acadia/zion/syscall/ipc.cpp

#include "syscall/ipc.h"

#include "capability/capability.h"
#include "debug/debug.h"
#include "interrupt/interrupt.h"
#include "object/endpoint.h"
#include "object/reply_port.h"
#include "scheduler/scheduler.h"

namespace {

glcr::ArrayView<uint8_t> Buffer(const void* bytes, uint64_t num_bytes) {
  return glcr::ArrayView(reinterpret_cast<uint8_t*>(const_cast<void*>(bytes)),
                         num_bytes);
}

template <typename T>
glcr::ErrorCode TranslateIpcMessageToResponse(const IpcMessage& message,
                                              T* resp) {
  if (message.data.size() > *resp->num_bytes) {
    return glcr::BUFFER_SIZE;
  }
  if (message.caps.size() > *resp->num_caps) {
    return glcr::BUFFER_SIZE;
  }

  *resp->num_bytes = message.data.size();
  for (uint64_t i = 0; i < message.data.size(); i++) {
    reinterpret_cast<uint8_t*>(resp->data)[i] = message.data[i];
  }

  *resp->num_caps = message.caps.size();
  auto& proc = gScheduler->CurrentProcess();
  for (uint64_t i = 0; i < *resp->num_caps; i++) {
    resp->caps[i] = proc.AddExistingCapability(message.caps[i]);
  }
  return glcr::OK;
}

template <typename T>
glcr::ErrorCode TranslateIpcMessageToResponseWithReplyPort(
    const IpcMessage& message, T* resp) {
  TranslateIpcMessageToResponse(message, resp);

  if (!message.reply_cap) {
    dbgln("Tried to read reply capability off of a message without one");
    return glcr::INTERNAL;
  }
  auto& proc = gScheduler->CurrentProcess();
  *resp->reply_port_cap = proc.AddExistingCapability(message.reply_cap);
  return glcr::OK;
}

}  // namespace

glcr::ErrorCode ChannelCreate(ZChannelCreateReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto chan_pair = Channel::CreateChannelPair();
  *req->channel1 = proc.AddNewCapability(chan_pair.first());
  *req->channel2 = proc.AddNewCapability(chan_pair.second());
  return glcr::OK;
}

glcr::ErrorCode ChannelSend(ZChannelSendReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto chan_cap = proc.GetCapability(req->chan_cap);
  RET_ERR(ValidateCapability<Channel>(chan_cap, kZionPerm_Write));

  auto chan = chan_cap->obj<Channel>();
  return chan->Send(Buffer(req->data, req->num_bytes),
                    glcr::ArrayView<z_cap_t>(req->caps, req->num_caps));
}

glcr::ErrorCode ChannelRecv(ZChannelRecvReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto chan_cap = proc.GetCapability(req->chan_cap);
  RET_ERR(ValidateCapability<Channel>(chan_cap, kZionPerm_Read));

  auto chan = chan_cap->obj<Channel>();
  ASSIGN_OR_RETURN(IpcMessage msg, chan->Recv(*req->num_bytes, *req->num_caps));
  return TranslateIpcMessageToResponse(msg, req);
}

glcr::ErrorCode PortCreate(ZPortCreateReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto port = glcr::MakeRefCounted<Port>();
  *req->port_cap = proc.AddNewCapability(port);
  return glcr::OK;
}

glcr::ErrorCode PortSend(ZPortSendReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto port_cap = proc.GetCapability(req->port_cap);
  RET_ERR(ValidateCapability<Port>(port_cap, kZionPerm_Write));

  auto port = port_cap->obj<Port>();
  return port->Send(Buffer(req->data, req->num_bytes),
                    glcr::ArrayView<z_cap_t>(req->caps, req->num_caps));
}

glcr::ErrorCode PortRecv(ZPortRecvReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto port_cap = proc.GetCapability(req->port_cap);
  RET_ERR(ValidateCapability<Port>(port_cap, kZionPerm_Read));

  auto port = port_cap->obj<Port>();
  ASSIGN_OR_RETURN(IpcMessage msg, port->Recv(*req->num_bytes, *req->num_caps));
  return TranslateIpcMessageToResponse(msg, req);
}

glcr::ErrorCode PortPoll(ZPortPollReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto port_cap = proc.GetCapability(req->port_cap);
  RET_ERR(ValidateCapability<Port>(port_cap, kZionPerm_Read));

  auto port = port_cap->obj<Port>();
  // FIXME: Race condition here where this call could block if the last message
  // is removed between this check and the port read.
  if (!port->HasMessages()) {
    return glcr::EMPTY;
  }
  ASSIGN_OR_RETURN(IpcMessage msg, port->Recv(*req->num_bytes, *req->num_caps));
  return TranslateIpcMessageToResponse(msg, req);
}

glcr::ErrorCode IrqRegister(ZIrqRegisterReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  if (req->irq_num != Z_IRQ_PCI_BASE) {
    // FIXME: Don't hardcode this nonsense.
    return glcr::UNIMPLEMENTED;
  }
  glcr::RefPtr<Port> port = glcr::MakeRefCounted<Port>();
  *req->port_cap = proc.AddNewCapability(port);
  RegisterPciPort(port);
  return glcr::OK;
}

glcr::ErrorCode EndpointCreate(ZEndpointCreateReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  *req->endpoint_cap = proc.AddNewCapability(Endpoint::Create());
  return glcr::OK;
}

glcr::ErrorCode EndpointSend(ZEndpointSendReq* req) {
  auto& proc = gScheduler->CurrentProcess();

  auto endpoint_cap = proc.GetCapability(req->endpoint_cap);
  ValidateCapability<Endpoint>(endpoint_cap, kZionPerm_Write);
  auto endpoint = endpoint_cap->obj<Endpoint>();

  auto reply_port = ReplyPort::Create();
  *req->reply_port_cap = proc.AddNewCapability(reply_port, kZionPerm_Read);
  uint64_t reply_port_cap_to_send =
      proc.AddNewCapability(reply_port, kZionPerm_Write | kZionPerm_Transmit);
  return endpoint->Send(
      Buffer(req->data, req->num_bytes),
      glcr::ArrayView<z_cap_t>(const_cast<z_cap_t*>(req->caps), req->num_caps),
      reply_port_cap_to_send);
}

glcr::ErrorCode EndpointRecv(ZEndpointRecvReq* req) {
  auto& proc = gScheduler->CurrentProcess();

  auto endpoint_cap = proc.GetCapability(req->endpoint_cap);
  ValidateCapability<Endpoint>(endpoint_cap, kZionPerm_Read);
  auto endpoint = endpoint_cap->obj<Endpoint>();

  ASSIGN_OR_RETURN(IpcMessage msg,
                   endpoint->Recv(*req->num_bytes, *req->num_caps));
  return TranslateIpcMessageToResponseWithReplyPort(msg, req);
}

glcr::ErrorCode ReplyPortSend(ZReplyPortSendReq* req) {
  auto& proc = gScheduler->CurrentProcess();
  auto reply_port_cap = proc.GetCapability(req->reply_port_cap);
  ValidateCapability<ReplyPort>(reply_port_cap, kZionPerm_Read);
  auto reply_port = reply_port_cap->obj<ReplyPort>();

  return reply_port->Send(Buffer(req->data, req->num_bytes),
                          glcr::ArrayView<z_cap_t>(req->caps, req->num_caps));
}
glcr::ErrorCode ReplyPortRecv(ZReplyPortRecvReq* req) {
  auto& proc = gScheduler->CurrentProcess();

  auto reply_port_cap = proc.GetCapability(req->reply_port_cap);
  ValidateCapability<ReplyPort>(reply_port_cap, kZionPerm_Read);
  auto reply_port = reply_port_cap->obj<ReplyPort>();

  ASSIGN_OR_RETURN(IpcMessage msg,
                   reply_port->Recv(*req->num_bytes, *req->num_caps));
  return TranslateIpcMessageToResponse(msg, req);
}
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`#include "syscall/ipc.h"`

			`#include "capability/capability.h"`
[Zion] Return the IpcMessage up to the syscall level. 2023-11-03 00:12:28 -07:00			`#include "debug/debug.h"`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`#include "interrupt/interrupt.h"`
			`#include "object/endpoint.h"`
			`#include "object/reply_port.h"`
			`#include "scheduler/scheduler.h"`

[Zion] Use the glacier ArrayView class for sending IPC msgs. 2023-11-02 23:31:08 -07:00			`namespace {`

			`glcr::ArrayView<uint8_t> Buffer(const void* bytes, uint64_t num_bytes) {`
			`return glcr::ArrayView(reinterpret_cast<uint8_t>(const_cast<void>(bytes)),`
			`num_bytes);`
			`}`
[Zion] Return the IpcMessage up to the syscall level. 2023-11-03 00:12:28 -07:00
			`template <typename T>`
			`glcr::ErrorCode TranslateIpcMessageToResponse(const IpcMessage& message,`
			`T* resp) {`
			`if (message.data.size() > *resp->num_bytes) {`
			`return glcr::BUFFER_SIZE;`
			`}`
			`if (message.caps.size() > *resp->num_caps) {`
			`return glcr::BUFFER_SIZE;`
			`}`

			`*resp->num_bytes = message.data.size();`
			`for (uint64_t i = 0; i < message.data.size(); i++) {`
			`reinterpret_cast<uint8_t*>(resp->data)[i] = message.data[i];`
			`}`

			`*resp->num_caps = message.caps.size();`
			`auto& proc = gScheduler->CurrentProcess();`
			`for (uint64_t i = 0; i < *resp->num_caps; i++) {`
			`resp->caps[i] = proc.AddExistingCapability(message.caps[i]);`
			`}`
			`return glcr::OK;`
			`}`

			`template <typename T>`
			`glcr::ErrorCode TranslateIpcMessageToResponseWithReplyPort(`
			`const IpcMessage& message, T* resp) {`
			`TranslateIpcMessageToResponse(message, resp);`

			`if (!message.reply_cap) {`
			`dbgln("Tried to read reply capability off of a message without one");`
			`return glcr::INTERNAL;`
			`}`
			`auto& proc = gScheduler->CurrentProcess();`
			`*resp->reply_port_cap = proc.AddExistingCapability(message.reply_cap);`
			`return glcr::OK;`
			`}`

[Zion] Use the glacier ArrayView class for sending IPC msgs. 2023-11-02 23:31:08 -07:00			`} // namespace`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode ChannelCreate(ZChannelCreateReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`auto chan_pair = Channel::CreateChannelPair();`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`*req->channel1 = proc.AddNewCapability(chan_pair.first());`
			`*req->channel2 = proc.AddNewCapability(chan_pair.second());`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`return glcr::OK;`
			`}`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode ChannelSend(ZChannelSendReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`auto chan_cap = proc.GetCapability(req->chan_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`RET_ERR(ValidateCapability<Channel>(chan_cap, kZionPerm_Write));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00
			`auto chan = chan_cap->obj<Channel>();`
[Zion] Use the glacier ArrayView class for sending IPC msgs. 2023-11-02 23:31:08 -07:00			`return chan->Send(Buffer(req->data, req->num_bytes),`
			`glcr::ArrayView<z_cap_t>(req->caps, req->num_caps));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode ChannelRecv(ZChannelRecvReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`auto chan_cap = proc.GetCapability(req->chan_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`RET_ERR(ValidateCapability<Channel>(chan_cap, kZionPerm_Read));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00
			`auto chan = chan_cap->obj<Channel>();`
[Zion] Return the IpcMessage up to the syscall level. 2023-11-03 00:12:28 -07:00			`ASSIGN_OR_RETURN(IpcMessage msg, chan->Recv(req->num_bytes, req->num_caps));`
			`return TranslateIpcMessageToResponse(msg, req);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode PortCreate(ZPortCreateReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`auto port = glcr::MakeRefCounted<Port>();`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`*req->port_cap = proc.AddNewCapability(port);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`return glcr::OK;`
			`}`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode PortSend(ZPortSendReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`auto port_cap = proc.GetCapability(req->port_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`RET_ERR(ValidateCapability<Port>(port_cap, kZionPerm_Write));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00
			`auto port = port_cap->obj<Port>();`
[Zion] Use the glacier ArrayView class for sending IPC msgs. 2023-11-02 23:31:08 -07:00			`return port->Send(Buffer(req->data, req->num_bytes),`
			`glcr::ArrayView<z_cap_t>(req->caps, req->num_caps));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode PortRecv(ZPortRecvReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`auto port_cap = proc.GetCapability(req->port_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`RET_ERR(ValidateCapability<Port>(port_cap, kZionPerm_Read));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00
			`auto port = port_cap->obj<Port>();`
[Zion] Return the IpcMessage up to the syscall level. 2023-11-03 00:12:28 -07:00			`ASSIGN_OR_RETURN(IpcMessage msg, port->Recv(req->num_bytes, req->num_caps));`
			`return TranslateIpcMessageToResponse(msg, req);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode PortPoll(ZPortPollReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`auto port_cap = proc.GetCapability(req->port_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`RET_ERR(ValidateCapability<Port>(port_cap, kZionPerm_Read));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00
			`auto port = port_cap->obj<Port>();`
			`// FIXME: Race condition here where this call could block if the last message`
			`// is removed between this check and the port read.`
			`if (!port->HasMessages()) {`
			`return glcr::EMPTY;`
			`}`
[Zion] Return the IpcMessage up to the syscall level. 2023-11-03 00:12:28 -07:00			`ASSIGN_OR_RETURN(IpcMessage msg, port->Recv(req->num_bytes, req->num_caps));`
			`return TranslateIpcMessageToResponse(msg, req);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`

[Glacier] Convert ErrorCode into an Enum. 2023-11-02 21:55:12 -07:00			`glcr::ErrorCode IrqRegister(ZIrqRegisterReq* req) {`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto& proc = gScheduler->CurrentProcess();`
			`if (req->irq_num != Z_IRQ_PCI_BASE) {`
			`// FIXME: Don't hardcode this nonsense.`
			`return glcr::UNIMPLEMENTED;`
			`}`
			`glcr::RefPtr<Port> port = glcr::MakeRefCounted<Port>();`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`*req->port_cap = proc.AddNewCapability(port);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`RegisterPciPort(port);`
			`return glcr::OK;`
			`}`

			`glcr::ErrorCode EndpointCreate(ZEndpointCreateReq* req) {`
			`auto& proc = gScheduler->CurrentProcess();`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`*req->endpoint_cap = proc.AddNewCapability(Endpoint::Create());`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`return glcr::OK;`
			`}`

			`glcr::ErrorCode EndpointSend(ZEndpointSendReq* req) {`
			`auto& proc = gScheduler->CurrentProcess();`

			`auto endpoint_cap = proc.GetCapability(req->endpoint_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`ValidateCapability<Endpoint>(endpoint_cap, kZionPerm_Write);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto endpoint = endpoint_cap->obj<Endpoint>();`

			`auto reply_port = ReplyPort::Create();`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`*req->reply_port_cap = proc.AddNewCapability(reply_port, kZionPerm_Read);`
			`uint64_t reply_port_cap_to_send =`
[zion] Enforce cap transmit permissions in more places. 2023-08-01 18:43:48 -07:00			`proc.AddNewCapability(reply_port, kZionPerm_Write \| kZionPerm_Transmit);`
[Zion] Use the glacier ArrayView class for sending IPC msgs. 2023-11-02 23:31:08 -07:00			`return endpoint->Send(`
			`Buffer(req->data, req->num_bytes),`
			`glcr::ArrayView<z_cap_t>(const_cast<z_cap_t*>(req->caps), req->num_caps),`
			`reply_port_cap_to_send);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`

			`glcr::ErrorCode EndpointRecv(ZEndpointRecvReq* req) {`
			`auto& proc = gScheduler->CurrentProcess();`

			`auto endpoint_cap = proc.GetCapability(req->endpoint_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`ValidateCapability<Endpoint>(endpoint_cap, kZionPerm_Read);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto endpoint = endpoint_cap->obj<Endpoint>();`

[Zion] Return the IpcMessage up to the syscall level. 2023-11-03 00:12:28 -07:00			`ASSIGN_OR_RETURN(IpcMessage msg,`
			`endpoint->Recv(req->num_bytes, req->num_caps));`
			`return TranslateIpcMessageToResponseWithReplyPort(msg, req);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`

			`glcr::ErrorCode ReplyPortSend(ZReplyPortSendReq* req) {`
			`auto& proc = gScheduler->CurrentProcess();`
			`auto reply_port_cap = proc.GetCapability(req->reply_port_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`ValidateCapability<ReplyPort>(reply_port_cap, kZionPerm_Read);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto reply_port = reply_port_cap->obj<ReplyPort>();`

[Zion] Use the glacier ArrayView class for sending IPC msgs. 2023-11-02 23:31:08 -07:00			`return reply_port->Send(Buffer(req->data, req->num_bytes),`
			`glcr::ArrayView<z_cap_t>(req->caps, req->num_caps));`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`
			`glcr::ErrorCode ReplyPortRecv(ZReplyPortRecvReq* req) {`
			`auto& proc = gScheduler->CurrentProcess();`

			`auto reply_port_cap = proc.GetCapability(req->reply_port_cap);`
[zion] Move to default permissions being supplied by KernelObjects 2023-08-01 18:22:41 -07:00			`ValidateCapability<ReplyPort>(reply_port_cap, kZionPerm_Read);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`auto reply_port = reply_port_cap->obj<ReplyPort>();`

[Zion] Return the IpcMessage up to the syscall level. 2023-11-03 00:12:28 -07:00			`ASSIGN_OR_RETURN(IpcMessage msg,`
			`reply_port->Recv(req->num_bytes, req->num_caps));`
			`return TranslateIpcMessageToResponse(msg, req);`
[zion] Move ipc syscalls to one file to prep refactor 2023-06-21 23:20:56 -07:00			`}`