/**************************************************************************** * apps/system/composite/composite_main.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "composite.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* A lot of effort to avoid warning about dumptrace() not being used */ #undef NEED_DUMPTRACE #ifdef CONFIG_USBDEV_TRACE # if CONFIG_USBDEV_TRACE_INITIALIDSET != 0 # define NEED_DUMPTRACE 1 # endif #endif /**************************************************************************** * Private Data ****************************************************************************/ /* All global variables used by this add-on are packed into a structure in * order to avoid name collisions. */ struct composite_state_s g_composite; /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: show_memory_usage ****************************************************************************/ #ifdef CONFIG_SYSTEM_COMPOSITE_DEBUGMM static void show_memory_usage(struct mallinfo *mmbefore, struct mallinfo *mmafter) { int diff; printf(" total used free largest\n"); printf("Before:%11d%11d%11d%11d\n", mmbefore->arena, mmbefore->uordblks, mmbefore->fordblks, mmbefore->mxordblk); printf("After: %11d%11d%11d%11d\n", mmafter->arena, mmafter->uordblks, mmafter->fordblks, mmafter->mxordblk); diff = mmbefore->uordblks - mmafter->uordblks; if (diff < 0) { printf("Change:%11d allocated\n", -diff); } else if (diff > 0) { printf("Change:%11d freed\n", diff); } } #else # define show_memory_usage(mm1, mm2) #endif /**************************************************************************** * Name: check_test_memory_usage ****************************************************************************/ #ifdef CONFIG_SYSTEM_COMPOSITE_DEBUGMM static void check_test_memory_usage(FAR const char *msg) { /* Get the current memory usage */ g_composite.mmcurrent = mallinfo(); /* Show the change from the previous time */ printf("\%s:\n", msg); show_memory_usage(&g_composite.mmprevious, &g_composite.mmcurrent); /* Set up for the next test */ g_composite.mmprevious = g_composite.mmcurrent; } #else # define check_test_memory_usage(msg) #endif /**************************************************************************** * Name: check_test_memory_usage ****************************************************************************/ #ifdef CONFIG_SYSTEM_COMPOSITE_DEBUGMM static void final_memory_usage(FAR const char *msg) { /* Get the current memory usage */ g_composite.mmcurrent = mallinfo(); /* Show the change from the previous time */ printf("\n%s:\n", msg); show_memory_usage(&g_composite.mmstart, &g_composite.mmcurrent); } #else # define final_memory_usage(msg) #endif /**************************************************************************** * Name: composite_enumerate ****************************************************************************/ #ifdef NEED_DUMPTRACE static int composite_enumerate(struct usbtrace_s *trace, void *arg) { switch (trace->event) { case TRACE_DEVINIT: printf("USB controller initialization: %04x\n", trace->value); break; case TRACE_DEVUNINIT: printf("USB controller un-initialization: %04x\n", trace->value); break; case TRACE_DEVREGISTER: printf("usbdev_register(): %04x\n", trace->value); break; case TRACE_DEVUNREGISTER: printf("usbdev_unregister(): %04x\n", trace->value); break; case TRACE_EPCONFIGURE: printf("Endpoint configure(): %04x\n", trace->value); break; case TRACE_EPDISABLE: printf("Endpoint disable(): %04x\n", trace->value); break; case TRACE_EPALLOCREQ: printf("Endpoint allocreq(): %04x\n", trace->value); break; case TRACE_EPFREEREQ: printf("Endpoint freereq(): %04x\n", trace->value); break; case TRACE_EPALLOCBUFFER: printf("Endpoint allocbuffer(): %04x\n", trace->value); break; case TRACE_EPFREEBUFFER: printf("Endpoint freebuffer(): %04x\n", trace->value); break; case TRACE_EPSUBMIT: printf("Endpoint submit(): %04x\n", trace->value); break; case TRACE_EPCANCEL: printf("Endpoint cancel(): %04x\n", trace->value); break; case TRACE_EPSTALL: printf("Endpoint stall(true): %04x\n", trace->value); break; case TRACE_EPRESUME: printf("Endpoint stall(false): %04x\n", trace->value); break; case TRACE_DEVALLOCEP: printf("Device allocep(): %04x\n", trace->value); break; case TRACE_DEVFREEEP: printf("Device freeep(): %04x\n", trace->value); break; case TRACE_DEVGETFRAME: printf("Device getframe(): %04x\n", trace->value); break; case TRACE_DEVWAKEUP: printf("Device wakeup(): %04x\n", trace->value); break; case TRACE_DEVSELFPOWERED: printf("Device selfpowered(): %04x\n", trace->value); break; case TRACE_DEVPULLUP: printf("Device pullup(): %04x\n", trace->value); break; case TRACE_CLASSBIND: printf("Class bind(): %04x\n", trace->value); break; case TRACE_CLASSUNBIND: printf("Class unbind(): %04x\n", trace->value); break; case TRACE_CLASSDISCONNECT: printf("Class disconnect(): %04x\n", trace->value); break; case TRACE_CLASSSETUP: printf("Class setup(): %04x\n", trace->value); break; case TRACE_CLASSSUSPEND: printf("Class suspend(): %04x\n", trace->value); break; case TRACE_CLASSRESUME: printf("Class resume(): %04x\n", trace->value); break; case TRACE_CLASSRDCOMPLETE: printf("Class RD request complete: %04x\n", trace->value); break; case TRACE_CLASSWRCOMPLETE: printf("Class WR request complete: %04x\n", trace->value); break; default: switch (TRACE_ID(trace->event)) { case TRACE_CLASSAPI_ID: /* Other class driver system API calls */ printf("Class API call %d: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_CLASSSTATE_ID: /* Track class driver state changes */ printf("Class state %d: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_INTENTRY_ID: /* Interrupt handler entry */ printf("Interrupt %d entry: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_INTDECODE_ID: /* Decoded interrupt trace->event */ printf("Interrupt decode %d: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_INTEXIT_ID: /* Interrupt handler exit */ printf("Interrupt %d exit: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_OUTREQQUEUED_ID: /* Request queued for OUT endpoint */ printf("EP%d OUT request queued: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_INREQQUEUED_ID: /* Request queued for IN endpoint */ printf("EP%d IN request queued: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_READ_ID: /* Read (OUT) action */ printf("EP%d OUT read: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_WRITE_ID: /* Write (IN) action */ printf("EP%d IN write: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_COMPLETE_ID: /* Request completed */ printf("EP%d request complete: %04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_DEVERROR_ID: /* USB controller driver error event */ printf("Controller error: %02x:%04x\n", TRACE_DATA(trace->event), trace->value); break; case TRACE_CLSERROR_ID: /* USB class driver error event */ printf("Class error: %02x:%04x\n", TRACE_DATA(trace->event), trace->value); break; default: printf("Unrecognized event: %02x:%02x:%04x\n", TRACE_ID(trace->event) >> 8, TRACE_DATA(trace->event), trace->value); break; } } return OK; } #endif /**************************************************************************** * Name: dumptrace * * Description: * Dump collected trace data. * ****************************************************************************/ #ifdef NEED_DUMPTRACE static int dumptrace(void) { int ret; ret = usbtrace_enumerate(composite_enumerate, NULL); if (ret < 0) { printf("dumptrace: usbtrace_enumerate failed: %d\n", -ret); } return ret; } #else # define dumptrace() (OK) #endif /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * conn_main * * Description: * This is the main program that configures the USB mass storage device * and exports the LUN(s). If CONFIG_NSH_BUILTIN_APPS is defined * in the NuttX configuration, then this program can be executed by * entering the "conn" command at the NSH console. * ****************************************************************************/ int main(int argc, FAR char *argv[]) { struct boardioc_usbdev_ctrl_s ctrl; int config = CONFIG_SYSTEM_COMPOSITE_DEFCONFIG; int ret; /* If this program is implemented as the NSH 'conn' command, then we need * to do a little error checking to assure that we are not being called * re-entrantly. */ /* Check if there is a non-NULL USB mass storage device handle (meaning * that the composite device is already configured). */ if (g_composite.cmphandle) { fprintf(stderr, "conn_main: ERROR: Already connected\n"); return 1; } /* There is one optional argument.. the interface configuration ID */ if (argc == 2) { config = atoi(argv[1]); } else if (argc > 2) { fprintf(stderr, "conn_main: ERROR: Too many arguments: %d\n", argc); return EXIT_FAILURE; } /* Initialize USB trace output IDs */ usbtrace_enable(TRACE_BITSET); #ifdef CONFIG_SYSTEM_COMPOSITE_DEBUGMM g_composite.mmstart = mallinfo(); g_composite.mmprevious = g_composite.mmstart; #endif /* Perform architecture-specific initialization */ printf("conn_main: Performing architecture-specific initialization\n"); ctrl.usbdev = BOARDIOC_USBDEV_COMPOSITE; ctrl.action = BOARDIOC_USBDEV_INITIALIZE; ctrl.instance = 0; ctrl.config = config; ctrl.handle = NULL; ret = boardctl(BOARDIOC_USBDEV_CONTROL, (uintptr_t)&ctrl); if (ret < 0) { printf("conn_main: boardctl(BOARDIOC_USBDEV_CONTROL) failed: %d\n", -ret); return 1; } check_test_memory_usage("After boardctl(BOARDIOC_USBDEV_CONTROL)"); /* Initialize the USB composite device device */ ctrl.usbdev = BOARDIOC_USBDEV_COMPOSITE; ctrl.action = BOARDIOC_USBDEV_CONNECT; ctrl.instance = 0; ctrl.config = config; ctrl.handle = &g_composite.cmphandle; ret = boardctl(BOARDIOC_USBDEV_CONTROL, (uintptr_t)&ctrl); if (ret < 0) { printf("conn_main: boardctl(BOARDIOC_USBDEV_CONTROL) failed: %d\n", -ret); return 1; } check_test_memory_usage("After boardctl(BOARDIOC_USBDEV_CONTROL)"); #ifdef NEED_DUMPTRACE /* This thread will hang around and monitor the USB activity */ /* Now looping */ for (; ; ) { /* Sleep for a bit */ fflush(stdout); sleep(5); /* Dump trace data */ printf("\n" "conn_main: USB TRACE DATA:\n"); ret = dumptrace(); if (ret < 0) { break; } check_test_memory_usage("After usbtrace_enumerate()"); } #endif /* Dump debug memory usage */ printf("conn_main: Exiting\n"); final_memory_usage("Final memory usage"); return 0; } /**************************************************************************** * disconn_main * * Description: * This is a program entry point that will disconnect the USB mass storage * device. This program is only available if CONFIG_SYSTEM_COMPOSITE = y * is defined in the NuttX configuration. In that case, this program can * be executed by entering the "msdis" command at the NSH console. * ****************************************************************************/ int disconn_main(int argc, char *argv[]) { struct boardioc_usbdev_ctrl_s ctrl; int config = CONFIG_SYSTEM_COMPOSITE_DEFCONFIG; /* First check if the USB mass storage device is already connected */ if (!g_composite.cmphandle) { fprintf(stderr, "disconn_main: ERROR: Not connected\n"); return 1; } check_test_memory_usage("Since MS connection"); /* There is one optional argument.. the interface configuration ID */ if (argc == 2) { config = atoi(argv[1]); } else if (argc > 2) { fprintf(stderr, "conn_main: ERROR: Too many arguments: %d\n", argc); return EXIT_FAILURE; } /* Then disconnect the device and uninitialize the composite driver */ ctrl.usbdev = BOARDIOC_USBDEV_COMPOSITE; ctrl.action = BOARDIOC_USBDEV_DISCONNECT; ctrl.instance = 0; ctrl.config = config; ctrl.handle = &g_composite.cmphandle; boardctl(BOARDIOC_USBDEV_CONTROL, (uintptr_t)&ctrl); g_composite.cmphandle = NULL; printf("disconn_main: Disconnected\n"); check_test_memory_usage("After boardctl(BOARDIOC_USBDEV_CONTROL)"); /* Dump debug memory usage */ final_memory_usage("Final memory usage"); return 0; }