedules all channels and intervals
Procedure:
- Setup HCD and wait for connection
- Allocate default pipe and enumerate the device
- Allocate an isochronous pipe and multiple URBs. Each URB should contain multiple packets to test HCD's ability to
schedule an URB across multiple intervals.
- Repeat for all channels and intervals
- Enqueue those URBs
- Expect HCD_PIPE_EVENT_URB_DONE for each URB. Verify that data is correct using logic analyzer
- Deallocate URBs
- Teardown
*/
TEST_CASE("Test HCD isochronous pipe URBs all", "[isoc][full_speed]")
{
usb_speed_t port_speed = test_hcd_wait_for_conn(port_hdl); //Trigger a connection
//The MPS of the ISOC OUT pipe is quite large, so we need to bias the FIFO sizing
TEST_ASSERT_EQUAL(ESP_OK, hcd_port_set_fifo_bias(port_hdl, HCD_PORT_FIFO_BIAS_PTX));
vTaskDelay(pdMS_TO_TICKS(100)); //Short delay send of SOF (for FS) or EOPs (for LS)
//Enumerate and reset device
hcd_pipe_handle_t default_pipe = test_hcd_pipe_alloc(port_hdl, NULL, 0, port_speed); //Create a default pipe (using a NULL EP descriptor)
uint8_t dev_addr = test_hcd_enum_device(default_pipe);
urb_t *urb_list[NUM_URBS];
hcd_pipe_handle_t unused_pipes[OTG_NUM_HOST_CHAN];
// For all channels
for (int channel = 0; channel < OTG_NUM_HOST_CHAN - 1; channel++) {
// Allocate unused pipes, so the active isoc_out_pipe uses different channel index
for (int ch = 0; ch < channel; ch++) {
unused_pipes[ch] = test_hcd_pipe_alloc(port_hdl, &mock_isoc_out_ep_desc, dev_addr + 1, port_speed);
}
// For all intervals
for (int interval = 1; interval <= 6; interval++) {
vTaskDelay(5);
unsigned num_packets_per_urb = 32; // This is maximum number of packets if interval = 1. This is limited by FRAME_LIST_LEN
num_packets_per_urb >>= (interval - 1);
//Create ISOC OUT pipe
usb_ep_desc_t isoc_out_ep = mock_isoc_out_ep_desc; // Implicit copy
isoc_out_ep.bInterval = interval;
isoc_out_ep.bEndpointAddress = interval; // So you can see the bInterval value in trace
hcd_pipe_handle_t isoc_out_pipe = test_hcd_pipe_alloc(port_hdl, &isoc_out_ep, channel + 1, port_speed); // Channel number represented in dev_num, so you can see it in trace
//Initialize URBs
for (int urb_idx = 0; urb_idx < NUM_URBS; urb_idx++) {
urb_list[urb_idx] = test_hcd_alloc_urb(num_packets_per_urb, num_packets_per_urb * ISOC_PACKET_SIZE);
urb_list[urb_idx]->transfer.num_bytes = num_packets_per_urb * ISOC_PACKET_SIZE;
urb_list[urb_idx]->transfer.context = URB_CONTEXT_VAL;
for (int pkt_idx = 0; pkt_idx < num_packets_per_urb; pkt_idx++) {
urb_list[urb_idx]->transfer.isoc_packet_desc[pkt_idx].num_bytes = ISOC_PACKET_SIZE;
//Each packet will consist of the same byte, but each subsequent packet's byte will increment (i.e., packet 0 transmits all 0x0, packet 1 transmits all 0x1)
memset(&urb_list[urb_idx]->transfer.data_buffer[pkt_idx * ISOC_PACKET_SIZE], (urb_idx * num_packets_per_urb) + pkt_idx, ISOC_PACKET_SIZE);
}
}
// Add a delay so we start scheduling the transactions at different time in USB frame
esp_rom_delay_us(ENQUEUE_DELAY * interval + ENQUEUE_DELAY * channel);
//Enqueue URBs
for (int i = 0; i < NUM_URBS; i++) {
TEST_ASSERT_EQUAL(ESP_OK, hcd_urb_enqueue(isoc_out_pipe, urb_list[i]));
}
//Wait for each done event from each URB
for (int i = 0; i < NUM_URBS; i++) {
test_hcd_expect_pipe_event(isoc_out_pipe, HCD_PIPE_EVENT_URB_DONE);
}
//Dequeue URBs
for (int urb_idx = 0; urb_idx < NUM_URBS; urb_idx++) {
urb_t *urb = hcd_urb_dequeue(isoc_out_pipe);
TEST_ASSERT_EQUAL(urb_list[urb_idx], urb);
TEST_ASSERT_EQUAL(URB_CONTEXT_VAL, urb->transfer.context);
//Overall URB status and overall number of bytes
TEST_ASSERT_EQUAL(num_packets_per_urb * ISOC_PACKET_SIZE, urb->transfer.actual_num_bytes);
TEST_ASSERT_EQUAL_MESSAGE(USB_TRANSFER_STATUS_COMPLETED, urb->transfer.status, "Transfer NOT completed");
for (int pkt_idx = 0; pkt_idx < num_packets_per_urb; pkt_idx++) {
TEST_ASSERT_EQUAL_MESSAGE(USB_TRANSFER_STATUS_COMPLETED, urb->transfer.isoc_packet_desc[pkt_idx].status, "Transfer NOT completed");
}
}
//Free URB list and pipe
for (int i = 0; i < NUM_URBS; i++) {
test_hcd_free_urb(urb_list[i]);
}
test_hcd_pipe_free(isoc_out_pipe);
}
// Free unused pipes
for (int ch = 0; ch < channel; ch++) {
test_hcd_pipe_free(unused_pipes[ch]);
}
}
test_hcd_pipe_free(default_pipe);
//Cleanup
test_hcd_wait_for_disconn(port_hdl, false);
}
/*
Test a port sudden disconnect with an active ISOC pipe
Purpose: Test that when sudden disconnection happens on an HCD port, the ISOC pipe will
- Remain active after the HCD_PORT_EVENT_SUDDEN_DISCONN port event
- ISOC pipe can be halted
- ISOC pipe can be flushed (and transfers status are updated accordingly)
Procedure:
- Setup HCD and wait for connection
- Allocate default pipe and enumerate the device
- Allocate an isochronous pipe and multiple URBs. Each URB should contain multiple packets to test HCD's ability to
schedule an URB across multiple intervals.
- Enqueue those URBs
- Trigger a disconnect after a short delay
- Check that HCD_PORT_EVENT_SUDDEN_DISCONN event is generated. Handle that port event.
- Check that both pipes remain in the HCD_PIPE_STATE_ACTIVE after the port error.
- Check that both pipes pipe can be halted.
- Check that the default pipe can be flushed. A HCD_PIPE_EVENT_URB_DONE event should be generated for the ISOC pipe
because it had enqueued URBs.
- Check that all URBs can be dequeued and their status is updated
- Free both pipes
- Teardown
*/
TEST_CASE("Test HCD isochronous pipe sudden disconnect", "[isoc][full_speed]")
{
usb_speed_t port_speed = test_hcd_wait_for_conn(port_hdl); //Trigger a connection
//The MPS of the ISOC OUT pipe is quite large, so we need to bias the FIFO sizing
TEST_ASSERT_EQUAL(ESP_OK, hcd_port_set_fifo_bias(port_hdl, HCD_PORT_FIFO_BIAS_PTX));
vTaskDelay(pdMS_TO_TICKS(100)); //Short delay send of SOF (for FS) or EOPs (for LS)
//Enumerate and reset device
hcd_pipe_handle_t default_pipe = test_hcd_pipe_alloc(port_hdl, NULL, 0, port_speed); //Create a default pipe (using a NULL EP descriptor)
uint8_t dev_addr = test_hcd_enum_device(default_pipe);
//Create ISOC OUT pipe to non-existent device
hcd_pipe_handle_t isoc_out_pipe = test_hcd_pipe_alloc(port_hdl, &mock_isoc_out_ep_desc, dev_addr + 1, port_speed);
//Create URBs
urb_t *urb_list[NUM_URBS];
//Initialize URBs
for (int urb_idx = 0; urb_idx < NUM_URBS; urb_idx++) {
urb_list[urb_idx] = test_hcd_alloc_urb(NUM_PACKETS_PER_URB, URB_DATA_BUFF_SIZE);
urb_list[urb_idx]->transfer.num_bytes = URB_DATA_BUFF_SIZE;
urb_list[urb_idx]->transfer.context = URB_CONTEXT_VAL;
for (int pkt_idx = 0; pkt_idx < NUM_PACKETS_PER_URB; pkt_idx++) {
urb_list[urb_idx]->transfer.isoc_packet_desc[pkt_idx].num_bytes = ISOC_PACKET_SIZE;
//Each packet will consist of the same byte, but each subsequent packet's byte will increment (i.e., packet 0 transmits all 0x0, packet 1 transmits all 0x1)
memset(&urb_list[urb_idx]->transfer.data_buffer[pkt_idx * ISOC_PACKET_SIZE], (urb_idx * NUM_URBS) + pkt_idx, ISOC_PACKET_SIZE);
}
}
//Enqueue URBs
for (int i = 0; i < NUM_URBS; i++) {
TEST_ASSERT_EQUAL(ESP_OK, hcd_urb_enqueue(isoc_out_pipe, urb_list[i]));
}
//Add a short delay to let the transfers run for a bit
esp_rom_delay_us(POST_ENQUEUE_DELAY_US);
test_usb_set_phy_state(false, 0);
//Disconnect event should have occurred. Handle the port event
test_hcd_expect_port_event(port_hdl, HCD_PORT_EVENT_DISCONNECTION);
TEST_ASSERT_EQUAL(HCD_PORT_EVENT_DISCONNECTION, hcd_port_handle_event(port_hdl));
TEST_ASSERT_EQUAL(HCD_PORT_STATE_RECOVERY, hcd_port_get_state(port_hdl));
printf("Sudden disconnect\n");
//Both pipes should still be active
TEST_ASSERT_EQUAL(HCD_PIPE_STATE_ACTIVE, hcd_pipe_get_state(default_pipe));
TEST_ASSERT_EQUAL(HCD_PIPE_STATE_ACTIVE, hcd_pipe_get_state(isoc_out_pipe));
//Halt both pipes
TEST_ASSERT_EQUAL(ESP_OK, hcd_pipe_command(default_pipe, HCD_PIPE_CMD_HALT));
TEST_ASSERT_EQUAL(ESP_OK, hcd_pipe_command(isoc_out_pipe, HCD_PIPE_CMD_HALT));
TEST_ASSERT_EQUAL(HCD_PIPE_STATE_HALTED, hcd_pipe_get_state(default_pipe));
TEST_ASSERT_EQUAL(HCD_PIPE_STATE_HALTED, hcd_pipe_get_state(isoc_out_pipe));
//Flush both pipes. ISOC pipe should return completed URBs
TEST_ASSERT_EQUAL(ESP_OK, hcd_pipe_command(default_pipe, HCD_PIPE_CMD_FLUSH));
TEST_ASSERT_EQUAL(ESP_OK, hcd_pipe_command(isoc_out_pipe, HCD_PIPE_CMD_FLUSH));
//Dequeue ISOC URBs
for (int urb_idx = 0; urb_idx < NUM_URBS; urb_idx++) {
urb_t *urb = hcd_urb_dequeue(isoc_out_pipe);
TEST_ASSERT_EQUAL(urb_list[urb_idx], urb);
TEST_ASSERT_EQUAL(URB_CONTEXT_VAL, urb->transfer.context);
//The URB has either completed entirely or is marked as no_device
TEST_ASSERT(urb->transfer.status == USB_TRANSFER_STATUS_COMPLETED || urb->transfer.status == USB_TRANSFER_STATUS_NO_DEVICE);
}
//Free URB list and pipe
for (int i = 0; i < NUM_URBS; i++) {
test_hcd_free_urb(urb_list[i]);
}
test_hcd_pipe_free(isoc_out_pipe);
test_hcd_pipe_free(default_pipe);
}