src/storage/fshost/config.cc - fuchsia - Git at Google

 // Copyright 2020 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/storage/fshost/config.h"

 #include <lib/syslog/cpp/macros.h>

 #include <cinttypes>

 namespace devmgr {

 // Normally the partition limits (minfs-max-bytes and blofs-max-bytes) apply only to non-ramdisk
 // devices. This is to prevent device hardware configuration from leaking into ramdisk uses.
 // When present, this flag makes them apply to all partitions of the corresponding type (this use
 // used for tests).
 const char Config::kApplyLimitsToRamdisk[] = "apply-limits-to-ramdisk";

 // When set, allows zxcrypt to attach and unseal minfs partitions not in a ram-disk (but don't
 // mount).
 const char Config::kAttachZxcryptToNonRamdisk[] = "zxcrypt-non-ramdisk";

 // Enables blobfs partitions.
 const char Config::kBlobfs[] = "blobfs";

 // Maximum number of bytes a blobfs partition can grow to. This applies only to non-ramdisk
 // partitions unless "apply-limits-to-ramdisk" is set.
 const char Config::kBlobfsMaxBytes[] = "blobfs-max-bytes";

 // Enables bootpart partitions.
 const char Config::kBootpart[] = "bootpart";

 // Enables checking filesystems before mounting (if supported).
 const char Config::kCheckFilesystems[] = "check-filesystems";

 // Expands to default options. This will overwrite any previously-set options that have default
 // values, so the order this appears in the file matters. Normally this would be the first line.
 const char Config::kDefault[] = "default";

 // Enables the durable partition (small partition of settings that survives factory resets).
 const char Config::kDurable[] = "durable";

 // Enables the factory partition (small partition of settings set in the factory and never written
 // to otherwise).
 const char Config::kFactory[] = "factory";

 // Automatically formats minfs if it is found to be corrupted.
 const char Config::kFormatMinfsOnCorruption[] = "format-minfs-on-corruption";

 // Enables a single FVM device.
 const char Config::kFvm[] = "fvm";

 // FVM is in a ram-disk, thus minfs doesn't require zxcrypt.
 const char Config::kFvmRamdisk[] = "fvm-ramdisk";

 // Enables a single GPT device.
 const char Config::kGpt[] = "gpt";

 // Enables all GPT devices.
 const char Config::kGptAll[] = "gpt-all";

 // Enables MBR devices.
 const char Config::kMbr[] = "mbr";

 // Enables minfs partition.
 const char Config::kMinfs[] = "minfs";

 // Maximum number of bytes a minfs partition can grow to. This applies only to non-ramdisk
 // partitions unless "apply-limits-to-ramdisk" is set.
 const char Config::kMinfsMaxBytes[] = "minfs-max-bytes";

 // Disables everything except fvm, gpt and bootpart.
 const char Config::kNetboot[] = "netboot";

 // Disables zxcrypt for minfs partitions.
 const char Config::kNoZxcrypt[] = "no-zxcrypt";

 // Perform decompression in a sandboxed component.
 const char Config::kSandboxDecompression[] = "sandbox-decompression";

 // Use the default loader rather than a custom one.
 const char Config::kUseDefaultLoader[] = "use-default-loader";

 // Use syslog rather than debug-log.
 const char Config::kUseSyslog[] = "use-syslog";

 // Wait for data before launching pkgfs.
 const char Config::kWaitForData[] = "wait-for-data";

 Config::Options Config::ReadOptions(std::istream& stream) {
   Options options;
   for (std::string line; std::getline(stream, line);) {
     if (line == kDefault) {
       auto default_options = DefaultOptions();
       options.insert(default_options.begin(), default_options.end());
     } else if (line.size() > 0) {
       if (line[0] == '#')
         continue;  // Treat as comment; ignore;

       std::string key, value;
       if (auto separator_index = line.find('='); separator_index != std::string::npos) {
         key = line.substr(0, separator_index);
         value = line.substr(separator_index + 1);
       } else {
         key = line;  // No value, just a bare key.
       }

       if (key[0] == '-') {
         options.erase(key.substr(1));
       } else {
         options[key] = std::move(value);
       }
     }
   }
   return options;
 }

 Config::Options Config::DefaultOptions() {
   return {{kBlobfs, {}}, {kBootpart, {}}, {kFvm, {}},
           {kGpt, {}},    {kMinfs, {}},    {kFormatMinfsOnCorruption, {}}};
 }

 uint64_t Config::ReadUint64OptionValue(std::string_view key, uint64_t default_value) const {
   auto found = options_.find(key);
   if (found == options_.end())
     return default_value;

   uint64_t value = 0;
   if (sscanf(found->second.c_str(), "%" PRIu64, &value) != 1) {
     FX_LOGS(ERROR) << "Can't read integer option value for " << key << ", got " << found->second;
     return default_value;
   }

   return value;
 }

 std::ostream& operator<<(std::ostream& stream, const Config::Options& options) {
   bool first = true;
   for (const auto& option : options) {
     if (first) {
       first = false;
     } else {
       stream << ", ";
     }
     stream << option.first;
     if (!option.second.empty()) {
       stream << "=" << option.second;
     }
   }
   return stream;
 }

 }  // namespace devmgr
	// Copyright 2020 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/storage/fshost/config.h"

	#include <lib/syslog/cpp/macros.h>

	#include <cinttypes>

	namespace devmgr {

	// Normally the partition limits (minfs-max-bytes and blofs-max-bytes) apply only to non-ramdisk
	// devices. This is to prevent device hardware configuration from leaking into ramdisk uses.
	// When present, this flag makes them apply to all partitions of the corresponding type (this use
	// used for tests).
	const char Config::kApplyLimitsToRamdisk[] = "apply-limits-to-ramdisk";

	// When set, allows zxcrypt to attach and unseal minfs partitions not in a ram-disk (but don't
	// mount).
	const char Config::kAttachZxcryptToNonRamdisk[] = "zxcrypt-non-ramdisk";

	// Enables blobfs partitions.
	const char Config::kBlobfs[] = "blobfs";

	// Maximum number of bytes a blobfs partition can grow to. This applies only to non-ramdisk
	// partitions unless "apply-limits-to-ramdisk" is set.
	const char Config::kBlobfsMaxBytes[] = "blobfs-max-bytes";

	// Enables bootpart partitions.
	const char Config::kBootpart[] = "bootpart";

	// Enables checking filesystems before mounting (if supported).
	const char Config::kCheckFilesystems[] = "check-filesystems";

	// Expands to default options. This will overwrite any previously-set options that have default
	// values, so the order this appears in the file matters. Normally this would be the first line.
	const char Config::kDefault[] = "default";

	// Enables the durable partition (small partition of settings that survives factory resets).
	const char Config::kDurable[] = "durable";

	// Enables the factory partition (small partition of settings set in the factory and never written
	// to otherwise).
	const char Config::kFactory[] = "factory";

	// Automatically formats minfs if it is found to be corrupted.
	const char Config::kFormatMinfsOnCorruption[] = "format-minfs-on-corruption";

	// Enables a single FVM device.
	const char Config::kFvm[] = "fvm";

	// FVM is in a ram-disk, thus minfs doesn't require zxcrypt.
	const char Config::kFvmRamdisk[] = "fvm-ramdisk";

	// Enables a single GPT device.
	const char Config::kGpt[] = "gpt";

	// Enables all GPT devices.
	const char Config::kGptAll[] = "gpt-all";

	// Enables MBR devices.
	const char Config::kMbr[] = "mbr";

	// Enables minfs partition.
	const char Config::kMinfs[] = "minfs";

	// Maximum number of bytes a minfs partition can grow to. This applies only to non-ramdisk
	// partitions unless "apply-limits-to-ramdisk" is set.
	const char Config::kMinfsMaxBytes[] = "minfs-max-bytes";

	// Disables everything except fvm, gpt and bootpart.
	const char Config::kNetboot[] = "netboot";

	// Disables zxcrypt for minfs partitions.
	const char Config::kNoZxcrypt[] = "no-zxcrypt";

	// Perform decompression in a sandboxed component.
	const char Config::kSandboxDecompression[] = "sandbox-decompression";

	// Use the default loader rather than a custom one.
	const char Config::kUseDefaultLoader[] = "use-default-loader";

	// Use syslog rather than debug-log.
	const char Config::kUseSyslog[] = "use-syslog";

	// Wait for data before launching pkgfs.
	const char Config::kWaitForData[] = "wait-for-data";

	Config::Options Config::ReadOptions(std::istream& stream) {
	Options options;
	for (std::string line; std::getline(stream, line);) {
	if (line == kDefault) {
	auto default_options = DefaultOptions();
	options.insert(default_options.begin(), default_options.end());
	} else if (line.size() > 0) {
	if (line[0] == '#')
	continue; // Treat as comment; ignore;

	std::string key, value;
	if (auto separator_index = line.find('='); separator_index != std::string::npos) {
	key = line.substr(0, separator_index);
	value = line.substr(separator_index + 1);
	} else {
	key = line; // No value, just a bare key.
	}

	if (key[0] == '-') {
	options.erase(key.substr(1));
	} else {
	options[key] = std::move(value);
	}
	}
	}
	return options;
	}

	Config::Options Config::DefaultOptions() {
	return {{kBlobfs, {}}, {kBootpart, {}}, {kFvm, {}},
	{kGpt, {}}, {kMinfs, {}}, {kFormatMinfsOnCorruption, {}}};
	}

	uint64_t Config::ReadUint64OptionValue(std::string_view key, uint64_t default_value) const {
	auto found = options_.find(key);
	if (found == options_.end())
	return default_value;

	uint64_t value = 0;
	if (sscanf(found->second.c_str(), "%" PRIu64, &value) != 1) {
	FX_LOGS(ERROR) << "Can't read integer option value for " << key << ", got " << found->second;
	return default_value;
	}

	return value;
	}

	std::ostream& operator<<(std::ostream& stream, const Config::Options& options) {
	bool first = true;
	for (const auto& option : options) {
	if (first) {
	first = false;
	} else {
	stream << ", ";
	}
	stream << option.first;
	if (!option.second.empty()) {
	stream << "=" << option.second;
	}
	}
	return stream;
	}

	} // namespace devmgr