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https://github.com/Atmosphere-NX/Atmosphere
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uart.mitm: comments, etc.
This commit is contained in:
parent
d7adef3810
commit
6e1b0abf1d
2 changed files with 52 additions and 23 deletions
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@ -45,39 +45,47 @@ namespace ams::mitm::uart {
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UartPortService::UartPortService(const sm::MitmProcessInfo &cl, std::unique_ptr<::UartPortSession> s) : client_info(cl), srv(std::move(s)) {
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Result rc=0;
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/* Get a timestamp. */
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u64 timestamp0, timestamp1;
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u64 timestamp0=0, timestamp1;
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this->TryGetCurrentTimestamp(×tamp0);
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timestamp1 = svcGetSystemTick();
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/* Setup/create the logging directory. */
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std::snprintf(this->base_path, sizeof(this->base_path), "uart_logs/%011lu_%011lu_%016lx", timestamp0, timestamp1, static_cast<u64>(this->client_info.program_id));
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ams::mitm::fs::CreateAtmosphereSdDirectory("uart_logs");
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ams::mitm::fs::CreateAtmosphereSdDirectory(this->base_path);
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/* Create/initialize the text cmd_log. */
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char tmp_path[256];
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std::snprintf(tmp_path, sizeof(tmp_path), "%s/%s", this->base_path, "cmd_log");
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ams::mitm::fs::CreateAtmosphereSdFile(tmp_path, 0, 0);
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this->cmdlog_pos = 0;
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/* Initialize the Send cache-buffer. */
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this->send_cache_buffer = static_cast<u8 *>(std::malloc(this->CacheBufferSize));
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if (this->send_cache_buffer != nullptr) {
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std::memset(this->send_cache_buffer, 0, this->CacheBufferSize);
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}
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this->send_cache_pos = 0;
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/* Initialize the Receive cache-buffer. */
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this->receive_cache_buffer = static_cast<u8 *>(std::malloc(this->CacheBufferSize));
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if (this->receive_cache_buffer != nullptr) {
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std::memset(this->receive_cache_buffer, 0, this->CacheBufferSize);
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}
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this->receive_cache_pos = 0;
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/* When the above is successful, initialize the datalog. */
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if (this->send_cache_buffer != nullptr && this->receive_cache_buffer != nullptr) {
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std::snprintf(tmp_path, sizeof(tmp_path), "%s/%s", this->base_path, "btsnoop_hci.log");
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ams::mitm::fs::CreateAtmosphereSdFile(tmp_path, 0, 0);
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rc = ams::mitm::fs::OpenAtmosphereSdFile(&this->datalog_file, tmp_path, FsOpenMode_Read | FsOpenMode_Write | FsOpenMode_Append);
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/* Set datalog_ready to whether initialization was successful. */
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this->datalog_ready = R_SUCCEEDED(rc);
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}
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this->datalog_pos = 0;
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/* Setup the btsnoop header. */
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struct {
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char id[8];
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u32 version;
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@ -89,26 +97,18 @@ namespace ams::mitm::uart {
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ams::util::StoreBigEndian(&btsnoop_header.version, version);
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ams::util::StoreBigEndian(&btsnoop_header.datalink_type, datalink_type);
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/* Enable data-logging, required for WriteLog() to write anything. */
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this->data_logging_enabled = true;
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/* Write the btsnoop header to the datalog. */
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this->WriteLog(&btsnoop_header, sizeof(btsnoop_header));
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/* This will be re-enabled by WriteUartData once a certain command is detected. */
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/* If you want to log all HCI traffic during system-boot initialization, you can comment out the below line, however there will be a slowdown. */
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this->data_logging_enabled = false;
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}
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void UartPortService::SaveFile(const char *path, const void* buffer, size_t size) {
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Result rc=0;
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FsFile file={};
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char tmp_path[256];
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std::snprintf(tmp_path, sizeof(tmp_path), "%s/%s", this->base_path, path);
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ams::mitm::fs::CreateAtmosphereSdFile(tmp_path, 0, 0);
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rc = ams::mitm::fs::OpenAtmosphereSdFile(&file, tmp_path, FsOpenMode_Read | FsOpenMode_Write | FsOpenMode_Append);
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if (R_SUCCEEDED(rc)) {
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rc = fsFileWrite(&file, 0, buffer, size, FsWriteOption_None);
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}
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fsFileClose(&file);
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}
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/* Append the specified string to the text cmd_log file. */
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void UartPortService::WriteCmdLog(const char *str) {
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Result rc=0;
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FsFile file={};
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@ -125,7 +125,9 @@ namespace ams::mitm::uart {
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fsFileClose(&file);
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}
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/* Append the specified data to the datalog file. */
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void UartPortService::WriteLog(const void* buffer, size_t size) {
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/* Only write to the file if data-logging is enabled and initialized. */
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if (this->data_logging_enabled && this->datalog_ready) {
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if (R_SUCCEEDED(fsFileWrite(&this->datalog_file, this->datalog_pos, buffer, size, FsWriteOption_None))) {
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this->datalog_pos += size;
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@ -133,6 +135,8 @@ namespace ams::mitm::uart {
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}
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}
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/* Append the specified packet to the datalog via WriteLog. */
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/* dir: false = Send (host->controller), true = Receive (controller->host). */
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void UartPortService::WriteLogPacket(bool dir, const void* buffer, size_t size) {
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struct {
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u32 original_length;
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@ -150,13 +154,20 @@ namespace ams::mitm::uart {
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ams::util::StoreBigEndian(&pkt_hdr.included_length, static_cast<u32>(size));
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ams::util::StoreBigEndian(&pkt_hdr.packet_flags, flags);
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/* Currently we leave the timestamp at value 0. */
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this->WriteLog(&pkt_hdr, sizeof(pkt_hdr));
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this->WriteLog(buffer, size);
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}
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/* Log data from Send/Receive. */
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/* dir: false = Send (host->controller), true = Receive (controller->host). */
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void UartPortService::WriteUartData(bool dir, const void* buffer, size_t size) {
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/* Select which cache buffer/pos to use via dir. */
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u8 *cache_buffer = !dir ? this->send_cache_buffer : this->receive_cache_buffer;
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size_t *cache_pos = !dir ? &this->send_cache_pos : &this->receive_cache_pos;
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/* Verify that the input size is non-zero, and within cache buffer bounds. */
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if (size && *cache_pos + size <= this->CacheBufferSize) {
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struct {
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u8 opcode[0x2];
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@ -189,54 +200,64 @@ namespace ams::mitm::uart {
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} *hci_iso_data = reinterpret_cast<decltype(hci_iso_data)>(&cache_buffer[0x1]);
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static_assert(sizeof(*hci_iso_data) == 0x4);
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/* Copy the input data into the cache and update the pos. */
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std::memcpy(&cache_buffer[*cache_pos], buffer, size);
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(*cache_pos)+= size;
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/* Process the packets in the cache. */
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do {
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size_t orig_pkt_len = 0x0;
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size_t pkt_len = 0x1;
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if (cache_buffer[0] == 0x1) {
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/* Determine which HCI packet this is, via the packet indicator. */
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/* These are supported regardless of whether the official bluetooth-sysmodule supports it. */
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if (cache_buffer[0] == 0x1) { /* HCI Command */
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if (*cache_pos >= 0x1+sizeof(*hci_cmd)) {
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orig_pkt_len = sizeof(*hci_cmd) + hci_cmd->param_len;
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/* Check for the first cmd used in the port which is opened last. */
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/* Check for the first command used in the port which is opened last by bluetooth-sysmodule. */
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/* This is a vendor command. */
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/* Once detected, data-logging will be enabled. */
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if (!this->data_logging_enabled && hci_cmd->opcode[1] == 0xFC && hci_cmd->opcode[0] == 0x16) {
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this->data_logging_enabled = true;
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}
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}
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}
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else if (cache_buffer[0] == 0x2) {
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else if (cache_buffer[0] == 0x2) { /* HCI ACL Data */
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if (*cache_pos >= 0x1+sizeof(*hci_acl_data)) {
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orig_pkt_len = sizeof(*hci_acl_data) + hci_acl_data->data_len;
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}
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}
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else if (cache_buffer[0] == 0x3) {
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else if (cache_buffer[0] == 0x3) { /* HCI Synchronous Data (SCO) */
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if (*cache_pos >= 0x1+sizeof(*hci_sco_data)) {
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orig_pkt_len = sizeof(*hci_sco_data) + hci_sco_data->data_len;
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}
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}
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else if (cache_buffer[0] == 0x4) {
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else if (cache_buffer[0] == 0x4) { /* HCI Event */
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if (*cache_pos >= 0x1+sizeof(*hci_event)) {
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orig_pkt_len = sizeof(*hci_event) + hci_event->param_len;
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}
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}
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else if (cache_buffer[0] == 0x5) {
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else if (cache_buffer[0] == 0x5) { /* HCI ISO Data */
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if (*cache_pos >= 0x1+sizeof(*hci_iso_data)) {
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orig_pkt_len = sizeof(*hci_iso_data) + hci_iso_data->data_load_len;
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}
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}
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else {
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else { /* Unknown HCI packet */
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char str[256];
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std::snprintf(str, sizeof(str), "WriteUartData(dir = %s): Unknown HCI packet indicator 0x%x, ignoring the packet and emptying the cache.\n", !dir ? "send" : "receive", cache_buffer[0]);
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this->WriteCmdLog(str);
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*cache_pos = 0;
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}
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/* If a full packet is available in the cache, update pkt_len. */
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if (orig_pkt_len) {
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if (*cache_pos >= 0x1+orig_pkt_len) {
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pkt_len+= orig_pkt_len;
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}
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}
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/* If a packet is available, log it and update the cache. */
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if (pkt_len>0x1) {
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this->WriteLogPacket(dir, cache_buffer, pkt_len);
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(*cache_pos)-= pkt_len;
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@ -244,11 +265,13 @@ namespace ams::mitm::uart {
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std::memmove(cache_buffer, &cache_buffer[pkt_len], *cache_pos);
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}
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}
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/* Otherwise, exit the loop. */
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else break;
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} while(*cache_pos);
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}
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}
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/* Forward OpenPort and write to the cmd_log. */
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Result UartPortService::OpenPort(sf::Out<bool> out, u32 port, u32 baud_rate, UartFlowControlMode flow_control_mode, u32 device_variation, bool is_invert_tx, bool is_invert_rx, bool is_invert_rts, bool is_invert_cts, sf::CopyHandle send_handle, sf::CopyHandle receive_handle, u64 send_buffer_length, u64 receive_buffer_length) {
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Result rc = uartPortSessionOpenPortFwd(this->srv.get(), reinterpret_cast<bool *>(out.GetPointer()), port, baud_rate, flow_control_mode, device_variation, is_invert_tx, is_invert_rx, is_invert_rts, is_invert_cts, send_handle.GetValue(), receive_handle.GetValue(), send_buffer_length, receive_buffer_length);
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svcCloseHandle(send_handle.GetValue());
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@ -260,6 +283,7 @@ namespace ams::mitm::uart {
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return rc;
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}
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/* Forward OpenPortForDev and write to the cmd_log. */
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Result UartPortService::OpenPortForDev(sf::Out<bool> out, u32 port, u32 baud_rate, UartFlowControlMode flow_control_mode, u32 device_variation, bool is_invert_tx, bool is_invert_rx, bool is_invert_rts, bool is_invert_cts, sf::CopyHandle send_handle, sf::CopyHandle receive_handle, u64 send_buffer_length, u64 receive_buffer_length) {
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Result rc = uartPortSessionOpenPortForDevFwd(this->srv.get(), reinterpret_cast<bool *>(out.GetPointer()), port, baud_rate, flow_control_mode, device_variation, is_invert_tx, is_invert_rx, is_invert_rts, is_invert_cts, send_handle.GetValue(), receive_handle.GetValue(), send_buffer_length, receive_buffer_length);
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svcCloseHandle(send_handle.GetValue());
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return rc;
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}
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/* Forward GetWritableLength and write to the cmd_log. */
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Result UartPortService::GetWritableLength(sf::Out<u64> out) {
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Result rc = uartPortSessionGetWritableLength(this->srv.get(), reinterpret_cast<u64 *>(out.GetPointer()));
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return rc;
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}
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/* Forward Send and log the data if the out_size is non-zero. */
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Result UartPortService::Send(sf::Out<u64> out_size, const sf::InAutoSelectBuffer &data) {
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Result rc = uartPortSessionSend(this->srv.get(), data.GetPointer(), data.GetSize(), reinterpret_cast<u64 *>(out_size.GetPointer()));
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return rc;
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}
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/* Forward GetReadableLength and write to the cmd_log. */
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Result UartPortService::GetReadableLength(sf::Out<u64> out) {
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Result rc = uartPortSessionGetReadableLength(this->srv.get(), reinterpret_cast<u64 *>(out.GetPointer()));
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char str[256];
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std::snprintf(str, sizeof(str), "GetWritableLength(): rc = 0x%x, out = 0x%lx\n", rc.GetValue(), out.GetValue());
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std::snprintf(str, sizeof(str), "GetReadableLength(): rc = 0x%x, out = 0x%lx\n", rc.GetValue(), out.GetValue());
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this->WriteCmdLog(str);
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return rc;
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}
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/* Forward Receive and log the data if the out_size is non-zero. */
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Result UartPortService::Receive(sf::Out<u64> out_size, const sf::OutAutoSelectBuffer &data) {
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Result rc = uartPortSessionReceive(this->srv.get(), data.GetPointer(), data.GetSize(), reinterpret_cast<u64 *>(out_size.GetPointer()));
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return rc;
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}
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/* Forward BindPortEvent and write to the cmd_log. */
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Result UartPortService::BindPortEvent(sf::Out<bool> out, sf::OutCopyHandle out_event_handle, UartPortEventType port_event_type, s64 threshold) {
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Result rc = uartPortSessionBindPortEventFwd(this->srv.get(), port_event_type, threshold, reinterpret_cast<bool *>(out.GetPointer()), out_event_handle.GetHandlePointer());
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@ -318,6 +347,7 @@ namespace ams::mitm::uart {
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return rc;
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}
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/* Forward UnbindPortEvent and write to the cmd_log. */
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Result UartPortService::UnbindPortEvent(sf::Out<bool> out, UartPortEventType port_event_type) {
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Result rc = uartPortSessionUnbindPortEvent(this->srv.get(), port_event_type, reinterpret_cast<bool *>(out.GetPointer()));
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size_t receive_cache_pos;
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bool TryGetCurrentTimestamp(u64 *out);
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void SaveFile(const char *path, const void* buffer, size_t size);
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void WriteCmdLog(const char *str);
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void WriteLog(const void* buffer, size_t size);
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void WriteLogPacket(bool dir, const void* buffer, size_t size);
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