chromeos/printing/printer_configuration.cc - chromium/src - Git at Google

 // Copyright 2016 The Chromium 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 "chromeos/printing/printer_configuration.h"

 #include <string>

 #include "base/guid.h"
 #include "base/optional.h"
 #include "base/strings/string_piece.h"
 #include "base/strings/string_util.h"
 #include "net/base/ip_endpoint.h"
 #include "url/third_party/mozilla/url_parse.h"
 #include "url/url_constants.h"

 #include "chromeos/printing/printing_constants.h"

 namespace chromeos {

 // Returns true if the scheme is both valid and non-empty.
 bool IsSchemeValid(const url::Parsed& parsed) {
   return parsed.scheme.is_valid() && parsed.scheme.is_nonempty();
 }

 // Returns true if |parsed| contains a valid port. A valid port is one that
 // either contains a valid value or is completely missing.
 bool IsPortValid(const url::Parsed& parsed) {
   // A length of -1 indicates that the port is missing.
   return parsed.port.len == -1 ||
          (parsed.port.is_valid() && parsed.port.is_nonempty());
 }

 // Returns |printer_uri| broken into components if it represents a valid uri. A
 // valid uri contains a scheme, host, and a valid or missing port number.
 // Optionally, the uri contains a path.
 base::Optional<UriComponents> ParseUri(const std::string& printer_uri) {
   const char* uri_ptr = printer_uri.c_str();
   url::Parsed parsed;
   url::ParseStandardURL(uri_ptr, printer_uri.length(), &parsed);
   if (!IsSchemeValid(parsed) || !parsed.host.is_valid() ||
       !IsPortValid(parsed)) {
     LOG(WARNING) << "Could not parse printer uri";
     return {};
   }
   base::StringPiece scheme(&uri_ptr[parsed.scheme.begin], parsed.scheme.len);
   base::StringPiece host(&uri_ptr[parsed.host.begin], parsed.host.len);
   base::StringPiece path =
       parsed.path.is_valid()
           ? base::StringPiece(&uri_ptr[parsed.path.begin], parsed.path.len)
           : "";

   int port = ParsePort(uri_ptr, parsed.port);
   if (port == url::SpecialPort::PORT_INVALID) {
     LOG(WARNING) << "Port is invalid";
     return {};
   }
   // Port not specified.
   if (port == url::SpecialPort::PORT_UNSPECIFIED) {
     if (scheme == kIppScheme) {
       port = kIppPort;
     } else if (scheme == kIppsScheme) {
       port = kIppsPort;
     }
   }

   bool encrypted = scheme != kIppScheme;
   return base::Optional<UriComponents>(base::in_place, encrypted,
                                        scheme.as_string(), host.as_string(),
                                        port, path.as_string());
 }

 namespace {

 // Returns the index of the first character representing the hostname in |uri|.
 // Returns npos if the start of the hostname is not found.
 //
 // We should use GURL to do this except that uri could start with ipp:// which
 // is not a standard url scheme (according to GURL).
 size_t HostnameStart(base::StringPiece uri) {
   size_t scheme_separator_start = uri.find(url::kStandardSchemeSeparator);
   if (scheme_separator_start == base::StringPiece::npos) {
     return base::StringPiece::npos;
   }
   return scheme_separator_start + strlen(url::kStandardSchemeSeparator);
 }

 base::StringPiece HostAndPort(base::StringPiece uri) {
   size_t hostname_start = HostnameStart(uri);
   if (hostname_start == base::StringPiece::npos) {
     return "";
   }

   size_t hostname_end = uri.find("/", hostname_start);
   if (hostname_end == base::StringPiece::npos) {
     // No trailing slash.  Use end of string.
     hostname_end = uri.size();
   }

   CHECK_GT(hostname_end, hostname_start);
   return uri.substr(hostname_start, hostname_end - hostname_start);
 }

 }  // namespace

 Printer::Printer() : source_(SRC_USER_PREFS) {
   id_ = base::GenerateGUID();
 }

 Printer::Printer(const std::string& id) : id_(id), source_(SRC_USER_PREFS) {
   if (id_.empty())
     id_ = base::GenerateGUID();
 }

 Printer::Printer(const Printer& other) = default;

 Printer& Printer::operator=(const Printer& other) = default;

 Printer::~Printer() = default;

 bool Printer::IsIppEverywhere() const {
   return ppd_reference_.autoconf;
 }

 bool Printer::RequiresIpResolution() const {
   return effective_uri_.empty() &&
          base::StartsWith(id_, "zeroconf-", base::CompareCase::SENSITIVE);
 }

 net::HostPortPair Printer::GetHostAndPort() const {
   if (uri_.empty()) {
     return net::HostPortPair();
   }

   return net::HostPortPair::FromString(HostAndPort(uri_).as_string());
 }

 std::string Printer::ReplaceHostAndPort(const net::IPEndPoint& ip) const {
   if (uri_.empty()) {
     return "";
   }

   size_t hostname_start = HostnameStart(uri_);
   if (hostname_start == base::StringPiece::npos) {
     return "";
   }
   size_t host_port_len = HostAndPort(uri_).length();
   return base::JoinString({uri_.substr(0, hostname_start), ip.ToString(),
                            uri_.substr(hostname_start + host_port_len)},
                           "");
 }

 Printer::PrinterProtocol Printer::GetProtocol() const {
   const base::StringPiece uri(uri_);

   if (uri.starts_with("usb:"))
     return PrinterProtocol::kUsb;

   if (uri.starts_with("ipp:"))
     return PrinterProtocol::kIpp;

   if (uri.starts_with("ipps:"))
     return PrinterProtocol::kIpps;

   if (uri.starts_with("http:"))
     return PrinterProtocol::kHttp;

   if (uri.starts_with("https:"))
     return PrinterProtocol::kHttps;

   if (uri.starts_with("socket:"))
     return PrinterProtocol::kSocket;

   if (uri.starts_with("lpd:"))
     return PrinterProtocol::kLpd;

   if (uri.starts_with("ippusb:"))
     return PrinterProtocol::kIppUsb;

   return PrinterProtocol::kUnknown;
 }

 bool Printer::HasNetworkProtocol() const {
   Printer::PrinterProtocol current_protocol = GetProtocol();
   switch (current_protocol) {
     case PrinterProtocol::kIpp:
     case PrinterProtocol::kIpps:
     case PrinterProtocol::kHttp:
     case PrinterProtocol::kHttps:
     case PrinterProtocol::kSocket:
     case PrinterProtocol::kLpd:
       return true;
     default:
       return false;
   }
 }

 std::string Printer::UriForCups() const {
   if (!effective_uri_.empty()) {
     return effective_uri_;
   } else {
     return uri_;
   }
 }

 base::Optional<UriComponents> Printer::GetUriComponents() const {
   return chromeos::ParseUri(uri_);
 }

 bool Printer::PpdReference::operator==(
     const Printer::PpdReference& other) const {
   return user_supplied_ppd_url == other.user_supplied_ppd_url &&
          effective_make_and_model == other.effective_make_and_model &&
          autoconf == other.autoconf;
 }

 }  // namespace chromeos
	// Copyright 2016 The Chromium 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 "chromeos/printing/printer_configuration.h"

	#include <string>

	#include "base/guid.h"
	#include "base/optional.h"
	#include "base/strings/string_piece.h"
	#include "base/strings/string_util.h"
	#include "net/base/ip_endpoint.h"
	#include "url/third_party/mozilla/url_parse.h"
	#include "url/url_constants.h"

	#include "chromeos/printing/printing_constants.h"

	namespace chromeos {

	// Returns true if the scheme is both valid and non-empty.
	bool IsSchemeValid(const url::Parsed& parsed) {
	return parsed.scheme.is_valid() && parsed.scheme.is_nonempty();
	}

	// Returns true if \|parsed\| contains a valid port. A valid port is one that
	// either contains a valid value or is completely missing.
	bool IsPortValid(const url::Parsed& parsed) {
	// A length of -1 indicates that the port is missing.
	return parsed.port.len == -1 \|\|
	(parsed.port.is_valid() && parsed.port.is_nonempty());
	}

	// Returns \|printer_uri\| broken into components if it represents a valid uri. A
	// valid uri contains a scheme, host, and a valid or missing port number.
	// Optionally, the uri contains a path.
	base::Optional<UriComponents> ParseUri(const std::string& printer_uri) {
	const char* uri_ptr = printer_uri.c_str();
	url::Parsed parsed;
	url::ParseStandardURL(uri_ptr, printer_uri.length(), &parsed);
	if (!IsSchemeValid(parsed) \|\| !parsed.host.is_valid() \|\|
	!IsPortValid(parsed)) {
	LOG(WARNING) << "Could not parse printer uri";
	return {};
	}
	base::StringPiece scheme(&uri_ptr[parsed.scheme.begin], parsed.scheme.len);
	base::StringPiece host(&uri_ptr[parsed.host.begin], parsed.host.len);
	base::StringPiece path =
	parsed.path.is_valid()
	? base::StringPiece(&uri_ptr[parsed.path.begin], parsed.path.len)
	: "";

	int port = ParsePort(uri_ptr, parsed.port);
	if (port == url::SpecialPort::PORT_INVALID) {
	LOG(WARNING) << "Port is invalid";
	return {};
	}
	// Port not specified.
	if (port == url::SpecialPort::PORT_UNSPECIFIED) {
	if (scheme == kIppScheme) {
	port = kIppPort;
	} else if (scheme == kIppsScheme) {
	port = kIppsPort;
	}
	}

	bool encrypted = scheme != kIppScheme;
	return base::Optional<UriComponents>(base::in_place, encrypted,
	scheme.as_string(), host.as_string(),
	port, path.as_string());
	}

	namespace {

	// Returns the index of the first character representing the hostname in \|uri\|.
	// Returns npos if the start of the hostname is not found.
	//
	// We should use GURL to do this except that uri could start with ipp:// which
	// is not a standard url scheme (according to GURL).
	size_t HostnameStart(base::StringPiece uri) {
	size_t scheme_separator_start = uri.find(url::kStandardSchemeSeparator);
	if (scheme_separator_start == base::StringPiece::npos) {
	return base::StringPiece::npos;
	}
	return scheme_separator_start + strlen(url::kStandardSchemeSeparator);
	}

	base::StringPiece HostAndPort(base::StringPiece uri) {
	size_t hostname_start = HostnameStart(uri);
	if (hostname_start == base::StringPiece::npos) {
	return "";
	}

	size_t hostname_end = uri.find("/", hostname_start);
	if (hostname_end == base::StringPiece::npos) {
	// No trailing slash. Use end of string.
	hostname_end = uri.size();
	}

	CHECK_GT(hostname_end, hostname_start);
	return uri.substr(hostname_start, hostname_end - hostname_start);
	}

	} // namespace

	Printer::Printer() : source_(SRC_USER_PREFS) {
	id_ = base::GenerateGUID();
	}

	Printer::Printer(const std::string& id) : id_(id), source_(SRC_USER_PREFS) {
	if (id_.empty())
	id_ = base::GenerateGUID();
	}

	Printer::Printer(const Printer& other) = default;

	Printer& Printer::operator=(const Printer& other) = default;

	Printer::~Printer() = default;

	bool Printer::IsIppEverywhere() const {
	return ppd_reference_.autoconf;
	}

	bool Printer::RequiresIpResolution() const {
	return effective_uri_.empty() &&
	base::StartsWith(id_, "zeroconf-", base::CompareCase::SENSITIVE);
	}

	net::HostPortPair Printer::GetHostAndPort() const {
	if (uri_.empty()) {
	return net::HostPortPair();
	}

	return net::HostPortPair::FromString(HostAndPort(uri_).as_string());
	}

	std::string Printer::ReplaceHostAndPort(const net::IPEndPoint& ip) const {
	if (uri_.empty()) {
	return "";
	}

	size_t hostname_start = HostnameStart(uri_);
	if (hostname_start == base::StringPiece::npos) {
	return "";
	}
	size_t host_port_len = HostAndPort(uri_).length();
	return base::JoinString({uri_.substr(0, hostname_start), ip.ToString(),
	uri_.substr(hostname_start + host_port_len)},
	"");
	}

	Printer::PrinterProtocol Printer::GetProtocol() const {
	const base::StringPiece uri(uri_);

	if (uri.starts_with("usb:"))
	return PrinterProtocol::kUsb;

	if (uri.starts_with("ipp:"))
	return PrinterProtocol::kIpp;

	if (uri.starts_with("ipps:"))
	return PrinterProtocol::kIpps;

	if (uri.starts_with("http:"))
	return PrinterProtocol::kHttp;

	if (uri.starts_with("https:"))
	return PrinterProtocol::kHttps;

	if (uri.starts_with("socket:"))
	return PrinterProtocol::kSocket;

	if (uri.starts_with("lpd:"))
	return PrinterProtocol::kLpd;

	if (uri.starts_with("ippusb:"))
	return PrinterProtocol::kIppUsb;

	return PrinterProtocol::kUnknown;
	}

	bool Printer::HasNetworkProtocol() const {
	Printer::PrinterProtocol current_protocol = GetProtocol();
	switch (current_protocol) {
	case PrinterProtocol::kIpp:
	case PrinterProtocol::kIpps:
	case PrinterProtocol::kHttp:
	case PrinterProtocol::kHttps:
	case PrinterProtocol::kSocket:
	case PrinterProtocol::kLpd:
	return true;
	default:
	return false;
	}
	}

	std::string Printer::UriForCups() const {
	if (!effective_uri_.empty()) {
	return effective_uri_;
	} else {
	return uri_;
	}
	}

	base::Optional<UriComponents> Printer::GetUriComponents() const {
	return chromeos::ParseUri(uri_);
	}

	bool Printer::PpdReference::operator==(
	const Printer::PpdReference& other) const {
	return user_supplied_ppd_url == other.user_supplied_ppd_url &&
	effective_make_and_model == other.effective_make_and_model &&
	autoconf == other.autoconf;
	}

	} // namespace chromeos