Files
ppsspp/Core/HLE/sceParseUri.cpp

346 lines
11 KiB
C++

// Copyright (c) 2012- PPSSPP Project.
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, version 2.0 or later versions.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License 2.0 for more details.
// A copy of the GPL 2.0 should have been included with the program.
// If not, see http://www.gnu.org/licenses/
// Official git repository and contact information can be found at
// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
#include "Core/HLE/HLE.h"
#include "Core/HLE/sceParseUri.h"
#include "Core/HLE/FunctionWrappers.h"
#include "Core/Debugger/MemBlockInfo.h"
#include "Common/Net/URL.h"
#include "Common/StringUtils.h"
int workAreaAddString(u32 workAreaAddr, int workAreaSize, int offset, const char* s) {
const std::string str = (s? s:"");
int length = (int)str.length() + 1; // added space for null termination
if (offset + length > workAreaSize) {
length = workAreaSize - offset;
if (length <= 0) {
return offset;
}
}
Memory::MemcpyUnchecked(workAreaAddr + offset, str.c_str(), length);
return offset + length;
}
// FIXME: parsedUriArea, workArea can be 0/null? LittelBigPlanet seems to set workAreaSizeAddr to 0
static int sceUriParse(u32 parsedUriAreaAddr, const char* url, u32 workAreaAddr, u32 workAreaSizeAddr, int workAreaSize) {
WARN_LOG(Log::sceNet, "UNTESTED sceUriParse(%x, %s, %x, %x, %d) at %08x", parsedUriAreaAddr, safe_string(url), workAreaAddr, workAreaSizeAddr, workAreaSize, currentMIPS->pc);
if (url == nullptr)
return hleLogError(Log::sceNet, -1, "invalid arg");
auto workAreaSz = PSPPointer<u32>::Create(workAreaSizeAddr);
// Size returner
if (parsedUriAreaAddr == 0 || workAreaAddr == 0) {
// Based on JPCSP: The required workArea size is maximum the size of the URL + 7 times the null-byte for string termination.
int sz = (int)strlen(url) + 7;
if (workAreaSz.IsValid()) {
*workAreaSz = sz;
workAreaSz.NotifyWrite("UriParse");
}
return hleLogDebug(Log::sceNet, -1, "workAreaSize: %d, %d", sz, workAreaSize);
}
auto parsedUri = PSPPointer<PSPParsedUri>::Create(parsedUriAreaAddr);
// Parse the URL into URI components
// Full URI = scheme ":" ["//" [username [":" password] "@"] host [":" port]] path ["?" query] ["#" fragment]
Url uri(url);
// FIXME: URI without "://" should be valid too, due to PSPParsedUri.noSlash property
if (!uri.Valid()) {
return hleLogError(Log::sceNet, -1, "invalid arg");
}
// Parse Host() into userInfo (in the format "<userName>:<password>") and host
std::string host = uri.Host();
std::string userInfoUserName = "";
std::string userInfoPassword = "";
// Extract Host
size_t pos = host.find('@');
if (pos <= host.size()) {
userInfoUserName = host.substr(0, pos);
host.erase(0, pos + 1LL); // removing the "@"
}
// Extract UserName and Password
pos = userInfoUserName.find(':');
if (pos <= userInfoUserName.size()) {
userInfoPassword = userInfoUserName.substr(pos + 1LL); // removing the ":"
userInfoUserName.erase(pos);
}
// Parse Resource() into path(/), query(?), and fragment(#)
std::string path = uri.Resource();
std::string query = "";
std::string fragment = "";
// Extract Path
pos = path.find('?');
if (pos <= path.size()) {
query = path.substr(pos); // Not removing the leading "?". Query must have the leading "?" if it's not empty (according to JPCSP)
if (query.size() == 1)
query.clear();
path.erase(pos);
}
// Extract Query and Fragment
pos = query.find('#');
if (pos <= query.size()) {
fragment = query.substr(pos); // FIXME: Should we remove the leading "#" ? probably not, just like query
query.erase(pos);
}
// FIXME: Related to "scheme-specific-part" (ie. parts after the scheme + ":") ? 0 = start with "//"
pos = std::string(url).find("://");
if (parsedUri.IsValid())
parsedUri->noSlash = (pos != std::string::npos) ? 0 : 1;
// Store the URI components in sequence into workAreanand store the respective addresses into the parsedUri structure.
int offset = 0;
if (parsedUri.IsValid())
parsedUri->schemeAddr = workAreaAddr + offset;
offset = workAreaAddString(workAreaAddr, workAreaSize, offset, uri.Protocol().c_str()); // FiXME: scheme in lowercase, while protocol in uppercase?
if (parsedUri.IsValid())
parsedUri->userInfoUserNameAddr = workAreaAddr + offset;
offset = workAreaAddString(workAreaAddr, workAreaSize, offset, userInfoUserName.c_str());
if (parsedUri.IsValid())
parsedUri->userInfoPasswordAddr = workAreaAddr + offset;
offset = workAreaAddString(workAreaAddr, workAreaSize, offset, userInfoPassword.c_str());
if (parsedUri.IsValid())
parsedUri->hostAddr = workAreaAddr + offset;
offset = workAreaAddString(workAreaAddr, workAreaSize, offset, host.c_str());
if (parsedUri.IsValid())
parsedUri->pathAddr = workAreaAddr + offset;
offset = workAreaAddString(workAreaAddr, workAreaSize, offset, path.c_str());
if (parsedUri.IsValid())
parsedUri->queryAddr = workAreaAddr + offset;
offset = workAreaAddString(workAreaAddr, workAreaSize, offset, query.c_str());
if (parsedUri.IsValid())
parsedUri->fragmentAddr = workAreaAddr + offset;
offset = workAreaAddString(workAreaAddr, workAreaSize, offset, fragment.c_str());
if (parsedUri.IsValid()) {
parsedUri->port = uri.Port();
memset(parsedUri->unknown, 0, sizeof(parsedUri->unknown));
parsedUri.NotifyWrite("UriParse");
}
// Update the size
if (workAreaSz.IsValid()) {
*workAreaSz = offset;
workAreaSz.NotifyWrite("UriParse");
}
return 0;
}
static int sceUriBuild(u32 workAreaAddr, u32 workAreaSizeAddr, int workAreaSize, u32 parsedUriAddr, int flags) {
WARN_LOG(Log::sceNet, "UNTESTED sceUriBuild(%x, %x, %d, %x, %d) at %08x", workAreaAddr, workAreaSizeAddr, workAreaSize, parsedUriAddr, flags, currentMIPS->pc);
auto workAreaSz = PSPPointer<u32>::Create(workAreaSizeAddr);
if (parsedUriAddr == 0) {
return hleLogError(Log::sceNet, -1, "invalid parsedUriAddr");
}
auto parsedUri = PSPPointer<PSPParsedUri>::Create(parsedUriAddr);
if (!parsedUri.IsValid()) {
return hleLogError(Log::sceNet, -1, "invalid parsedUri structure");
}
auto getUriComponent = [](u32 addr, int flags, int flagMask) -> std::string {
if (addr == 0 || (flags & flagMask) == 0) return "";
const char* str = Memory::GetCharPointer(addr);
return str ? std::string(str) : "";
};
std::string scheme = getUriComponent(parsedUri->schemeAddr, flags, 0x1);
std::string userInfoUserName = getUriComponent(parsedUri->userInfoUserNameAddr, flags, 0x10);
std::string userInfoPassword = getUriComponent(parsedUri->userInfoPasswordAddr, flags, 0x20);
std::string host = getUriComponent(parsedUri->hostAddr, flags, 0x2);
std::string path = getUriComponent(parsedUri->pathAddr, flags, 0x8);
std::string query = getUriComponent(parsedUri->queryAddr, flags, 0x40);
std::string fragment = getUriComponent(parsedUri->fragmentAddr, flags, 0x80);
int port = (flags & 0x4) != 0 ? parsedUri->port : -1;
// Build the complete URI
std::string uri = "";
if (!scheme.empty()) {
std::string finalScheme = scheme;
if (finalScheme == "https") { // https is unsupported
finalScheme = "http";
}
uri += finalScheme + ":";
}
if (parsedUri->noSlash == 0) {
uri += "//";
}
if (!userInfoUserName.empty()) {
uri += userInfoUserName;
if (!userInfoPassword.empty()) {
uri += ":" + userInfoPassword;
}
uri += "@";
}
if (!host.empty()) {
uri += host;
}
if (port > 0) {
int defaultPort = -1;
if (parsedUri->schemeAddr != 0) {
const char* protocol = Memory::GetCharPointer(parsedUri->schemeAddr);
if (protocol) {
std::string protocolStr(protocol);
if (protocolStr == "http") defaultPort = 80;
//else if (protocolStr == "https") defaultPort = 443;
else if (protocolStr == "ftp") defaultPort = 21;
else if (protocolStr == "ssh") defaultPort = 22;
}
}
if (port != defaultPort) {
uri += ":" + std::to_string(port);
}
}
if (!path.empty()) {
uri += path;
}
if (!query.empty()) {
uri += query;
}
if (!fragment.empty()) {
uri += fragment;
}
int requiredSize = (int)uri.length() + 1;
if (workAreaSz.IsValid()) {
*workAreaSz = requiredSize;
workAreaSz.NotifyWrite("UriBuild");
}
if (workAreaAddr == 0) {
return hleLogDebug(Log::sceNet, 0, "size query, required size: %d", requiredSize);
}
if (requiredSize > workAreaSize) {
return hleLogError(Log::sceNet, -1, "work area too small: need %d, have %d", requiredSize, workAreaSize);
}
Memory::MemcpyUnchecked(workAreaAddr, uri.c_str(), requiredSize);
return hleLogDebug(Log::sceNet, 0, "built URI: %s", uri.c_str());
}
static int sceUriEscape(u32 escapedAddr, u32 escapedLengthAddr, int escapedBufferLength, const char* source) {
WARN_LOG(Log::sceNet, "UNTESTED sceUriEscape(%x, %x, %d, %s) at %08x", escapedAddr, escapedLengthAddr, escapedBufferLength, safe_string(source), currentMIPS->pc);
if (source == nullptr) {
return hleLogError(Log::sceNet, -1, "invalid source");
}
auto escapedLength = PSPPointer<u32>::Create(escapedLengthAddr);
// Helper function to check if a character needs to be escaped
auto needsEscaping = [](unsigned char c) -> bool {
// Characters that should NOT be escaped (unreserved characters in RFC 3986)
// ALPHA / DIGIT / "-" / "." / "_" / "~"
if ((c >= 'A' && c <= 'Z') ||
(c >= 'a' && c <= 'z') ||
(c >= '0' && c <= '9') ||
c == '-' || c == '.' || c == '_' || c == '~') {
return false;
}
// Everything else needs to be escaped
return true;
};
// Helper function to convert a hex digit to character
auto toHexChar = [](int digit) -> char {
if (digit < 10) return '0' + digit;
return 'A' + (digit - 10);
};
std::string sourceStr(source);
int requiredSize = 0;
for (unsigned char c : sourceStr) {
if (needsEscaping(c)) {
requiredSize += 3; // %XX format
} else {
requiredSize += 1; // unchanged character
}
}
requiredSize += 1; // null terminator
if (escapedLength.IsValid()) {
*escapedLength = requiredSize;
escapedLength.NotifyWrite("UriEscape");
}
if (escapedAddr == 0) {
return hleLogDebug(Log::sceNet, 0, "size query, required size: %d", requiredSize);
}
if (requiredSize > escapedBufferLength) {
return hleLogError(Log::sceNet, -1, "buffer too small: need %d, have %d", requiredSize, escapedBufferLength);
}
std::string escaped = "";
for (unsigned char c : sourceStr) {
if (needsEscaping(c)) {
// Escape as %XX
escaped += '%';
escaped += toHexChar((c >> 4) & 0xF);
escaped += toHexChar(c & 0xF);
} else {
// Keep unchanged
escaped += c;
}
}
Memory::MemcpyUnchecked(escapedAddr, escaped.c_str(), (u32)escaped.length() + 1);
return hleLogDebug(Log::sceNet, 0, "escaped '%s' to '%s'", source, escaped.c_str());
}
const HLEFunction sceParseUri[] =
{
{0X49E950EC, &WrapI_UUIC<sceUriEscape>, "sceUriEscape", 'i', "xxis"},
{0X062BB07E, nullptr, "sceUriUnescape", '?', ""},
{0X568518C9, &WrapI_UCUUI<sceUriParse>, "sceUriParse", 'i', "xsxxi" },
{0X7EE318AF, &WrapI_UUIUI<sceUriBuild>, "sceUriBuild", 'i', "xxxxi" },
};
void Register_sceParseUri()
{
RegisterHLEModule("sceParseUri", ARRAY_SIZE(sceParseUri), sceParseUri);
}