/* This test is designed to test the ux_utility_mutex_.... */ #include #include "tx_api.h" #include "ux_api.h" #include "ux_system.h" #include "ux_utility.h" #include "ux_host_stack.h" #include "ux_device_stack.h" #include "ux_device_class_cdc_acm.h" #include "ux_host_class_cdc_acm.h" #include "ux_host_class_dpump.h" #include "ux_device_class_dpump.h" #include "ux_host_class_hid.h" #include "ux_device_class_hid.h" #include "ux_host_class_storage.h" #include "ux_device_class_storage.h" #include "ux_test_dcd_sim_slave.h" #include "ux_test_hcd_sim_host.h" #include "ux_test_utility_sim.h" /* Define USBX test constants. */ #define UX_TEST_STACK_SIZE 4096 #define UX_TEST_BUFFER_SIZE 2048 #define UX_TEST_RUN 1 #define UX_TEST_MEMORY_SIZE (64*1024) #define LSB(x) ( (x) & 0x00ff) #define MSB(x) (((x) & 0xff00) >> 8) /* Configuration descriptor 9 bytes */ #define CFG_DESC(wTotalLength, bNumInterfaces, bConfigurationValue)\ /* Configuration 1 descriptor 9 bytes */\ 0x09, 0x02, LSB(wTotalLength), MSB(wTotalLength),\ (bNumInterfaces), (bConfigurationValue), 0x00,\ 0x40, 0x00, #define CFG_DESC_LEN 9 /* DPUMP interface descriptors. */ #define DPUMP_IFC_DESC(ifc, alt, nb_ep) \ /* Interface descriptor */\ 0x09, 0x04, (ifc), (alt), (nb_ep), 0x99, 0x99, 0x99, 0x00, #define DPUMP_IFC_EP_DESC(epaddr, eptype, epsize) \ /* Endpoint descriptor */\ 0x07, 0x05, (epaddr), (eptype), LSB(epsize), MSB(epsize), 0x01, #define DPUMP_IFC_DESC_ALL_LEN(nb_ep) (9 + (nb_ep) * 7) #define CFG_DESC_ALL_LEN (CFG_DESC_LEN + DPUMP_IFC_DESC_ALL_LEN(4)) #define CFG_DESC_ALL \ CFG_DESC(CFG_DESC_ALL_LEN, 1, 1)\ DPUMP_IFC_DESC(0, 0, 4)\ DPUMP_IFC_EP_DESC(0x81, 2, 64)\ DPUMP_IFC_EP_DESC(0x02, 2, 64)\ DPUMP_IFC_EP_DESC(0x83, 1, 64)\ DPUMP_IFC_EP_DESC(0x84, 3, 64)\ /* Define the counters used in the test application... */ static ULONG thread_0_counter; static ULONG thread_1_counter; static ULONG error_counter; static UCHAR error_callback_ignore = UX_FALSE; static ULONG error_callback_counter; static UCHAR buffer[UX_TEST_BUFFER_SIZE]; static TX_MUTEX test_mutex; /* Define USBX test global variables. */ static UX_HOST_CLASS *class_driver; static UX_HOST_CLASS_DPUMP *dpump; static UX_SLAVE_CLASS_DPUMP *dpump_slave = UX_NULL; static UCHAR device_framework_full_speed[] = { /* Device descriptor 18 bytes */ 0x12, 0x01, 0x10, 0x01, 0x00, 0x00, 0x00, 0x08, 0xec, 0x08, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, CFG_DESC_ALL }; #define DEVICE_FRAMEWORK_LENGTH_FULL_SPEED sizeof(device_framework_full_speed) static UCHAR device_framework_high_speed[] = { /* Device descriptor */ 0x12, 0x01, 0x00, 0x02, 0x00, 0x00, 0x00, 0x40, 0x0a, 0x07, 0x25, 0x40, 0x01, 0x00, 0x01, 0x02, 0x03, 0x01, /* Device qualifier descriptor */ 0x0a, 0x06, 0x00, 0x02, 0x00, 0x00, 0x00, 0x40, 0x01, 0x00, CFG_DESC_ALL }; #define DEVICE_FRAMEWORK_LENGTH_HIGH_SPEED sizeof(device_framework_high_speed) /* String Device Framework : Byte 0 and 1 : Word containing the language ID : 0x0904 for US Byte 2 : Byte containing the index of the descriptor Byte 3 : Byte containing the length of the descriptor string */ static UCHAR string_framework[] = { /* Manufacturer string descriptor : Index 1 */ 0x09, 0x04, 0x01, 0x0c, 0x45, 0x78, 0x70, 0x72,0x65, 0x73, 0x20, 0x4c, 0x6f, 0x67, 0x69, 0x63, /* Product string descriptor : Index 2 */ 0x09, 0x04, 0x02, 0x0c, 0x44, 0x61, 0x74, 0x61, 0x50, 0x75, 0x6d, 0x70, 0x44, 0x65, 0x6d, 0x6f, /* Serial Number string descriptor : Index 3 */ 0x09, 0x04, 0x03, 0x04, 0x30, 0x30, 0x30, 0x31 }; #define STRING_FRAMEWORK_LENGTH sizeof(string_framework) /* Multiple languages are supported on the device, to add a language besides English, the unicode language code must be appended to the language_id_framework array and the length adjusted accordingly. */ static UCHAR language_id_framework[] = { /* English. */ 0x09, 0x04 }; #define LANGUAGE_ID_FRAMEWORK_LENGTH sizeof(language_id_framework) /* Define prototypes for external Host Controller's (HCDs), classes and clients. */ static VOID ux_test_instance_activate(VOID *dpump_instance); static VOID ux_test_instance_deactivate(VOID *dpump_instance); UINT _ux_host_class_dpump_entry(UX_HOST_CLASS_COMMAND *command); UINT ux_hcd_sim_initialize(UX_HCD *hcd); UINT _ux_host_class_dpump_write(UX_HOST_CLASS_DPUMP *dpump, UCHAR * data_pointer, ULONG requested_length, ULONG *actual_length); UINT _ux_host_class_dpump_read (UX_HOST_CLASS_DPUMP *dpump, UCHAR *data_pointer, ULONG requested_length, ULONG *actual_length); static TX_THREAD ux_test_thread_simulation_0; static TX_THREAD ux_test_thread_simulation_1; static void ux_test_thread_simulation_0_entry(ULONG); static void ux_test_thread_simulation_1_entry(ULONG); /* Define the ISR dispatch. */ extern VOID (*test_isr_dispatch)(void); /* Prototype for test control return. */ void test_control_return(UINT status); /* Simulator actions. */ static UX_TEST_HCD_SIM_ACTION endpoint0x83_create_del_skip[] = { /* function, request to match, port action, port status, request action, request EP, request data, request actual length, request status, status, additional callback, no_return */ { UX_HCD_CREATE_ENDPOINT, NULL, UX_FALSE, 0, UX_TEST_MATCH_EP, 0x83, UX_NULL, 0, 0, UX_SUCCESS}, { UX_HCD_CREATE_ENDPOINT, NULL, UX_FALSE, 0, UX_TEST_MATCH_EP, 0x83, UX_NULL, 0, 0, UX_SUCCESS}, { 0 } }; /* Define the ISR dispatch routine. */ static void test_isr(void) { /* For further expansion of interrupt-level testing. */ } static VOID error_callback(UINT system_level, UINT system_context, UINT error_code) { error_callback_counter ++; if (!error_callback_ignore) { { /* Failed test. */ printf("Error #%d, system_level: %d, system_context: %d, error_code: 0x%x\n", __LINE__, system_level, system_context, error_code); // test_control_return(1); } } } static UINT break_on_dpump_ready(VOID) { UINT status; UX_HOST_CLASS *class; /* Find the main data pump container. */ status = ux_host_stack_class_get(_ux_system_host_class_dpump_name, &class); if (status != UX_SUCCESS) /* Do not break. */ return UX_SUCCESS; /* Find the instance. */ status = ux_host_stack_class_instance_get(class, 0, (VOID **) &dpump); if (status != UX_SUCCESS) /* Do not break. */ return UX_SUCCESS; if (dpump -> ux_host_class_dpump_state != UX_HOST_CLASS_INSTANCE_LIVE) /* Do not break. */ return UX_SUCCESS; return 1; } static UINT break_on_removal(VOID) { UINT status; UX_DEVICE *device; status = ux_host_stack_device_get(0, &device); if (status == UX_SUCCESS) /* Do not break. */ return UX_SUCCESS; return 1; } static UINT test_ux_device_class_dpump_entry(UX_SLAVE_CLASS_COMMAND *command) { switch(command->ux_slave_class_command_request) { case UX_SLAVE_CLASS_COMMAND_INITIALIZE: case UX_SLAVE_CLASS_COMMAND_QUERY: case UX_SLAVE_CLASS_COMMAND_CHANGE: return UX_SUCCESS; default: return UX_NO_CLASS_MATCH; } } static UINT test_ux_host_class_dpump_entry(UX_HOST_CLASS_COMMAND *command) { switch (command -> ux_host_class_command_request) { case UX_HOST_CLASS_COMMAND_QUERY: default: return _ux_host_class_dpump_entry(command); } } /* Define what the initial system looks like. */ #ifdef CTEST void test_application_define(void *first_unused_memory) #else void usbx_ux_utility_mutex_test_application_define(void *first_unused_memory) #endif { UINT status; CHAR *stack_pointer; CHAR *memory_pointer; CHAR *rpool_start; CHAR *cpool_start; const CHAR flags[] = { UX_REGULAR_MEMORY, UX_CACHE_SAFE_MEMORY, 0xFF }; const CHAR expect_error[] = { UX_FALSE, UX_FALSE, UX_TRUE }; /* Inform user. */ printf("Running ux_utility_mutex_... Test................................... "); /* Initialize the free memory pointer. */ stack_pointer = (CHAR *) first_unused_memory; memory_pointer = stack_pointer + (UX_TEST_STACK_SIZE * 2); rpool_start = memory_pointer; cpool_start = memory_pointer + UX_TEST_MEMORY_SIZE; /* Initialize USBX Memory. */ status = ux_system_initialize(rpool_start, UX_TEST_MEMORY_SIZE, cpool_start, UX_TEST_MEMORY_SIZE); /* Check for error. */ if (status != UX_SUCCESS) { printf("ERROR #%d\n", __LINE__); test_control_return(1); } /* Register the error callback. */ _ux_utility_error_callback_register(error_callback); /* Create the simulation thread. */ status = tx_thread_create(&ux_test_thread_simulation_0, "test simulation", ux_test_thread_simulation_0_entry, 0, stack_pointer, UX_TEST_STACK_SIZE, 20, 20, 1, TX_AUTO_START); /* Check for error. */ if (status != TX_SUCCESS) { printf("ERROR #%d\n", __LINE__); test_control_return(1); } } static void ux_test_thread_simulation_0_entry(ULONG arg) { UINT status; /* Ignore errors. */ error_callback_ignore = UX_TRUE; /* Mutex create. */ status = ux_utility_mutex_create(&test_mutex, "test_mutex"); if (status != UX_SUCCESS) { printf("ERROR #%d: mutex create fail\n", __LINE__); test_control_return(1); } /* Mutex on, expect no error. */ error_callback_counter = 0; ux_utility_mutex_on(&test_mutex); if (error_callback_counter > 0) { printf("ERROR #%d: mutex on fail\n", __LINE__); error_counter ++; } /* Mutex off, expect no error. */ error_callback_counter = 0; ux_utility_mutex_off(&test_mutex); if (error_callback_counter > 0) { printf("ERROR #%d: mutex off fail\n", __LINE__); error_counter ++; } /* Mutex create again, expect error. */ status = ux_utility_mutex_create(&test_mutex, "test_mutex"); if (status == UX_SUCCESS) { printf("ERROR #%d: mutex create must fail\n", __LINE__); test_control_return(1); } /* Mutex delete. */ error_callback_counter = 0; ux_utility_mutex_delete(&test_mutex); if (error_callback_counter > 0) { printf("ERROR #%d: mutex delete fail\n", __LINE__); test_control_return(1); } /* Mutex on, expect error. */ error_callback_counter = 0; ux_utility_mutex_on(&test_mutex); if (error_callback_counter == 0) { printf("ERROR #%d: expect mutex on error\n", __LINE__); error_counter ++; } /* Sleep for a tick to make sure everything is complete. */ tx_thread_sleep(1); /* Check for errors from other threads. */ if (error_counter) { /* Test error. */ printf("ERROR #%d: total %ld errors\n", __LINE__, error_counter); test_control_return(1); } else { /* Successful test. */ printf("SUCCESS!\n"); test_control_return(0); } }